Networks (WPANs) Company · January, 2009 Doc: IEEE 802.15-07-0521-02-0006 Slide 2 R. Kohno (NICT,...
Transcript of Networks (WPANs) Company · January, 2009 Doc: IEEE 802.15-07-0521-02-0006 Slide 2 R. Kohno (NICT,...
January, 2009 Doc: IEEE 802.15-07-0521-02-0006
R. Kohno (NICT, Yokohama National University) Slide 1
Project: IEEE P802.15 Working Group for Wireless Personal Area Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (Networks (WPANsWPANs))
Submission Title: [Introduction of Medical ICT Consortium in Japan and Official Liaison for IEEE802.15 TG6]
Date Submitted: [January, 2009]Source: [Ryuji Kohno] Company [National Institute of Information and Communications Technology
(NICT) and Yokohama National University]Contact: Ryuji KohnoVoice:[+81 46 847 5108, E-Mail: [email protected]]Abstract: [This document describe introduction of Medical ICT Consortium in
Japan as an official liaison for IEEE802.15 TG6.] Purpose: [To help discussion in IEEE 802.15.MBAN.]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.
January, 2009 Doc: IEEE 802.15-07-0521-02-0006
R. Kohno (NICT, Yokohama National University) Slide 2
Introduction of Medical ICTConsortium in Japan and Official
Liaison for IEEE802.15 TG6
Ryuji Kohno
National Institute of Information and Communications Technology (NICT),
Yokohama National University
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R. Kohno (NICT, Yokohama National University) Slide 3
Japanese Government Strategy• The 3rd Science and Technology Basic Plan
in Government (FY2006-FY2010)
– Promoting R&D of ICT for safe and reliable social infrastructure including medical infrastructure
• Ubiquitous Network “u-Japan Plan” in MIC(FY2006-FY2010) – Establishing Ubiquitous Ad-Hoc
Network for Medical Service
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R. Kohno (NICT, Yokohama National University) Slide 4
NICT (National Institution of Information Communication Technologies)
Medical ICT ProjectNICT has researched and developed core
technologies for Medical ICT, such as• Biomedical EMC Measurement
– Safety guidelines for human body• Ultra-wideband (UWB) Communications
and Positioning– low-interference RF signals for medical
equipments and human body
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R. Kohno (NICT, Yokohama National University) Slide 5
NICT Medical ICT Project• R&D of Medical Healthcare Systems Based on Advanced Wireless Technologies Useful to Support Medical Treatments and Diagnosis, e.g. BAN (Body Area Network) • Making Guidelines for Wireless ICT for Medical Uses, i.e. EMC, SAR• Promotion of Standard for Medical ICT Systems, e.g. BAN, MICS
Treatments Nano-machines
24Hours monitoring system Evidence based
medical treatments or dosage
:Sensor nodes
Healthcare system provides safety and security by cooperation between inside- and outside-body system.Body Area Network (BAN)
Communication from
out/inside to
in/outside
In-vivo Communication
Emergency !
Sensor network technologies
outside devices
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*Tomoaki Nagaoka,et al., “Development of Realistic High-Resolution Whole-Body Voxel Models of Japanese Adult Males and Females of Average Height and Weight, and Application of Models to Radio-Frequency Electromagnetic-Field Dosimetry ”Physics in Medicine and Biology, Vol.49, pp.1-15, 2004.
