Presentation is loading. Please wait.

Presentation is loading. Please wait.

M2M Communication Hálózati és szolgáltatási architektúrák szeminárium 2015-02-27 Perlaky Zoltán.

Published byCecily Scott Modified over 8 years ago

Similar presentations

Presentation on theme: "M2M Communication Hálózati és szolgáltatási architektúrák szeminárium 2015-02-27 Perlaky Zoltán."— Presentation transcript:

1 M2M Communication Hálózati és szolgáltatási architektúrák szeminárium 2015-02-27 Perlaky Zoltán

2 2015-02-27M2M Communication2 Overview M2M? Example: eCall M2M ? IoT M2M roots Device characteristics Devices ↔ Applications M2M Maturity Standards Organizations ETSI M2M standard specifications ETSI M2M Architecture TC M2M – High Level Architecture Network misalignment Communication in M2M area network oneM2M

3 2015-02-27M2M Communication3 M2M? M? Machine/Mobile/Man M2(CN2)M Machine – to – Communication Network – to – machine  elastic boundaries  Who is in command? Human or device? (Smartphone vs Smart metering, Kindle browsing vs buying eBook) [1] p.2–3.

4 2015-02-27M2M Communication4 Example: eCall http://itcafe.hu/dl/cnt/2014-06/109581/ecallinfo_png.jpg http://itcafe.hu/dl/cnt/2014-06/109581/ecallinfo_png.jpg http://www.heero-pilot.eu/view/en/ecall.htmlhttp://www.heero-pilot.eu/view/en/ecall.html

5 2015-02-27M2M Communication5 M2M ? IoT Overlap Boundaries not exact Specific areas exist IoT: objects/things that may or may not be in M2M relationship with an ICT system. Example: Passive object (RFID), not able to communicate directly. M2M relationship ends with the scanner capable of reading the RFID.

6 2015-02-27M2M Communication6 M2M roots Telemetry Telecommunication + measurements (etym: Greek tele /remote/ + Greek metron /measure/)  Meteorology  Energy providers  Rocketry  Space science http://en.wikipedia.org/wiki/Telemetry Telematics Telecommunication + informatics (etym: Greek tele /remote/ + Greek matos /automaton/)  Tracking (vehicle, trailer, container)  Fleet management  Satellite navigation http://en.wikipedia.org/wiki/Telematics

7 2015-02-27M2M Communication7 Device characteristics Multitude  several magnitude more M2M than Human2Device  Scalability? (#devices, NW load, data usage & pattern) Variety/diverse requirements  computing/communication cap. Invisibility  No human control. Mngmt? Criticality  Life savers (eHealth, electricity) Intrusiveness  Privacy Constrained Devices (IETF):  Low cost  Low CPU  Low memory  Low data rate  Low power (battery)  Small size (less battery) Other constrains:  Embedded inside sg. or hostile/secure env.  Lifetime ICT device < car < house

8 2015-02-27M2M Communication8 Devices ↔ Applications http://beechamtech.com/wp-content/uploads/2013/10/M2M1.jpg

9 2015-02-27M2M Communication9 M2M Maturity [1] p.9.

10 2015-02-27M2M Communication10 Standards Organizations [1] p.18.

11 2015-02-27M2M Communication11 ETSI M2M standard specifications http://www.etsi.org/technologies-clusters/technologies/m2m [2] p.30.

12 2015-02-27M2M Communication12 ETSI M2M Architecture https://duniaelectronic.files.wordpress.com/2013/11/etsi-simple-m2m-architecture.jpg

13 2015-02-27M2M Communication13 TC M2M – High Level Architecture mId mIa dIa M2M Application Server #1 M2M Service Capabilities Layer (SCL ) M2M Gateway M2M Device M2M SCL M2M Device WIRELESS MOBILE FIXED.. OTHER M2M AREA NETWORK App. Client (Device) M2M SCL App. Client (Gateway) App. Client (Device) dIa M2M Application Server #2 M2M Application Server #n Proprietary M2M Device Proprietary Interface WIDE AREA NETWORK

14 2015-02-27M2M Communication14 Network misalignment Current stage of M2M deployments is mainly wireless/cellular network. Advantages of using cellular:  “built-in features” authentication / security / (tracking)  In some cases mobility Misalignment: Currently used NWs are optimized for different requirements.  Not designed for that many devices.  Most (~90%) deployed devices are stationary, do not require roaming capability or location tracking (which is cumbersome and waste radio resources and power).  Not designed for that kind of usage/traffic. Small amounts (nx100B) of data, enormous control overhead (handshakes for radio access / authentication / security / IP address / QoS params / …; data bearer establishment and teardown 20+ handshakes + TCP handshakes)  In some cases (Smart Grid) latency < 10ms [1] p.8., p.14-15.,

