{"id":20945,"date":"2024-09-02T17:03:58","date_gmt":"2024-09-02T15:03:58","guid":{"rendered":"https:\/\/www.lites.tf.fau.de\/?page_id=20945"},"modified":"2026-01-22T13:39:43","modified_gmt":"2026-01-22T12:39:43","slug":"projects","status":"publish","type":"page","link":"https:\/\/www.lites.tf.fau.de\/en\/research\/projects\/","title":{"rendered":"Projects"},"content":{"rendered":"\n<h2 class=\"wp-block-heading\">Current public funded projects<\/h2>\n\n\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-6\">\n<div class=\"button-container-right\"><button class=\"expand-all standard-btn primary-btn xsmall-btn\" data-status=\"closed\">Expand All<\/button><\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_1\" aria-expanded=\"true\" aria-controls=\"collapse_1\" id=\"collapse_button_1\"> 2026 <\/button><\/h2>\n<div id=\"collapse_1\" class=\"accordion-body open\" aria-labelledby=\"collapse_button_1\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-0\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_0\" aria-expanded=\"false\" aria-controls=\"collapse_0\" id=\"collapse_button_0\"> Open6GHub+: Sicherheit und Vertrauensw&uuml;rdigkeit von 6G-Netzen, -Diensten und &ndash;Anwendungen und Implementierungsstrategien f&uuml;r 6G-Smart-Radio-Modem &bdquo;Made in Europe&ldquo; <\/button><\/h2>\n<div id=\"collapse_0\" class=\"accordion-body\" aria-labelledby=\"collapse_button_0\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2026 - 30. June 2028<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/353775764?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_4\" aria-expanded=\"false\" aria-controls=\"collapse_4\" id=\"collapse_button_4\"> 2025 <\/button><\/h2>\n<div id=\"collapse_4\" class=\"accordion-body\" aria-labelledby=\"collapse_button_4\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-1\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_2\" aria-expanded=\"false\" aria-controls=\"collapse_2\" id=\"collapse_button_2\"> RESMEDTEC: Anomalieerkennung in 5G Campusnetze f&uuml;r resiliente medizinische Anwendungen <\/button><\/h2>\n<div id=\"collapse_2\" class=\"accordion-body\" aria-labelledby=\"collapse_button_2\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. December 2025 - 30. November 2028<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Das Teilvorhaben der FAU Erlangen-N\u00fcrnberg, Lehrstuhl LITES, im Verbundprojekt RESMEDTEC befasst sich mit der Steigerung der Resilienz und Vertrauensw\u00fcrdigkeit von 5G\/6G-Mobilfunksystemen f\u00fcr den medizinischen Anwendungsbereich. Ziel ist es, die Versorgungssicherheit kritischer Infrastrukturen im Gesundheitswesen auch bei Ausf\u00e4llen oder Angriffen aufrechtzuerhalten.<\/p>\n<p>Im Kern entwickelt und erprobt die FAU Verfahren zur Anomalie- und Angriffserkennung, die sowohl auf der physischen \u00dcbertragungsschicht als &hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/360188213?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_3\" aria-expanded=\"false\" aria-controls=\"collapse_3\" id=\"collapse_button_3\"> BCDC AP1.12: Bayrisches Chip Design Center: AP 1.12 Predictive ADC <\/button><\/h2>\n<div id=\"collapse_3\" class=\"accordion-body\" aria-labelledby=\"collapse_button_3\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2025 - 31. December 2028<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander Spielberger<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>In AP 1.12 wird ein Predictive ADC entwickelt,welcher selbst neuronale Netze nutzt, um die AD-Umsetzung auf Basis von vorhergehendenWerten vorherzusagen. Mit diesem Konzept k\u00f6nnen AD-Wandlungen fr\u00fchzeitig beendetoder teilweise ersetzt werden, was zu einem verminderten Leistungsverbrauchf\u00fchren kann. Solch ein Predictive ADC kann als Frontend f\u00fcr KI-Beschleuniger,aber auch f\u00fcr Standardanwendungen, genutzt werden. Wird ein Predictive ADC miteinem KI-Beschleuniger kombiniert, ergibt sich weit&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/359898478?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_11\" aria-expanded=\"false\" aria-controls=\"collapse_11\" id=\"collapse_button_11\"> 2024 <\/button><\/h2>\n<div id=\"collapse_11\" class=\"accordion-body\" aria-labelledby=\"collapse_button_11\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-2\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_5\" aria-expanded=\"false\" aria-controls=\"collapse_5\" id=\"collapse_button_5\"> GRK 2950 P4: Forces, Limitations, and Concepts for SPION Steering <\/button><\/h2>\n<div id=\"collapse_5\" class=\"accordion-body\" aria-labelledby=\"collapse_button_5\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2024 - 31. May 2029<br \/><strong>Funding source: <\/strong>DFG \/ Graduiertenkolleg (GRK)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The vision is to use tiny Magnetic particles as carriers for anti cancer drugs. By magnetic fields we can steer these particles and guide them through the human vessel system towards a carcinoma. By that we want to contribute to the development of a new cancer therapy, with less unwanted side effects.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/351004206?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_6\" aria-expanded=\"false\" aria-controls=\"collapse_6\" id=\"collapse_button_6\"> GRK 2950 P5: Lumped-Parameter Models for and Optimization of SPION Steering in Highly Branched Vascular and Tissue Structures <\/button><\/h2>\n<div id=\"collapse_6\" class=\"accordion-body\" aria-labelledby=\"collapse_button_6\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2024 - 31. May 2029<br \/><strong>Funding source: <\/strong>DFG \/ Graduiertenkolleg (GRK)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The goal of this project is to establish MC-based models and algorithms for optimization of SPION steering systems in highly branched vascular and tissue structures. To this end, a comprehensive numerical model for the MC channel relevant for SPION steering will be derived. Furthermore, in order to enable efficient optimization of the SPION steering system at affordable computational cost, a lumped-parameter approach will be used to develop approximate models. Based on these approximate models,&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/351286506?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_7\" aria-expanded=\"false\" aria-controls=\"collapse_7\" id=\"collapse_button_7\"> EPIC-COM: Electronic-Photonic Integrated Circuits for Wireless THz Communication <\/button><\/h2>\n<div id=\"collapse_7\" class=\"accordion-body\" aria-labelledby=\"collapse_button_7\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>15. February 2024 - 14. February 2027<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Sascha Breun<\/span>, <span class=\"author\" itemprop=\"author\">Manuel Koch<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>This project targets research on a scalable THz communication system with a large number of elements towards a massive phased-array approach. Such a solution poses a variety of different challenges that need to be investigated and overcome. Some of these are:<\/p>\n<p>1. Design of sufficiently broadband phased-array components to utilize the available large bandwidth around 300 GHz<\/p>\n<p>2. Flexible and low loss broadband baseband signal distribution for many channels<\/p>\n<p>3. Power-efficient generation&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/308822692?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_8\" aria-expanded=\"false\" aria-controls=\"collapse_8\" id=\"collapse_button_8\"> EMSIC: Klassifikation des elektromagnetischen Spektrums mit methoden des maschinellen Lernens <\/button><\/h2>\n<div id=\"collapse_8\" class=\"accordion-body\" aria-labelledby=\"collapse_button_8\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2024 - 31. March 2027<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Zur Sicherstellung der regelkonformenNutzung des elektromagnetischen Funkspektrums sowie zur Gefahrenabwehr m\u00fcssenNetzbetreiber und Organisationen mit Sicherheitsaufgaben das Spektrum\u00fcberwachen. Hierbei m\u00fcssen Funkteilnehmer zuverl\u00e4ssig detektiert undklassifiziert werden.<\/p>\n<p>Durch die stetige Zunahme derErfassungsbandbreite moderner Funkempf\u00e4nger steigt die Menge an zuverarbeitenden Daten rasant an, w\u00e4hrend die bestehende Algorithmik nicht mitder Datenmenge und der zunehmenden Vielf&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/328211671?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_9\" aria-expanded=\"false\" aria-controls=\"collapse_9\" id=\"collapse_button_9\"> DI-PASSIONATE: Open-Source-Entwurfs- und Simulationsumgebung f&uuml;r hochintegrierte 2.5D\/3D-Chipsysteme <\/button><\/h2>\n<div id=\"collapse_9\" class=\"accordion-body\" aria-labelledby=\"collapse_button_9\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. May 2024 - 30. April 2027<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">J\u00f6rg Franke<\/span>, <span class=\"author\" itemprop=\"author\">Dietmar Fey<\/span>, <span class=\"author\" itemprop=\"author\">Sascha Breun<\/span>, <span class=\"author\" itemprop=\"author\">Manuel Koch<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Miniaturized mechatronic and autonomous systems, such\nas automotive control units, electronic medical devices or wearables, integrate\na large number of different functional submodules and require increasing\nnetworking, a compact form factor and decentralized signal processing, e.g.\nthrough artificial intelligence. This requires the co-integration of many\nmonolithic integrated circuits in a highly complex package, taking into account\nthermal, electromagnetic and geometric boundary conditions, as well as global\noptimization of partitioning at the functional level.<\/p>\n<p>The aim of the \u201cPASSIONATE\u201d research\nproject is therefore to develop a free 3D design environment for packages and\nsystems-in-package. The project thus complements other projects for the\ndevelopment of open-source tools for the design of integrated circuits by\nadding an environment for modeling spatial geometries and methods for\nsimulating multiphysical, in particular thermal and electromagnetic properties.\nThis closes a significant gap between open-source tools at chip level and\nopen-source PCB software in order to cover the entire value chain with free\ntools.\u00a0The basis of the new 3D\ndesign and simulation environment is a spatially oriented computer-aided design\n(3D-MCAD) system, which is extended by interfaces to the upstream chip design\ntoolchain (system, logic and circuit development) and the import of geometries.\nAmong other things, this enables feature-based, parametric modeling of various\nassembly and connection technologies.<\/p>\n<\/p>\n<p>The quality of the designed tool and the\nsimulation techniques is validated by comparison with commercial software and\nfinally by the realization of two physical demonstrators with a focus on\nhigh-frequency technology and digital system design.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/331236541?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_10\" aria-expanded=\"false\" aria-controls=\"collapse_10\" id=\"collapse_button_10\"> SyMoCADS: Synthetic Molecular Communications Across Different Scales: From Theory to Experiments <\/button><\/h2>\n<div id=\"collapse_10\" class=\"accordion-body\" aria-labelledby=\"collapse_button_10\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2024 - 31. May 2029<br \/><strong>Funding source: <\/strong>DFG \/ Graduiertenkolleg (GRK)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Schober<\/span>, <span class=\"author\" itemprop=\"author\">Kathrin Castiglione<\/span>, <span class=\"author\" itemprop=\"author\">Andrea B\u00fcttner<\/span>, <span class=\"author\" itemprop=\"author\">Dietmar Drummer<\/span>, <span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Heinrich Sticht<\/span>, <span class=\"author\" itemprop=\"author\">Christoph Alexiou<\/span>, <span class=\"author\" itemprop=\"author\">Helene Loos<\/span>, <span class=\"author\" itemprop=\"author\">Vahid Jamali Kooshkghazi<\/span>, <span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>A new \nresearch training group at FAU is being funded by the German Research \nFoundation. The research training group entitled \u201eSynthetic Molecular \nCommunications Across Different Scales: From Theory to Experiments\u201c, or \nSyMoCADS for short, is led by Prof. Robert Schober (as spokesperson) and\n Prof. Kathrin Castiglione (Chair of Bioprocess Engineering) as \nco-spokesperson.