Internet of Things

Introduction

An increasing number of everyday machines and objects are now embedded with sensors or actuators and have the ability to communicate over the Internet. Collectively they make up the Internet of Things (IoT).

Individual devices are connected through Machine-to-Machine (M2M) communications interfaces.

Potential applications and services in the IoT include:

  • smart devices
  • smart cities
  • smart grids
  • the connected car
  • eHealth
  • home automation and energy management
  • remote industrial process control

Standardizing the IoT

Smart objects produce large volumes of data. This data needs to be managed, processed, transferred and stored securely.

The use of standards

  • ensures interoperable and cost-effective solutions
  • opens up opportunities in new areas
  • allows the market to reach its full potential

The more things are connected, the greater the security risk. So security standards are also needed to protect the individuals, businesses and governments which will use the IoT.

Our Role & Activities

A wide range of technologies work together to connect things in the Internet of Things (IoT). ETSI is involved in standardizing many of these technologies:

Machine-to-Machine (M2M) communications

  • ETSI is a member of oneM2M, the global partnership initiative which aims to provide a standardized M2M interface. This will enable different devices to be connected in the IoT, irrespective of the underlying network.
  • The work of oneM2M builds on the activities of our own committee, TC SmartM2M, which has developed, and now maintains, our specifications for a standardized platform:

TC SmartM2M is also addressing IoT standardization gaps identified in European Commission Large Scale Pilot projects.

Applications in the IoT

Within ETSI we are addressing various applications of M2M technology:

Supporting the IoT

Context Information Management

Our Industry Specification Group on cross-sector Context Information Management (ISG CIM) develops technical specifications and reports to enable multiple organisations to develop interoperable software implementations of a cross-cutting Context Information Management (CIM) layer, for smart cities applications and beyond.

The group specifies protocols running ‘on top’ of IoT platforms and allowing exchange of data together with its context, this includes what is described by the data, what was measured, when, where, by what, the time of validity, ownership, and others. That will dramatically extend the interoperability of applications, helping smart cities to integrate their existing services and enable new third-party services.

ISG CIM focuses on developing specifications for a common context information management API, data publication platforms and standard data models. The group works closely with the ETSI SmartM2M technical committee and with oneM2M, the global standards initiative for M2M and the IoT (Internet of Things) of which ETSI is a founding member, since the IoT is one of the sources of context data for smart applications.

The work of ISG CIM is done in a phased manner. The initial phase will be purely informative and result in an ISG CIM Group Report (GR). It will be followed by a second normative phase resulting in several ISG CIM Group Specifications (GS). Throughout both phases relevant organizations will be considered as appropriate in order to avoid duplication of work.

Standards

The following is a list of the latest published ETSI standards on internet of things.

A full list of related standards in the public domain is accessible via the ETSI standards search. Via this interface you can also subscribe for alerts on updates of ETSI standards.

For work in progress see the ETSI Work Programme on the Portal.

Standard No. Standard title.
TS 118 132 MAF and MEF Interface Specification (oneM2M TS-0032 version 2.0.2 Release 2A)
TR 103 422 Digital Enhanced Cordless Telecommunications (DECT); DECT evolution technical study; Requirements and technical analysis for the further evolution of DECT and DECT ULE
GR IP6 008 IPv6-based Internet of Things Deployment of IPv6-based Internet of Things
GR IP6 001 IPv6 Deployment in the Enterprise
TS 118 122 oneM2M Field Device Configuration (oneM2M TS-0022 version 2.0.0 Release 2)
GS NGP 001 Next Generation Protocol (NGP); Scenario Definitions
GS NGP 005 Next Generation Protocol (NGP); Next Generation Protocol Requirements
TS 103 268-1 SmartM2M; Smart Appliances Ontology and Communication Framework Testing; Part 1: Testing methodology
TS 103 268-2 SmartM2M; Smart Appliances Ontology and Communication Framework Testing; Part 2: Protocol Implementation Conformance Statement (PICS) pro forma
TS 103 268-3 SmartM2M; Smart Appliances Ontology and Communication Framework Testing; Part 3: Test Suite Structure and Test Purposes (TSS & TP)
TS 103 268-4 SmartM2M; Smart Appliances Ontology and Communication Framework Testing; Part 4: Abstract Test Suite (ATS) and Protocol Implementation eXtra Information for Testing (PIXIT)
TS 103 264 SmartM2M; Smart Appliances; Reference Ontology and oneM2M Mapping
TR 103 435 System Reference document (SRdoc); Short Range Devices (SRD); Technical characteristics for Ultra Narrow Band (UNB) SRDs operating in the UHF spectrum below 1 GHz
TR 103 411 SmartM2M; Smart Appliances; SAREF extension investigation
TS 103 410-1 SmartM2M; Smart Appliances Extension to SAREF; Part 1: Energy Domain
TS 103 410-2 SmartM2M; Smart Appliances Extension to SAREF; Part 2: Environment Domain
TS 103 410-3 SmartM2M; Smart Appliances Extension to SAREF; Part 3: Building Domain
TR 103 376 SmartM2M; IoT LSP use cases and standards gaps
TR 103 375 SmartM2M; IoT Standards landscape and future evolutions
TS 118 104 oneM2M; Service Layer Core Protocol Specification (oneM2M TS-0004 version 2.7.1 Release 2)