15 2015-02-27M2M Communication15 Communication in M2M area network Wireless  3G http://en.wikipedia.org/wiki/3Ghttp://en.wikipedia.org/wiki/3G  4G http://en.wikipedia.org/wiki/4Ghttp://en.wikipedia.org/wiki/4G  5G http://en.wikipedia.org/wiki/5Ghttp://en.wikipedia.org/wiki/5G  IEEE 802.16p WiMAX Enhancements to Support M2M Applications http://en.wikipedia.org/wiki/IEEE_802.16 http://en.wikipedia.org/wiki/IEEE_802.16  IEEE 802.11ah (sensor NWs, in progress) http://en.wikipedia.org/wiki/IEEE_802.11ahhttp://en.wikipedia.org/wiki/IEEE_802.11ah  6LoWPAN (IPv6 Low Power Wireless) http://en.wikipedia.org/wiki/6LoWPANhttp://en.wikipedia.org/wiki/6LoWPAN  IEEE 802.15.4 http://en.wikipedia.org/wiki/IEEE_802.15.4http://en.wikipedia.org/wiki/IEEE_802.15.4  ZigBee http://en.wikipedia.org/wiki/ZigBeehttp://en.wikipedia.org/wiki/ZigBee  Z-Wave http://en.wikipedia.org/wiki/Z-Wavehttp://en.wikipedia.org/wiki/Z-Wave  BT especially low energy v4.0 – v4.2 http://en.wikipedia.org/wiki/Bluetooth#Bluetooth_v4.0http://en.wikipedia.org/wiki/Bluetooth#Bluetooth_v4.0  KNX http://en.wikipedia.org/wiki/KNX_%28standard%29http://en.wikipedia.org/wiki/KNX_%28standard%29  Wireless M-BUS http://en.wikipedia.org/wiki/Meter-Bushttp://en.wikipedia.org/wiki/Meter-Bus Wired  KNX http://en.wikipedia.org/wiki/KNX_%28standard%29http://en.wikipedia.org/wiki/KNX_%28standard%29  PLC (Power Line Communication) http://en.wikipedia.org/wiki/Power-line_communicationhttp://en.wikipedia.org/wiki/Power-line_communication  M_BUS http://en.wikipedia.org/wiki/Meter-Bushttp://en.wikipedia.org/wiki/Meter-Bus [1] p.13., [2] p.4., p.14.

16 2015-02-27M2M Communication16 oneM2M Global partnership of telecommunication standards organizations (formed 2012) “February 4, 2015: The era of widespread deployment of Machine-to-Machine (M2M) technology and the foundation for the Internet of Things (IoT) advanced significantly today when oneM2M, the global standards initiative for M2M and the IoT, issued its Release 1 global standards.” http://www.onem2m.org/news-events/news/53-the-rise-of-the-machines-world-s-first-global-standards-for-m2m-deployment http://www.onem2m.org/technical/published-documents

17 2015-02-27M2M Communication17 Summary Standardization is mainly done B2B Apps exists B2C Apps to come

18 2015-02-27M2M Communication18 Infographics Internet live stats: http://www.internetlivestats.com/ Future of a connected field technician: https://blog.dashburst.com/infographic/m2m-field-tech-infographic/ Cisco The Internet of Things: http://share.cisco.com/internet-of-things.html

19 2015-02-27M2M Communication19 Sources [1] M2M Communications: A Systems Approach, First Edition., Edited by David Boswarthick, Omar Elloumi and Olivier Hersent., Published 2012 by John Wiley & Sons, Ltd. [2] Machine-to-Machine (M2M) Communications: Architecture, Performance and Applications, First Edition., Edited by Carles Anton-Haro, Mischa Dohler, Published 2015 Woodhead Publishing Ltd.

20 2015-02-27M2M Communication20 Questions?

21 2015-02-27M2M Communication21 Numbers 2008: Internet connected devices = Earth population Connected devices: ~6,7E9 Internet users: ~1,5E9 Ratio: 4,5 : 1 http://share.cisco.com/internet-of-things.html http://www.internetworldstats.com/blog.htm http://en.wikipedia.org/wiki/World_population

Download ppt "M2M Communication Hálózati és szolgáltatási architektúrák szeminárium 2015-02-27 Perlaky Zoltán."