<\/p>\n<p>This \nstructured training program addresses the highly interdisciplinary field\n of molecular communication. Molecules are used as information carriers \nto communicate with objects, cells or organisms in environments that are\n not suitable for traditional communication systems based on \nelectromagnetic waves. Three different work clusters involving \nresearchers from the Departments of Electrical Engineering, Chemical and\n Bioengineering, Mechanical Engineering, Chemistry and Pharmacy and \nBiochemistry as well as the University Hospital are investigating the \nsensing and control of bioprocesses on a microliter scale, the control \nof magnetic nanoparticles in blood vessels and molecular communication \nvia volatile odorous objects.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/316859967?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_13\" aria-expanded=\"false\" aria-controls=\"collapse_13\" id=\"collapse_button_13\"> 2023 <\/button><\/h2>\n<div id=\"collapse_13\" class=\"accordion-body\" aria-labelledby=\"collapse_button_13\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-3\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_12\" aria-expanded=\"false\" aria-controls=\"collapse_12\" id=\"collapse_button_12\"> DyNano: Dynamik und Steuerung superparamagnetischer Nanopartikel in einfachen und verzweigten Gef&auml;&szlig;en: Simulation &amp; Experiment (DyNano) <\/button><\/h2>\n<div id=\"collapse_12\" class=\"accordion-body\" aria-labelledby=\"collapse_button_12\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2023 - 30. September 2026<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Eberhard B\u00e4nsch<\/span>, <span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span>, <span class=\"author\" itemprop=\"author\">Stefan Lyer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Magnetic Drug Targeting unter Einsatz von superparamagnetischen Eisenoxid-Nanopartikeln (SPIONs) ist eine wirksame Methode, um in der Krebstherapie die Wirkstoffapplikation im Tumorgewebe zu steigern, bei gleichzeitiger Reduktion der Gesamtwirkstoffmenge und der mit der Therapie einhergehenden Nebenwirkungen. W\u00e4hrend die Wirksamkeit des Ansatzes bereits in Studien nachgewiesen werden konnte, fehlen allerdings bislang Ans\u00e4tze, um diese Methode an den jeweiligen Behandlungsfall anzupassen und z&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/309767721?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_15\" aria-expanded=\"false\" aria-controls=\"collapse_15\" id=\"collapse_button_15\"> 2022 <\/button><\/h2>\n<div id=\"collapse_15\" class=\"accordion-body\" aria-labelledby=\"collapse_button_15\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-4\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_14\" aria-expanded=\"false\" aria-controls=\"collapse_14\" id=\"collapse_button_14\"> MUNIQC-SC: MQV Superconducting Qubits Quantum Computer Demonstrators <\/button><\/h2>\n<div id=\"collapse_14\" class=\"accordion-body\" aria-labelledby=\"collapse_button_14\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2022 - 31. December 2026<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Roland Nagy<\/span>, <span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span>, <span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Motivation<\/p>\n<p>Today, quantum computers are considered to be the computing machines of the future. They use so-called qubits instead of the conventional bits of classical computer technology. The special properties of these qubits allow the quantum computer to assume all states that can be represented with the qubits simultaneously, while conventional computers can only work with one of the combinations that can be represented by the available bits per computing step. Quantum computers can thus&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/272753816?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_17\" aria-expanded=\"false\" aria-controls=\"collapse_17\" id=\"collapse_button_17\"> 2021 <\/button><\/h2>\n<div id=\"collapse_17\" class=\"accordion-body\" aria-labelledby=\"collapse_button_17\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-5\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_16\" aria-expanded=\"false\" aria-controls=\"collapse_16\" id=\"collapse_button_16\"> MQV: Munich Quantum Valley <\/button><\/h2>\n<div id=\"collapse_16\" class=\"accordion-body\" aria-labelledby=\"collapse_button_16\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2021 - 30. September 2026<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wissenschaft und Kunst (StMWK) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Florian Marquardt<\/span>, <span class=\"author\" itemprop=\"author\">Michael Hartmann<\/span>, <span class=\"author\" itemprop=\"author\">Kai Phillip Schmidt<\/span>, <span class=\"author\" itemprop=\"author\">Martin Eckstein<\/span>, <span class=\"author\" itemprop=\"author\">Roland Nagy<\/span>, <span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span>, <span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Quantum information processing (QIP), and generally the useof quantum technologies (QT) for communication, sensing, metrology andcomputational purposes, has become a key technology during the last decade forthe advancement of science and technology. The capability to prepare andmanipulate quantum states and to generate superpositions and entanglement ondemand has led to the development of measurement and computational procedures,which promise to perform well beyond classical tools. During the&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/266459996?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n\n<p class=\"wp-block-paragraph\">&nbsp;<\/p>\n\n\n\n<p class=\"wp-block-paragraph\">&nbsp;<\/p>\n\n\n\n<h2 class=\"wp-block-heading\">Already finished projects<\/h2>\n\n\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-21\">\n<div class=\"button-container-right\"><button class=\"expand-all standard-btn primary-btn xsmall-btn\" data-status=\"closed\">Expand All<\/button><\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_19\" aria-expanded=\"true\" aria-controls=\"collapse_19\" id=\"collapse_button_19\"> 2024 <\/button><\/h2>\n<div id=\"collapse_19\" class=\"accordion-body open\" aria-labelledby=\"collapse_button_19\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-7\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_18\" aria-expanded=\"false\" aria-controls=\"collapse_18\" id=\"collapse_button_18\"> AKICO: DATIPilot - Sprint - AKICO: Automatisierungsgrade KI-getriebener Compliance; TP A <\/button><\/h2>\n<div id=\"collapse_18\" class=\"accordion-body\" aria-labelledby=\"collapse_button_18\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. August 2024 - 31. January 2026<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Eva Russwurm<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/330513462?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_22\" aria-expanded=\"false\" aria-controls=\"collapse_22\" id=\"collapse_button_22\"> 2023 <\/button><\/h2>\n<div id=\"collapse_22\" class=\"accordion-body\" aria-labelledby=\"collapse_button_22\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-8\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_20\" aria-expanded=\"false\" aria-controls=\"collapse_20\" id=\"collapse_button_20\"> QuMeCo: Quantum Measurement and Control for the enablement of quantum computing and quantum sensing <\/button><\/h2>\n<div id=\"collapse_20\" class=\"accordion-body\" aria-labelledby=\"collapse_button_20\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2023 - 31. December 2025<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wissenschaft und Kunst (StMWK) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Kai Phillip Schmidt<\/span>, <span class=\"author\" itemprop=\"author\">Maria Chekhova<\/span>, <span class=\"author\" itemprop=\"author\">Stephan G\u00f6tzinger<\/span>, <span class=\"author\" itemprop=\"author\">Roland Nagy<\/span>, <span class=\"author\" itemprop=\"author\">Michael Hartmann<\/span>, <span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Heiko B. Weber<\/span>, <span class=\"author\" itemprop=\"author\">Joachim von Zanthier<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/284299519?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_21\" aria-expanded=\"false\" aria-controls=\"collapse_21\" id=\"collapse_button_21\"> 5GOpportunity: Softwarebasierte 5G Ad-hoc Netzwerke mit opportunistischer Frequenznutzung <\/button><\/h2>\n<div id=\"collapse_21\" class=\"accordion-body\" aria-labelledby=\"collapse_button_21\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. February 2023 - 30. June 2025<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Verkehr (BMV), Bundesministerium f\u00fcr Wirtschaft und Klimaschutz (BMWK)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Bastian Perner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/360347206?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_35\" aria-expanded=\"false\" aria-controls=\"collapse_35\" id=\"collapse_button_35\"> 2022 <\/button><\/h2>\n<div id=\"collapse_35\" class=\"accordion-body\" aria-labelledby=\"collapse_button_35\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-9\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_23\" aria-expanded=\"false\" aria-controls=\"collapse_23\" id=\"collapse_button_23\"> 6G-ICAS4Mobility: 6G Sidelink with Integrated Radio Sensing &ndash; Aspects on Quality of Sensing and Security - 6G-ICAS4Mobiliy SIDE QSENS <\/button><\/h2>\n<div id=\"collapse_23\" class=\"accordion-body\" aria-labelledby=\"collapse_button_23\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2022 - 30. September 2025<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">Das Ziel von 6G-ICAS4Mobility besteht darin, im Zuge der Entwicklungen hin zu 6G bislang getrennte Kommunikations- und Sensierungsfunktionalit\u00e4ten (insb. Radar) enger miteinander zu koppeln und zu integrieren. Der Fokus liegt dabei auf mobilen Anwendungen im Kontext Automotive und Flugdrohnen, sowie auf der Endger\u00e4teseite mit einer direkten Kommunikation (\u201eSidelink\u201c) zwischen den beteiligten Ger\u00e4ten. Dabei werden verschiedene Integrationsstufen betrachtet und evaluiert, was von einer Nutzung der Ko&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/288980385?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_24\" aria-expanded=\"false\" aria-controls=\"collapse_24\" id=\"collapse_button_24\"> 6G-ANNA: Context-aware Collaborative 6G IIoT Networking for Autonomous Systems (CoaCoNAS) <\/button><\/h2>\n<div id=\"collapse_24\" class=\"accordion-body\" aria-labelledby=\"collapse_button_24\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2022 - 30. June 2025<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>6G-ANNA (6G-Access, Network of Networks, Automation & Simplification) hat den Anspruch, einen ganzheitlichen Systemansatz f\u00fcr 6G Mobilfunksysteme zu liefern. Ein breit aufgestelltes Konsortium von Industrieunter-nehmen sowohl aus der Kommunikationsindustrie als auch von Unternehmen auf der Anwendungsseite (inkl. KMUs und Startups) und ausgewiesenen akademischen Experten hat sich zusammengefunden, um im Einklang mit der Hightech-Strategie 2025 der Bundesrepublik Deutschland eine Vorreiterrolle &hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/289539081?