Optimizing OQPSK Modulation with New C(8,4) Sequence Chip for High Performance WPANs

1. Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [New C(8,4) chip sequence for Multi-rate OQPSK Modulation] Date Submitted: [12, May, 2010] Source: [Francois Chin, Yuen-Sam Kwok, Liang Zhang, Liang Li, Tao Xin, Haitao Liu] Company: [Institute for Infocomm Research, Singapore, Vinno, Huawei, SIMIT] Address: [1 Fusionopolis Way #21-01 Connexis South Tower, Singapore 138632] Voice: [65-6408-2530] FAX: [] E-Mail: [chinfrancois@i2r.a-star.edu.sg, kwokys@i2r.a-star.edu.sg zhangliang@vinnotech.com] Re: [Response to the call for proposal of IEEE 802.15.4G] Abstract: [This presentation compares all proposals for the IEEE802.15.4G standard.] Purpose: [Proposal to IEEE 802.15.4G Task Group] Notice: This document has been prepared to assist the IEEE P802.15. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P802.15. I2R, Vinno

2. Motivation Current (8,4)-DSSS code sequence for high rate mode does not support non-coherent receiver. It is desirable choose a code sequences that supports low-complexity non-coherent receiver. I2R, Vinno

3. Proposed New Symbol-to-Chip Mapping (8-chip Code Set C8) The sequences are related to each other through cyclic shifts and odd-bit inversion I2R, Vinno

4. Other Root Sequences (8-chip C8for Coherent Despreading only) • The following Root Sequences are found through exhaustive search with identical low cross correlation and autocorrelation, in base 10: 9 18 23 29 33 36 46 58 66 71 72 92 111 113 116 123 132 139 142 144 163 183 184 189 197 209 219 222 226 232 237 246 I2R, Vinno

5. Cross-correlation Characteristics for Proposed C8 (a) cross-correlations of all 16 COBI-C8 codes (b) cross-correlation of one COBI-C8 code No modulation; no over-sampling (all in real numbers) I2R, Vinno

6. Cross-correlation Characteristics for Proposed C8 (a) cross-correlations of all 16 COBI-C8 codes (b) cross-correlation of one COBI-C8 code With O-QPSK modulation; 2x over-sampling (complex domain) I2R, Vinno

7. Autocorrelation Characteristics of C8 Autocorrelation of all 16 COBI-C8 sequences No modulation; no over-sampling (all in real numbers) I2R, Vinno

8. Autocorrelation Characteristics of C8 Autocorrelation of all 16 COBI-C8 sequences O-QPSK modulation; 2x over-sampling (complex domain) I2R, Vinno

9. Cross-correlation Characteristics for Current C(8,4) in Std draft (a) cross-correlations of all 16 COBI-C8 codes (b) cross-correlation of one COBI-C8 code No modulation; no over-sampling (all in real numbers) I2R, Vinno

10. Cross-correlation Characteristics for Current C (8,4) in Std draft (a) cross-correlations of all 16 COBI-C8 codes (b) cross-correlation of one COBI-C8 code With O-QPSK modulation; 2x over-sampling (complex domain) I2R, Vinno

11. System Performance Simulation parameters & assumptions: • O-QPSK + Raised cosine pulse shape with roll-off factor = 0.8 • 20 octets in each packet • 20,000 packets for Monte-Carlo simulation • No Sync error • No SFD detection • Both Coherent and Non-coherent demodulation I2R, Vinno

12. Performance Comparison (BER) I2R, Vinno

13. Performance Comparison (PER) I2R, Vinno

14. Summary • New proposed COBI-C8 can support low-complexity non-coherent receiver I2R, Vinno