EMC Analysis with High-Resolution Whole-Body Voxel Models of Japanese Adult Males and Females
WearableTerminal
Given by NICT EMC NICT EMC CenterCenter Body EMC grouphttp://www2.nict.go.jp/mt/b186/menu.html
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R. Kohno (NICT, Yokohama National University) Slide 7
NICT Medical ICT Projectand Japanese MICT Consortium
NICT Medical ICT Project
-R&D, Standardization,Regulation, Collaboration-
・MICT Technology Institute・ EMC Institute
Japanese MICT ConsortiumJapanese MICT Consortium- Two Major Research Groups
- Four WGs in each Group
over 20 Major
CompaniesUniversities
Yokosuka Research Park (YRP)
MMAC’s Japanese Standardization
Digital Healthcare Aliance; CONTINUACONTINUA
International Standard: IEEE 802/1073/11073
Standardization and Regulation activity
Cooperation of R&D
Collaboration
Proposal & Contribution
MAGNET beyondMOUInternational
Conferences; ISMICT06&07
International ActivitiesDomestic Activities
Japanese regulator
Regulatory Committee
International Regulation:ISO, ITU-R
University of Oulu, FinlandMOUOther projects ,e.g.e-Health, tele-medicine, etc
MOU
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8
Medical ICT ConsortiumNTT-ATOKIOMRON HEALTHCAREOLYMPUS MEDICAL SYSTEMKDDI LAB.SANGIKYO COORPERATIONSIEMENSSHARPTSUMURA RESEARCH LAB.TOSHIBANIPPON SIGNALNETWORK SYSTEMS
HitachiFUJI FILMFUJITSUFUJITSU COMPONENTBUSAN TECHSEL ELECTRONICSPANASONIC (MATSUSITA ELECTRICAL)TERUMOYOKOHAMA NATIONAL UNIVERSITYYOKOHAMA CITY UNIVERSITYNICT
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Ubiquitous Medicine Based on NetworkingUMN (Ubiquitous Medical Network) can perform telemrtering and telecontroling with BAN
Medical Center(HUB Station)
BAN (Body Area Network) can collect any vital information such as EEG, ECG etc in-vitro and in-vivo with wearable and Implanted sensors. BAN can be connected with other networkssuch as WLAN, WPAN, mobile phone networks, and satelliteNetworks for ubiquitous medical healthcare.
Real-time Telemeter Using Satellite Link
ECGECG
EEGEEG
Blood pressureBlood pressure
Carotid pulse
Breathing
BANSer.BAN MedicalServer
BAN/WPAN/ WLAN
BAN
BANBAN
BAN Server Repeat nodeSensor node
BANBAN BANBAN
BAN
VSAT
Mobile Terminal
切替
Terrestrial Digital TV Broadcasting Network
切替
Terrestrial Mobile Cellular Network
Real-time Telemeter Using Land Network
NGN
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Tele-metering of Vital Information and Tele-controlling of Medical devise and Robot
ElectrolyteSensor
CatecholamineSensor Micro capsule endoscope
Micro capsule endoscope
Urinary Output ・Electrolyte Monitor
pHSensor
Oxygen ConcentrationSensor
Intravascular Micro Integrated Sensor
Multi ChannelECG Monitor
Micro-Wireless Transmission Devise
Real-time Transfusion Blending System
Catheter Material ・ImplementationSensor Surface Treating
(Animal Experiment) Nerve Electrode
Drug Dosage System・Uniform Management of MultiDrug Dosage Control・Drug Automatic IdentificationSystem
Duplex Wireless Communication Treatment Strategic Model
Drug Dosage Catheter(5 rumen)BloodstreamSensor
Blood PressureSensor
Ubiquitous Medical Care System & Network
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R. Kohno (NICT, Yokohama National University) Slide 11
Medical Body Area Network (BAN)
Wireless BAN coordinator
Rehabilitation support
Wireless BAN coordinator
Actuator and sensor
Wearable BAN
Healthcare management, advice, and medical treatment
TelemonitoringNetwork
Effective medical treatment is provided by vital information monitoring through wireless BAN.
Implanted BAN
Wireless ICT pace maker using BAN
BAN BAN
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Requirements to Realize Ubiquitous Medical Care Using BAN
• To realize ubiquitous medical care using BAN, an advanced wireless ICT is required, which support energy efficiency, robustness against interference, high reliability & Safety for human body and so on.
