TY - JOUR

T1 - Advances in base- and mobile-station aided cooperative wireless communications

T2 - an overview

AU - Zhang, Rong

AU - Wang, Li

AU - Parr, G.

AU - Aliu, O.G.

AU - Awoseyila, B.

AU - Azarmi, N.

AU - Bhatti, S.

AU - Bodanese, E.

AU - Chen, H.

AU - Dianati, M.

AU - Dutta, A

AU - Fitch, M.

AU - Giridhar, K.

AU - Hailes, S.

AU - Hari, K.V.S.

AU - Imran, M.A

AU - Jagannatham, AK.

AU - Karandikar, A

AU - Kawade, S.

AU - Ali Khan, M.Z.

AU - Kompalli, S.C.

AU - Langdon, P.

AU - Narayanan, B.

AU - Mauthe, Andreas

AU - McGeehan, J.

AU - Mehta, N.

AU - Millet, K.

AU - Moessner, K.

AU - Rajashekar, R.

AU - Ramkumar, B.

AU - Ribeiro, V.

AU - Vasudevan, K.

AU - Hanzo, L.

AU - Bigham, J.

PY - 2013/3/1

Y1 - 2013/3/1

N2 - In recent years, there has been an upsurge of research interest in cooperative wireless communications in both academia and industry. This article presents a simple overview of the pivotal topics in both mobile station (MS)- and base station (BS)- assisted cooperation in the context of cellular radio systems. Owing to the ever-increasing amount of literature in this particular field, this article is by no means exhaustive, but is intended to serve as a roadmap by assembling a representative sample of recent results and to stimulate further research. The emphasis is initially on relay-base cooperation, relying on network coding, followed by the design of cross-layer cooperative protocols conceived for MS cooperation and the concept of coalition network element (CNE)-assisted BS cooperation. Then, a range of complexity and backhaul traffic reduction techniques that have been proposed for BS cooperation are reviewed. A more detailed discussion is provided in the context of MS cooperation concerning the pros and cons of dispensing with high-complexity, power-hungry channel estimation. Finally, generalized design guidelines, conceived for cooperative wireless communications, are presented.

AB - In recent years, there has been an upsurge of research interest in cooperative wireless communications in both academia and industry. This article presents a simple overview of the pivotal topics in both mobile station (MS)- and base station (BS)- assisted cooperation in the context of cellular radio systems. Owing to the ever-increasing amount of literature in this particular field, this article is by no means exhaustive, but is intended to serve as a roadmap by assembling a representative sample of recent results and to stimulate further research. The emphasis is initially on relay-base cooperation, relying on network coding, followed by the design of cross-layer cooperative protocols conceived for MS cooperation and the concept of coalition network element (CNE)-assisted BS cooperation. Then, a range of complexity and backhaul traffic reduction techniques that have been proposed for BS cooperation are reviewed. A more detailed discussion is provided in the context of MS cooperation concerning the pros and cons of dispensing with high-complexity, power-hungry channel estimation. Finally, generalized design guidelines, conceived for cooperative wireless communications, are presented.

KW - cellular radio

KW - channel estimation

KW - cooperative communication

KW - network coding

KW - protocols

KW - relay networks (telecommunication)

KW - CNE-assisted BS cooperation

KW - backhaul traffic reduction technique

KW - base station aided cooperative wireless communication

KW - cellular radio system

KW - coalition network element

KW - crosslayer cooperative protocol design

KW - mobile station aided cooperative wireless communication

KW - relay base cooperation

KW - Computer numerical control

KW - Encoding

KW - Network coding

KW - Protocols

KW - Relays

KW - Throughput

KW - Wireless communication

U2 - 10.1109/MVT.2012.2234254

DO - 10.1109/MVT.2012.2234254

M3 - Journal article

VL - 8

SP - 57

EP - 69

JO - IEEE Vehicular Technology Magazine

JF - IEEE Vehicular Technology Magazine

SN - 1556-6072

IS - 1

ER -