1. Submission Title: [Super-merged BAN baseline for TG6]
Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)
Submission Title: [Super-merged BAN baseline for TG6]
Date Submitted: [September 24, 2009]
Source:
(1) National Institute of Info. &Tech. (NICT): Ryuji Kohno, Bin zhen, Huan-Bang Li, Marco Hernandez, Igor Dotlic, Shinsuke Hara, Kenichi Takizawa, kamya yazdandoost, Grace Sung, Masahiro Kuroda
(2) Yokohama National University (YNU): Ryuji Kohno, Koji Enda, Shun Nagamine, Hideki Mochizuki, Haruka Suzuki
(3) Meiji University: Tetsushi Ikegami
(4) GE Global Research: David Davenport
(5) GE Healthcare: Neal Seidl
(6) Texas Instruments: Anuj Batra, Jin-Meng Ho, Srinath Hosur, June Chul Roh, Tim Schmidl
(7) Toumaz Technology: Okundu Omeni, Alan Wong; Mark Dawkins
(8) Fujitsu Laboratories of Europe: Hind Munzer-Chebbo, Sunil Vadgama
(9) Fujitsu Laboratories: Ichirou Ida, Kaoru Yokoo
(10) Philips: Jeremy Moss, Maulin Patel
(11) France Telecom: Jean Schwoerer
(12) CEA-LETI: Laurent Ouvry
(13) THALES: Arnaud Tonnerre
(14) LG Electronics: Yongho Seok, Seyeong Choi, Byoung-Hoon Kim
(15) Tensorcom: Ismail Lakkis
(16) Olympus Communication Technology of America: Gang Ding
(17) National Institute of Standards and Technology (NIST) : Kamran Sayrafian, Wenbin Yang
(18) Mitsubishi Electric Research Labs, USA: Zafer Sahinoglu
Contact: Huan-Bang Anuj )
Abstract: [Describe the merged baseline ]
Purpose: [To propose a combined baseline structure for TG15.6]
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

2. Super-merged BAN Baseline for TG6
(1) National Institute of Info. &Tech. (NICT): Ryuji Kohno, Bin zhen, Huan-Bang Li, Marco Hernandez, Igor Dotlic, Shinsuke Hara, Kenichi Takizawa, kamya yazdandoost, Grace Sung, Masahiro Kuroda
(2) Yokohama National University (YNU): Ryuji Kohno, Koji Enda, Shun Nagamine, Hideki Mochizuki,
Haruka Suzuki
(3) Meiji University: Tetsushi Ikegami
(4) GE Global Research: David Davenport
(5) GE Healthcare: Neal Seidl
(6) Texas Instruments: Anuj Batra, Jin-Meng Ho, Srinath Hosur, June Chul Roh, Tim Schmidl
(7) Toumaz Technology: Okundu Omeni, Alan Wong; Mark Dawkins
(8) Fujitsu Laboratories of Europe: Hind Munzer-Chebbo, Sunil Vadgama
(9) Fujitsu Laboratories: Ichirou Ida, Kaoru Yokoo
(10) Philips: Jeremy Moss, Maulin Patel
(11) France Telecom: Jean Schwoerer
(12) CEA-LETI: Laurent Ouvry
(13) THALES: Arnaud Tonnerre
(14) LG Electronics: Yongho Seok, Seyeong Choi, Byoung-Hoon Kim
(15) Tensorcom: Ismail Lakkis
(16) Olympus Communication Technology of America: Gang Ding
(17) National Institute of Standards and Technology (NIST) : Kamran Sayrafian, Wenbin Yang
(18) Mitsubishi Electric Research Labs, USA: Zafer Sahinoglu

3. Motivations Present a super-merged BAN baseline proposal for
Narrow band PHY
UWB PHY
Common MAC
Solicit for new mergers to join in

4. Narrow Band Baseline
Frequency bands: MICS, WMTS (Japan only), MBANS (US) and ISM band compliant with local regulations
Modulations:
Data rates < 100 kbps must be based on GMSK/FSK
Data rates ≥ 100 kbps must be based on differential M-ary PSK
Data rate: No mandatory data rate

