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Daniel W. Bliss

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Daniel W. Bliss

Born	1966 Palo Alto, California, US
Alma mater	Arizona State University (B.A.) University of California, San Diego (M.S., Ph.D.)
Known for	foundational work in MIMO radar, MIMO communications, and Electromagnetic radio frequency convergence
Awards	IEEE Warren D. White Award (2021) IEEE Fellow (2015)
Scientific career
Fields	wireless communications, remote sensing, signal processing, information theory, estimation theory
Institutions	Arizona State University MIT Lincoln Laboratory General Dynamics

Daniel W. Bliss (born 1966)^[1] is an American professor, engineer, and physicist. He is a Fellow of the IEEE^[2] and was awarded the IEEE Warren D. White award for outstanding technical advances in the art of radar engineering in 2021 for his contributions to MIMO radar,^[3] Multiple-Function Sensing and Communications Systems, and Novel Small-Scale Radar Applications.^[4] He is a professor in the School of Electrical, Computer and Energy Engineering at Arizona State University.^[5] He is also the director of the Center for Wireless Information Systems and Computational Architecture (WISCA).^[6]

He focuses on the fields of wireless communications, remote sensing, signal processing, information theory and estimation theory. He is responsible for foundational work in MIMO radar,^[7]^[3]^[8] MIMO communications,^[9] and RF convergence.^[10] He has also made contributions to biomedical anticipatory analytics.^[11]

He has also served as a member of the [[IEEE [Aerospace and Electronic Systems Society|IEEE AESS]] Radar System Panel and as a Senior Editor of the IEEE Signal Processing Magazine.^[12]

Education

[edit]

Bliss received his bachelor's degree in electrical engineering from Arizona State University in 1989, and then went on to complete his master's and doctorate degree in physics from the University of California at San Diego under Hans Paar in 1995 and 1997 respectively.^[5] He did his graduate research in high energy physics and was stationed at Cornell University, where he worked on two-photon physics using the CLEO particle detector.^[13]

Career

[edit]

In 1989, Bliss was employed by General Dynamics, where he designed avionics for the Atlas-Centaur launch vehicle and also worked on particle accelerator engineering.^[5]^[14] In 1997, Bliss was employed at MIT Lincoln Laboratory, where he developed MIMO radar literature and developed an airborne GMTI MIMO radar system that demonstrated the validity of theoretical results.^[3]^[15]^[16]^[17] In 2012, he joined Arizona State University as a professor and the director of BLISS Lab.^[14]^[2] He also established the Center for Wireless Information Systems and Computational Architecture (WISCA) at ASU, where he currently serves as the director.^[18]

Research

[edit]

Bliss' research contributions have included system design based on information theory, detection and estimation theory, and statistical signal processing.^[12] His research has been applied to various topics such as MIMO wireless communications, MIMO radar, cognitive radios, radio network performance bounds, geolocation techniques, channel phenomenology, and signal processing and machine learning for anticipatory physiological monitoring.^[5] His research has attracted over 9,000 total citations.^[19] He has also authored two books on the field of wireless communications.^[20]^[21]

He is responsible for formative work in electronic protection, adaptive MIMO communications,^[9]^[22]^[23]^[24] MIMO radar,^[3]^[15]^[16]^[17] distributed-coherent systems, and RF convergence.^[10]^[25]^[26] He has also made contributions to medical and physiological analytics.^[11]^[27] He has made contributions to robust multiple-antenna communications including important theoretical results, multiple patents, and the development of advanced fieldable prototype systems. He has been the principal investigator on numerous programs including sponsored programs with DARPA, ONR, Google, Airbus, and others, with applications to radio, radar, and medical monitoring.^[28]^[29]^[30]^[31]

References

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^ "Bliss, Daniel W., 1966-". id.loc.gov. Retrieved July 3, 2021.

^ ^a ^b "Dan Bliss | Professor in the School of Electrical, Computer and Energy Engineering". Retrieved 2021-02-11.

^ ^a ^b ^c ^d Bliss, D. W.; Forsythe, K. W. (November 2003). "Multiple-input multiple-output (MIMO) radar and imaging: Degrees of freedom and resolution". The Thrity-Seventh Asilomar Conference on Signals, Systems & Computers, 2003. Vol. 1. pp. 54–59 Vol.1. doi:10.1109/ACSSC.2003.1291865. ISBN 0-7803-8104-1. S2CID 60633689.

^ "Warren D. White Award | Aerospace & Electronic Systems Society". ieee-aess.org. Retrieved 2021-05-12.

^ ^a ^b ^c ^d "Daniel Bliss | iSearch". isearch.asu.edu. Retrieved 2021-02-11.

^ "Center Faculty | Center for Wireless Information Systems and Computational Architectures". Retrieved 2021-02-11.

^ Bergin, Jamie; Guerci, J. R. (2018). MIMO radar: theory and application. Artech House radar series. Boston London: Artech House. ISBN 978-1-63081-522-6.

^ Bliss, D. W.; Forsythe, K. W.; Davis, S. K.; Fawcett, G. S.; Rabideau, D. J.; Horowitz, L. L.; Kraut, S. (February 2009). "GMTI MIMO radar". 2009 International Waveform Diversity and Design Conference. pp. 118–122. doi:10.1109/WDDC.2009.4800327. hdl:1721.1/58911. ISBN 978-1-4244-2970-7. S2CID 17822117.

^ ^a ^b Sabharwal, A.; Schniter, P.; Guo, D.; Bliss, D. W.; Rangarajan, S.; Wichman, R. (September 2014). "In-Band Full-Duplex Wireless: Challenges and Opportunities". IEEE Journal on Selected Areas in Communications. 32 (9): 1637–1652. arXiv:1311.0456. doi:10.1109/JSAC.2014.2330193. ISSN 1558-0008. S2CID 6478937.