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_25\" aria-expanded=\"false\" aria-controls=\"collapse_25\" id=\"collapse_button_25\"> AI_at_theEdge: Elektronik mit neuartigen Materialien f&uuml;r Edge-Computing in Mobilfunknetzen <\/button><\/h2>\n<div id=\"collapse_25\" class=\"accordion-body\" aria-labelledby=\"collapse_button_25\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2022 - 30. June 2025<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">Motivation<\/p>\n<p>The increasing number of networked devices and sensors, the \"Internet of Things\" (IoT), enables diverse and new applications. However, it is also generating a rapidly growing volume of data. Processing data at its point of origin (edge computing) helps to deal with it efficiently. Edge computing strengthens the functionality, sustainability, trustworthiness and cost-effectiveness of electronic applications through the use of artificial intelligence and networking. The goal of&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/307673911?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_26\" aria-expanded=\"false\" aria-controls=\"collapse_26\" id=\"collapse_button_26\"> EVOLVE: Erforschung und Evaluation von organischen Laminaten f&uuml;r Verbindungskonzepte in Multi-Chip-Modulen <\/button><\/h2>\n<div id=\"collapse_26\" class=\"accordion-body\" aria-labelledby=\"collapse_button_26\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2022 - 31. December 2024<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Sascha Breun<\/span>, <span class=\"author\" itemprop=\"author\">Manuel Koch<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<div>Innovative, smart electronic systems usually only become intelligent, i.e. smart, through networking and the use of AI. On the one hand, this entails the need for a much higher-performance connection of the components within the system, and on the other hand for high-performance networking of a large number of such systems. While the connection of the computing unit (DSP, FPGA or similar) to its periphery is crucial for the first aspect, a very high-performance connection structure between the&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/276631871?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_27\" aria-expanded=\"false\" aria-controls=\"collapse_27\" id=\"collapse_button_27\"> Flexible Elektronisch-Photonisch Integrierte Sensor Plattform II &#091;EPIC-Sense II&#093; <\/button><\/h2>\n<div id=\"collapse_27\" class=\"accordion-body\" aria-labelledby=\"collapse_button_27\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>since 1. September 2022<br \/><strong>Funding source: <\/strong>DFG \/ Schwerpunktprogramm (SPP)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Sascha Breun<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">This proposal aims to explore a scalable, two-stage electronic-photonic MIMO radar system in the millimeter-wave range. In phase I of SPP 2111, the coherent optical distribution of the local oscillator signal was already addressed as well as the broadband integration of an electronic-photonic FMCW radar front-end. The vision for Phase II of SPP 2111 is the extension of a monolithically integrated electronic-photonic FMCW radar system by a new frequency-division multiplexing approach, which is realized&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/273176007?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_28\" aria-expanded=\"false\" aria-controls=\"collapse_28\" id=\"collapse_button_28\"> ESSENCE-6GM: Industrialisierbare Schl&uuml;sseltechnologien f&uuml;r energieeffiziente Tbit-Transceiver in 6G Mobilfunksystemen <\/button><\/h2>\n<div id=\"collapse_28\" class=\"accordion-body\" aria-labelledby=\"collapse_button_28\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2022 - 31. March 2026<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Sascha Breun<\/span>, <span class=\"author\" itemprop=\"author\">Manuel Koch<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>MOTIVATION<\/p>\n<p>\u00a0<\/p>\n<p>Sixth-generationmobile communications (6G) will enable entirely new application scenarios inindustry, medical technology and everyday life. This will be accompanied by newand higher requirements for latency, the transmittable data rate, spatialresolution, as well as data processing and energy management of thecommunication systems, which cannot be met at present. A promisingtechnological solution is offered by the development of new radio frequenciesup to the terahertz &hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/291955950?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_29\" aria-expanded=\"false\" aria-controls=\"collapse_29\" id=\"collapse_button_29\"> RadarSkin: Intelligentes robustes 320 GHz Radar-Edge-Sensornetzwerk <\/button><\/h2>\n<div id=\"collapse_29\" class=\"accordion-body\" aria-labelledby=\"collapse_button_29\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>since 1. July 2022<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span>, <span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Sascha Breun<\/span>, <span class=\"author\" itemprop=\"author\">Manuel Koch<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>MOTIVATION<\/p>\n<p>The increasing number of networked devices and sensors, the \"Internet of Things\" (IoT), enables diverse and new applications. However, it also ensures a rapidly growing amount of data. Processing data at its point of origin (edge computing) helps to deal with it efficiently. Edge computing strengthens the functionality, sustainability, trustworthiness and cost-effectiveness of electronic applications through the use of artificial intelligence and networking. The goal of the OCTOPUS&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/291955013?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_30\" aria-expanded=\"false\" aria-controls=\"collapse_30\" id=\"collapse_button_30\"> KOMSENS-6G: Perzeptive Kommunikations-Netzwerke mit integriertem Sensing f&uuml;r die 6. Generation des Mobilfunks <\/button><\/h2>\n<div id=\"collapse_30\" class=\"accordion-body\" aria-labelledby=\"collapse_button_30\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. November 2022 - 14. November 2025<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Das Ziel von KOMSENS-6G ist es, das Mobilfunksystem der 6. Generation um eine weitere Kernfunktionalit\u00e4t \u2013 neben der Kommunikation \u2013 zu erweitern: der Funk-Sensorik oder auch im Folgenden Sensing genannt. Wir sehen die F\u00e4higkeit, die Umgebung mit Hilfe von Mobilfunksignalen sensorisch zu erfassen, als essentiell und n\u00fctzlich f\u00fcr zuk\u00fcnftige Mobilfunksysteme an sowohl im \u00f6ffentlichen Raum als auch im Rahmen von sogenannten Campus-Netzen. Neue Anwendungsf\u00e4lle in Bereichen wie industrielle Produktion&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/330200783?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_31\" aria-expanded=\"false\" aria-controls=\"collapse_31\" id=\"collapse_button_31\"> 6G-ReS: Systemdesign und -evaluierung f&uuml;r sichere und resiliente 5G\/6G OpenRAN Systeme <\/button><\/h2>\n<div id=\"collapse_31\" class=\"accordion-body\" aria-labelledby=\"collapse_button_31\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>31. December 2022 - 31. December 2024<br \/><strong>Funding source: <\/strong>Bundesministerium des Inneren (BMI)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Mobilfunknetze der aktuellen Generation (5G) sind Teil des R\u00fcckgrates der Digitalisierung und damit eine zentrale kritische Infrastruktur. Zuk\u00fcnftige Netze der sechsten Generation (6G) werden dies in noch viel st\u00e4rkerem Ma\u00dfe sein. Das Ziel des vorgeschlagenen Projekts ist die Entwicklung und Erprobung vertrauensw\u00fcrdiger 5G\/6G-Systeme als Weiterentwicklung der aktuell existierenden 3GPP-Standards bzw. O-RAN-Spezifikationen. Vertrauensw\u00fcrdigkeit meint dabei insbesondere die Durchsetzung von Verf\u00fc&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/297972302?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_32\" aria-expanded=\"false\" aria-controls=\"collapse_32\" id=\"collapse_button_32\"> Terahertz Digital Chess-Board-Modulated Spread-Spectrum System for Radar and Communication Comprising 200 GHz Bandwidth <\/button><\/h2>\n<div id=\"collapse_32\" class=\"accordion-body\" aria-labelledby=\"collapse_button_32\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>since 1. January 2022<br \/><strong>Funding source: <\/strong>DFG \/ Schwerpunktprogramm (SPP)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">TIEMPO proposes the realization of an I\/Q transceiver chipset for spread-spectrum digital noise radar operating in the frequency range from 220 GHz to 420 GHz. This corresponds to a record bandwidth of 200 GHz. In this project we innovate on the idea of the frequency modulated continuous wave (FMCW) comb radar, by proposing a concept that can be viewed as a digital radar counterpart to a frequency comb radar. To achieve the extremely wide bandwidth we propose a novel system architecture implementing&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/273417828?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_33\" aria-expanded=\"false\" aria-controls=\"collapse_33\" id=\"collapse_button_33\"> 6G-CampuSens: Connecting sensors and communications for 6G campus networks <\/button><\/h2>\n<div id=\"collapse_33\" class=\"accordion-body\" aria-labelledby=\"collapse_button_33\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. November 2022 - 31. October 2025<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/307700451?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_34\" aria-expanded=\"false\" aria-controls=\"collapse_34\" id=\"collapse_button_34\"> 6G-TERAKOM: Verbundprojekt: Komonenten und RU Charakterisierung - 6G-TERAKOM- <\/button><\/h2>\n<div id=\"collapse_34\" class=\"accordion-body\" aria-labelledby=\"collapse_button_34\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>15. October 2022 - 14. October 2025<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/288979770?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_42\" aria-expanded=\"false\" aria-controls=\"collapse_42\" id=\"collapse_button_42\"> 2021 <\/button><\/h2>\n<div id=\"collapse_42\" class=\"accordion-body\" aria-labelledby=\"collapse_button_42\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-10\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_36\" aria-expanded=\"false\" aria-controls=\"collapse_36\" id=\"collapse_button_36\"> Open6GHub: 6G for Society and Sustainability <\/button><\/h2>\n<div id=\"collapse_36\" class=\"accordion-body\" aria-labelledby=\"collapse_button_36\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. August 2021 - 31. July 2025<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The Open6GHub will contribute to the development of an overall 6G \narchitecture, but also end-to-end solutions in the following, but not \nlimited to, areas: advanced network topologies with highly agile organic\n networking, security and resilience, THz and photonic transmission \nmethods, sensor functionalities in the network and their intelligent \nuse, as well as processing and application-specific radio protocols. <\/p>\n<p>Research at FAU is conducted at the chairs\n of \u00a0Prof. Franchi (ESCS), Prof. Weigel (LTE) and Prof. Vossiek (LHFT). \nAt LTE research is focused on \nJoint-Communications-and-Sensing-Technologies and their application in \nresilient 6G campus networks, in close collaboration with ESCS and LHFT.\n Furthermore LTE designs integrated 140 GHz Device-to-Device \ncommunication chips.