1. Technology Requirement;• EMC to protect human body & medical equipments against radio• Propagation analysis & channel modeling of BAN• High precision positioning & broadband communication with high reliability• Highly Secure network to protect privacy of personal vital information2. Regulation Requirement;• Guideline to use wireless BAN safely compliant to both FCC and FDA• New frequency band for medical use 3. Business Requirement;• International standard to expand a market size• Sophisticated Business Models
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Frequency Regulation for Medical Use
BAND for WMT (Wireless Medical Telemeter) in FCC(USA)• 608-614 MHz; Also for radio astronomy and UHF TV• 1395-1400 MHz• 1427-1432 MHz; Also used for non-medical telemetry
Space operation(earth-to-space)[not used]
Space operation(earth-to-space)FixedMobile
1427-1429[MHz]
Mobile uplink(TuKa in TON;Vodafone in others)
FixedMobile
1429-1432[MHz]
Radiolocation[not used]
RadiolocationFixed (Reg 1)Mobile (Reg 1)
1395-1400[MHz]
Broadcasting(TV channel 36)
Broadcasting608-614[MHz]
MIC in JapanITUFrequency
5800
MICS
EU
USA
Japan
204 429402 405 608 614
Korea
440 449 1395 1400 14271429.5
USAJapan
WMTS ISM
2400
UWB
3100 10600USAKorea
JapanEU
(MHz)
World wide
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http://green.ilcc.com/_ismict/
http://www.mict.ynu.ac.jp
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http://www.ismict2007.org/11-13 December, 2007University of Oulu, Finland
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Third International Symposium on Medical ICT(ISMICT2009)
http://www.ismict2009.org/24-26 Feb., 2009
McGill University, Montreal, Canada
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2009 USA-FDA and YCU Workshop on Clinical Approval
Date; 10:00~17:30 March 4, 2009Place; Heborn Hall, Yokohama City UniversityOrganization; Yokohama City University, USA-FDA
ProgramOpening remarksLectures and discussions on BiomarkersBiomarkers for cell therapy productsBiomarkers for cancer vaccines and cell substrate quality, including an overview of ICH activitiesPrognostic biomarkers in various diseases and in transfusion medicineBiomarkers for vaccines for infectious diseasesBiomarkers relevant to drug efficacy and safety Genes related to cellular polarity and their involvement in various diseasesNeuronal differentiation of stem cells and regenerative therapyOther subjects related to biomarkersSpecial Lecture on innovative integration between medical and engineering sciences: Ubiquitous
medicine based on advanced ICT (Information and Communications Technology)Closing remarks
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2009 Symposium on Medical Information and Communications Technology (SMICT2009)-Innovation in Medical ICT for the Future Society-
http://www.mict.ynu.ac.jp/smict2009.htmhttp://gcoe.mict.ynu.ac.jp/
Date: March 5, 2009 10:00-17:30 Free of charge for participation
Venue:Pacifico Yokohama Conference Center, Yokohama, Japan http://www.pacifico.co.jp/english/index.html
Opening (10:00-10:20); Address; Professor Y. Iida, President, YNUGuests; Representatives of MEXT and MIC, President YCU,, Vice-president NICT, Yokohama City, etc.Keynote speeches (10:20-12:00) Prof. Heikki Ruskoaho (U of Oulu), Prof. Yoshio Goshima (YCU), etc.Lunch (12:00-13:15) Posters and ExhibitionsPresentations and Panels - Global MICT innovations in GCOE project -(Keynote talk) 13:15-13:40 Prof. R. Kohno, Leader of GCOE project (Director, MICT Center, YNU)(Part 1) 13:40-15:20 "Innovation in MICT " Coordinator: Prof. N. Yoshikawa, YNUPresentation and panel discussion by, YNU, YCU, UoO, NICT, and more(Part 2) 15:40-17:20 "Human resource development for bridging Medicine and Engineering"Coordinator: Professors Morisihita and Hamagami, YNUPresentation and panel discussion by; YNU, YCU, Duke Univ., MHLW (Japan), UoO, Industry, Hospital
Closing 17:25
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Conclusion• Medical ICT Consortium coordinated by NICT
with over 20 companies has been introduced as an official liaison of IEEE802.15. TG6.
• Medical ICT Consortium has contributed in R&D, regulatory and standardization of medical ICT systems such as BAN.
• Medical ICT Consortium would like to contribute in any activities to make medical ICT systems including BAN successful in business and social services and to make a new regulation and frequency band for medical ICT systems.