Presentation is loading. Please wait.

Presentation is loading. Please wait.

Submission doc.: IEEE 802.11-14/0553r0 Slide 1 Enhancing Performance of Hybrid-ARQ with Linear Constellation Precoding Date: 2015-05-03 Authors: Muhammad.

Published byRobyn Fitzgerald Modified over 9 years ago

Similar presentations

Presentation on theme: "Submission doc.: IEEE 802.11-14/0553r0 Slide 1 Enhancing Performance of Hybrid-ARQ with Linear Constellation Precoding Date: 2015-05-03 Authors: Muhammad."— Presentation transcript:

1 Submission doc.: IEEE 802.11-14/0553r0 Slide 1 Enhancing Performance of Hybrid-ARQ with Linear Constellation Precoding Date: 2015-05-03 Authors: Muhammad Mehboob Fareed, KAUST

2 Submission doc.: IEEE 802.11-14/0553r0 Agenda Abstract Existing Schemes Code Combining Constellation Rearrangement New Scheme LCP-HARQ Bit Error Rate Comparison Throuhput Comparison Conclusion References Slide 2Muhammad Mehboob Fareed, KAUST

3 Submission doc.: IEEE 802.11-14/0553r0 Slide 3 Abstract In this work we propose a novel hybrid-ARQ scheme, which outperforms Code combining (CC) and Constellation rearrangement (CoRe) in both packet error rate performance and transmission throughput over a wide range of SNR values. The proposed scheme uses linear constellation precoding (LCP) to construct symbol vectors for transmission and re-transmissions. Muhammad Mehboob Fareed, KAUST

4 Submission doc.: IEEE 802.11-14/0553r0 May 2005 Muhammad Mehboob Fareed, KAUSTSlide 4 Code combining (CC)-HARQ [Chase1985] Same information is sent in successive retransmissions and maximal ratio combining (MRC) is done at the receiver to decode the data.

5 Submission doc.: IEEE 802.11-14/0553r0 Constellation Rearrangement (CoRe) [Wengerter2004] Observation: Different protection levels are offered to different bits in higher order modulations. Example (16-QAM): Two of the four bits in a symbol have a higher probability of error than the other two bits. CoRe: Average the reliability of different bits over successive transmissions by swapping the position and/or negation of the least significant bits (LSB). Slide 5Muhammad Mehboob Fareed, KAUST May 2005

6 Submission doc.: IEEE 802.11-14/0553r0 Slide 6Muhammad Mehboob Fareed, KAUST May 2005 CoRe (cont.) CoRe Example: ● Adopted in 3G and 4G communication standard o HSDPA transmission mode of the universal mobile telecommunications systems (UMTS) [3GPP], o WiMax IEEE 802.16m.

7 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 7 New Scheme LCP-HARQ ● A distinct vector is chosen from a pre-constructed codebook for transmission of every B input information bits, and elements of this vector are transmitted one by one in case a NACK is received from the destination.

8 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 8 Codebook Construction

9 Submission doc.: IEEE 802.11-14/0553r0 Example Target: 4 bits/transmissionTarget: 6 bits/transmission May 2005 Muhammad Mehboob Fareed, KAUSTSlide 9

10 Submission doc.: IEEE 802.11-14/0553r0 Advantage of LCP-HARQ Slide 10Muhammad Mehboob Fareed, KAUST May 2005 b1b2b1b2 b3b4b3b4 b5b6b5b6 1 st time 2 nd time 3 rd time

11 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 11 Bit Error Rate Comparison ● AWGN Channel ● CC and CoRe 64-QAM ● LCP-HARQ (N = 4, L = 3) New scheme outperforms CC and CoRe schemes by 6.5 dB and 4.2 dB, respectively, at target BER = 10 -3.

12 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 12 Bit Error Rate Comparison (cont.) ● Rayleigh Channel ● CC and CoRe 64-QAM ● LCP-HARQ (N = 4, L = 3) New scheme outperforms CC and CoRe schemes by 5 dB and 2.5 dB, respectively, at a target BER = 10 -3.

