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© 2018 oneM2M
Overview
Laurent VelezoneM2M Technical Officer
ETSI
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© 2018 oneM2M
What Makes IoT Deployments so Complex?
2
IoT deployments (e.g. Smart Cities) typically involve a diverse collection of different vertical centric sub-systems & platforms
Typically many of these sub-systems have standalone platforms that do not interwork with one another
Interworking all of these sub-systems & platforms together can be quite complex and challenging to deploy and maintain
Rarely do you find these sub-systems & platforms using the same types of underlying technologies
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© 2018 oneM2M
IoT Deployment “Pain Points” Different IoT sub-systems use different underlying technologies
3
E.g. Cellular, Fixed, Wi-Fi, …IoT Underlying Connectivity Networks
E.g. DTLS, TLS, PSK, PKI, …IoT Security Models
E.g. HTTP(s), CoAP(s), MQTT(s), WebSockets, …IoT Transport Protocols
E.g. XML, JSON, CBOR, Plain-Text, …IoT Content Serializations
E.g. OCF, LWM2M, Thread, OMA DM, TR-069, …IoT Services and Management Technologies
E.g. SAREF, W3C TD, …IoT Semantic Ontologies
Building, deploying and maintaining a system with diverse combinations of technologies can be challenging
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© 2018 oneM2M4
So what’s the answer?
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© 2018 oneM2M
oneM2M’s Value Proposition
5
oneM2M Interworking &
Abstraction Capabilities
IoT Services and
Management
Underlying Network
Connectivity
IoT Semantic Ontologies
Content Serializations
IoT Device Security
Transport Protocols
Simplify life for IoT Stakeholders!!!
Interwork different underlying IoT technologies, devices, applications and data together with one another
Abstract and hide the complexity of these different forms of interworking from the various stakeholders
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© 2018 oneM2M6
So what is oneM2M?
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© 2018 oneM2M
Over 200 member organizationsin oneM2M
7
The 8 regional Standards Developent organizations SDO‘s, are converting oneM2M technical specifications into normative Standards. Those standards are then references by regional legal and regulatory bodies
oneM2M a Global Partnership Projectto develop the IoT Service Layer
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© 2018 oneM2M
• Applications access the Connectivity Layer and built-in sensors, via API’s provided by the Operating System
• Operating System collects connectivity requests from applications, buffers messages, optimizes & controls device’s network use, etc.
• Connectivity Layer provides device access to the Internet via the 3GPP mobile network, Wi-Fi, etc.
8
Take a lesson from the modularity of smart phones thatoffer a framework for developers!
Operating System
Applications
* API: Application Programmers Interface
API*
Connectivity
Apply similar concepts to IoT!
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© 2018 oneM2M
The oneM2M Service Layer
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Service Layer
Connectivity Layer
• A software “framework” that sits between IoT apps and underlying network protocol and communication stack
• Supports a common set of horizontal services (i.e. “toolbox of services”) that IoT devices and apps across different industry verticals commonly require
• E.g. Data management, security, …
• Can be deployed on devices, gateways and servers in a highly distributed and scalable manner
Applications
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© 2018 oneM2M
oneM2M’s Horizontal Services
10
Registration
Registration Group ManagementSecurityDiscovery
Data Management &
Repository
Application & Service
Management
Device Management
Subscription & Notification
Communication Management
Service Charging & AccountingLocation
Network Service Exposure
Semantics Transaction Management
Service Layer
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© 2018 oneM2M
Scope and purpose of IoT Technology Layers
Connectivity Layer
Service Layer
IoT Application Measuring of Physical Parameter Execution of commands
Storing of data in case of lack of connectivity
Security, Authentication & Authorization Device Management & Firmware update
mechanism Connectivity Management Developer API
IoT Field Device(s) IoT Infrastructure
UI / Presentation of Device Data Data Analytics etc.
Developer API to control: Security Device Management Connectivity Management
Reliable & efficient data transport Reliable & efficient data transport
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© 2018 oneM2M 12
Connectivity LayerStandards
Service LayerStandards
IoT Application
oneM2M Standardized Interfaces
oneM2M Common Service Layer
IP Communication
Connectivity Layer
IoT Field Device(s) IoT Infrastructure
Underlying Network Interface
Developer Interface
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A global interoperable standard that enables…
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..interoperability with proximal networks …a cross-vertical IoT Eco-System
… multi-vendor interoperable interfaces between devices and Infrastructure ..interoperability of data
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© 2018 oneM2M
oneM2M Interworking Towards Domain-specific Technologies
14
Gateway (oneM2M MN)
9/24/2018
E.g. OPC- UATechnology based
oneM2M IN-CSE oneM2M AE
oneM2M AE
oneM2M AE
oneM2M CSE
oneM2M AE
Gateway (oneM2M MN)
Based on a slide provided by: Dr. Josef J. Blanz „How oneM2M fits into the landscape of IoT technologies” Industry Day Bangalore, September 20th 2017
oneM2M defined Industrial Domain
enablement IPE
KNX, Zigbee, ETSI ITS etc.Network
KNX / Zigbee / ETSI ITS, etc App
oneM2M CSE
oneM2M IPE
oneM2M AE
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So how does oneM2M help?