Similar presentations

Mobile Computing and Commerce And Pervasive Computing

Mobile Computing and Commerce And Pervasive Computing
Mobile Wireless Sensor Network (mWSN) at Nokia

Mobile Wireless Sensor Network (mWSN) at Nokia
M2M and Semantic Sensor Web

M2M and Semantic Sensor Web
CDMA Standards Update M2M Small Group Discussion: CONVERGENCE LAYER CONCEPTS Orlett W. Pearson January 2012.

CDMA Standards Update M2M Small Group Discussion: CONVERGENCE LAYER CONCEPTS Orlett W. Pearson January 2012.
Internet of Things (IoT) Work Group

Internet of Things (IoT) Work Group
OneM2M Technical Requirements - Driven by EU BUTLER and IEEE PAC - Group Name: WG1 (REQ) Source: Friedbert Berens, FBConsulting Sarl,

OneM2M Technical Requirements - Driven by EU BUTLER and IEEE PAC - Group Name: WG1 (REQ) Source: Friedbert Berens, FBConsulting Sarl,
UWB UWB: High speed(>100Mbps), small area(WPAN), accurate positioning and distance measuring. Blue tooth: although it’s low speed, it has a more mature.

UWB UWB: High speed(>100Mbps), small area(WPAN), accurate positioning and distance measuring. Blue tooth: although it’s low speed, it has a more mature.
Deployment of the Light Weight IPv6 protocols In the Internet of Things(IoT) draft-fu-lwig-iot-usecase-00 Qiao Fu China Mobile 2014.11.13 1.

Deployment of the Light Weight IPv6 protocols In the Internet of Things(IoT) draft-fu-lwig-iot-usecase-00 Qiao Fu China Mobile
Kieran Arnold Head of Satellite & Mobile Communications.

Kieran Arnold Head of Satellite & Mobile Communications.
Halifax, 31 Oct – 3 Nov 2011ICT Accessibility For All ETSI Standardization Activities on M2M communications Joachim Koss, ETSI Board Member Document No:

Halifax, 31 Oct – 3 Nov 2011ICT Accessibility For All ETSI Standardization Activities on M2M communications Joachim Koss, ETSI Board Member Document No:
M2M – It Don’t mean a thing unless….

M2M – It Don’t mean a thing unless….
1 © 2015 Cisco and/or its affiliates. All rights reserved. IRTF icnrg interim meeting, 1/13/2015 Where are the opportunities for ICN in Sensor Networks?

1 © 2015 Cisco and/or its affiliates. All rights reserved. IRTF icnrg interim meeting, 1/13/2015 Where are the opportunities for ICN in Sensor Networks?
CS 441: Charles Durran Kelly.  What are Wireless Sensor Networks?  WSN Challenges  What is a Smartphone Sensor Network?  Why use such a network? 

CS 441: Charles Durran Kelly.  What are Wireless Sensor Networks?  WSN Challenges  What is a Smartphone Sensor Network?  Why use such a network? 
Overview of Communication Systems for Smart Grid BBCR Smart Grid Subgroup 2011.11.3 Hao Liang Department of Electrical and Computer Engineering University.

Overview of Communication Systems for Smart Grid BBCR Smart Grid Subgroup Hao Liang Department of Electrical and Computer Engineering University.
Halifax, 31 Oct – 3 Nov 2011ICT Accessibility For All Consolidated M2M standards boost the industry Li Li (Thomas) CCSA(Huawei) Document No: GSC16-PLEN-73.

Halifax, 31 Oct – 3 Nov 2011ICT Accessibility For All Consolidated M2M standards boost the industry Li Li (Thomas) CCSA(Huawei) Document No: GSC16-PLEN-73.
Broadband Forum Machine-to-Machine (M2M) Solutions Robin Mersh, CEO The information in this presentation is public.

Broadband Forum Machine-to-Machine (M2M) Solutions Robin Mersh, CEO The information in this presentation is public.
History of Telematics, Telemetry, & M2M Technology

History of Telematics, Telemetry, & M2M Technology
Doc.: IEEE 802.11-12/0573r1 Submission May 2012 David Halasz, Motorola MobilitySlide 1 Scalable Authentication Date: 2012-5-6 Authors:

Doc.: IEEE /0573r1 Submission May 2012 David Halasz, Motorola MobilitySlide 1 Scalable Authentication Date: Authors:
Machine-to-Machine (M2M) Communication

Machine-to-Machine (M2M) Communication
Business Data Communications Addressing the Challenge of Living in a Connected World.

Business Data Communications Addressing the Challenge of Living in a Connected World.

Similar presentations

Ads by Google