Joint iterative power allocation and interference suppression algorithms for cooperative spread spectrum networks

This work presents joint iterative power allocation and interference suppression algorithms for spread spectrum networks with multiple relays and the amplify and forward cooperation strategy. A joint constrained optimization framework that considers the allocation of power levels across the relays subject to individual and global power constraints and the design of linear receivers for interference suppression is proposed. Constrained minimum mean-squared error (MMSE) expressions for the parameter vectors that determine the optimal power levels across the relays and the parameters of the linear receivers are derived. In order to solve the proposed optimization problems efficiently, stochastic gradient (SG) algorithms for adaptive joint iterative power allocation, and receiver and channel parameter estimation are developed. The results of simulations show that the proposed algorithms obtain significant gains in performance and capacity over existing cooperative and non-cooperative schemes.

[1]  Elza Erkip,et al.  User cooperation diversity. Part I. System description , 2003, IEEE Trans. Commun..

[2]  Carlo Fischione,et al.  Minimum Energy coding in CDMA Wireless Sensor Networks , 2009, IEEE Transactions on Wireless Communications.

[3]  Gregory W. Wornell,et al.  Distributed space-time-coded protocols for exploiting cooperative diversity in wireless networks , 2003, IEEE Trans. Inf. Theory.

[4]  Xiaodong Wang,et al.  Multiuser detection for cooperative networks and performance analysis , 2005, IEEE Transactions on Signal Processing.

[5]  Yu. A. Gur'yan,et al.  Parts I and II , 1982 .

[6]  Gregory W. Wornell,et al.  Cooperative diversity in wireless networks: Efficient protocols and outage behavior , 2004, IEEE Transactions on Information Theory.

[7]  Ekram Hossain,et al.  Cross-layer optimization frameworks for multihop wireless networks using cooperative diversity , 2008, IEEE Transactions on Wireless Communications.

[8]  Rodrigo C. de Lamare,et al.  Adaptive Interference Suppression for DS-CDMA Systems Based on Interpolated FIR Filters With Adaptive Interpolators in Multipath Channels , 2007, IEEE Transactions on Vehicular Technology.

[9]  Rodrigo C. de Lamare,et al.  Minimum Mean-Squared Error Iterative Successive Parallel Arbitrated Decision Feedback Detectors for DS-CDMA Systems , 2008, IEEE Trans. Commun..

[10]  C.-C. Jay Kuo,et al.  Decode-and-Forward Cooperative Relay with Multi-User Detection in Uplink CDMA Networks , 2007, IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference.

[11]  Branimir R. Vojcic,et al.  Adaptive modulation in ad hoc DS/CDMA packet radio networks , 2006, IEEE Transactions on Communications.

[12]  Alexander M. Haimovich,et al.  Decode-and-Forward Cooperative Diversity with Power Allocation in Wireless Networks , 2007, IEEE Transactions on Wireless Communications.

[13]  Michael Gastpar,et al.  Cooperative strategies and capacity theorems for relay networks , 2005, IEEE Transactions on Information Theory.

[14]  Matthew C. Valenti,et al.  The performance of multi-user cooperative diversity in an asynchronous CDMA uplink , 2008, IEEE Transactions on Wireless Communications.

[15]  R. D. Lamare,et al.  Adaptive Interference Suppression for DS-CDMA Systems Based on Interpolated FIR Filters With Adaptive Interpolators in Multipath Channels , 2007, IEEE Transactions on Vehicular Technology.

[16]  S. Haykin,et al.  Adaptive Filter Theory , 1986 .

[17]  Bernard Fino,et al.  Multiuser detection: , 1999, Ann. des Télécommunications.