Belmont / Seattle / Helsinki / New York / Ithaca / Washington / DC / Cambridge / Amsterdam / Monticello / Chicago / /
Company
E s A / J. Wireless Networks / V BV / /
Country
Netherlands / South Africa / United States / United Kingdom / Finland / /
Currency
USD / / /
Facility
College Park / Cornell University / Monticello / University of Maryland / /
IndustryTerm
multiuser systems / communications aspects / iterative algorithm / distributed iterative algorithm / particular solution / distortion product / cellular radio systems / waterfilling solution / large systems / iterative waterfilling algorithm / possible solution / unit energy signature sequence / receiver site / given nonzero solution / distributed autonomous power control algorithm / closed-form solution / wireless communication networks / multiuser communications / optimum solution / /
Organization
pentagon / National Science Foundation / Cambridge Univ. / University of Maryland / College Park / Cornell University / Department of Electrical and Computer Engineering / Department of Electrical / School of Electrical and Computer Engineering / /
Person
S. Shamai / J. Proakis / Sheila S. Hemami / Athena Scienti / Chao Tian / / /
Position
Associate Editor for Source Coding / Asociate Editor for Communications / /
ProvinceOrState
Maryland / Illinois / New York / Washington / /
PublishedMedium
IEEE TRANSACTIONS ON INFORMATION THEORY / /
Technology
distributed iterative algorithm / distributed autonomous power control algorithm / CDMA / iterative waterfilling algorithm / pdf / iterative one-user-at-a-time algorithm / iterative algorithm / CDMA system / fading CDMA / /
IEEE TRANSACTIONS ON INFORMATION THEORY, VOL. 50, NO. 10, OCTOBER[removed]Optimum Power Control for CDMA With Deterministic Sequences in Fading Channels Onur Kaya, Student Member, IEEE, and Sennur Ulukus, Member, IEEE Abst