Ehsan Karamad scite author profile

This paper investigates quantization of channel state information (CSI) and bit allocation across wireless links in a multi-source, single-relay cooperative cellular network. Our goal is to minimize the loss in performance, measured as the achievable sum rate, due to limited-rate quantization of CSI.We develop both a channel quantization scheme and allocation of limited feedback bits to the various wireless links. We assume that the quantized CSI is reported to a central node responsible for optimal resource allocation. We first derive tight lower and upper bounds on the difference in rates between the perfect CSI and quantized CSI scenarios. These bounds are then used to derive an effective quantizer for arbitrary channel distributions. Next, we use these bounds to optimize the allocation of bits across the links subject to a budget on total available quantization bits. In particular, we show that the optimal bit allocation algorithm allocates more bits to those links in the network that contribute the most to the sum-rate. Finally, the paper investigates the choice of the central node; we show that this choice plays a significant role in CSI bits required to achieve a target performance level.

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On the Stability of Distributed Power Control Algorithms Under Imperfect Estimation of Channel and Interference

Karamad

Adve

2017

IEEE Trans. Commun.

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Ehsan Karamad

A modified 802.11-based MAC scheme to assure fair access for vehicle-to-roadside communications

Performance analysis of IEEE 802.11 DCF and 802.11e EDCA based on queueing networks

Optimizing placements of backhaul hubs and orientations of antennas in small cell networks

Quantization and Bit Allocation for Channel State Feedback in Relay-Assisted Wireless Networks

On the Stability of Distributed Power Control Algorithms Under Imperfect Estimation of Channel and Interference

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