Rate of convergence for minimum power assignment algorithms in cellular radio systems
Wireless Networks - Special issue transmitter power control
Adaptive power control and MMSE interference suppression
Wireless Networks
Handbook of Antennas in Wireless Communications
Handbook of Antennas in Wireless Communications
Robust downlink power control in wireless cellular systems
EURASIP Journal on Wireless Communications and Networking - Special issue on multiuser MIMO networks
QoS-based resource allocation and transceiver optimization
Communications and Information Theory
IEEE/ACM Transactions on Networking (TON)
Nash bargaining and proportional fairness for wireless systems
IEEE/ACM Transactions on Networking (TON)
Linear precoding via conic optimization for fixed MIMO receivers
IEEE Transactions on Signal Processing
Transceiver optimization for block-based multiple access through ISI channels
IEEE Transactions on Signal Processing
Concave and Convex Interference Functions—General Characterizations and Applications
IEEE Transactions on Signal Processing - Part I
On downlink beamforming with indefinite shaping constraints
IEEE Transactions on Signal Processing
The Structure of General Interference Functions and Applications
IEEE Transactions on Information Theory
A Calculus for Log-Convex Interference Functions
IEEE Transactions on Information Theory
Transmit beamforming and power control for cellular wireless systems
IEEE Journal on Selected Areas in Communications
An introduction to convex optimization for communications and signal processing
IEEE Journal on Selected Areas in Communications
IEEE Journal on Selected Areas in Communications
IEEE Journal on Selected Areas in Communications
A framework for uplink power control in cellular radio systems
IEEE Journal on Selected Areas in Communications
Pareto boundary of utility sets for multiuser wireless systems
IEEE/ACM Transactions on Networking (TON)
Hi-index | 35.68 |
The paper addresses the problem of interference modeling for wireless networks. Two axiomatic approaches are known from the literature: 1) "standard interference functions" proposed by Yates in 1995, and 2) "general interference functions" proposed by the authors in their previous work. In this paper, both frameworks are thoroughly analyzed and compared. It is shown that every function from framework 1) can be expressed in terms of framework 2). This means that recent structure results for convex interference functions, which were derived for 2), can also be applied to 1). The results provide a bridge between the frameworks 1) and 2), which were studied separately in the literature. Also, new structure results are shown in this paper. For the example of QoS balancing, it is shown that analyzing the structure of interference functions can lead to interesting algorithmic opportunities. The results are potentially useful for the development of physical-layer aware resource allocation algorithms.