<\/p>\n<p>The head of the ESCS Chair, Professor Franchi is the FAU project leader of the work package focusing on adaptive RAN technologies. His working group aims to bring together technologies and functions for 6G. radio (air interface) and sensing, JCAS, and to explore new architectures, methods, and protocols for highly reliable real-time industrial radio solutions (6G industrial radio) as well as private and local networks (6G campus networks).Additionally, ESCS is involved in investigations on topics of resilience-by-design and security-by-design.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/267089355?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_37\" aria-expanded=\"false\" aria-controls=\"collapse_37\" id=\"collapse_button_37\"> 6G-Plattform: 6G-Konzepte f&uuml;r nachhalte Smart Cities, vernetzte Mobilit&auml;t und Campusnetze <\/button><\/h2>\n<div id=\"collapse_37\" class=\"accordion-body\" aria-labelledby=\"collapse_button_37\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2021 - 30. September 2025<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Norman Franchi<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Das Ziel des Projekts \u201ePlattform f\u00fcr zuk\u00fcnftige Kommunikationstechnologien und 6G (6G-Plattform Deutschland)\u201c ist es, sowohl wissenschaftliche Beitr\u00e4ge zur inhaltlichen Gestaltung von 6G zu leisten als auch die wissenschaftlich-organisatorische Begleitung der Prozesse sicherzustellen, die zur erfolgreichen Umsetzung des deutsch-europ\u00e4ischen 6G-Programms n\u00f6tig sind. Dazu wird eine Harmonisierung mit der internationalen Regulierung und Standardisierung vorangetrieben, sowie Partizipationsm\u00f6glichkeiten von Gesel&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/272176289?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_38\" aria-expanded=\"false\" aria-controls=\"collapse_38\" id=\"collapse_button_38\"> eMiL: Embedded Machine Learning <\/button><\/h2>\n<div id=\"collapse_38\" class=\"accordion-body\" aria-labelledby=\"collapse_button_38\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2021 - 30. September 2024<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Fabian Lurz<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>This project aims to create and investigate system architectures for machine learning, dealing with several stages from embedded sensor nodes till cloud applications and in between. Their combination introduces great diversity considering energy consumption, computational performance, integration level and form factor, where workload and complexity need to be distributed through system in an optimized manner.<br \/>For demonstration, modern mmWave radar sensors are used in combination with machine learning algorithms for person presence detection and to do scans of the environment in autonomous driving situations. Investigations focus modularity, flexibility, scalability and reusability of the system.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/271076323?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_39\" aria-expanded=\"false\" aria-controls=\"collapse_39\" id=\"collapse_button_39\"> SFB 1483 EmpkinS: Empatho-Kinaesthetic Sensor Technology <\/button><\/h2>\n<div id=\"collapse_39\" class=\"accordion-body\" aria-labelledby=\"collapse_button_39\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2021 - 30. June 2025<br \/><strong>Funding source: <\/strong>DFG \/ Sonderforschungsbereich \/ Transregio (SFB \/ TRR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span>, <span class=\"author\" itemprop=\"author\">Bj\u00f6rn Eskofier<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The CRC 1483 \u201cEmpatho-Kinaesthetic Sensor Technology\u201d (EmpkinS) investigates novel radar, wireless,\ndepth camera, and photonics-based sensor technologies as well as body function\nmodels and algorithms<a><\/a>. The primary objective of EmpkinS is\nto capture human motion parameters remotely with wave-based sensors to enable\nthe identification and analysis of physiological and behavioural states and\nbody functions. To this end, EmpkinS aims to <a><\/a><a><\/a>develop\nsensor technologies and facilitate the collection of motion data for the human\nbody. Based on this data of hitherto unknown quantity and quality, EmpkinS will\nlead to unprecedented new insights regarding biomechanical, medical, and psychophysiological body function\nmodels and mechanisms of action as well as their interdependencies.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/261301683?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_40\" aria-expanded=\"false\" aria-controls=\"collapse_40\" id=\"collapse_button_40\"> SFB 1483 EmpkinS A03: Highly integrated localizable EMG beacon <\/button><\/h2>\n<div id=\"collapse_40\" class=\"accordion-body\" aria-labelledby=\"collapse_button_40\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2021 - 31. December 2025<br \/><strong>Funding source: <\/strong>DFG \/ Sonderforschungsbereich (SFB)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>In this subproject, localisable electromyography (EMG) radio<\/p>\n<p>transponders are to be designed and realised in order to be\nable to<\/p>\n<p>record surface EMG data synchronously with highly accurate\nradio<\/p>\n<p>localisation in real time for the first time. For this\npurpose, a 61-GHz<\/p>\n<p>transceiver in CMOS technology is being designed, which\nemits the<\/p>\n<p>phase-coherent signal required for the holographic\nradiolocation method<\/p>\n<p>and at the same time must be designed to be extremely\nenergy-saving. In a<\/p>\n<p>further step, the transceiver is to be integrated into an\nEMG sensor<\/p>\n<p>platform, which is to be evaluated in test series on\nsubjects, e.g. on<\/p>\n<p>the face or legs, to analyse facial expressions or gait.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/268735016?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_41\" aria-expanded=\"false\" aria-controls=\"collapse_41\" id=\"collapse_button_41\"> Modellierung, Optimierung, und Hardwaredesign von durch intelligente reflektierende Oberfl&auml;chen unterst&uuml;tzten drahtlosen Kommunikationssystemen <\/button><\/h2>\n<div id=\"collapse_41\" class=\"accordion-body\" aria-labelledby=\"collapse_button_41\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. September 2021 - 31. August 2024<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Florian Irnstorfer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/263095714?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_51\" aria-expanded=\"false\" aria-controls=\"collapse_51\" id=\"collapse_button_51\"> 2020 <\/button><\/h2>\n<div id=\"collapse_51\" class=\"accordion-body\" aria-labelledby=\"collapse_button_51\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-11\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_43\" aria-expanded=\"false\" aria-controls=\"collapse_43\" id=\"collapse_button_43\"> 5G-PIM: 5G Netzoptimierung durch effiziente PIM-Analyse <\/button><\/h2>\n<div id=\"collapse_43\" class=\"accordion-body\" aria-labelledby=\"collapse_button_43\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. August 2020 - 31. July 2023<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Florian Irnstorfer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">Der von der bayerischen Staatsregierung forcierte Breitbandausbau der bestehenden Mobilfunknetze, aber auch der geplante Aufbau ganz neuer Netzinfrastrukturen, wie sie im Rahmen des autonomen Fahrens und der fortschreitenden Industrieautomation (Industrie 4.0) ben\u00f6tigt werden, wird in Zukunft zwangsl\u00e4ufig zu einer immer dichteren Nutzung des verf\u00fcgbaren Frequenzspektrums sowie zur Reallokation zus\u00e4tzlicher<br \/>Frequenzressourcen (Beispiel Digitale Dividende I und II) f\u00fchren. Um die, f\u00fcr die 5G Ne&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/241879588?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_44\" aria-expanded=\"false\" aria-controls=\"collapse_44\" id=\"collapse_button_44\"> SORTIE: Automatisierte Lokalisierung von Mobiltelefonen versch&uuml;tteter Personen <\/button><\/h2>\n<div id=\"collapse_44\" class=\"accordion-body\" aria-labelledby=\"collapse_button_44\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2020 - 31. December 2022<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/234143552?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_45\" aria-expanded=\"false\" aria-controls=\"collapse_45\" id=\"collapse_button_45\"> GRK 2495 Project A: Electronic Circuits for Piezoelectric Energy Harvesting and Sensor Array Systems <\/button><\/h2>\n<div id=\"collapse_45\" class=\"accordion-body\" aria-labelledby=\"collapse_button_45\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2020 - 30. June 2024<br \/><strong>Funding source: <\/strong>DFG \/ Graduiertenkolleg (GRK)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Energy supply of wearable electronics and body-near sensors by energy harvesting from movement and photovoltaics.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/277737429?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_46\" aria-expanded=\"false\" aria-controls=\"collapse_46\" id=\"collapse_button_46\"> PulMo: Elektronenpulse Modellieren &ndash; Entwicklung und Design eines Steuerger&auml;tes f&uuml;r Elektronenkanonen <\/button><\/h2>\n<div id=\"collapse_46\" class=\"accordion-body\" aria-labelledby=\"collapse_button_46\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2020 - 30. September 2022<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/250671942?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_47\" aria-expanded=\"false\" aria-controls=\"collapse_47\" id=\"collapse_button_47\"> FRIIS: Frequenzselektive FM-Empf&auml;ngerarchitekturen zur Steigerung der Sicherheit in der zivilen Luftfahrt <\/button><\/h2>\n<div id=\"collapse_47\" class=\"accordion-body\" aria-labelledby=\"collapse_button_47\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2020 - 30. June 2023<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Wirtschaft und Energie (BMWE)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Passive radar technology represents a promising addition to conventional\nradar systems. With increasing demands from economy and politics to completely\nuse the limited spectrum of the frequency bands limited for telecommunications\nand location, the interest in this technology is increasing.<\/p>\n<p>The aim of this research project is to establish the technology of location\nusing passive radar technology in civil air traffic control in Germany and to open\nnew areas of application. <\/p>\n<p>To improve the detection performance, various options for setting up a\nfrequency-selective analog receiver for the FM band are being developed and\nintegrated into an existing passive radar system. For the highest possible\nsensitivity, filtering in different stages of the receiver is essential.\nHowever, this must be evaluated together with the frequency-converting stages\nin the overall system context in order not to degrade the signal quality,\nincluding through possible imperfections in the analog implementation. Furthermore,\nattention must also be paid to an optimal balance between circuit complexity,\ncosts and compactness of the receiver. For this purpose, the receiver\narchitectures are first examined in system simulations and evaluated regarding\nthe requirements from the application. This is followed by a prototype\nconstruction of the most promising concepts with metrological verification of\nthe individual components and evaluation of the entire system in a field test.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/257714884?