Book ChapterDOI
Transmitter Power Control for Co-channel Interference Management in Cellular Radio Systems
Jens Zander
- pp 161-175
TLDR
In this article, the concept of achievable C/I, up/down-link equivalence and C/balancing is introduced, and the results show that substantial improvements in system capacity can be achieved, particulary in conjunction with dynamic channel allocation.Abstract:
Transmitter power control is a necessity to combat “near-far” problems in radio systems using receivers with limited “dynamic range” (such as conventional DSCDMA systems). Transmitter power control, however, can also be used to control cochannel interference, i.e. interference from other users using the same channel (code or time slot). For this purpose, it has been shown that the optimum transmitter power configuration is found by solving an eigenvalue problem. The paper reviews some recent results in this area. The basic models as well as the concepts of achievable C/I, up/down-link equivalence and C/Ibalancing are introduced. Both the interference limited (noise-less) case as well as models including thermal noise are treated. Results show that substantial improvements in system capacity can be achieved, particulary in conjunction with Dynamic Channel Allocation. The optimum power control schemes are shown to be robust against implementational shortcomings.read more
Citations
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Journal ArticleDOI
A framework for uplink power control in cellular radio systems
TL;DR: It is shown that systems in which transmitter powers are subject to maximum power limitations share these common properties, which permit a general proof of the synchronous and totally asynchronous convergence of the iteration p(t+1)=I(p(t)) to a unique fixed point at which total transmitted power is minimized.
Journal ArticleDOI
Energy-efficient packet transmission over a wireless link
TL;DR: This paper obtains an optimal offline schedule for a node operating under a deadline constraint, and shows that this lazy schedule is significantly more energy-efficient compared to a deterministic schedule that guarantees queue stability for the same range of arrival rates.
Journal ArticleDOI
Toward power-sensitive network architectures in wireless communications: concepts, issues, and design aspects
TL;DR: This work considers issues associated with the design of power-sensitive wireless network architectures, which utilize power efficiently in establishing user communication at required QoS levels, and formulate some general associated concepts which have wide applicability to wireless network design.
Journal ArticleDOI
Integrated power control and base station assignment
Roy D. Yates,Ching-Yao Huang +1 more
TL;DR: This work considers the minimization of the total transmitted uplink power subject to maintaining an individual target CIR for each mobile and identifies synchronous and asynchronous distributed algorithms that find the optimal power vector and base station assignment.
Proceedings ArticleDOI
Energy-efficient transmission over a wireless link via lazy packet scheduling
TL;DR: A lazy online algorithm that varies transmission times according to backlog and is shown to be more energy efficient than a deterministic schedule that guarantees stability for the same range of arrival rates is devised.
References
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Book
The Theory of Matrices
TL;DR: In this article, the Routh-Hurwitz problem of singular pencils of matrices has been studied in the context of systems of linear differential equations with variable coefficients, and its applications to the analysis of complex matrices have been discussed.
Journal ArticleDOI
A simple distributed autonomous power control algorithm and its convergence
Gerard J. Foschini,Z. Miljanic +1 more
TL;DR: For wireless cellular communication systems, one seeks a simple effective means of power control of signals associated with randomly dispersed users that are reusing a single channel in different cells, and the authors demonstrate exponentially fast convergence to these settings whenever power settings exist for which all users meet the rho requirement.
Journal ArticleDOI
Performance of optimum transmitter power control in cellular radio systems
TL;DR: In order to derive upper performance bounds for transmitter power control schemes, algorithms that are optimum in the sense that the interference probability is minimized are suggested.
Journal ArticleDOI
Distributed cochannel interference control in cellular radio systems
TL;DR: An algorithm that successfully approximates the behavior of the best known algorithms is proposed, which involves a novel distributed C/I-balancing scheme and shows that the balancing procedure is very robust to measurement noise.
Related Papers (5)
A simple distributed autonomous power control algorithm and its convergence
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