Hamed Farhadi scite author profile

Wang

2013

Abstract-This paper considers joint transceiver design and power control for K-user multiple-input multiple-output (MIMO) interference networks. Each source intends to communicate with its corresponding destination at a fixed data rate. Only local channel side information (i.e. knowledge related to the channels directly connected to a terminal) is available at each terminal. We propose iterative algorithms to perform power control to guarantee successful communication while designing transmitter beamforming matrices and receiver filtering matrices according to the interference alignment concept. The proposed algorithms can exhibit a substantial performance improvement compared to the conventional orthogonal transmission schemes.

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Achieving the Degrees of Freedom of Wireless Multi-User Relay Networks

Wang

2012

IEEE Trans. Commun.

On the throughput of wireless interference networks with limited feedback

Wang

2011

Abstract-Considering a single-antenna M -user interference channel with symmetrically distributed channel gains, when the channel state information (CSI) is globally available, applying the ergodic interference alignment scheme, each transmitterreceiver pair achieves a rate proportional to 1 ⁄2 of a single user's interference-free achievable rate. This is substantially higher than the achievable rate of the conventional orthogonal transmission schemes such as TDMA. Since the rigid requirement on the CSI may be difficult to realize in practice, in this paper we investigate the performance of applying the ergodic interference alignment scheme when the estimation of each channel gain is made globally known through exploiting only a limited feedback signal from the associated receiver of that channel. Under a block fading environment, we provide a lower bound on the achievable average throughput of the network. Our results imply that the better performance of interference alignment over TDMA may still exist even without the assumption of perfect CSI. Also, the trade off between allocating feedback rate of each receiver to the desired channel or the interference channels at deferent SNR region investigated.

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Pilot-assisted ergodic interference alignment for wireless networks

Farhadi¹,

Khormuji

Skoglund³

2014

An adaptive localization technique for wireless capsule endoscopy

Atai

et al. 2016