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_48\" aria-expanded=\"false\" aria-controls=\"collapse_48\" id=\"collapse_button_48\"> ANDANTE: Integrierte Multibitansteuerung von FeFET-Zellen als Gewichte in Neuronalen Netzen <\/button><\/h2>\n<div id=\"collapse_48\" class=\"accordion-body\" aria-labelledby=\"collapse_button_48\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2020 - 31. May 2023<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The fundamental goal of the ANDANTE project is to leverage innovative hardware platforms to build strong hardware \/ software platforms for artificial neural networks (ANN) and spiking neural networks (SNN) as a basis for future products in the Edge IoT domain, combining extreme power efficiency with robust neuromorphic computing capabilities and demonstrate them in key application areas.<\/p>\n<\/p>\n<p>The main objective of ANDANTE is to build and expand the European eco-system around the definition,&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/242065040?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_49\" aria-expanded=\"false\" aria-controls=\"collapse_49\" id=\"collapse_button_49\"> PagGI: Peilalgorithmen und geh&auml;rtete Hardware (VPX-GPU\/FPGA) f&uuml;r den Grenz- und Inlandsschutz <\/button><\/h2>\n<div id=\"collapse_49\" class=\"accordion-body\" aria-labelledby=\"collapse_button_49\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. November 2020 - 31. October 2023<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Florian Irnstorfer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Peil-Systeme zurIdentifikation von Funksignale und damit zur Identifikation von unbekanntenFunkquellen sind ein wichtiges Instrument in der Aufkl\u00e4rung und der Ortungelektromagnetischer Aussendungen.<\/p>\n<p>Derrechentechnische Aufwand, der in modernen, hochqualitativen Peilanlagenabgedeckt werden muss, ist generell sehr hoch und erfordert eine entsprechendleistungsf\u00e4hige und aufw\u00e4ndige Infrastruktur (Rechnerressourcen, Netzwerk,Stromversorgung, K\u00fchlung, Systemintegration). Dies spielt bei station\u00e4ren Syst&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/250328185?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_50\" aria-expanded=\"false\" aria-controls=\"collapse_50\" id=\"collapse_button_50\"> UHCT - Elektronik und Hochspannung: Ein revolution&auml;rer, ultraleichter Kopf-CT-Scanner f&uuml;r den Einsatz in mobilen Rettungseinheiten und Krankenh&auml;usern <\/button><\/h2>\n<div id=\"collapse_50\" class=\"accordion-body\" aria-labelledby=\"collapse_button_50\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. May 2020 - 30. April 2022<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft, Landesentwicklung und Energie (StMWi) (seit 2018)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/240614612?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_60\" aria-expanded=\"false\" aria-controls=\"collapse_60\" id=\"collapse_button_60\"> 2019 <\/button><\/h2>\n<div id=\"collapse_60\" class=\"accordion-body\" aria-labelledby=\"collapse_button_60\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-12\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_52\" aria-expanded=\"false\" aria-controls=\"collapse_52\" id=\"collapse_button_52\"> 5G-CoSp: 5G Connected Sport <\/button><\/h2>\n<div id=\"collapse_52\" class=\"accordion-body\" aria-labelledby=\"collapse_button_52\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>15. June 2019 - 14. December 2021<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft und Medien, Energie und Technologie (StMWIVT) (ab 10\/2013)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Florian Irnstorfer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The research project<i> <\/i><i>5G Connected Sport<\/i>\u00a0started back in\nSeptember 2019 and was funded by the Bavarian Ministry of Economic Affairs,\nRegional Development and Energy. The Institute for Electronics Engineering (LTE)\nrepresents FAU in the consortium alongside partners Adidas,\u00a0Megatec\u00a0and\u00a0UKR.<\/p>\n<p><i>5G Connected\nSport\u00a0<\/i>has the mission to create a phoneless experience\nfor athletes through smart wearable products using LPWAN (NB-IoT & LTE-M)\nmobile technologies. \u00a0Our target is to provide emergency, sports\nperformance tracking and injury prevention solutions for athletes without using\nan additional smartphone.<\/p>\n<p>As part of the project, the Institute for Electronics Engineering (LTE)\nresearched the cellular IoT standards NB-IoT & LTE-M with respect to energy\nefficiency. Energy-saving features were gradually implemented in prototypes to\nmake the energy consumption of a smart jacket and smart shoe more efficient.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/223667095?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_53\" aria-expanded=\"false\" aria-controls=\"collapse_53\" id=\"collapse_button_53\"> Balancing medical technology and ethical requirements in the collection and use of sensor data from wearable and implantable systems for chronic disease monitoring <\/button><\/h2>\n<div id=\"collapse_53\" class=\"accordion-body\" aria-labelledby=\"collapse_button_53\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2019 - 30. June 2020<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>In people with chronic diseases, sensors are increasingly being used in or on the body to monitor the patient's state of health and detect deterioration at an early stage. Which data are collected in this context is initially a medical-technical question. However, with the increasing prevalence of mobile data collection in everyday life and the usability of this data by different interest groups, it is clear that this is also an ethical question about data sovereignty. Therefore, it will be investigated&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/307680347?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_54\" aria-expanded=\"false\" aria-controls=\"collapse_54\" id=\"collapse_button_54\"> ProLog 4.0: Eine loT-L&ouml;sung f&uuml;r Produktion und Logistik mittels intelligent verkn&uuml;pfter multipler Sensorsysteme <\/button><\/h2>\n<div id=\"collapse_54\" class=\"accordion-body\" aria-labelledby=\"collapse_button_54\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2019 - 31. December 2021<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Bildung und Kultus, Wissenschaft und Kunst (ab 10\/2013)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Eva Russwurm<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Ziel des Forschungsprojekts ist es, auf Basis multipler Sensordaten ein intelligentes System zu entwickeln, das eine direkte Kommunikation im Wertstrom, also im Bereich der Produktion und Logistik, erm\u00f6glicht. Das zu entwickelnde System basiert auf der Verkn\u00fcpfung von werkst\u00fcckbezogenen Daten und der kontinuierlichen Kontrolle von Produktions- und Logistikprozessen. Durch eine k\u00fcnstliche Intelligenz soll das System den Gro\u00dfteil dieser Prozesse autark steuern. Zur Vereinfachung komplexer, von &hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/336561132?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_55\" aria-expanded=\"false\" aria-controls=\"collapse_55\" id=\"collapse_button_55\"> MassiveData6G: Entwurf hochperformanter RF-Komponenten <\/button><\/h2>\n<div id=\"collapse_55\" class=\"accordion-body\" aria-labelledby=\"collapse_button_55\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2019 - 30. June 2024<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Albert-Marcel Schrotz<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>The ever-increasing number of agile Internet users and the concomitant growth in data volumes, driven in particular by the use of mobile Internet, video and cloud streaming services (\"streaming on demand\"), are already causing bandwidth bottlenecks in existing data and mobile communication systems.\u00a0The MassiveData6G project aims to address the emerging bandwidth constraints in\u00a0infrastructure to provide at least 100 Gbps per mobile user in the future. The required low-power and low-cost 140 GHz t&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/229039109?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_56\" aria-expanded=\"false\" aria-controls=\"collapse_56\" id=\"collapse_button_56\"> EPIC-Sense: Flexible Elektronisch-Photonisch Integrierte Sensor Plattform &#091;EPIC-Sense&#093; <\/button><\/h2>\n<div id=\"collapse_56\" class=\"accordion-body\" aria-labelledby=\"collapse_button_56\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. February 2019 - 31. January 2022<br \/><strong>Funding source: <\/strong>Deutsche Forschungsgemeinschaft (DFG)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/215666370?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_57\" aria-expanded=\"false\" aria-controls=\"collapse_57\" id=\"collapse_button_57\"> FFlexCom: RF Transceiver Functionalities from Aggressively Scaled Metal Oxide TOLAE Technologies <\/button><\/h2>\n<div id=\"collapse_57\" class=\"accordion-body\" aria-labelledby=\"collapse_button_57\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2019 - 31. May 2022<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Michael Jank<\/span>, <span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Alternating-Contactthin-film transistors (ACTFTs) provide new degrees of freedom for deviceoptimization and deployment. This project specifically aims at providingcost-effective implementation of flexible RF circuits through the use of shortchannel ACTFTs with self-aligned contacts. With the Chair of Electron Devicesand the Institute of Electronics Engineering of the FAU Erlangen-Nuremberg, tworenowned institutes of semiconductor electronics and RF circuit technology workhand in hand on&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/208672214?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_58\" aria-expanded=\"false\" aria-controls=\"collapse_58\" id=\"collapse_button_58\"> ForMikro-REGGAE: Radarsysteme bei 140 GHz in 22 nm FDSOI CMOS f&uuml;r genaue Gestenerkennung mit kompakten Abmessungen, hoher Energieeffizienz und digitaler Signalgenerierung <\/button><\/h2>\n<div id=\"collapse_58\" class=\"accordion-body\" aria-labelledby=\"collapse_button_58\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2019 - 30. June 2024<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Marco Dietz<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Millimeter-wave radars are insensitive to the environment and, because of that, essential in automatic imaging like gesture recognition. Unlike the usual frequency-modulated continuous-wave (FMCW) waveform, phase-modulated continuous-wave (PMCW) radars use binary phase-shift keying (BPSK) modulated signals that are digitally processed in the receiver. However, as their range resolution depends on the bandwidth, higher frequency bands must be used for the desired application. In the REGGAE project,&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/229040956?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_59\" aria-expanded=\"false\" aria-controls=\"collapse_59\" id=\"collapse_button_59\"> Vielantennensendeempf&auml;nger mit effizienter Hardware <\/button><\/h2>\n<div id=\"collapse_59\" class=\"accordion-body\" aria-labelledby=\"collapse_button_59\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2019 - 31. May 2021<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Ralf M\u00fcller<\/span>, <span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Efficient Implementation of Massive MIMO Systems<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/204190060?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_68\" aria-expanded=\"false\" aria-controls=\"collapse_68\" id=\"collapse_button_68\"> 2018 <\/button><\/h2>\n<div id=\"collapse_68\" class=\"accordion-body\" aria-labelledby=\"collapse_button_68\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-13\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_61\" aria-expanded=\"false\" aria-controls=\"collapse_61\" id=\"collapse_button_61\"> PRYSTINE: Echtzeitsignalverarbeitung verteilter Radarsysteme im Bereich des autonomen Fahrens <\/button><\/h2>\n<div id=\"collapse_61\" class=\"accordion-body\" aria-labelledby=\"collapse_button_61\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>16. June 2018 - 30. April 2021<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Amelie Marietta Hagelauer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<div>Am 1. Mai 2018 startete das Forschungs- und Innovationsprojekt PRYSTINE, unter gemeinsamer Finanzierung der Europ\u00e4ischen Union durch ECSEL und den nationalen Regierungen der ECSEL-Mitgliedstaaten. Der Lehrstuhl f\u00fcr Technische Elektronik repr\u00e4sentiert im Konsortium von \u00fcber 50 europ\u00e4ischen Partnern die FAU.