Cross-layer combining of adaptive pilot-symbol-assisted modulation with truncated automatic repeat request in the presence of imperfect channel state information at both the receiver and the transmitter

R. Barazideh; B. Seyfe

Cross-layer combining of adaptive pilot-symbol-assisted modulation with truncated automatic repeat request in the presence of imperfect channel state information at both the receiver and the transmitter

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Cross-layer combining of adaptive pilot-symbol-assisted modulation with truncated automatic repeat request in the presence of imperfect channel state information at both the receiver and the transmitter

Author(s): R. Barazideh and B. Seyfe
DOI: 10.1049/iet-com.2010.0386

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Author(s): R. Barazideh ¹ and B. Seyfe ¹
- Affiliations: 1: Department of Electrical Engineering, Shahed University, Tehran, Iran
Source: Volume 5, Issue 16, 4 November 2011, p. 2275 – 2284
DOI: 10.1049/iet-com.2010.0386 , Print ISSN 1751-8628, Online ISSN 1751-8636

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In this study the authors provide an adaptive cross-layer design that maximises the spectral efficiency under prescribed quality of services (QoSs) such as error rate and delay. The considered scheme combines adaptive modulation at physical layer with a truncated automatic repeat request at data link layer in the presence of both channel estimation and prediction errors. Both the channel estimation and prediction are done based on adaptive pilot-symbol-assisted modulation in which both pilot spacing and power allocation on pilot symbols are optimised in order to maximise the spectral efficiency. We provide closed-form expression for average spectral efficiency and average packet error rate over Rayleigh fading channel. Numerical results demonstrate that our adaptive cross-layer design improves the spectral efficiency while meeting the prescribed QoS. We have shown that the channel prediction is more important than the channel estimation in order to improve the spectral efficiency in a practical situation. Also we have found that the increment of spectral efficiency decreases on increasing the maximum number of retransmissions, and thus in order to reduce the delay and buffer size at the data link layer, the maximum number of retransmissions are limited to a small number in practice.

References

1. 1)
  - S. Zhou , G.B. Giannakis . How accurate channel prediction needs to be for transmit beamforming with adaptive modulation over Rayleigh MIMO channels?. IEEE Trans. Wirel. Commun. , 4 , 1285 - 1294
2. 2)
  - N.M. Temme . (1996) Special functions: an introduction to the classical functions of mathematical physics.
3. 3)
  - J.K. Cavers . An analysis of pilot symbol assisted modulation for Rayleigh faded channels. IEEE Trans. Veh. Technol. , 686 - 693
4. 4)
  - I.S. Gradshteyn , I.M. Ryzhik . (2000) Table of Integrals, Series, and Products.
5. 5)
  - Barazideh, R., Seyfe, B.: `Adaptive PSAM in SIMO systems with imperfect CSI in Rayleigh fading channels', ACM Int. Conf. on Convergence and Hybrid Information Technology (ICHIT 2009), 2009, Daejeon, Korea, p. 124–129, vol. 321.
6. 6)
  - X. Cai , G.B. Giannakis . Adaptive PSAM accounting for channel estimation and prediction errors. IEEE Trans. Wirel. Commun. , 1 , 246 - 256
7. 7)
  - Nuttall, A.H.: `Some integrals involving the Q', Technical report 4755, May 1972.
8. 8)
  - S. Nagaraj . Adaptive modulation for limited diversity fading channels. IET J. Commun. , 10 , 1675 - 1682
9. 9)
  - K.J. Hole , H. Holm , G.E. Øien . Adaptive multidimensional coded modulation over flat fading channels. IEEE J. Sel. Areas Commun. , 7 , 1153 - 1158
10. 10)
  - S. Wicker . (1995) Error control systems for digital communication and storage.
11. 11)
  - A. Doufexi , S. Armour , M. Butler , A. Nix , D. Bull , J. McGeehan , P. Karlsson . A comparison of the HIPERLAN/2 and IEEE 802.11a wireless LAN standards. IEEE Commun. Mag. , 5 , 172 - 180
12. 12)
  - T.S. Chung , A.J. Goldsmith . Degrees of freedom in adaptive modulation: a unified view. IEEE Trans. Commun. , 9 , 1561 - 1571
13. 13)
  - M.S. Alouini , A.J. Goldsmith . Adaptive modulation over Nakagami fading channels. Wirel. Pers. Commun. , 1 , 119 - 143
14. 14)
  - L. Le , E. Hossain , T. Le-Ngoc . Interaction between radio link level truncated ARQ, and TCP in multi-rate wireless networks: a cross-layer performance analysis. IET J. Commun. , 5 , 821 - 830
15. 15)
  - W.C. Jakes . (1994) Microwave mobile communication.
16. 16)
  - Barazideh, R., Seyfe, B.: `Cross-layer combining of adaptive modulation with truncated ARQ in SIMO systems with imperfect CSI at receiver', IEEE Int. Conf. on Communication System, Network and Application (ICCSNA 2009), August 2009, Sanya, China, 4, p. 321–325.
17. 17)
  - J. Sun , D. Feng Yuan , P. Takis Mathiopoulos . The Adaptive PSAM design in cross-layer. Int. J. Wirel. Pers. Commun. , 3 , 337 - 353
18. 18)
  - A.J. Goldsmith , S.G. Chua . Variable-rate variable-power MQAM for fading channels. IEEE Trans. Commun. , 1218 - 1230
19. 19)
  - Q. Liu , S. Zhou , G.B. Giannakis . Cross-layer combining of adaptive modulation and coding with truncated ARQ over wireless link. IEEE Trans. Wirel. Commun. , 5 , 1746 - 1755
20. 20)
  - H. Minn , M. Zeng , V.K. Bhargava . On ARQ scheme with adaptive error control. IEEE Trans. Veh. Tech. , 6 , 1426 - 1436
21. 21)
  - E. Malkamaki , H. Leib . Performance of truncated type-II hybrid ARQ schemes with noisy feedback over block fading channels. IEEE Trans. Commun. , 1477 - 1487
22. 22)
  - 3GPP TR 25.848 V4.0.0: ‘Physical layer aspects of UTRA high speed downlink packet access (release 4)’, 2001.

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Cross-layer combining of adaptive pilot-symbol-assisted modulation with truncated automatic repeat request in the presence of imperfect channel state information at both the receiver and the transmitter

Cross-layer combining of adaptive pilot-symbol-assisted modulation with truncated automatic repeat request in the presence of imperfect channel state information at both the receiver and the transmitter

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