13 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 13 Throughput Comparison

14 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 14 Conclusion ● New scheme with ● ML decoder complexity: M search operations (Same as CC-HARQ and CoRe-HARQ ) ● Outperforms CC and CoRe schemes by 6.5 dB and 4.2 dB, respectively, at target BER = 10 -3. ● Higher throughput as compared to CC and CoRe schemes.

15 Submission doc.: IEEE 802.11-14/0553r0May 2005 Muhammad Mehboob Fareed, KAUSTSlide 15 References [Chase1985] D. Chase, “Code combining–a maximum-likelihood decoding approach for combining an arbitrary number of noisy packets,” IEEE Trans. Commun., vol. 33, no. 5, pp. 385–393, May 1985. [Wengerter2004] C. Wengerter, A. von Elbwart, and E. Seidel, “Constellation rearrangement: Enhancement for multilevel modulation formats and transmit diversity,” Wireless Personal Communications, vol. 29, no. 1-2, pp. 35–45, 2004. 3GPP, Universal Mobile Telecommunications System (UMTS);. Multiplexing and Channel Coding (FDD). ETSI, 2002. Panasonic, “Enhanced HARQ method with signal constellation rearrangement,” in TSG-RAN Working Group 1 Meeting, Las Vegas, USA, February 2001.

Download ppt "Submission doc.: IEEE 802.11-14/0553r0 Slide 1 Enhancing Performance of Hybrid-ARQ with Linear Constellation Precoding Date: 2015-05-03 Authors: Muhammad."

Similar presentations

Doc.: IEEE 802.11-13/0111r0 Zhanji Wu, et. Al. December 2012 Submission A Physical-layer Network Coding Relay scheme for IEEE 802.11 Date: 2013-01-11 Authors:

Doc.: IEEE /0111r0 Zhanji Wu, et. Al. December 2012 Submission A Physical-layer Network Coding Relay scheme for IEEE Date: Authors:
Doc.: IEEE 11-13-1308-00-0wng-r1 Contribution Labeling Diversity Date: 2013-11-12 November 2013 Maciej Krasicki (Poznan University of Technology)Slide.

Doc.: IEEE wng-r1 Contribution Labeling Diversity Date: November 2013 Maciej Krasicki (Poznan University of Technology)Slide.
4/22/2002 George Wai Wong 1 Future Mobile Communications beyond 3G Systems A Multicarrier CDMA Architecture Based on Orthogonal Complementary Codes Prepared.

4/22/2002 George Wai Wong 1 Future Mobile Communications beyond 3G Systems A Multicarrier CDMA Architecture Based on Orthogonal Complementary Codes Prepared.
2005/12/06OPLAB, Dept. of IM, NTU1 Optimizing the ARQ Performance in Downlink Packet Data Systems With Scheduling Haitao Zheng, Member, IEEE Harish Viswanathan,

2005/12/06OPLAB, Dept. of IM, NTU1 Optimizing the ARQ Performance in Downlink Packet Data Systems With Scheduling Haitao Zheng, Member, IEEE Harish Viswanathan,
Hybrid-ARQ structure for IEEE802.16m IEEE 802.16 Presentation Submission Template (Rev. 9) Document Number: IEEE S802.16m-08/412 Date Submitted: 2008-5-14.

Hybrid-ARQ structure for IEEE802.16m IEEE Presentation Submission Template (Rev. 9) Document Number: IEEE S802.16m-08/412 Date Submitted:
Doc.: IEEE 802.11-11/0064r0 Submission Shogo Fujita, Kyushu Inst. Of Tech. Slide 1 Modulo Precoding for 11ac Date: 2011-01-17 Authors: January 2011.

Doc.: IEEE /0064r0 Submission Shogo Fujita, Kyushu Inst. Of Tech. Slide 1 Modulo Precoding for 11ac Date: Authors: January 2011.
Noise Cancelation for MIMO System Prepared by: Heba Hamad Rawia Zaid Rua Zaid Supervisor: Dr.Yousef Dama.

