Feb doc:IEEE c Slide 1 Submission Pei Liu, Hisilicon. Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [ The Distributed Contention Access Scheme ] Date Submitted: [Feb ] Source: [Pei Liu, Liang Li ] Company: [Hisilicom Technology Co. Ltd, Vinno Technologies Inc. ] Address: [Nan Tian Bld., No.10 Xinxi. Rd Shang-Di Information Industry Base, Hai-Dain District, Beijing,China ] Voice:[ ], Re: [This document is an updated version of IEEE c] Abstract:[Description the upgraded MAC issues on Chinese WPAN Standard Draft] Purpose:[To encourage discussion.] Notice:This document has been prepared to assist the IEEE P 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 P

Feb doc:IEEE c Slide 2 Submission Pei Liu, Hisilicon. The Features of WAPN Communication  Low data rate and small packets of a single node  Large number of nodes  CSMA/CA mechanism: slotted and unslotted ones. It is necessary to optimize the CAP Scheme to get the better network throughput) The Feasibility to Optimize the CAP Scheme (based on the CAP model and calculation method of throughput)

Feb doc:IEEE c Slide 3 Submission Pei Liu, Hisilicon. Promoting Distributed Contention Access Distributed CAP is promoted to optimize the CAP scheme for: The channel model within CAP; And The calculation method of network throughput; And The performance of network throughput; And Efficiency of total energy utilization of network

Feb doc:IEEE c Slide 4 Submission Pei Liu, Hisilicon. The Distributed Contention Access Scheme (1) The model of CAP optimization The procedure is same as ones in optimization of network calculate the back off number optimization get the time parameters calculate successful CCA probability get the network parameters

Feb doc:IEEE c Slide 5 Submission Pei Liu, Hisilicon. The Distributed Contention Access Scheme (2) The detail CAP optimization steps ： 1.Get the number of devices in the network using the CAP channel model. 2.Calculate the back off number to get optimal network throughput. 3.Optimize the device number in CAP period based on the result of 2 nd step

Feb doc:IEEE c Slide 6 Submission Pei Liu, Hisilicon. The Distributed Contention Access Scheme (3) Get the parameters of a cycle Calculate throughput and average cycle length Calculate optimal back off number Calculate the probability of successful CCA Estimate the device number based on average successful CCA probability Revise the device number in the every successful CCA cycle Optimize the network Procedure of optimal contention access

Feb doc:IEEE c Slide 7 Submission Pei Liu, Hisilicon. Simulation Results of the CAP Optimization (1) Supposed: Some of devices transmit the fixed size packets to the coordinator simultaneously, and Each device can use the distributed CAP for optimization. The initial number of devices is 5, and 80s later, some additional devices are connected into the network Other conditions strictly pursue the ones in CSMA/CA procedure in std

Feb doc:IEEE c Slide 8 Submission Pei Liu, Hisilicon. Simulation Results of the CAP Optimization (2) Case 1: 15 additional devices become active

Feb doc:IEEE c Slide 9 Submission Pei Liu, Hisilicon. Simulation Results of the CAP Optimization (3) Case 2: 35 additional devices become active

Feb doc:IEEE c Slide 10 Submission Pei Liu, Hisilicon. Simulation Summary  Though the calculating method for parameters of CAP is optimized, but the procedure, format and parameters of optimized CAP are same as the  By the CAP optimization from Distributed Contention Access, the throughput of network will reach a new stable optimal value after short-lived fluctuation, even though the device number changes sharply  By the optimization of CAP and throughput, the efficiency of total energy utilization of WPAN is improved.