doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 1 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: TG6 Closing Report for the Session in July 2009 Date Submitted: July 16, 2009 Source: Arthur Astrin Contact: Arthur Astrin (Astrin Radio) Voice: , Re: TG6 Closing Report for July 2009 Session Abstract: Closing Report for the TG6 Session in July Purpose:To summarize activities during the meeting 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 maybe made publicly available by P

doc.: IEEE Submission IEEE TG6 Body Area Network Closing Report 10th Meeting as a Task Group 6 San Francisco, CA July 16, 2009 July 2009 Arthur Astrin (Astrin Radio)Slide 2

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 3 July 2009 Arthur Astrin (Astrin Radio)Slide 3 Session Merger Results CEA, FT, Thales GE, TI, Philips, Toumaz -> MedWin Three new merged proposal presentations NICT, Meiji, YNU PHY UWB only KETI, Tensorcom, KORPA, (LG Electronics, Mitsubishi ) ETRI, Samsung HBC Others in progress

doc.: IEEE Submission One Tutorial Presentation: Dr. Darrell M Wilson, MD Professor and Chief, Pediatric Endocrinology and Diabetes Stanford University and the Lucile Packard Children's Hospital at Stanford Body Area Network and Diabetes – a template for medical device communication I nternationally known clinical researcher, concentrating in the area of pediatric diabetes and has published over 200 peer reviewed articles and chapters. His initial degree was in electrical engineering, a BS from UC Davis in He has been an IEEE member since the early 1970’s. In his talk he reviewed diabetes disease, discussed current conventional treatment and discuss cutting edge approaches, which include closed loop systems and their problems. He then went over what he envisions as Body Area Network upsides for diabetes and what they envision as important features/functional aspects to such a network. July 2009 Arthur AstrinSlide 4

doc.: IEEE Submission MAC July 2009 Arthur AstrinSlide 5 CSEM277-07WiseMAC IMEC OR388-00dual duty cycling, flexible & power efficient, enhanced slotted Aloha with QoS IMEC GD341-01wakeup receiver, priority-guaranteed MedWin325-02, star topology, time partitioning, beacon, channel migration, security Samsung314-01, piconet co-existence, network management and security, poll based access and Single MAC concept Inha Wakeup by Traffic Patterns and Radio, Security, Multiple PHYs, Bridging Function NICT346-01superframe, TDMA based, non-beacon mode, MICS or wakeup YNU353-01SAR sensitive, positioning, hybrid ARQ, and FEC CUNY ETRI Mod to IEEE , CAP, Contention period DTP: TDMA period, QoS, Fast reservation, Emergency data transmit slot, reliability Priority ETRI CNU347-01Mac for HBC Samsung318-02Mac for HBC Fujitsu Signalling covering Emergency, reliability, congestion and stability and wake up concept

doc.: IEEE Submission PHY UWB July 2009 Arthur AstrinSlide 6 CSEM277-07FM-UWB Meiji355-01Impulse Response UWB IMEC OR CEA-FT-Thales TI ETRI-Samsung NICT YNU353-01Pulsed Chirp UWB

doc.: IEEE Submission PHY Narrowband July 2009 Arthur AstrinSlide 7 ETRI Fujitsu287-01No specific proposal IMEC GD Tensorcom343-00No specific proposal Zarlink KETI KORPA Inha MedWin NICT Motorola

doc.: IEEE Submission Narrowband PHY Interests July 2009 Arthur Astrin (Astrin Radio)Slide = preference D = don’t care X = opposed to inclusion in standard (NONE!) NICT MedWi N INH A IMEC Zarlin k LG/KE TI Fujits u Tensorco m TOTAL MICS / MedRadio 111DD1116 WMTS (USA 600/1400, Japan 400) 1D1DD11D4 ISM 868/900/ D1D6 ISM 2.4 GHz D1111DD15 New MBANS GHz D1D11DD14

doc.: IEEE Submission PHY HBC July 2009 Arthur AstrinSlide 9 Samsung ETRI348-01

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 10 Three Merged Proposal Presentations ETRI-Samsung HBC PHY and MAC YNU-NICT-Meiji (UWB) Merged proposal KETI, Tensorcom, KORPA, (LG Electronics, Mitsubishi) Narrowband PHY and MAC