<\/div>\n<div><\/div>\n<div>Unter den tats\u00e4chlichen Trends, die die Gesellschaft in den kommenden Jahren beeinflussen werden, zeichnet sich das autonome Fahren insbesondere durch das Poten&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/202189998?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_62\" aria-expanded=\"false\" aria-controls=\"collapse_62\" id=\"collapse_button_62\"> RADCOM-HETNET: Integration Radar-basierter Kommunikation in heterogene Fahrzeugnetze f&uuml;r die kooperative Interaktion von Automobilen (RADCOM-HETNET) <\/button><\/h2>\n<div id=\"collapse_62\" class=\"accordion-body\" aria-labelledby=\"collapse_button_62\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. September 2018 - 31. August 2020<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/205832985?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_63\" aria-expanded=\"false\" aria-controls=\"collapse_63\" id=\"collapse_button_63\"> LIPS VIEW: Interaktive, immersive Verkn&uuml;pfung von Live-Veranstaltungen an unterschiedlichen Orten unter Nutzung neuer Plattformen und technischer M&ouml;glichkeiten <\/button><\/h2>\n<div id=\"collapse_63\" class=\"accordion-body\" aria-labelledby=\"collapse_button_63\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. April 2018 - 30. September 2020<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Wirtschaft und Energie (BMWE)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126339004?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_64\" aria-expanded=\"false\" aria-controls=\"collapse_64\" id=\"collapse_button_64\"> MAMOKO: Makroskopische Molekulare Kommunikation: Sender- und Empf&auml;ngerkonzepte f&uuml;r die Informations&uuml;bertragung in fl&uuml;ssigen Medien <\/button><\/h2>\n<div id=\"collapse_64\" class=\"accordion-body\" aria-labelledby=\"collapse_button_64\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. November 2018 - 31. October 2022<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Schober<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/206618657?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_65\" aria-expanded=\"false\" aria-controls=\"collapse_65\" id=\"collapse_button_65\"> 3DNahRadar: Neuartige Chip-Technologien und Radarsignalverarbeitung bei 300 GHz <\/button><\/h2>\n<div id=\"collapse_65\" class=\"accordion-body\" aria-labelledby=\"collapse_button_65\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2018 - 30. September 2021<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Martin Vossiek<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/206619490?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_66\" aria-expanded=\"false\" aria-controls=\"collapse_66\" id=\"collapse_button_66\"> PRYSTINE: Programmable Systems for Intelligence in Automobiles <\/button><\/h2>\n<div id=\"collapse_66\" class=\"accordion-body\" aria-labelledby=\"collapse_button_66\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. May 2018 - 30. April 2021<br \/><strong>Funding source: <\/strong>Europ\u00e4ische Union (EU)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/201725019?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_67\" aria-expanded=\"false\" aria-controls=\"collapse_67\" id=\"collapse_button_67\"> Radar&uuml;berwachung und Kommunikation f&uuml;r Qualit&auml;tssicherung und Zustands&uuml;berwachung von Rotorbl&auml;ttern <\/button><\/h2>\n<div id=\"collapse_67\" class=\"accordion-body\" aria-labelledby=\"collapse_button_67\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. November 2018 - 31. October 2021<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Wirtschaft und Energie (BMWE)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Amelie Marietta Hagelauer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/208670930?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_83\" aria-expanded=\"false\" aria-controls=\"collapse_83\" id=\"collapse_button_83\"> 2017 <\/button><\/h2>\n<div id=\"collapse_83\" class=\"accordion-body\" aria-labelledby=\"collapse_button_83\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-14\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_69\" aria-expanded=\"false\" aria-controls=\"collapse_69\" id=\"collapse_button_69\"> SUDAC: Absch&auml;tzung der technischen Umsetzbarkeit von SUDAC Einheiten (Shared UE-side Distributed Antenna Component) zur Umsetzung der Raum- in die Frequenzdimension im Rahmen des SUDAS Systemansatzes (Shared UE-side Distributed Antenna System) <\/button><\/h2>\n<div id=\"collapse_69\" class=\"accordion-body\" aria-labelledby=\"collapse_button_69\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>2. August 2017 - 2. October 2017<br \/><strong>Funding source: <\/strong>Fraunhofer-Gesellschaft<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/227018962?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_70\" aria-expanded=\"false\" aria-controls=\"collapse_70\" id=\"collapse_button_70\"> NB-IoT: Charakterisierung von NB-IoT Modulen <\/button><\/h2>\n<div id=\"collapse_70\" class=\"accordion-body\" aria-labelledby=\"collapse_button_70\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2017 - 30. November 2017<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Markus Hertlein<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126359453?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_71\" aria-expanded=\"false\" aria-controls=\"collapse_71\" id=\"collapse_button_71\"> SEC-CT: Computertomographie-System f&uuml;r R&ouml;ntgen-Abbildungen in Sicherheitsanwendungen <\/button><\/h2>\n<div id=\"collapse_71\" class=\"accordion-body\" aria-labelledby=\"collapse_button_71\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>15. August 2017 - 15. October 2019<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft und Medien, Energie und Technologie (StMWIVT) (ab 10\/2013)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126509187?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_72\" aria-expanded=\"false\" aria-controls=\"collapse_72\" id=\"collapse_button_72\"> SEC-CT: Design von Mehrstrahl-R&ouml;ntgenr&ouml;hren <\/button><\/h2>\n<div id=\"collapse_72\" class=\"accordion-body\" aria-labelledby=\"collapse_button_72\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>15. August 2017 - 15. October 2019<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft und Medien, Energie und Technologie (StMWIVT) (ab 10\/2013)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126510877?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_73\" aria-expanded=\"false\" aria-controls=\"collapse_73\" id=\"collapse_button_73\"> Multiband Doherty 2017: Development of a Multiband Doherty Amplifier <\/button><\/h2>\n<div id=\"collapse_73\" class=\"accordion-body\" aria-labelledby=\"collapse_button_73\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>8. March 2017 - 31. December 2017<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Christian Musolff<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126374325?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_74\" aria-expanded=\"false\" aria-controls=\"collapse_74\" id=\"collapse_button_74\"> DYNADRIVE: Dynamische Ansteuerung von Hochfrequenzleistungsverst&auml;rkern mit breitbandiger, aktiver Lastmodulation <\/button><\/h2>\n<div id=\"collapse_74\" class=\"accordion-body\" aria-labelledby=\"collapse_button_74\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. September 2017 - 31. August 2019<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/201873515?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_75\" aria-expanded=\"false\" aria-controls=\"collapse_75\" id=\"collapse_button_75\"> Kabel-Monitoring: Erforschung, Entwicklung und Realisierung eines&quot;intelligenten Kabel-Monitoring&quot; Systems f&uuml;r Datenkabel <\/button><\/h2>\n<div id=\"collapse_75\" class=\"accordion-body\" aria-labelledby=\"collapse_button_75\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2017 - 31. January 2018<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126178623?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_76\" aria-expanded=\"false\" aria-controls=\"collapse_76\" id=\"collapse_button_76\"> TARANTO: High-Performance 5G-mmW-Transceiver mit MIMO- und Beam-Steering-Funktionalit&auml;t auf Basis einer neuen zukunftsweisenden BiCMOS-Technologie <\/button><\/h2>\n<div id=\"collapse_76\" class=\"accordion-body\" aria-labelledby=\"collapse_button_76\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. April 2017 - 31. March 2020<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Amelie Marietta Hagelauer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/202450021?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_77\" aria-expanded=\"false\" aria-controls=\"collapse_77\" id=\"collapse_button_77\"> GUARDIAN: More quality of life and safety for people in need of care: Innovative contactless monitoring of vital parameters <\/button><\/h2>\n<div id=\"collapse_77\" class=\"accordion-body\" aria-labelledby=\"collapse_button_77\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2017 - 31. May 2020<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander K\u00f6lpin<\/span>, <span class=\"author\" itemprop=\"author\">Christian J\u00e4ger<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<h2><img decoding=\"async\" src=\"https:\/\/lte.techfak.uni-erlangen.de\/wp-content\/uploads\/2020\/02\/guardian-6.png\" alt=\"\" \/>\n\t<\/h2>\n<h2>Motivation<\/h2>\n<p>In the care of seriously ill people, the recording of breathing and \nheartbeat is an important tool for crisis detection. The recording via \nelectrodes and cables that has been necessary up to now is prone to \ninterference and restricts the self-determination and quality of life of\n those in need of care. The GUARDIAN project aims to enable the \ncontactless and continuous recording of vital parameters.<\/p>\n<h2>Goal and strategy<br \/><\/h2>\n<p>In GUARDIAN, the contactless recording of vital parameters from a \ndistance of several meters using a multimodal high-frequency sensor is \nbeing developed. For this purpose, a weak electromagnetic high-frequency\n signal is emitted and its change is analyzed. Due to the high distance \nresolution, movements causing respiration and heartbeat can be extracted\n from the measurement signal and analyzed. In the process, superimposed \nmotion artifacts must be compensated for. GUARDIAN will thus make it \npossible to detect complaints such as pain and shortness of breath as \nwell as health crises such as cardiac arrhythmias and cardiovascular \narrest immediately and automatically. At the same time, the ethical, \nlegal and social issues of the procedure as well as its effects on \npalliative and intensive care, people in need of care, care \nprofessionals and relatives will be intensively investigated.<\/p>\n<h2>Innovation and perspective<br \/><\/h2>\n<p>By using six-port interferometry as a new concept, all body movements\n can be recorded contactlessly from a distance of up to several meters \nwith a previously unattainable distance resolution in the micrometer \nrange, and respiration and heartbeat can be extracted. The consortium \npartners see great potential in the technology to be developed for \nmonitoring the health and complaints of people in need of care in \nhospitals, but also in the outpatient sector in nursing homes and at \nhome.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125940333?