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© 2018 oneM2M
oneM2M Breaks Down the Silos
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Smart Emergency
Services
Smart Transportation
Smart Infrastructure
Vert
ical
In
form
atio
n Fl
ow
Vert
ical
In
form
atio
n Fl
ow
Vert
ical
In
form
atio
n Fl
ow
Horizontal Information Flow
Smart Emergency
Services
Smart Transportation
Smart Infrastructure
Service Layer…
…
…
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© 2018 oneM2M
oneM2M Breaks Down the Silos -2
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© 2018 oneM2M
oneM2M Layered Model
UnderlyingNetwork
UnderlyingNetwork
CSE
AE
NSE
CSE
NSE
CSE
NSENSE
Application Service Node Middle Node Infrastructure Node
Mca
Mcn
Mca Mca
McnMcnMcc Mcc
CSE
Mcc’
Inf. Node
AEAE
Connectivity Layer
Service Layer
Application Layer
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oneM2M nodes
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© 2018 oneM2M
Access Resources in Local CSE
Originator(AE or CSE) (Registrar CSE = Hosting CSE)
The addressed resource is stored here.
Request (access resource)
CSE verifies Access Rights
If permitted, the CSE accesses the resouces
and responds with a Success or Failure
Response
Response
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© 2018 oneM2M
oneM2M AE Resource Type example
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<AE>
Common Attributes:• resourceType• parentID• expirationTime• accessControlPolicyIDs• creationTime• lastModifiedTime• labels• announceTo• announcedAttribute
<AE> Specific Attributes:• appName• App-ID• AE-ID• pointOfAccess• ontologyRef• nodeLink
“attribute”n
0..n<subscription>
0..n<container>
0..n<group>
0..n
<accessControlPolicy>
0..n<pollingChannel>
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Containers example
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© 2018 oneM2M
oneM2M is Distributive and Scalable
Service LayerService Layer
Communication Network(s)
Service Layer
AppApp App App App App
Flexible Deployment Options
• IoT Cloud / Enterprise
• IoT Gateway
• IoT Edge Device
• IoT User Devices
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© 2018 oneM2M
Benefits of using oneM2M• Service layer, independent of the protocol that transports
• Flexibility. It can be deployed on all domains, not tied to a protocol technology• IP based: known existing API• For example in Industrial domain, DDS make sense due to real time constraint but CoAP for
sensor • Evolution: the transport protocol can evolve and the oneM2M code will not change. 5G etc …
• Horizontal platform provides common service functions that enable multi-domains• One investment/deployment serves multiple domains, do not re-invent the wheel • Cross-domain service/application innovation with a common framework and consistent APIs• Re-use of the code whatever the domain
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© 2018 oneM2M
Benefits of using oneM2M• Easy interworking/integration with existing & evolving deployments paves the way
to long term evolution and sustainable economy• Do not disrupt existing “vertical deployment”, but evolve.• Interworking with a rich set of proximal IoT technologies, embracing different ecosystems• Take advantage of the operators’ network capabilities and existing management technologies
• Data sharing and semantic interoperability brings the real value• data oriented RESTful API design• semantic data annotation, discover and reasoning facilitates intelligent analytics and service mashups• security protection at both channel and object level, with static and dynamic access control
• Open standards to avoid lock-in to a platform or a cloud provider• It is also a matter of national sovereignty
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© 2018 oneM2M
Benefits of using oneM2M• Several open source implementations available ( CSE or AE)
• oneM2M is a standard !!!• Developed using standardization methodology that has insured successful interoperability in
many technical domains• Developed by many companies : It does not depend on one or few companies or using a closed
proprietary technology : what happens if such a company goes bankrupt ?• it is an international standard with more than 240 companies and managed by 8 of the main
ICT standardization bodies in the world.• ITU-T transposes the oneM2M standards under the serie Y.4500: Worldwide recognition.• It is an open standard: all the specifications , even the drafts are available at
http://www.onem2m.org/technical/latest-drafts
• In summary, the oneM2M initiative has the vision to get rid off any fragmentation of the IoT world
• Because it is independent of protocol that transports, it is designed to be a long term solution for IoT deployment.
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oneM2M Deployment Update
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oneM2M Implementation Base
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IotDMOS-IoT
Industry-driven oneM2M Open Source Projects
Examples of oneM2M Implementations
6 Interop Events in 2015 – 2018 (on average 30 participants)
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oneM2M Adoption
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oneM2M Feature Summary by Release
30
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Example oneM2M Smart Cities
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© 2018 oneM2M
Examples of oneM2M-based Smart City Projects
• South Korea - Busan, Goyang, Daegu• UK - Buckinghamshire, Hertfordshire, Oxfordshire• EU - Turin, Bordeaux• India - Bhopal
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oneM2M based smart city deployment example - Busan
Source: SKT
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Busan Smart City system
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Main service domains and individual services in Busan smart city
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Busan: traffic management service with CCTV video analysis
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Busan : Smart Parking
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Smart city Busan use case examples
LoRa
image
Source: SKT
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Goyan smart city system
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KEPCO : Electricity services in South Korea
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K-water: Water services in Korea
Multi-unit water quality information system
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© 2018 oneM2M
K-water: Smart water grid management system
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Solution
© InterDigital, Inc. All Rights Reserved.
