Distributed multiuser power control for digital subscriber lines

This paper considers the multiuser power control problem in a frequency-selective interference channel. The interference channel is modeled as a noncooperative game, and the existence and uniqueness of a Nash equilibrium are established for a two-player version of the game. An iterative water-filling algorithm is proposed to efficiently reach the Nash equilibrium. The iterative water-filling algorithm can be implemented distributively without the need for centralized control. It implicitly takes into account the loop transfer functions and cross couplings, and it reaches a competitively optimal power allocation by offering an opportunity for loops to negotiate the best use of power and frequency with each other. When applied to the upstream power backoff problem in very-high bit-rate digital subscriber lines and the downstream spectral compatibility problem in asymmetric digital subscriber lines, the new power control algorithm is found to give a significant performance improvement when compared with existing methods.

[1]  Te Sun Han,et al.  A new achievable rate region for the interference channel , 1981, IEEE Trans. Inf. Theory.

[2]  Stephen B. Wicker,et al.  Game theory and the design of self-configuring, adaptive wireless networks , 2001, IEEE Commun. Mag..

[3]  Gerard J. Foschini,et al.  A simple distributed autonomous power control algorithm and its convergence , 1993 .

[4]  Roy D. Yates,et al.  Integrated power control and base station assignment , 1995 .

[5]  N. Bambos,et al.  Toward power-sensitive network architectures in wireless communications: concepts, issues, and design aspects , 1998, IEEE Wirel. Commun..

[6]  Andrew Sendonaris,et al.  Joint signaling strategies for approaching the capacity of twisted-pair channels , 1998, IEEE Trans. Commun..

[7]  Vladimir Oksman Noise Models for VDSL Performance Verification , 1999 .

[8]  Seong-Jun Oh,et al.  Distributed power control and spreading gain allocation in CDMA data networks , 2000, Proceedings IEEE INFOCOM 2000. Conference on Computer Communications. Nineteenth Annual Joint Conference of the IEEE Computer and Communications Societies (Cat. No.00CH37064).

[9]  Ching-Yao Huang,et al.  Non-cooperative uplink power control in cellular radio systems , 1998, Wirel. Networks.

[10]  Aydano B. Carleial,et al.  Interference channels , 1978, IEEE Trans. Inf. Theory.

[11]  John M. Cioffi,et al.  Understanding Digital Subscriber Line Technology , 1999 .

[12]  Roy D. Yates,et al.  A Framework for Uplink Power Control in Cellular Radio Systems , 1995, IEEE J. Sel. Areas Commun..

[13]  K. S. Jacobsen Methods of upstream power backoff on very high speed digital subscriber lines , 2001 .

[14]  Stephen V. Hanly,et al.  An Algorithm for Combined Cell-Site Selection and Power Control to Maximize Cellular Spread Spectrum Capacity (Invited Paper) , 1995, IEEE J. Sel. Areas Commun..

[15]  Dragan Peraković,et al.  ASYMMETRIC DIGITAL SUBSCRIBER LINE (ADSL) , 1997 .

[16]  Hiroshi Sato,et al.  The capacity of the Gaussian interference channel under strong interference , 1981, IEEE Trans. Inf. Theory.