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_78\" aria-expanded=\"false\" aria-controls=\"collapse_78\" id=\"collapse_button_78\"> GUARDIAN_UKER: Mehr Lebensqualitt&auml;t und Sicherheit f&uuml;r schwerkranke Menschen durch Ber&uuml;hrungslose Aufzeichnung von Herzschlag und Atmung - klinisch-experimentelle Untersuchungen <\/button><\/h2>\n<div id=\"collapse_78\" class=\"accordion-body\" aria-labelledby=\"collapse_button_78\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2017 - 31. May 2020<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Tobias Steigleder<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/202524303?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_79\" aria-expanded=\"false\" aria-controls=\"collapse_79\" id=\"collapse_button_79\"> Mobile Based Animal Tracker (Mobile-BAT) <\/button><\/h2>\n<div id=\"collapse_79\" class=\"accordion-body\" aria-labelledby=\"collapse_button_79\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2017 - 30. June 2020<br \/><strong>Funding source: <\/strong>DFG-Einzelf\u00f6rderung \/ Sachbeihilfe (EIN-SBH)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander K\u00f6lpin<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<div>This project Mobile-BAT will investigate methods for automated tracking of migration routes of bats based on miniaturized sensing module for low power passive cellular network detection. This module will be mounted to the dorsum of the migrant Noctule Bats and will track the route over one total season with an accuracy which will enable to draw conclusions to migrant and rout selection strategies of the animal. For limiting as far as possible the mobility restrictions of the bat and disturbance&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126252983?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_80\" aria-expanded=\"false\" aria-controls=\"collapse_80\" id=\"collapse_button_80\"> EFI-MCS: Molecular Communication Systems <\/button><\/h2>\n<div id=\"collapse_80\" class=\"accordion-body\" aria-labelledby=\"collapse_button_80\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2017 - 31. December 2019<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Schober<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Neuentstehende Anwendungen in der Biologie, Nanotechnologie und Medizin machen die Vernetzung von Objekten und Maschinen mit Abmessungen im Nano- und Mikrometerbereich erforderlich. Traditionelle elektromagnetische Ans\u00e4tze f\u00fcr den Entwurf entsprechender Kommunikationssysteme sind f\u00fcr solch kleine Gr\u00f6\u00dfenordnungen nicht geeignet. In der Natur jedoch ist die Kommunikation zwischen Nano- und Mikro-Objekten, wie z.B. Bakterien und anderen Zellen, weit verbreitet. Dabei kommen oft Signalmolek\u00fcle als I&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/201288641?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_81\" aria-expanded=\"false\" aria-controls=\"collapse_81\" id=\"collapse_button_81\"> RADSAGA: RADiation and reliability challenges for electronics used in Space, Avionics, on the Ground and at Accelerators <\/button><\/h2>\n<div id=\"collapse_81\" class=\"accordion-body\" aria-labelledby=\"collapse_button_81\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. March 2017 - 28. February 2021<br \/><strong>Funding source: <\/strong>Innovative Training Networks (ITN)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander K\u00f6lpin<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<div class=\"short\" style=\"box-sizing: border-box; color: rgb(51, 51, 51); font-family: Verdana, Arial, Helvetica, sans-serif\">Reliability and radiation damage issues have a long and important history in the domain of satellites and space missions. Qualification standards were established and expertise was built up in space agencies (ESA), supporting institutes and organizations (CNES, DLR, etc.) as well as universities and specialized companies. During recent years, radiation concerns are gaining&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125950980?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_82\" aria-expanded=\"false\" aria-controls=\"collapse_82\" id=\"collapse_button_82\"> DC-VIBN: Virtuelle Inbetriebnahme von Smart Grid Controllern <\/button><\/h2>\n<div id=\"collapse_82\" class=\"accordion-body\" aria-labelledby=\"collapse_button_82\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2017 - 30. June 2021<br \/><strong>Funding source: <\/strong>Siemens AG<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">J\u00f6rg Franke<\/span>, <span class=\"author\" itemprop=\"author\">Eva Russwurm<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/336530735?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_88\" aria-expanded=\"false\" aria-controls=\"collapse_88\" id=\"collapse_button_88\"> 2016 <\/button><\/h2>\n<div id=\"collapse_88\" class=\"accordion-body\" aria-labelledby=\"collapse_button_88\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-15\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_84\" aria-expanded=\"false\" aria-controls=\"collapse_84\" id=\"collapse_button_84\"> FFlexCom: Thin-Film Transistors with Novel Architecture for RF Circuits and Systems <\/button><\/h2>\n<div id=\"collapse_84\" class=\"accordion-body\" aria-labelledby=\"collapse_button_84\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2016 - 30. May 2019<br \/><strong>Funding source: <\/strong>DFG \/ Schwerpunktprogramm (SPP)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Robert Weigel<\/span>, <span class=\"author\" itemprop=\"author\">Lothar Frey<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>\n\tThin-film transistors (TFTs) are mainly used in flat panel displays as switches for selecting pixels. In TFTs the electric conductivity of a semiconductor layer placed between two contacts, called source and drain, is influenced by a third contact, the gate. The current can thus be varied over several orders of magnitude. The TFT is switched off when the current flow is negligibly small (for example a few pikoampere) and switched on when the current is much larger (for example, several microampers). Switching over always takes some time (fractions of seconds). If source and drain are closer together (the so-called channel is smaller), this time is reduced and the TFT switches faster. In state of the art thin-film-transistors (TFTs), both source and drain electrodes are placed at the same side or interface of the semiconductor layer. Positioning the two contacts on opposite interfaces of the semiconductor in an Alternating Contact TFT (ACTFT) enables new degrees of freedom for device design, optimization, and operation. The ability to enable short channel lengths is explored for application in radio frequency (RF) circuitry in this project.Two research groups of FAU Erlangen Nuremberg being experts in device technology (Chair of Electron Devices) and RF circuits engineering (Institute of Electronics Engineering) join forces to cover the integrated development of ACTFTs towards basic RF building blocks and systems based on flexible metal oxide TFTs. Studies on device physics, RF behavior, and novel circuit concepts will open perspectives for the use of large area, thin, and bendable TFT technologies in future industrial, consumer, and wearable electronics.<\/p>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126505131?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_85\" aria-expanded=\"false\" aria-controls=\"collapse_85\" id=\"collapse_button_85\"> FluFuPa: FluFuPa <\/button><\/h2>\n<div id=\"collapse_85\" class=\"accordion-body\" aria-labelledby=\"collapse_button_85\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>2. December 2016 - 31. December 2017<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126200593?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_86\" aria-expanded=\"false\" aria-controls=\"collapse_86\" id=\"collapse_button_86\"> PMSE-xG: Programme Making Special Events - Next Generation <\/button><\/h2>\n<div id=\"collapse_86\" class=\"accordion-body\" aria-labelledby=\"collapse_button_86\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2016 - 31. March 2018<br \/><strong>Funding source: <\/strong>Bundesministerien<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Markus Hertlein<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/203616701?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_87\" aria-expanded=\"false\" aria-controls=\"collapse_87\" id=\"collapse_button_87\"> Brust-Tomosynthese: Station&auml;re digitale Brust-Tomosynthese f&uuml;r Brustkrebs Vorsorgeuntersuchung - Simulation <\/button><\/h2>\n<div id=\"collapse_87\" class=\"accordion-body\" aria-labelledby=\"collapse_button_87\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. June 2016 - 31. May 2018<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft und Medien, Energie und Technologie (StMWIVT) (ab 10\/2013)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Jens Kirchner<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126205663?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_90\" aria-expanded=\"false\" aria-controls=\"collapse_90\" id=\"collapse_button_90\"> 2015 <\/button><\/h2>\n<div id=\"collapse_90\" class=\"accordion-body\" aria-labelledby=\"collapse_button_90\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-16\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_89\" aria-expanded=\"false\" aria-controls=\"collapse_89\" id=\"collapse_button_89\"> NetGuard6P: Interferometer-MMIC und Sensorsystementwurf <\/button><\/h2>\n<div id=\"collapse_89\" class=\"accordion-body\" aria-labelledby=\"collapse_button_89\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. January 2015 - 31. December 2017<br \/><strong>Funding source: <\/strong>BMFTR \/ Verbundprojekt<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander K\u00f6lpin<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126252814?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_93\" aria-expanded=\"false\" aria-controls=\"collapse_93\" id=\"collapse_button_93\"> 2014 <\/button><\/h2>\n<div id=\"collapse_93\" class=\"accordion-body\" aria-labelledby=\"collapse_button_93\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-17\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_91\" aria-expanded=\"false\" aria-controls=\"collapse_91\" id=\"collapse_button_91\"> Wind-6P: Messsystem zur Betriebszustandsanalyse von Windkraftanlagen <\/button><\/h2>\n<div id=\"collapse_91\" class=\"accordion-body\" aria-labelledby=\"collapse_button_91\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. September 2014 - 30. November 2017<br \/><strong>Funding source: <\/strong>Bayerisches Staatsministerium f\u00fcr Wirtschaft und Medien, Energie und Technologie (StMWIVT) (ab 10\/2013)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander K\u00f6lpin<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126134176?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_92\" aria-expanded=\"false\" aria-controls=\"collapse_92\" id=\"collapse_button_92\"> Doherty2: Multiband Doherty 2 <\/button><\/h2>\n<div id=\"collapse_92\" class=\"accordion-body\" aria-labelledby=\"collapse_button_92\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>21. March 2014 - 31. December 2016<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Christian Musolff<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125813752?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_95\" aria-expanded=\"false\" aria-controls=\"collapse_95\" id=\"collapse_button_95\"> 2013 <\/button><\/h2>\n<div id=\"collapse_95\" class=\"accordion-body\" aria-labelledby=\"collapse_button_95\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-18\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_94\" aria-expanded=\"false\" aria-controls=\"collapse_94\" id=\"collapse_button_94\"> ICON+PA: ICON+PA - Switch Mode Power Amplifier <\/button><\/h2>\n<div id=\"collapse_94\" class=\"accordion-body\" aria-labelledby=\"collapse_button_94\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. September 2013 - 28. February 2014<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126272249?