Title :
Joint structured channel and data estimation over time-varying channels
Author :
Ng, Boon Chong ; Diggavi, Suhas N. ; Paulraj, Arogyswami
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
Abstract :
This paper describes an adaptive maximum likelihood sequence estimation (MLSE) receiver based on a structured linear channel model. Specifically, known prior information about the transmit filter is used to obtain a structured channel model linearly parameterized by a time-varying vector. We show that the total oversampled FIR channel vector lies within the subspace of a matrix associated only with the samples of the transmit pulse shape. The resulting structured channel model has typically less numbers of unknown parameters than the conventional unknown FIR channel model. Joint structured channel and data estimation (JSCDE) is done based on a per-survivor processing (PSP) approach. A reduced complexity scheme for JSCDE is also proposed that uses delayed decision feedback for each survivor in a reduced trellis
Keywords :
FIR filters; adaptive estimation; computational complexity; fading; land mobile radio; maximum likelihood estimation; radio receivers; signal sampling; time-varying channels; JSCDE; MLSE receiver; adaptive maximum likelihood sequence estimation receiver; delayed decision feedback; joint structured channel data estimation; matrix; per-survivor processing; prior information; reduced complexity scheme; reduced trellis; structured channel model; structured linear channel model; subspace; time-varying channels; total oversampled FIR channel vector; transmit filter; transmit pulse shape; Delay estimation; Fading; Finite impulse response filter; Information filtering; Information filters; Maximum likelihood estimation; Pulse shaping methods; TV receivers; Time division multiple access; Time-varying channels;
Conference_Titel :
Global Telecommunications Conference, 1997. GLOBECOM '97., IEEE
Print_ISBN :
0-7803-4198-8
DOI :
10.1109/GLOCOM.1997.632579
