Nicolae Chiurtu
Site web: https://ssc.epfl.ch
Travail en cours
R&D activities and teaching in wireless communications systems, Software-Defined Radio (SDR).
Nicolae Chiurtu received his Dipl. El.-Ing. and the Master of Science degrees from the Electronics and Telecommunications Faculty, University "Politehnica" Bucharest. He obtained his Ph.D. degree in communication systems from EPFL, I&C faculty. His thesis work investigated multiple antenna (MIMO) systems for mobile communications and was awarded the Dimitris N. Chorafas Foundation prize for "significant advancements in the understanding of MIMO systems usefulness in wireless communications". He was a postdoctoral fellow at Stanford University in the Smart Antennas Research Group (SARG) doing research on OFDMA networks, and also a consultant for a WiMax (IEEE 802.16e standard) startup in Silicon Valley. He is co-author of two US patents and published a dozen of articles in international scientific publications. His research interests include, among other topics, multiple antenna techniques, OFDMA systems, signal processing, information theory, WiMax and LTE systems, relay-based cooperative networks, localization systems and software defined radios.
Low EMI signaling for parallel conductor interfaces
US11831366 ; US2023336266 ; EP4236217 ; EP4236217 ; US2023223994 ; US11683113 ; EP3100424 ; EP3100424 ; US11611377 ; US2022329467 ; US11374801 ; CN110166217 ; CN110266615 ; KR102306505 ; US2021288740 ; KR102299815 ; US2021258046 ; JP6882374 ; US11025359 ; US10985806 ; KR102241045 ; KR20210042428 ; EP2997704 ; CN107346977 ; EP3211797 ; US10574370 ; EP2979388 ; US10560293 ; CN104995612 ; KR102059209 ; US2019341972 ; JP2019195184 ; US10468078 ; US2019334647 ; CN110266615 ; US2019268081 ; CN110166217 ; US10355756 ; CN105681233 ; US10348436 ; JP6538916 ; CN105393512 ; CN105379170 ; CN105993151 ; US10291338 ; US2019123943 ; EP2926260 ; EP2893534 ; US2019028308 ; US10164809 ; US2018351670 ; US10091035 ; US10044452 ; JP2018121362 ; CN105122758 ; US2018183497 ; US9985745 ; US9985634 ; JP6317474 ; US9929818 ; US2018076912 ; KR101837515 ; US2018069733 ; US9838017 ; US9825677 ; US9825723 ; CN107346977 ; US9819522 ; US2017294985 ; US2017279642 ; CN103370879 ; EP3211797 ; US2017200482 ; CN104813401 ; US9692555 ; US9686107 ; US9667379 ; US9607673 ; EP2997704 ; US9596109 ; JP2017506048 ; US9577664 ; US2017048024 ; US9564994 ; US2017012804 ; CN103444144 ; EP3100424 ; US2016352354 ; US9485057 ; US9479369 ; EP2979388 ; KR20160117505 ; CN105993151 ; US2016285456 ; US2016277222 ; US9450791 ; US9450744 ; US9424908 ; EP2926260 ; US9413384 ; US2016218894 ; US9401828 ; US2016211929 ; US2016197656 ; US2016197747 ; US2016180913 ; US2016173219 ; CN105681233 ; US9369312 ; US9362974 ; US9362947 ; US9362962 ; US9357036 ; US2016142181 ; US9300503 ; EP2997704 ; US9288089 ; US9288082 ; CN105393512 ; CN105379170 ; US9275720 ; CN102986183 ; US9258154 ; US2016036461 ; EP2979388 ; US9251873 ; US9246713 ; US9234828 ; US2015381768 ; US2015381346 ; KR20150144328 ; US2015349835 ; CN105122758 ; US9203402 ; US2015341193 ; CN104995612 ; EP2926260 ; US9154252 ; US2015256326 ; US9124557 ; US9106220 ; US9106238 ; US2015222458 ; WO2015117102 ; US9100232 ; CN104813401 ; EP2893534 ; US9083576 ; US9077386 ; US9071476 ; US9059816 ; US9015566 ; US9014251 ; US9014295 ; US2015092532 ; US8989317 ; US2015063494 ; WO2015031845 ; US2015066230 ; WO2015031520 ; EP2676413 ; WO2014210074 ; US2014376668 ; US8880783 ; WO2014172377 ; US2014286387 ; US2014260607 ; US2014254642 ; US2014226734 ; WO2014124450 ; WO2014113727 ; KR20140091665 ; US2014198837 ; US2014177645 ; US8755426 ; EP2729875 ; US8718184 ; WO2014037116 ; US2014063915 ; US8649445 ; KR20140014174 ; US2014016724 ; EP2676413 ; CN103444144 ; US8593305 ; EP2659592 ; CN103370879 ; US8539318 ; CN102986183 ; US2013013870 ; WO2013004701 ; US2013010892 ; WO2012089803 ; US2012213299 ; WO2012110634 ; WO2012089803 ; US2011302478 ; US2011299555 ; WO2011151469 ; US2011268225 ; WO2011134678 . 2016.Software-Defined Radio Implementation of Multiple Antenna Systems using Low-Density Parity-Check
2005. p. 527-531. DOI : 10.1109/WCNC.2005.1424556.Impact of correlation and coupling on the capacity of MIMO systems
2004. IEEE International Symposium on Signal Processing and Information Technology, Darmstadt, December 14-17, 2003. p. 154-157. DOI : 10.1109/ISSPIT.2003.1341083.Dense multiple antenna systems
2001. IEEE Information Theory Workshop, Cairns, September 2-7, 2001. p. 108.109. DOI : 10.1109/ITW.2001.955153.On the capacity of multi-antenna Gaussian channels
2001. IEEE International Symposium on Information Theory 2001, Washington, June 24-29, 2001. p. 53. DOI : 10.1109/ISIT.2001.935916.Dense multiple antenna systems
2001. IEEE Information Theory Workshop 2001, Cairns, Australia, 2 - 7 September 2001. p. 108-109. DOI : 10.1109/ITW.2001.955153.Capacity of packed multiple antenna systems via unit cost capacity
2001.Varying the antenna-locations to optimize the capacity of multi-antenna Gaussian channels
2000. p. 3121-3123. DOI : 10.1109/ICASSP.2000.861198.Infoscience
Low EMI signaling for parallel conductor interfaces
US11831366 ; US2023336266 ; EP4236217 ; EP4236217 ; US2023223994 ; US11683113 ; EP3100424 ; EP3100424 ; US11611377 ; US2022329467 ; US11374801 ; CN110166217 ; CN110266615 ; KR102306505 ; US2021288740 ; KR102299815 ; US2021258046 ; JP6882374 ; US11025359 ; US10985806 ; KR102241045 ; KR20210042428 ; EP2997704 ; CN107346977 ; EP3211797 ; US10574370 ; EP2979388 ; US10560293 ; CN104995612 ; KR102059209 ; US2019341972 ; JP2019195184 ; US10468078 ; US2019334647 ; CN110266615 ; US2019268081 ; CN110166217 ; US10355756 ; CN105681233 ; US10348436 ; JP6538916 ; CN105393512 ; CN105379170 ; CN105993151 ; US10291338 ; US2019123943 ; EP2926260 ; EP2893534 ; US2019028308 ; US10164809 ; US2018351670 ; US10091035 ; US10044452 ; JP2018121362 ; CN105122758 ; US2018183497 ; US9985745 ; US9985634 ; JP6317474 ; US9929818 ; US2018076912 ; KR101837515 ; US2018069733 ; US9838017 ; US9825677 ; US9825723 ; CN107346977 ; US9819522 ; US2017294985 ; US2017279642 ; CN103370879 ; EP3211797 ; US2017200482 ; CN104813401 ; US9692555 ; US9686107 ; US9667379 ; US9607673 ; EP2997704 ; US9596109 ; JP2017506048 ; US9577664 ; US2017048024 ; US9564994 ; US2017012804 ; CN103444144 ; EP3100424 ; US2016352354 ; US9485057 ; US9479369 ; EP2979388 ; KR20160117505 ; CN105993151 ; US2016285456 ; US2016277222 ; US9450791 ; US9450744 ; US9424908 ; EP2926260 ; US9413384 ; US2016218894 ; US9401828 ; US2016211929 ; US2016197656 ; US2016197747 ; US2016180913 ; US2016173219 ; CN105681233 ; US9369312 ; US9362974 ; US9362947 ; US9362962 ; US9357036 ; US2016142181 ; US9300503 ; EP2997704 ; US9288089 ; US9288082 ; CN105393512 ; CN105379170 ; US9275720 ; CN102986183 ; US9258154 ; US2016036461 ; EP2979388 ; US9251873 ; US9246713 ; US9234828 ; US2015381768 ; US2015381346 ; KR20150144328 ; US2015349835 ; CN105122758 ; US9203402 ; US2015341193 ; CN104995612 ; EP2926260 ; US9154252 ; US2015256326 ; US9124557 ; US9106220 ; US9106238 ; US2015222458 ; WO2015117102 ; US9100232 ; CN104813401 ; EP2893534 ; US9083576 ; US9077386 ; US9071476 ; US9059816 ; US9015566 ; US9014251 ; US9014295 ; US2015092532 ; US8989317 ; US2015063494 ; WO2015031845 ; US2015066230 ; WO2015031520 ; EP2676413 ; WO2014210074 ; US2014376668 ; US8880783 ; WO2014172377 ; US2014286387 ; US2014260607 ; US2014254642 ; US2014226734 ; WO2014124450 ; WO2014113727 ; KR20140091665 ; US2014198837 ; US2014177645 ; US8755426 ; EP2729875 ; US8718184 ; WO2014037116 ; US2014063915 ; US8649445 ; KR20140014174 ; US2014016724 ; EP2676413 ; CN103444144 ; US8593305 ; EP2659592 ; CN103370879 ; US8539318 ; CN102986183 ; US2013013870 ; WO2013004701 ; US2013010892 ; WO2012089803 ; US2012213299 ; WO2012110634 ; WO2012089803 ; US2011302478 ; US2011299555 ; WO2011151469 ; US2011268225 ; WO2011134678 . 2016.Software-Defined Radio Implementation of Multiple Antenna Systems using Low-Density Parity-Check
2005. p. 527-531. DOI : 10.1109/WCNC.2005.1424556.Impact of correlation and coupling on the capacity of MIMO systems
2004. IEEE International Symposium on Signal Processing and Information Technology, Darmstadt, December 14-17, 2003. p. 154-157. DOI : 10.1109/ISSPIT.2003.1341083.Dense multiple antenna systems
2001. IEEE Information Theory Workshop, Cairns, September 2-7, 2001. p. 108.109. DOI : 10.1109/ITW.2001.955153.On the capacity of multi-antenna Gaussian channels
2001. IEEE International Symposium on Information Theory 2001, Washington, June 24-29, 2001. p. 53. DOI : 10.1109/ISIT.2001.935916.Dense multiple antenna systems
2001. IEEE Information Theory Workshop 2001, Cairns, Australia, 2 - 7 September 2001. p. 108-109. DOI : 10.1109/ITW.2001.955153.Capacity of packed multiple antenna systems via unit cost capacity
2001.Varying the antenna-locations to optimize the capacity of multi-antenna Gaussian channels
2000. p. 3121-3123. DOI : 10.1109/ICASSP.2000.861198.Cours
Modern digital communications: a hands-on approach
Ce cours complète les connaissances théoriques acquises dans le cours PDC avec des sujets plus avancés tels que OFDM, MIMO, positionnement GPS. Cette connaissance est mise en pratique avec des exercices basés sur Matlab ou Python (à choix) et sur une plate-forme radio définie par logiciel.