DSTBC based DF cooperative networks in the presence of timing and frequency offsets

Ali A. Nasir; Hani Mehrpouyan; Salman Durrani; Steven D. Blostein; Rodney A. Kennedy; Bjorn Ottersten

doi:10.1109/SPAWC.2013.6612017

DSTBC based DF cooperative networks in the presence of timing and frequency offsets

Ali A. Nasir, Hani Mehrpouyan, Salman Durrani, Steven D. Blostein, Rodney A. Kennedy, Bjorn Ottersten

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

In decode-and-forward (DF) relaying networks, the received signal at the destination may be affected by multiple impairments such as multiple channel gains, multiple timing offsets (MTOs), and multiple carrier frequency offsets (MCFOs). This paper proposes novel optimal and sub-optimal minimum mean-square error (MMSE) receiver designs at the destination node to detect the signal in the presence of these impairments. Distributed space-time block codes (DSTBCs) are used at the relays to achieve spatial diversity. The proposed sub-optimal receiver uses the estimated values of multiple channel gains, MTOs, and MCFOs, while the optimal receiver assumes perfect knowledge of these impairments at the destination and serves as a benchmark performance measure. To achieve robustness to estimation errors, the estimates statistical properties are exploited at the destination. Simulation results show that the proposed optimal and sub-optimal MMSE compensation receivers achieve full diversity gain in the presence of channel and synchronization impairments in DSTBC based DF cooperative networks.

Original language	English
Title of host publication	2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications, SPAWC 2013
Pages	86-90
Number of pages	5
DOIs	https://doi.org/10.1109/SPAWC.2013.6612017
State	Published - 2013
Externally published	Yes

Publication series

Name	IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC

ASJC Scopus subject areas

Electrical and Electronic Engineering
Computer Science Applications
Information Systems

Access to Document

10.1109/SPAWC.2013.6612017

Cite this

Nasir, A. A., Mehrpouyan, H., Durrani, S., Blostein, S. D., Kennedy, R. A., & Ottersten, B. (2013). DSTBC based DF cooperative networks in the presence of timing and frequency offsets. In 2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications, SPAWC 2013 (pp. 86-90). Article 6612017 (IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC). https://doi.org/10.1109/SPAWC.2013.6612017

@inproceedings{22dfc0d511a8401c8c6a139a0eadecfe,

title = "DSTBC based DF cooperative networks in the presence of timing and frequency offsets",

abstract = "In decode-and-forward (DF) relaying networks, the received signal at the destination may be affected by multiple impairments such as multiple channel gains, multiple timing offsets (MTOs), and multiple carrier frequency offsets (MCFOs). This paper proposes novel optimal and sub-optimal minimum mean-square error (MMSE) receiver designs at the destination node to detect the signal in the presence of these impairments. Distributed space-time block codes (DSTBCs) are used at the relays to achieve spatial diversity. The proposed sub-optimal receiver uses the estimated values of multiple channel gains, MTOs, and MCFOs, while the optimal receiver assumes perfect knowledge of these impairments at the destination and serves as a benchmark performance measure. To achieve robustness to estimation errors, the estimates statistical properties are exploited at the destination. Simulation results show that the proposed optimal and sub-optimal MMSE compensation receivers achieve full diversity gain in the presence of channel and synchronization impairments in DSTBC based DF cooperative networks.",

author = "Nasir, \{Ali A.\} and Hani Mehrpouyan and Salman Durrani and Blostein, \{Steven D.\} and Kennedy, \{Rodney A.\} and Bjorn Ottersten",

year = "2013",

doi = "10.1109/SPAWC.2013.6612017",

language = "English",

isbn = "9781467355773",

series = "IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC",

pages = "86--90",

booktitle = "2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications, SPAWC 2013",

}

Nasir, AA, Mehrpouyan, H, Durrani, S, Blostein, SD, Kennedy, RA & Ottersten, B 2013, DSTBC based DF cooperative networks in the presence of timing and frequency offsets. in 2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications, SPAWC 2013., 6612017, IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC, pp. 86-90. https://doi.org/10.1109/SPAWC.2013.6612017

DSTBC based DF cooperative networks in the presence of timing and frequency offsets. / Nasir, Ali A.; Mehrpouyan, Hani; Durrani, Salman et al.
2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications, SPAWC 2013. 2013. p. 86-90 6612017 (IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - DSTBC based DF cooperative networks in the presence of timing and frequency offsets

AU - Nasir, Ali A.

AU - Mehrpouyan, Hani

AU - Durrani, Salman

AU - Blostein, Steven D.

AU - Kennedy, Rodney A.

AU - Ottersten, Bjorn

PY - 2013

Y1 - 2013

N2 - In decode-and-forward (DF) relaying networks, the received signal at the destination may be affected by multiple impairments such as multiple channel gains, multiple timing offsets (MTOs), and multiple carrier frequency offsets (MCFOs). This paper proposes novel optimal and sub-optimal minimum mean-square error (MMSE) receiver designs at the destination node to detect the signal in the presence of these impairments. Distributed space-time block codes (DSTBCs) are used at the relays to achieve spatial diversity. The proposed sub-optimal receiver uses the estimated values of multiple channel gains, MTOs, and MCFOs, while the optimal receiver assumes perfect knowledge of these impairments at the destination and serves as a benchmark performance measure. To achieve robustness to estimation errors, the estimates statistical properties are exploited at the destination. Simulation results show that the proposed optimal and sub-optimal MMSE compensation receivers achieve full diversity gain in the presence of channel and synchronization impairments in DSTBC based DF cooperative networks.

AB - In decode-and-forward (DF) relaying networks, the received signal at the destination may be affected by multiple impairments such as multiple channel gains, multiple timing offsets (MTOs), and multiple carrier frequency offsets (MCFOs). This paper proposes novel optimal and sub-optimal minimum mean-square error (MMSE) receiver designs at the destination node to detect the signal in the presence of these impairments. Distributed space-time block codes (DSTBCs) are used at the relays to achieve spatial diversity. The proposed sub-optimal receiver uses the estimated values of multiple channel gains, MTOs, and MCFOs, while the optimal receiver assumes perfect knowledge of these impairments at the destination and serves as a benchmark performance measure. To achieve robustness to estimation errors, the estimates statistical properties are exploited at the destination. Simulation results show that the proposed optimal and sub-optimal MMSE compensation receivers achieve full diversity gain in the presence of channel and synchronization impairments in DSTBC based DF cooperative networks.

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T3 - IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC

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Nasir AA, Mehrpouyan H, Durrani S, Blostein SD, Kennedy RA, Ottersten B. DSTBC based DF cooperative networks in the presence of timing and frequency offsets. In 2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications, SPAWC 2013. 2013. p. 86-90. 6612017. (IEEE Workshop on Signal Processing Advances in Wireless Communications, SPAWC). doi: 10.1109/SPAWC.2013.6612017

DSTBC based DF cooperative networks in the presence of timing and frequency offsets

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