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PIMRC
2010
IEEE
2010
IEEE
Low-complexity admission control for distributed power-controlled networks with stochastic channels
This study addresses the general problem of efficient resource management in wireless networks with arbitrary timevarying topologies. Communication channels are assumed to generally accommodate multiple simultaneous transmissions. In this context, we focus our attention on the problem of distributed transmission power allocation and medium access by links (transmitter-receiver pairs) that require a guaranteed minimum signal-to-interference and noise ratio (SINR) at the receiver for a reliable data transfer. The design constraints for derived solutions consist of (i) a theoretically optimum performance, (ii) minimum complexity in implementation, and (iii) reliable feedback on target SINR feasibility to both active and inactive links. To this end, we propose adaptive algorithms that employ realtime tracking of the spectral radius of the Foschini-Miljanic matrix by means of distributed interference measurements. The algorithm design is characterized by an inherent resistant to the effects...
Real-time TrafficArbitrary Timevarying Topologies | Communications | Guaranteed Minimum Signal-to-interference | Multiple Simultaneous Transmissions | PIMRC 2010 |
| Added | 14 Feb 2011 |
| Updated | 14 Feb 2011 |
| Type | Journal |
| Year | 2010 |
| Where | PIMRC |
| Authors | Stepán Kucera, Bing Zhang |
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