• Access real-time and historical data• Describe and tag your data• Upload and delete your data
• Search and discover other’s data
• Share data privately within an organization• View and select licensing terms• Set up “free” | “for-fee” pricing
• Set up alerts on price changes• Access usage and billing reports• Set thresholds and notifications
• Send messages to your data consumers
TM
Data Marketplace
Consortium of local transport authorities, industry experts, and technology providers
oneTRANSPORT
Field trials began in 2015, supported by Innovate UKCommercial service launched in 2018 www.onetransport.io
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© 2018 oneM2M© InterDigital, Inc. All Rights Reserved.
Silverstone F1 Event Management
250,000+ visitors in one weekend
Real-time data from multiple data owners
Optimized on-site car parks and visitor experience
Watford Congestion Management
20,000+ attendees during the football season
Variable Message Signs advertise alternative car parks
Reduction in congestion from 50% to 3%
Oxford Park-n-Ride
Most convenient user transport options
Reduced congestion in Oxford’s busy city center
Increased usage of bus services and park-n-rides
Example Applications
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© 2018 oneM2M
Bhopal Smart City Development Corporation selects the HPE to create India’s first Cloud-Based Integrated Command and Control Centre
Smaller, faster, more iterative approaches Fast fail
Satna
Continuousdelivery
Test and experiment
HPE Universal
IoT Platform
Bhopal
Jabalpur
Ujjain
Indore
Gwalior
Sagar
Monitoring and administration of multiple city civic utilities and
citizen services
State-wide monitoring of cities from a central command view
Operating multiple city command centre operations in parallel
Adapt and integrate thousands of discrete sensors and applications
on the platform
© Copyright Hewlett Packard Enterprise 2018
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© 2018 oneM2M
cTata Communications is deploying the world’s largest LoRa network across cities and towns in India, covering 400M people in the first phase. HPE Universal IoT platform helps deliver Smart Cities health, safety and IoT connectivity services.
© Copyright Hewlett Packard Enterprise 20187
48https://www.youtube.com/watch?v=LY5h5rZwVFY
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AutoPilot : H2020 LSP project
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oneM2M Certified Products
50
NAME VENDOR PRODUCT TYPE VERSION DATE
Mobius KETI Software Component TRSL V1.1 5/18/2018
C hordant™ Platform Chordant™ , an InterDigital bus iness End product(IN-CSE) TRSL V1.1 2/21/2018
Sys One C3SYSTEMS End product(IN-CSE) TRSL V1.0 12/7/2017
Univers al IoT Gateway Moda Inc. End product(MN-CSE) TRSL V1.0 12/7/2017
HuRa IoT Platform HERIT End product(IN-CSE) TRSL V1.0 12/7/2017
GWP IREXNET End product(IN-CSE) TRSL V1.0 9/7/2017
AiSOP IREXNET End product(IN-CSE) TRSL V1.0 9/7/2017
Ins ator™ SAMSUNG SDS End product(IN-CSE) TRSL V1.0 7/13/2017
HANDYPIA IoT Platform HANDYSOFT, Inc. End product(IN-CSE) TRSL V1.0 3/15/2017
IoT Healthcare Platform HealthConnect Co. , Ltd End product TRSL V1.0 3/30/2017
ThingPlug SK Telecom Software component TRSL V1.0 2/9/2017
N-MAS nTels End product TRSL V1.0 2/9/2017
IoTMakers Middleware KT Software component TRSL V1.0 2/9/2017
IoTMakers KT Software component TRSL V1.0 2/9/2017
e- IoT E nergy Platform KEPCO End product TRSL V1.0 2/9/2017
e- IoT E nergy Gateway KEPCO End product TRSL V1.0 2/9/2017
oneM2M Certification from TTA http://onem2mcert.com
17 Certifications
from 14 Companies
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© 2018 oneM2M
Takeaways oneM2M is a standard and mitigates vendor lock-in
oneM2M is mature and commercially deployed
oneM2M has a rich and growing ecosystem of implementations that includes open source projects, commercial implementations, operators, system integrators, certification test houses and test tool providers
IoT deployments can have diverse types of IoT sub-systems and platforms that require interworking devices, apps and data all to one another
oneM2M is able to help IoT deployments (e.g. Smart Cities) by enabling different types of brownfield and greenfield technologies to more seamlessly interwork
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Where to find more details
oneM2MDevice/Cloud
Integrator
IoTApplication Developer
http://www.onem2m.org
For globally certified products refer to: http://www.onem2mcert.com/main/main.php