^ ^a ^b Bliss, D. W. (May 2014). "Cooperative radar and communications signaling: The estimation and information theory odd couple". 2014 IEEE Radar Conference. pp. 0050–0055. arXiv:1403.1476. doi:10.1109/RADAR.2014.6875553. ISBN 978-1-4799-2035-8. S2CID 18244449.

^ ^a ^b Williamson, James R.; Bliss, Daniel W.; Browne, David W.; Narayanan, Jaishree T. (2012-10-01). "Seizure prediction using EEG spatiotemporal correlation structure". Epilepsy & Behavior. 25 (2): 230–238. doi:10.1016/j.yebeh.2012.07.007. ISSN 1525-5050. PMID 23041171.

^ ^a ^b "Daniel Bliss | Aerospace & Electronic Systems Society". ieee-aess.org. Retrieved 2021-02-11.

^ "A True Glueball?". Science | AAAS. 1997-11-22. Retrieved 2021-04-15.

^ ^a ^b "Daniel Bliss". The Conversation. 17 November 2020. Retrieved 2021-02-11.

^ ^a ^b Li, J.; Xu, L.; Stoica, P.; Forsythe, K. W.; Bliss, D. W. (January 2008). "Range Compression and Waveform Optimization for MIMO Radar: A CramÉr–Rao Bound Based Study". IEEE Transactions on Signal Processing. 56 (1): 218–232. Bibcode:2008ITSP...56..218L. doi:10.1109/TSP.2007.901653. ISSN 1941-0476. S2CID 14158138.

^ ^a ^b Forsythe, K. W.; Bliss, D. W.; Fawcett, G. S. (November 2004). "Multiple-input multiple-output (MIMO) radar: Performance issues". Conference Record of the Thirty-Eighth Asilomar Conference on Signals, Systems and Computers, 2004. Vol. 1. pp. 310–315 Vol.1. doi:10.1109/ACSSC.2004.1399143. ISBN 0-7803-8622-1. S2CID 45470798.

^ ^a ^b Forsythe, K. W.; Bliss, D. W. (2005-12-01). "Waveform correlation and optimization issues for MIMO radar". Conference Record of the Thirty-Ninth Asilomar Conference on Signals, Systems and Computers. Conference Record - Asilomar Conference on Signals, Systems and Computers: 1306–1310.

^ "Center for Wireless Information Systems and Computational Architectures |". Retrieved 2021-02-11.

^ "Daniel W. Bliss". scholar.google.com. Retrieved 2021-02-25.

^ Bliss, Daniel W.; Govindasamy, Siddhartan (2013). Adaptive Wireless Communications: MIMO Channels and Networks. Cambridge: Cambridge University Press. ISBN 978-1-107-03320-7.

^ Bliss, Daniel W. (2021). Modern Communications: A Systematic Introduction. Cambridge: Cambridge University Press. ISBN 978-1-108-83343-1.

^ Day, B. P.; Margetts, A. R.; Bliss, D. W.; Schniter, P. (July 2012). "Full-Duplex Bidirectional MIMO: Achievable Rates Under Limited Dynamic Range". IEEE Transactions on Signal Processing. 60 (7): 3702–3713. arXiv:1111.2618. Bibcode:2012ITSP...60.3702D. doi:10.1109/TSP.2012.2192925. ISSN 1941-0476. S2CID 20863655.

^ Day, B. P.; Margetts, A. R.; Bliss, D. W.; Schniter, P. (September 2012). "Full-Duplex MIMO Relaying: Achievable Rates Under Limited Dynamic Range". IEEE Journal on Selected Areas in Communications. 30 (8): 1541–1553. arXiv:1111.2618. doi:10.1109/JSAC.2012.120921. ISSN 1558-0008. S2CID 41929631.

^ Bliss, D. W.; Parker, P. A.; Margetts, A. R. (August 2007). "Simultaneous Transmission and Reception for Improvedwireless Network Performance". 2007 IEEE/SP 14th Workshop on Statistical Signal Processing. pp. 478–482. doi:10.1109/SSP.2007.4301304. ISBN 978-1-4244-1197-9. S2CID 18494275.

^ Paul, B.; Chiriyath, A. R.; Bliss, D. W. (2017). "Survey of RF Communications and Sensing Convergence Research". IEEE Access. 5: 252–270. Bibcode:2017IEEEA...5..252P. doi:10.1109/ACCESS.2016.2639038. ISSN 2169-3536.

^ Chiriyath, A. R.; Paul, B.; Jacyna, G. M.; Bliss, D. W. (January 2016). "Inner Bounds on Performance of Radar and Communications Co-Existence". IEEE Transactions on Signal Processing. 64 (2): 464–474. Bibcode:2016ITSP...64..464C. doi:10.1109/TSP.2015.2483485. ISSN 1941-0476. S2CID 1104568.

^ "Speakers - Wireless Telecommunications Symposium". www.cpp.edu. Retrieved 2021-02-11.

^ "Sending a message: Engineer calls for wireless communications revolution". ASU News. 2016-11-22. Retrieved 2021-02-24.

^ Reiser, Lindsey. "ASU professor develops technology for self-flying quadcopter". AZFamily. Retrieved 2021-02-24.

^ "Flying cars are coming, and they'll be autonomous". ASU News. 2018-03-30. Retrieved 2021-02-24.

^ Service, Robert F. (2018-07-24). "Beyond silicon: $1.5 billion U.S. program aims to spur new types of computer chips". Science | AAAS. Retrieved 2021-02-24.

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