1998 - IEEE Fellow For contributions to the theory and practice of coding and modulation in spread-spectrum communication systems.
Wayne E. Stark mostly deals with Electronic engineering, Spread spectrum, Computer network, Communication channel and Communications system. He has included themes like Frequency-shift keying, Modulation, Channel capacity and Fading in his Electronic engineering study. The concepts of his Spread spectrum study are interwoven with issues in Frequency-hopping spread spectrum and Algorithm.
His studies in Computer network integrate themes in fields like Energy consumption, Key, Wireless and Ultra-wideband. His study on Communication channel is mostly dedicated to connecting different topics, such as Decoding methods. His study focuses on the intersection of Communications system and fields such as Gaussian noise with connections in the field of Direct-sequence spread spectrum, Sequence, Statistics and Function.
His scientific interests lie mostly in Electronic engineering, Algorithm, Communication channel, Spread spectrum and Computer network. His research integrates issues of Convolutional code, Turbo code and Rayleigh fading, Fading in his study of Electronic engineering. His Algorithm study incorporates themes from Theoretical computer science and Bit error rate.
His research in Communication channel intersects with topics in Transmission and Throughput. His biological study spans a wide range of topics, including Frequency-hopping spread spectrum, Code rate, Code division multiple access and Asynchronous communication. His Computer network research includes elements of Wireless, Wireless network, Energy consumption, Relay and Spectral efficiency.
Wayne E. Stark spends much of his time researching Computer network, Electronic engineering, Wireless network, Relay and Energy consumption. His Computer network research incorporates themes from Wireless, Throughput and Communication channel, Spectral efficiency, Fading. His Multipath propagation study in the realm of Communication channel interacts with subjects such as Adaptive learning.
His Electronic engineering study integrates concerns from other disciplines, such as Radar, Algorithm and Convolutional code. His study in Algorithm is interdisciplinary in nature, drawing from both Hadamard transform and Modulation. The study incorporates disciplines such as Media access control, Physical layer and Communications system in addition to Wireless network.
Wayne E. Stark mainly investigates Radar, Electronic engineering, Computer network, Radar systems and Signal. His Radar research is multidisciplinary, relying on both Detector, Single antenna interference cancellation and Transmitter power output. With his scientific publications, his incorporates both Electronic engineering and Geography.
The concepts of his Computer network study are interwoven with issues in Fading, Multiple Access with Collision Avoidance for Wireless, Wi-Fi, Wireless network and Spectral efficiency. His work in Radar systems addresses issues such as Automotive radar, which are connected to fields such as Range and Bandwidth. His biological study spans a wide range of topics, including MIMO, Antenna and Autocorrelation.
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Performance of ultra-wideband communications with suboptimal receivers in multipath channels
J.D. Choi;W.E. Stark.
IEEE Journal on Selected Areas in Communications (2002)
Channels with block interference
R. McEliece;W. Stark.
IEEE Transactions on Information Theory (1984)
Unified design of iterative receivers using factor graphs
A.P. Worthen;W.E. Stark.
IEEE Transactions on Information Theory (2001)
Error Probability for Direct-Sequence Spread-Spectrum Multiple-Access Communications--Part I: Upper and Lower Bounds
M. Pursley;D. Sarwate;W. Stark.
IEEE Transactions on Communications (1982)
Cryptographic key agreement for mobile radio
Amer A. Hassan;Wayne E. Stark;John E. Hershey;Sandeep Chennakeshu.
Digital Signal Processing (1996)
Nonlinear amplifier effects in communications systems
Cheng-Po Liang;Je-Hong Jong;W.E. Stark;J.R. East.
IEEE Transactions on Microwave Theory and Techniques (1999)
Performance of Reed-Solomon Coded Frequency-Hop Spread-Spectrum Communications in Partial-Band Interference
M. Pursley;W. Stark.
IEEE Transactions on Communications (1985)
Optimum rate Reed-Solomon codes for frequency-hopped spread-spectrum multiple-access communication systems
S.W. Kim;W. Stark.
IEEE Transactions on Communications (1989)
End-to-End Energy–Bandwidth Tradeoff in Multihop Wireless Networks
Changhun Bae;W.E. Stark.
IEEE Transactions on Information Theory (2009)
Low-energy wireless communication network design
W. Stark;Hua Wang;A. Worthen;S. Lafortune.
IEEE Wireless Communications (2002)
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