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_101\" aria-expanded=\"false\" aria-controls=\"collapse_101\" id=\"collapse_button_101\"> 2012 <\/button><\/h2>\n<div id=\"collapse_101\" class=\"accordion-body\" aria-labelledby=\"collapse_button_101\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-19\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_96\" aria-expanded=\"false\" aria-controls=\"collapse_96\" id=\"collapse_button_96\"> CoMoRa: CoMoRa <\/button><\/h2>\n<div id=\"collapse_96\" class=\"accordion-body\" aria-labelledby=\"collapse_button_96\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. March 2012 - 31. December 2014<br \/><strong>Funding source: <\/strong>Industrie<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126260757?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_97\" aria-expanded=\"false\" aria-controls=\"collapse_97\" id=\"collapse_button_97\"> RTG 1773: Heterogeneous Image Systems <\/button><\/h2>\n<div id=\"collapse_97\" class=\"accordion-body\" aria-labelledby=\"collapse_button_97\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. October 2012 - 31. March 2017<br \/><strong>Funding source: <\/strong>DFG \/ Graduiertenkolleg (GRK)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Marc Stamminger<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Systeme zur Verarbeitung, Erzeugung und \u00fcbertragung digitaler Bilder (Bildsysteme) unterliegen sehr oft harten Anforderungen an Rechenleistung, Latenz, Durchsatz und Kosten. Typische Beispiele sind die medi-zinische Bildverarbeitung, Computerspiele oder die Videokompression in Camcordern. Um diese Anforde-rungen zu erf\u00fcllen, werden oft dedizierte Hardware-Beschleuniger eingesetzt als auch Grafikprozessoren (GPUs) oder digitale Signalprozessoren (DSPs). Die entstehenden Bildsysteme sind in zweierlei H&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125942699?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_98\" aria-expanded=\"false\" aria-controls=\"collapse_98\" id=\"collapse_button_98\"> FOR 1508: Miniaturized, Reconfigurable Sensor Node with Localization Functionality for Measurement Data Acquisition and Contact Monitoring between Bats <\/button><\/h2>\n<div id=\"collapse_98\" class=\"accordion-body\" aria-labelledby=\"collapse_button_98\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>since 1. August 2012<br \/><strong>Funding source: <\/strong>DFG \/ Forschungsgruppe (FOR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Alexander K\u00f6lpin<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<div id=\"projekttext\">Zur Erforschung des Verhaltens von Flederm&auml;usen soll im Projekt ein Sensorsystem entworfen werden. Diese Sensoren m&uuml;ssen auf der Fledermaus angebracht werden, um die Fledermaus im Flug zu orten. Damit sie unbeeintr&auml;chtigt ist, muss der Sensorknoten leicht und sehr kompakt sein. In dem hier vorgestellten Teilprojekt soll die Modul-Integration der miniaturisierten drahtlosen Sensorknoten mit Ortungsfunktionalit&auml;t erfolgen. F&uuml;r den avisierten Einsatz auf&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126252645?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_99\" aria-expanded=\"false\" aria-controls=\"collapse_99\" id=\"collapse_button_99\"> MUSIK: Multiphysical circuit design based on microacoustic RF-MEMS components <\/button><\/h2>\n<div id=\"collapse_99\" class=\"accordion-body\" aria-labelledby=\"collapse_button_99\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>since 1. June 2012<br \/><strong>Funding source: <\/strong>DFG \/ Forschungsgruppe (FOR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Amelie Marietta Hagelauer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<div>Teilprojekt 2 besch\u00e4ftigt sich mit der multiphysikalischen Modellentwicklung und Optimierung mikroakustischer MEMS\u2010Komponenten. Dabei werden die Schwerpunkte auf die Charakterisierung und Simulation verschiedener BAW\u2010Komponenten gelegt. Je nach Einsatz der jeweiligen Komponenten in dem im Rahmen der gesamten Forschergruppe zu entwerfenden mikroelektromechanischen Frontend wird der Fokus vor allem auf die Leistungsvertr\u00e4glichkeit, das Temperaturverhalten und die Analyse von Nichtlinearit\u00e4ten gerich&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/126150738?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_100\" aria-expanded=\"false\" aria-controls=\"collapse_100\" id=\"collapse_button_100\"> MUSIK: Systemsimulation und Integrationsanalyse nicht-idealer HF-MEMS <\/button><\/h2>\n<div id=\"collapse_100\" class=\"accordion-body\" aria-labelledby=\"collapse_button_100\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>since 1. June 2012<br \/><strong>Funding source: <\/strong>DFG \/ Forschungsgruppe (FOR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Um den ganzheitlichen Modellierungs\u2010 und Simulationsansatz der Forschergruppe MUSIK auf allen Systemebenen zu gew\u00e4hrleisten, werden in Teilprojekt 4 die Auswirkungen nichtlinearer Eigenschaften von MEMS\u2010Bauelementen auf die Leistungsmerkmale eines HF\u2010\u00fcbertragungssystems untersucht. Dabei gilt es nicht nur, schwer erkennbare Ursachen parasit\u00e4rer Einfl\u00fcsse auf die Gesamtschaltung zu beseitigen; vielmehr kann das Potential f\u00fcr die gezielte Nutzung nichtlinearer Effekte \u00fcber die Grenzen des einzeln&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125804457?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_105\" aria-expanded=\"false\" aria-controls=\"collapse_105\" id=\"collapse_button_105\"> 2010 <\/button><\/h2>\n<div id=\"collapse_105\" class=\"accordion-body\" aria-labelledby=\"collapse_button_105\">\n<div class=\"accordion-inner clearfix\">\n<div class=\"rrze-elements accordion style_default\" id=\"accordion-20\">\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_102\" aria-expanded=\"false\" aria-controls=\"collapse_102\" id=\"collapse_button_102\"> Innovatives nano-elektronisches Mikrowellenmodul f&uuml;r nicht-invasive medizinische Sensorik f&uuml;r mobile AAL-Anwendungen <\/button><\/h2>\n<div id=\"collapse_102\" class=\"accordion-body\" aria-labelledby=\"collapse_button_102\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. April 2010 - 30. September 2013<br \/><strong>Funding source: <\/strong>Bundesministerium f\u00fcr Forschung, Technologie und Raumfahrt (BMFTR)<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>Das Vorhaben MAS erforscht nano-elektronische Komponenten und Systeme f\u00fcr AAL-Anwendungen (Gesundheit\/Wellness\/Patienten-Monitoring). Hauptziele: Realisierung geschlossener Sensor \u0096 Service Kommunikationsketten (AAL-Wertsch\u00f6pfungskette) sowie die Erforschung und Umsetzung einer AAL-Technologie-Plattform. Anwendungs-orientierten Demonstratoren (Referenz-Applikationen) werden realisiert und im medizinischen Umfeld (Telemedizin\/Health Service Provider) erprobt. Teilziele: Spezifikation von UseCases un&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125995427?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_103\" aria-expanded=\"false\" aria-controls=\"collapse_103\" id=\"collapse_button_103\"> MAS: Nanoelectronics for Mobile Ambient Living (AAL) Systems <\/button><\/h2>\n<div id=\"collapse_103\" class=\"accordion-body\" aria-labelledby=\"collapse_button_103\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. April 2010 - 31. March 2013<br \/><strong>Funding source: <\/strong>Sonstige EU-Programme (z. B. RFCS, DG Health, IMI, Artemis), Industrie, Bundesministerien<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Georg Fischer<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">The objective of MAS is to develop a common communication platform and nanoelectronics circuits for health and wellness applications to support the development of flexible, robust, safe and inexpensive mobile AAL systems, to improve the quality of human life and improve the well-being of people. In this context, reference architectures will be defined in order to enable system development from devices to complete mobile AAL systems, and to enable cooperative clusters of such systems for specific&hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125992385?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"accordion-group\">\n<h2 class=\"accordion-heading\"><button class=\"accordion-toggle\" data-toggle=\"collapse\"  href=\"#collapse_104\" aria-expanded=\"false\" aria-controls=\"collapse_104\" id=\"collapse_button_104\"> IS-05: SmartSensorsB: Investigation of a millimeter wave sensor for non-invasive blood parameter detection <\/button><\/h2>\n<div id=\"collapse_104\" class=\"accordion-body\" aria-labelledby=\"collapse_button_104\">\n<div class=\"accordion-inner clearfix\"><strong>Term: <\/strong>1. July 2010 - 30. June 2014<br \/><strong>Funding source: <\/strong>BMFTR \/ Spitzencluster<br \/><strong>Project leader: <\/strong><span class=\"author\" itemprop=\"author\">Maximilian Hofmann<\/span>, <span class=\"author\" itemprop=\"author\">Georg Fischer<\/span>, <span class=\"author\" itemprop=\"author\">Kurt Emmerich H\u00f6ller<\/span><\/p>\n<div class=\"person-card\"><\/div>\n<\/p>\n<p class=\"abstract\">\n<p>\u00a0<\/p>\n<p>In the \"Smart Sensors B\" research project, work is being done within the framework of the Medical Valley Leading Edge Cluster on a high-frequency-based sensor node for non-invasive measurement of blood parameters. The electrical properties undergo a characteristic change depending on the concentration. These changes can be detected by non-invasive means using integrated high-frequency circuits, whereby costs are getting lower and lower all the time. In future, this could enable portable, &hellip;<\/p>\n<p>&#8594; <a href=\"https:\/\/cris.fau.de\/projects\/125860734?lang=en_GB\">More information<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n","protected":false},"excerpt":{"rendered":"<p>Current public funded projects &nbsp; &nbsp; Already finished projects<\/p>\n","protected":false},"author":4436,"featured_media":0,"parent":20938,"menu_order":1,"comment_status":"closed","ping_status":"closed","template":"page-templates\/page-subnav.php","meta":{"_rrze_cache":"enabled","_access_permission":"","_rrze_multilang_single_locale":"en_US","_rrze_multilang_single_source":"https:\/\/www.lites.tf.fau.de\/?page_id=20943","_faue_teaser_image_id":0,"footnotes":""},"page_category":[623],"page_tag":[],"workflow_usergroup":[456],"class_list":["post-20945","page","type-page","status-publish","hentry","page_category-general","en-US"],"faue_teaser_image_url":"","_links":{"self":[{"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/pages\/20945","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/users\/4436"}],"replies":[{"embeddable":true,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/comments?post=20945"}],"version-history":[{"count":6,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/pages\/20945\/revisions"}],"predecessor-version":[{"id":23783,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/pages\/20945\/revisions\/23783"}],"up":[{"embeddable":true,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/pages\/20938"}],"wp:attachment":[{"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/media?parent=20945"}],"wp:term":[{"taxonomy":"page_category","embeddable":true,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/page_category?post=20945"},{"taxonomy":"page_tag","embeddable":true,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/page_tag?post=20945"},{"taxonomy":"workflow_usergroup","embeddable":true,"href":"https:\/\/www.lites.tf.fau.de\/wp-json\/wp\/v2\/workflow_usergroup?post=20945"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}