DocumentCode
1497873
Title
Variations on optimal and suboptimal handoff control for wireless communication systems
Author
Akar, Mehmet ; Mitra, Urbashi
Author_Institution
Dept. of Electr. Eng., Ohio State Univ., Columbus, OH, USA
Volume
19
Issue
6
fYear
2001
fDate
6/1/2001 12:00:00 AM
Firstpage
1173
Lastpage
1185
Abstract
The design of handoff algorithms for cellular communication systems based on signal-strength measurements is addressed. The system is modeled using a hybrid framework: a mixture of continuous state and discrete event systems. The handoff problem is formulated as an optimization problem to control the switchings within the discrete event system. Performance is evaluated as a function of the expected number of handoffs, the expected handoff delay, and the expected number of signal degradations. A signal degradation occurs when the signal level falls below a threshold. The cost of handoff delay is explicitly specified, in contrast to prior work. Various optimization problems are posed to trade off between these quantities. Based on the optimal solutions which are obtained through dynamic programming, suboptimal versions are proposed for ease of implementation. The performance of the suboptimal algorithm which trades off between the expected number of handoffs and the expected number of signal degradations is improved through the use of signal averaging; however, this algorithm suffers from excessive handoff delay. Therefore, the tradeoff between handoff delay and number of handoffs is considered. The corresponding suboptimal algorithm provides nearly one handoff and almost no delay, which is ideal if call quality is also good. Finally, an algorithm which is a combination of the two previous algorithms is explored
Keywords
cellular radio; delays; discrete event systems; dynamic programming; fading channels; optimal control; telecommunication control; call quality; cellular communication systems; continuous state systems; discrete event systems; dynamic programming; expected handoff delay; expected handoffs; expected signal degradations; fading environment; handoff algorithms design; hybrid systems; optimal handoff control; optimization problem; performance evaluation; signal averaging; signal-strength measurements; suboptimal algorithm; suboptimal handoff control; wireless communication systems; Algorithm design and analysis; Communication switching; Communication system control; Control systems; Costs; Degradation; Delay; Discrete event systems; Optimal control; Signal design;
fLanguage
English
Journal_Title
Selected Areas in Communications, IEEE Journal on
Publisher
ieee
ISSN
0733-8716
Type
jour
DOI
10.1109/49.926373
Filename
926373
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