Network Beamforming Using Relays With Perfect Channel Information
Yindi Jing,Hamid Jafarkhani +1 more
TLDR
Simulation shows that network beamforming achieves the maximal diversity order and outperforms other existing schemes.Abstract:
This paper deals with beamforming in wireless relay networks with perfect channel information at the relays, receiver, and transmitter if there is a direct link between the transmitter and receiver. It is assumed that every node in the network has its own power constraint. A two-step amplify-and-forward protocol is used, in which the transmitter and relays not only use match filters to form a beam at the receiver but also adaptively adjust their transmit powers according to the channel strength information. For networks with no direct link, an algorithm is proposed to analytically find the exact solution with linear (in network size) complexity. It is shown that the transmitter should always use its maximal power while the optimal power of a relay ca.n take any value between zero and its maxima. Also, this value depends on the quality of all other channels in addition to the relay's own. Despite this coupling fact, distributive strategies are proposed in which, with the aid of a low-rate receiver broadcast, a relay needs only its own channel information to implement the optimal power control. Then, beamforming in networks with a direct link is considered. When the direct link exists during the first step only, the optimal power control is the same as that of networks with no direct link. For networks with a direct link during the second step only and both steps, recursive numerical algorithms are proposed. Simulation shows that network beamforming achieves the maximal diversity order and outperforms other existing schemes.read more
Citations
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Journal ArticleDOI
Single and multiple relay selection schemes and their achievable diversity orders
Yindi Jing,Hamid Jafarkhani +1 more
TL;DR: Several SNR-suboptimal multiple relay selection schemes are proposed, whose complexity is linear in the number of relays and are proved to achieve full diversity.
Book
Cooperative Communications: Hardware, Channel and PHY
Mischa Dohler,Yonghui Li +1 more
TL;DR: Facilitating Cooperation for Wireless Systems Cooperative Communications: Hardware, Channel & PHY focuses on issues pertaining to the PHY layer of wireless communication networks, offering a rigorous taxonomy of this dispersed field, along with a range of application scenarios for cooperative and distributed schemes, demonstrating how these techniques can be employed.
Journal ArticleDOI
Distributed Beamforming for Physical-Layer Security of Two-Way Relay Networks
TL;DR: This paper addresses the security of a two-way relay network in the presence of an eavesdropper, where each node is only equipped with single antenna, and proposes two-phase distributed analog network coding, or distributed beamforming and power allocation to enhance the secrecy sum rate of the data exchange.
Journal ArticleDOI
Collaborative-Relay Beamforming With Perfect CSI: Optimum and Distributed Implementation
TL;DR: This letter shows that the optimal collaborative-relay beamforming (CRB) solution achieves the full diversity of a MISO antenna system and develops a distributed algorithm that allows each individual relay to learn its own weight, based on the Karush-Kuhn-Tucker (KKT) analysis.
Journal ArticleDOI
Joint Optimization of Cooperative Beamforming and Relay Assignment in Multi-User Wireless Relay Networks
TL;DR: Joint optimization of cooperative beamforming and relay assignment for multi-user multi-relay wireless networks to maximize the minimum of the received signal-to-interference-plus-noise ratios (SINR).
References
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TL;DR: Using distributed antennas, this work develops and analyzes low-complexity cooperative diversity protocols that combat fading induced by multipath propagation in wireless networks and develops performance characterizations in terms of outage events and associated outage probabilities, which measure robustness of the transmissions to fading.
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TL;DR: In this paper, the authors investigate the use of multiple transmitting and/or receiving antennas for single user communications over the additive Gaussian channel with and without fading, and derive formulas for the capacities and error exponents of such channels, and describe computational procedures to evaluate such formulas.
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TL;DR: Results show that, even though the interuser channel is noisy, cooperation leads not only to an increase in capacity for both users but also to a more robust system, where users' achievable rates are less susceptible to channel variations.