Title :
Overloaded array processing with spatially reduced search joint detection
Author :
Hicks, James ; Bayram, Saffet ; Tranter, William H. ; Boyle, Robert J. ; Reed, Jeffrey H.
Author_Institution :
Dept. of Electr. Eng., Virginia Polytech. Inst. & State Univ., Blacksburg, VA, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
An antenna array is overloaded when the number of cochannel signals in its operating environment exceeds the number of elements. This paper proposes an iterative joint detection technique, spatially reduced search joint detection (SRSJD), that well approximates the joint maximum likelihood (JML) receiver, while reducing its computational complexity by several orders of magnitude. This complexity reduction is achieved by first exploiting the spatial separation between interfering signals with a linear preprocessing stage, and second, performing iterative joint detection with a reduced-state trellis formed over space instead of time. These novel joint detection trellises are possibly tail-biting and vary in structure from stage to stage. Through simulation, SRSJD is shown to demodulate over 2M synchronous quaternary phase-shift keying signals of zero excess bandwidth with an M element circular array. The channels of all users are assumed known
Keywords :
adaptive antenna arrays; array signal processing; computational complexity; iterative methods; maximum likelihood detection; quadrature phase shift keying; radio receivers; radiofrequency interference; search problems; space-time adaptive processing; QPSK; antenna array; bandwidth; cochannel signals; computational complexity reduction; demodulation; interfering signals; iterative joint detection; joint detection trellis; joint maximum likelihood receiver; linear preprocessing; maximum likelihood detector; overloaded array processing; reduced-state trellis; simulation; spatial separation; spatially reduced search joint detection; synchronous quaternary phase-shift keying signals; uniform circular array; Antenna arrays; Array signal processing; Bandwidth; Linear antenna arrays; Maximum likelihood detection; Multiuser detection; Phase shift keying; Phased arrays; Signal processing; Working environment noise;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