5. UWB baseline (1) Frequency bands:
Use both UWB low band ( GHz) and UWB high band
(7.25 – 8.5 GHz). Each band has a mandatory channel to be
specified.
Modulations:
support non-coherent and coherent detection
Burst Position Modulation for non-coherent detection
Differential M-ary PSK for differentially coherent detection for
high QoS applications
Non-coherent mode is mandatory
Define a common preamble for both modulation modes
Data rate:
1Mbps – 10Mbps with 1 Mbps as mandatory

6. UWB baseline (2) Channel coding: Systematic RS for all modulations
Hybrid ARQ for high QoS applications
Pulse shape:
Should have enough similarity to ensure interoperability in the mandatory BPM mode
No mandatory pulse shape
Chirp, chaotic, burst of short pulses, etc. can be used to meet different QoS requirement

7. MAC baseline BAN superframe PAP CAP CFP …….. …… ..
beacon …… ..
PAP
BAN superframe
Configurable superframe structure
Fixed number of allocation slots with equal slot duration
A superframe includes a beacon (if permitted by regulations), PAP, one or two CAP, and a CFP
PAP
Flexible location and duration in the superframe
Only for emergency/alarm message
CAP
CAP is mainly for channel contention
Slotted CSMA or slotted ALOHA
CFP
TDMA based GTS allocation
Scheduled access and improvised access

8. Proposals included in this merge
Hind Chebbo, Saied Abedi, Ichirou Ida, and Kaoru Yokoo, “Proposal for Partial PHY and MAC Including Emergency Management in IEEE ”
(2)
Hind Chebbo, Saied Abedi, Ichirou Ida, and Kaoru Yokoo, “Partial PHY / MAC Proposal for IEEE ”
(3)
Gang Ding, “Olympus MAC Proposal”
(4)
ShinsukeHara, Kenichi Takizawa, Ryuji Kohno, “NICT’sNarrow band PHY proposal for WBAN”
(5)
Marco Hernandez and Ryuji Kohno, “NICT PhySolution: Part 1: IR-UWB”
Jean Schwoerer, Laurent Ouvry, Arnaud Tonnerre, “France Telecom / CEA / Thales final proposal”
David Davenport, Neal Seidl, Jeremy Moss, Maulin Patel, Anuj Batra, Jin-Meng Ho, SrinathHosur, June ChulRoh, Tim Schmidl, OkunduOmeni, Alan Wong, “MedWiN MAC and Security Proposal –Part 2 of 2”

9. Proposals included in this merge
David Davenport, Neal Seidl, Jeremy Moss, Maulin Patel, Anuj Batra, Jin-Meng Ho, SrinathHosur, June ChulRoh, Tim Schmidl, OkunduOmeni, Alan Wong,“MedWiN MAC and Security Proposal –Part 1 of 2”
David Davenport, Neal Seidl, Jeremy Moss, Maulin Patel, Anuj Batra, Jin-Meng Ho, SrinathHosur, June ChulRoh, Tim Schmidl, OkunduOmeni, Alan Wong, “MedWiN MAC and Security Proposal “
David Davenport, Neal Seidl, Jeremy Moss, Maulin Patel, Anuj Batra, Jin-Meng Ho, SrinathHosur, June ChulRoh, Tim Schmidl, OkunduOmeni, Alan Wong“MedWiN “MedWiNPhysical Layer Proposal”
David Davenport, Neal Seidl, Jeremy Moss, Maulin Patel, Anuj Batra, Jin-Meng Ho, SrinathHosur, June ChulRoh, Tim Schmidl, OkunduOmeni, Alan Wong, “MedWiN Physical Layer Proposal”
(12)
June ChulRoh, Anuj Batra, Sudipto Chakraborty,Srinath Hosur, and Timothy Schmidl, “Texas Instruments Impulse Radio UWB Physical Layer Proposal”

10. Proposals included in this merge
Ismail Lakkis, “Low complexity low power GMSK based dual‐mode PHY”
Ryuji Kohno, Koji Enda, Keisuke Sodeyama, Shun Nagamine, Hideki Mochizuki, Haruka suzuki, “YNU PHY and MAC design for WBAN IEEE P ”
Igor Dotlić and Ryuji Kohno, “NICT PhySolution: Part 1: Chirp Pulse Based IR-UWB Physical Layer”
TetsushiIkegami, “Meiji University UWB PHY Proposal for Body Area Network”
(17)
Yongho Seok, Seyong Choi, Byoung-Hoon Kim, et al,, “block based phy and packet transmission for low data rate in body wban”, Slides 30 – 41.