IoT Standardization for ITS Support

IoT Standardization for ITS Support

IoT Standardization for ITS support - Update on ITU-T SG20 related activities Dr. Shane HE ITU-T Q3/20 Rapporteur Nokia Bell Labs & CTO group 1 Overview of SG20 2 SG20 studies related to IoT for ITS March 2019 status Q. Provisional name Type Subject/title Status Approval

Hyperlink Rec. Requirements of transportation safety services including use cases and service scenarios Approved Oct-17 http://www.itu.int/ITU-T/workprog/wp_item .aspx?isn=13686 Rec. Requirements and capability framework for IoT-based automotive emergency response system Approved Feb-18 https://www.itu.int/ITU-T/workprog/wp_ite m.aspx?isn=14105

Rec. Framework of Cooperative Intelligent Transport Systems based on the Internet of Things Under study Dec-19 Y.IoT-UAS-Reqts Rec. Use cases, requirements and capabilities of unmanned aircraft systems for Internet of Things Under study Dec-19 https://www.itu.int/ITU-T/workprog/wp_ite m.aspx?isn=14303 Q2/20 Y.IoT-AV-Reqts Rec.

Requirements and capability framework of IoT infrastructure to support networkassisted autonomous vehicles Under study Q2-2020 https://www.itu.int/ITU-T/workprog/wp_ite m.aspx?isn=14958 Q2/20 Y.ACC-PTS Rec. Accessibility Requirements for Smart Public Transportation Services Q2-2020 https://www.itu.int/ITU-T/workprog/wp_ite m.aspx?isn=14646 Q3/20 Y.AERS-msd

Rec. Minimum set of data structure for automotive emergency response system Under study Dec-20 https://www.itu.int/ITU-T/workprog/wp_ite m.aspx?isn=14502 Rec. Minimum set of data transfer protocol for automotive emergency response system Dec-20 Y.NDA-arch Rec. Functional architecture of networkbased driving assistance for autonomous vehicles Under study https://www.itu.int/ITU-T/workprog/wp_ite

m.aspx?isn=14501 Q4-19 https://www.itu.int/ITU-T/workprog/wp_ite m.aspx?isn=14652 Y.TPS-afw Rec. Architectural framework for providing transportation safety services 3 May-18 http://www.itu.int/ITU-T/workprog/wp_item .aspx?isn=13677 Q2/20 Q2/20 Name Y.4116

Y.4119 Y.AERS-reqts Y.IoT-ITSframework Q2/20 Q2/20 Q3/20 Y.AERS-mtp Q3/20 Q4/20 Y.TPS-req Y.4457 Under study Under study Approved

http://www.itu.int/ITU-T/workprog/ wp_item.aspx?isn=13688 Y.4119 (ex Y.AERS-reqts) LS/o/r on automotive emergency response system in reply to SG16 LS 66-E Informing SG16 about consent of Y.AERS-reqts at WP1/20 meeting, Geneva, 24 Jan 2018, and welcoming any technical comments during LC period Providing SG20 considerations on some specific points raised about Y.AERS-reqts in SG16 LS 66-E Informing SG16 about SG20 initiation of two new draft Recs on IoT based AERS: Y.AERS-msd, Minimum set of data structure for AERS Y.AERS-mtp, Minimum set of data transfer protocol for AERS Approval of Y.AERS-reqts on 28 Feb 2018 (no comments received during LC period) 4 Y.IoT-UAS-Reqts 1/2 Y.IoT-UAS-Reqts Use cases, requirements and capabilities of unmanned aircraft systems for Internet of Things Scope of the Recommendation The draft Recommendation aims to describe use cases, requirements and capabilities of unmanned aircraft systems (UASs) for IoT.

UASs can act as a key part of IoT as wireless communication platforms in IoT. Use cases are specified according to different communication scenarios. Requirements and capabilities are also specified to satisfy the different use cases. Regulation and supervision of UASs are out of scope of the Recommendation. Structure of the Recommendation Classification of the use cases of UAS-aided communication Common and specific requirements of UASs for IoT Common and specific capabilities of UASs 5 for IoT Y.IoT-UAS-Reqts 2/2 Currently identified use cases UAS-aided offloading UAS-aided emergency response UAS-aided relaying UAS-aided information dissemination and data collection Example of UAS-aided offloading 6

