This Technical Specification specifies the general rules for an on-board data communication system between the different systems that may be used within public transport vehicles. This includes operational support systems, passenger information systems, fare collection systems, etc.

This Technical Specification describes:

the requirements for an on board IP network;
the overview architecture and components for an IP based on-board network;
the modular structure of the network architecture;
the Service Oriented Architecture (SOA) approach, and approach to defining services.

Systems directly related to the safe operation of the vehicle (including propulsion management, brake systems, door opening systems) are excluded from the scope of this Technical Specification and are dealt with in other standardization bodies. However, the architecture described in this Technical Specification may be used for support services such as safety information messages. Interfaces to safety-critical systems should be provided through dedicated gateways with appropriate security provisions; for the purposes of this Technical Specification, these are regarded as simply external information sources.

This Technical Specification is designed primarily for vehicles with a fixed primary structure, where networks can be installed on a permanent basis and the system configuration task consists largely of the integration, adjustment or removal of the functional end systems that produce and/or consume data. Public transport vehicles consisting of units linked temporarily for operational purposes (specifically, trains in which individual engines, cars or consists are routinely connected and disconnected) require additional mechanisms to enable the communications network itself to reconfigure. Such mechanisms are provided through other standards, notably the IEC 61375 series. (See also 5.9.)

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PDF Pages	PDF Title
4	Contents Page
5	European foreword
6	Introduction
8	1 Scope 2 Terms and definitions
9	Figure 1 — Relationship between terms (example)
10	3 Symbols and abbreviations 4 Design principles 4.1 Introduction
11	4.2 Design goals 4.2.1 Enabling communications 4.2.2 Enabling interoperability 4.2.3 Ease of configuration 4.2.4 Quality of monitoring 4.2.5 Maintainability 4.2.6 Migration 4.2.7 Supporting fleet changes
12	5 Network architecture 5.1 Introduction 5.2 Network overview 5.3 Gateways to other networks
13	Figure 2 — A generic on board system with an external network 5.4 IP addressing 5.4.1 General addressing considerations 5.4.2 Address space 5.4.2.1 Address space in IPv4
14	Table 1 — Address space options 5.4.2.2 Address space in IPv6 5.4.3 Manual assignment 5.4.4 Automatic assignment 5.4.4.1 DHCP assignment
15	5.4.4.2 Self-assignment 5.4.4.3 Mixed assignment 5.5 Name registration and resolution of modules 5.5.1 Domain name options
16	Figure 3 — DNS architecture and Multicast DNS architecture (example) 5.5.2 Unicast Domain Name System (DNS) 5.5.3 Multicast Domain Name System (mDNS)
17	Table 2 — Module classes 5.6 Communication Protocols 5.6.1 The IP suite 5.6.2 The TCP framework 5.6.2.1 Transport Control Protocol (TCP) 5.6.2.2 HyperText Transfer Protocol (HTTP) 5.6.2.3 File Transfer Protocol (FTP) 5.6.2.4 Secure Shell (SSH)
18	5.6.3 The UDP framework 5.6.3.1 User Datagram Protocol (UDP) 5.6.3.2 Real-time Transport Protocol (RTP) 5.6.3.3 Network Time Protocol (NTP) / Simple Network Time Protocol (SNTP) 5.7 Communication methods 5.7.1 Data exchange options 5.7.2 Request/Response 5.7.3 Subscription
19	5.7.4 Data Multicast Figure 4 — Broadcast vs. Multicast (example) 5.8 Network security
20	5.9 Considerations on coupled vehicles 6 Service architecture 6.1 Service oriented architecture (SOA) 6.2 Service Information 6.2.1 Service framework options
21	6.2.2 Manual configuration 6.2.3 Configuration using DNS-SD 6.2.3.1 Use of DNS-SD 6.2.3.2 Service registration and naming
22	6.2.3.3 Record maintenance 6.2.3.4 Providing additional information Table 3 — Attributes and example usage 6.3 Communication Types 6.3.1 Event Triggered Data
23	6.3.2 Streaming of Data 6.3.3 High Frequency Data 6.4 Data Structure 6.4.1 Data structure options 6.4.2 XML 6.4.3 JSON
24	Annex A (informative) Example usages A.1 Typical vehicle network architecture Figure A.1 — Example of on board IP network with services
25	A.2 Function and service groups A.3 Example of a service record
26	Bibliography

Published By	Publication Date	Number of Pages
BSI	2015	30


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Status	Withdrawn
Title	Public transport. Road vehicle scheduling and control systems – System and Network Architecture
Publisher	BSI
Committee	EPL/278
Pages	30
Publication Date	2015-12-31
Withdrawn Date	2020-04-09
Replaced By	PD CEN/TS 13149-7:2020
ISBN	978 0 580 90353 3
Standard Number	PD CEN/TS 13149-7:2015
Identical National Standard Of	CEN/TS 13149-7:2015
Descriptors	Information exchange, Buses, Road vehicles, Tramway systems, Data transmission, Road transport, Open systems interconnection, Transportation, Road vehicle engineering, Control systems, Bus networks, Passenger road vehicles, Trolley buses
ICS Codes	43.040.15 - Car informatics. On board computer systems

BSI PD CEN/TS 13149-7:2015

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