Melda Yüksel scite author profile

We consider a general multiple antenna network with multiple sources, multiple destinations and multiple relays in terms of the diversity-multiplexing tradeoff (DMT). We examine several subcases of this most general problem taking into account the processing capability of the relays (half-duplex or full-duplex), and the network geometry (clustered or non-clustered). We first study the multiple antenna relay channel with a full-duplex relay to understand the effect of increased degrees of freedom in the direct link. We find DMT upper bounds and investigate the achievable performance of decode-and-forward (DF), and compress-and-forward (CF) protocols. Our results suggest that while DF is DMT optimal when all terminals have one antenna each, it may not maintain its good performance when the degrees of freedom in the direct link is increased, whereas CF continues to perform optimally. We also study the multiple antenna relay channel with a half-duplex relay. We show that the half-duplex DMT behavior can significantly be different from the full-duplex case. We find that CF is DMT optimal for half-duplex relaying as well, and is the first protocol known to achieve the halfduplex relay DMT. We next study the multiple-access relay channel (MARC) DMT. Finally, we investigate a system with a single source-destination pair and multiple relays, each node with a single antenna, and show that even under the idealistic assumption of full-duplex relays and a clustered network, this virtual multi-input multi-output (MIMO) system can never fully mimic a real MIMO DMT. For cooperative systems with multiple sources and multiple destinations the same limitation remains to be in effect. Index Terms-cooperation, diversity-multiplexing tradeoff, fading channels, multiple-input multiple-output (MIMO), relay channel, wireless networks. Melda Yuksel [S'98] received her B.S. degree in Electrical and Electronics Melda Yuksel is the recipient of the best paper award in the Communication Theory Symposium of ICC 2007. Her research interests include communication theory and information theory and more specifically cooperative communications, network information theory and information theoretic security over communication channels. Elza Erkip [S'93, M'96, SM'05] received the Ph.D. and M.S. degrees in Electrical Engineering from Stanford University, and the B.

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Broadcast strategies for the fading relay channel

Yüksel¹,

Erkip²

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Diversity-multiplexing tradeoff for the multiple-antenna wire-tap channel

Yüksel

Erkip

2008

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Abstract-In this paper the fading multiple antenna (MIMO) wire-tap channel is investigated under short term power constraints. The secret diversity gain and the secret multiplexing gain are defined. Using these definitions, the secret diversitymultiplexing tradeoff (DMT) is calculated analytically for no transmitter side channel state information (CSI) and for full CSI. When there is no CSI at the transmitter, under the assumption of Gaussian codebooks, it is shown that the eavesdropper steals both transmitter and receiver antennas, and the secret DMT depends on the remaining degrees of freedom. When CSI is available at the transmitter (CSIT), the eavesdropper steals only transmitter antennas. This dependence on the availability of CSI is unlike the DMT results without secrecy constraints, where the DMT remains the same for no CSI and full CSI at the transmitter under short term power constraints. A zero-forcing type scheme is shown to achieve the secret DMT when CSIT is available.

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The Relay Channel with a Wire-tapper

Yüksel¹,

Erkip²

2007

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In this work a relay channel with a wire-tapper is studied for both discrete memoryless and Gaussian channels. The wire-tapper receives a physically degraded version of the destination's signal. We find inner and outer bounds for the capacity-equivocation rate region. We also argue that when the destination receives a physically degraded version of the relay's signal, inner and outer bounds meet for some special cases.

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Melda Yüksel

Multiple-Antenna Cooperative Wireless Systems: A Diversity–Multiplexing Tradeoff Perspective

Broadcast strategies for the fading relay channel

Diversity-multiplexing tradeoff for the multiple-antenna wire-tap channel

The Relay Channel with a Wire-tapper

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Resources

About

Melda Yüksel

Multiple-Antenna Cooperative Wireless Systems: A Diversity&#x2013;Multiplexing Tradeoff Perspective

Broadcast strategies for the fading relay channel

Diversity-multiplexing tradeoff for the multiple-antenna wire-tap channel

The Relay Channel with a Wire-tapper

Contact Info

Product

Resources

About

Multiple-Antenna Cooperative Wireless Systems: A Diversity–Multiplexing Tradeoff Perspective