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 1111 Eight Contribution Presentations Update on the FCC process and key questions and issues raised by the NPRM Suggested TG6’s MAC baseline (for proposal merging discussion) Technical contribution on Human Body Communications Block based PHY and Packet Transmission for Low Data Rate In-body WBAN NICTA Network-to-Network Interference Measurements MICS band rule and multimedia requirement MAC" Channel Model for WBAN Needs of high data rate in-body WBAN

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 1212 Two Motions – To generate IEEE 802 letter supporting FCC NPRM for Medical Body Area Network NPRM motion 1 (Monday) 15-Yes, 0-No, 6-A NPRM motion 2 (Wednesday) 20-Yes, 0-No, 6-A Approved by today. 7=yes, 2=abstain, 0=no David Davenport, GE Healthcare)

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 1313 Private Merge Discussions Numerous off-line merge discussions were carried among different parties for both PHY and MAC. More merge announcements are expected in September meeting.

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 14 Timeline July 2009 Arthur AstrinSlide Issue CFP (Call for Proposals) Close CFP (Call for Proposals) v Hear Proposals >>> Merge Proposals >>>>>> Technical Comments Resolution >>> Draft ready for Letter Ballot >> Letter Ballot (#1) Recirculation

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 15 Will have teleconferences when needed Teleconferences

doc.: IEEE Submission July 2009 Arthur AstrinSlide 16 Plans for September 2009 meeting Continue merging. Hear merged proposals and work on resolving conflicts. Begin drafting straw man baseline Technical editor team

doc.: IEEE Submission July 2009 Arthur Astrin (Astrin Radio)Slide 17 Thank You ! Any Questions ?

doc.: IEEE Submission Purpose of Proposed Standard (PAR ) The purpose of the proposed standard it to provide an international standard for a short range (ie about human body range), low power and highly reliable wireless communication for use in close proximity to, or inside, a human body. Data rates, typically up to 10Mbps, will be offered to satisfy an evolutionary set of entertainment and healthcare services. Current PANs do not meet the medical (proximity to human tissue) and relevant communication regulations for some application environments. They also do not support the combination of reliability (QoS), low power, data rate and noninterference required to broadly address the breadth of body area network applications. July 2009 Arthur Astrin (Astrin Radio)Slide 18

doc.: IEEE Submission Need for the Project (PAR ) There is a need for a standard optimized for ultra low power devices and operation on, in or around the human body to serve a variety of applications including medical and personal entertainment. Examples of the applications served by the proposed standard are: EEG, ECG, EMG, vital signals monitoring (temperature (wearable thermometer), respiratory, wearable heart rate monitor, wearable pulse oximeter, wearable blood pressure monitor, oxygen, pH value, wearable glucose sensor, implanted glucose sensor, cardiac arrhythmia), wireless capsule endoscope (gastrointestinal), wireless capsule for drug delivery, deep brain stimulator, cortical stimulator (visual neuro-stimulator, audio neuro stimulator, Parkinson’s disease, etc…), remote control of medical devices such as pacemaker, actuators, insulin pump, hearing aid (wearable and implanted), retina implants, disability assistance, such as muscle tension sensing and stimulation, wearable weighing scale, fall detection, aiding sport training. This will include body-centric solutions for future wearable computers. In a similar vein, the same technology can provide effective solutions for personal entertainment as well.The existence of a body area network standard will provide opportunities to expand these product features, better healthcare and well being for the users. It will therefore result in economic opportunity for technology component suppliers and equipment manufacturers. July 2009 Arthur Astrin (Astrin Radio)Slide 19