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Advances in base- and mobile-station aided cooperative wireless communications: an overview

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published

Standard

Advances in base- and mobile-station aided cooperative wireless communications : an overview. / Zhang, Rong; Wang, Li; Parr, G. et al.

In: IEEE Vehicular Technology Magazine, Vol. 8, No. 1, 01.03.2013, p. 57-69.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Zhang, R, Wang, L, Parr, G, Aliu, OG, Awoseyila, B, Azarmi, N, Bhatti, S, Bodanese, E, Chen, H, Dianati, M, Dutta, A, Fitch, M, Giridhar, K, Hailes, S, Hari, KVS, Imran, MA, Jagannatham, AK, Karandikar, A, Kawade, S, Ali Khan, MZ, Kompalli, SC, Langdon, P, Narayanan, B, Mauthe, A, McGeehan, J, Mehta, N, Millet, K, Moessner, K, Rajashekar, R, Ramkumar, B, Ribeiro, V, Vasudevan, K, Hanzo, L & Bigham, J 2013, 'Advances in base- and mobile-station aided cooperative wireless communications: an overview', IEEE Vehicular Technology Magazine, vol. 8, no. 1, pp. 57-69. https://doi.org/10.1109/MVT.2012.2234254

APA

Zhang, R., Wang, L., Parr, G., Aliu, O. G., Awoseyila, B., Azarmi, N., Bhatti, S., Bodanese, E., Chen, H., Dianati, M., Dutta, A., Fitch, M., Giridhar, K., Hailes, S., Hari, K. V. S., Imran, M. A., Jagannatham, AK., Karandikar, A., Kawade, S., ... Bigham, J. (2013). Advances in base- and mobile-station aided cooperative wireless communications: an overview. IEEE Vehicular Technology Magazine, 8(1), 57-69. https://doi.org/10.1109/MVT.2012.2234254

Vancouver

Zhang R, Wang L, Parr G, Aliu OG, Awoseyila B, Azarmi N et al. Advances in base- and mobile-station aided cooperative wireless communications: an overview. IEEE Vehicular Technology Magazine. 2013 Mar 1;8(1):57-69. doi: 10.1109/MVT.2012.2234254

Author

Zhang, Rong ; Wang, Li ; Parr, G. et al. / Advances in base- and mobile-station aided cooperative wireless communications : an overview. In: IEEE Vehicular Technology Magazine. 2013 ; Vol. 8, No. 1. pp. 57-69.

Bibtex

@article{8d2ba2e0726549c1bd276dd0b00d1f8e,
title = "Advances in base- and mobile-station aided cooperative wireless communications: an overview",
abstract = "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.",
keywords = "cellular radio, channel estimation, cooperative communication, network coding, protocols, relay networks (telecommunication), CNE-assisted BS cooperation, backhaul traffic reduction technique, base station aided cooperative wireless communication, cellular radio system, coalition network element, crosslayer cooperative protocol design, mobile station aided cooperative wireless communication, relay base cooperation, Computer numerical control, Encoding, Network coding, Protocols, Relays, Throughput, Wireless communication",
author = "Rong Zhang and Li Wang and G. Parr and O.G. Aliu and B. Awoseyila and N. Azarmi and S. Bhatti and E. Bodanese and H. Chen and M. Dianati and A Dutta and M. Fitch and K. Giridhar and S. Hailes and K.V.S. Hari and M.A Imran and AK. Jagannatham and A Karandikar and S. Kawade and {Ali Khan}, M.Z. and S.C. Kompalli and P. Langdon and B. Narayanan and Andreas Mauthe and J. McGeehan and N. Mehta and K. Millet and K. Moessner and R. Rajashekar and B. Ramkumar and V. Ribeiro and K. Vasudevan and L. Hanzo and J. Bigham",
year = "2013",
month = mar,
day = "1",
doi = "10.1109/MVT.2012.2234254",
language = "English",
volume = "8",
pages = "57--69",
journal = "IEEE Vehicular Technology Magazine",
issn = "1556-6072",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
number = "1",

}

RIS

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 -