Noise Cancelation for MIMO System Prepared by: Heba Hamad Rawia Zaid Rua Zaid Supervisor: Dr.Yousef Dama.
Submission May, 2000 Doc: IEEE802.11-00 / 086 Steven Gray, Nokia Slide Brief Overview of Information Theory and Channel Coding Steven D. Gray 1.

Submission May, 2000 Doc: IEEE / 086 Steven Gray, Nokia Slide Brief Overview of Information Theory and Channel Coding Steven D. Gray 1.
Diversity Combining Technique for Soft Handoff in OFDMA Cellular Systems Xiu-Sheng Li and Yuh-Ren Tsai Presented by Xiu-Sheng Li ( 李修聖 ) 2007 05 18 Wireless.

Diversity Combining Technique for Soft Handoff in OFDMA Cellular Systems Xiu-Sheng Li and Yuh-Ren Tsai Presented by Xiu-Sheng Li ( 李修聖 ) Wireless.
Space Time Block Codes Poornima Nookala.

Space Time Block Codes Poornima Nookala.
HKUST - 1 - Combined Cross-Layer Design and HARQ for TDD Multiuser systems with Outdated CSIT Rui Wang & Vincent K. N. Lau Dept. of ECE The Hong Kong University.

HKUST Combined Cross-Layer Design and HARQ for TDD Multiuser systems with Outdated CSIT Rui Wang & Vincent K. N. Lau Dept. of ECE The Hong Kong University.
Random coding for wireless multicast Brooke Shrader and Anthony Ephremides University of Maryland Joint work with Randy Cogill, University of Virginia.

Random coding for wireless multicast Brooke Shrader and Anthony Ephremides University of Maryland Joint work with Randy Cogill, University of Virginia.
Submission doc.: IEEE 11-12/0844r0 Slide 1 Non-linear Multiuser MIMO for next generation WLAN Date: 2012-07-13 Authors: Shoichi Kitazawa, ATR.

Submission doc.: IEEE 11-12/0844r0 Slide 1 Non-linear Multiuser MIMO for next generation WLAN Date: Authors: Shoichi Kitazawa, ATR.
Doc.: IEEE 802.11-14/1387 r0 Submission November 2014 Packet Encoding Solution for 45GHz Date: 2014-11-02 Authors: NameAffiliationsAddressPhoneEmail Liguang.

Doc.: IEEE /1387 r0 Submission November 2014 Packet Encoding Solution for 45GHz Date: Authors: NameAffiliationsAddressPhone Liguang.
On the Coded Complex Field Network Coding Scheme for Multiuser Cooperative Communications with Regenerative Relays Caixi 2011-09-26 Key Lab of Information.

On the Coded Complex Field Network Coding Scheme for Multiuser Cooperative Communications with Regenerative Relays Caixi Key Lab of Information.
Constellation Rearrangement for IEEE802.16m IEEE 802.16 Presentation Submission Template (Rev. 9) Document Number: IEEE S802.16m-08/807 Date Submitted:

Constellation Rearrangement for IEEE802.16m IEEE Presentation Submission Template (Rev. 9) Document Number: IEEE S802.16m-08/807 Date Submitted:
Automatic Rate Adaptation Aditya Gudipati & Sachin Katti Stanford University 1.

Automatic Rate Adaptation Aditya Gudipati & Sachin Katti Stanford University 1.
Doc.: IEEE 802.11-02/180r0 Submission March 2002 Monisha Ghosh, et al., Philips Slide 1 On The Use Of Multiple Antennae For 802.11 Monisha Ghosh, Xuemei.

Doc.: IEEE /180r0 Submission March 2002 Monisha Ghosh, et al., Philips Slide 1 On The Use Of Multiple Antennae For Monisha Ghosh, Xuemei.
Wireless Mobile Communication and Transmission Lab. Chapter 8 Application of Error Control Coding.

Wireless Mobile Communication and Transmission Lab. Chapter 8 Application of Error Control Coding.
Sphere Decoding Algorithm for MIMO Detection Arslan Zulfiqar.

Sphere Decoding Algorithm for MIMO Detection Arslan Zulfiqar.

Similar presentations

Ads by Google