Y.ACC-PTS Y.ACC-PTS Accessibility requirements for smart public transportation services Motivation of the study The concept of accessibility in public transportation services have been mainly concerned in eliminating physical barriers such as adopting accessible trains and buses that allows a wheelchair accessibility by mechanical lowering-entrance floors. In smart public transportation services, the use of Internet of Things, when properly designed, may increase accessibility of public transportation services by providing access of information and physical accessibility. The Internet of Things can be used to create tools for persons with many types of disabilities and specific needs, including physical, visual, hearing and cognitive disabilities. In order for the smart transportation services to appropriately provide accessible services, information of accessibility profiles must be agreed upon in advance. Such accessibility profiles should basically include information on accessibility needs while traveling on public transportation services. Scope of the Recommendation The Recommendation specifies accessibility requirements for smart public transportation services. The scope of the Recommendation includes: Accessibility requirements for smart public transportation services for persons with disabilities, persons with age-related disabilities and those with specific needs to utilize the benefits of IoT applications and services. Accessibility profiles for accessible smart public transportation services. A study building over already approved Rec. Y.42047 Accessibility requirements for the Internet of things applications and services

Y.IoT-AV-Reqts Y.IoT-AV-Reqts Requirements and capability framework of IoT infrastructure to support network-assisted autonomous vehicles Motivation of the study The draft Recommendation aims to develop the requirements and capability framework of IoT infrastructure to support autonomous vehicles in order to enhance the performances of autonomous vehicles. Scope of the Recommendation The requirements and capability framework of IoT infrastructure to support autonomous vehicles will be addressed from the viewpoint of autonomous vehicles related data analysis and transmission, e.g. to reduce data transmission and processing latency, increase data analysis reliability and enhance autonomous vehicles handover. The requirements will identify the main elements required for the capability 8 framework and how these elements should interact each other. Y.AERS-mtp Y.AERS-mtp Minimum set of data transfer protocol for automotive emergency response system Motivation of the study

The automotive emergency response system (AERS) for aftermarket devices defined in Recommendation Y.4119 (exY.AERS-reqts) is designed to bring rapid assistance to driver and/or passengers involved in an accident. For the normal operation of the AERS, the accident related data (so-called minimum set of data, MSD) transfer protocol between automotive emergency detection device (AEDD) in the vehicle and automotive emergency response center (AERC) needs to be defined. Scope of the Recommendation To specify a minimum set of data (MSD) transfer protocol for AERS. In particular, the scope of the Recommendation includes: MSD transfer protocol parameters Messages format of MSD transfer protocol Sequence of MSD transfer protocol 9 Y.AERS-msd Y.AERS-msd Minimum set of data structure for automotive emergency response system Motivation of the study The automotive emergency response system (AERS) for aftermarket devices defined in Recommendation Y.4119 (ex-Y.AERS-reqts) is designed to bring rapid assistance to driver and/or passengers involved in an accident. For the normal operation of this AERS, the accident related data (so-called minimum set of data, MSD) needs to be sent from automotive emergency detection device (AEDD) to automotive emergency response center (AERC). The MSD includes essential information and additional information. The essential information of the MSD is a set of information that must be included in the MSD when the AEDD performs normal operation. The additional information of the MSD is a set of information about accident situations that can be additionally included to give more information to AERC. Scope of the Recommendation

To define common structure and encoding rule for MSD for the interoperability of AERS. In particular, the scope of the Recommendation includes: Overview of the MSD for AERS Essential information of MSD Additional information of MSD Encoding rule for MSD 10 Y.NDA-arch Y.NDA-arch Functional architecture of network-based driving assistance for autonomous vehicles Motivation of the study This document specifies a functional architecture of network-based driving assistance for autonomous vehicles, taking into account of the IoT reference model specified in the Recommendation ITU-T Y.4000. It describes functional entities and reference point in order to support the network-based driving assistance for autonomous vehicles. Scope of the Recommendation -The functional architecture of network-based driving assistance for autonomous vehicles; -The functional entities to support network-based driving assistance for autonomous vehicles; -The reference points of the functional architecture. 11

About SG20 coordination with ISO TC 204 As far as the invited coordination of SG20 with ISO TC 204 on ITS, SG20 sent out LS to ISO TC 204 on ITS related work items of SG20 at Cairo (Egypt), 16 May 2018. (Ref.: SG20-TD858-R2) ITU-T SG20 is committed to ensuring a close collaboration and coordination with ISO TC204 on matters related to ITS. 12 Next SG20 meeting: 9-18 April, Geneva Thank you! http://itu.int/go/tsg20 Contact: [email protected] [email protected] 13

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