SIST-TS CEN/TS 16614-1:2014
(Main)Public transport - Network and Timetable Exchange (NeTEx) - Part 1: Public transport network topology exchange format
Public transport - Network and Timetable Exchange (NeTEx) - Part 1: Public transport network topology exchange format
CEN/TS 16614-1 is dedicated to the exchange of scheduled data (network, timetable and fare information). It is based on Transmodel V5.1 (EN 12896), IFOPT (EN 28701) and SIRI (CEN/TS 15531-4, CEN/TS 15531-5 and prEN 15531-1, prEN 15531-2 and prEN 15531-3) and supports the exchange of information of relevance for passenger information about public transport services and also for running Automated Vehicle Monitoring Systems (AVMS). Although the data exchanges targeted by NeTEx are predominantly oriented towards provisioning passenger information systems and AVMS with data from transit scheduling systems, it is not restricted to this purpose and NeTEx can also provide an effective solution to many other use cases for transport data exchange.
Öffentlicher Verkehr - Netzwerk und Fahrplan Austausch (NeTEx) - Teil 1: Öffentlicher Verkehr Netzwerk Topologie
Transport Public - Échanges des informations planifiées (NeTEx) - Partie 1: Topologie du réseau
Javni prevoz - Izmenjava omrežnih in voznorednih podatkov (NeTEx) - 1. del: Izmenjavni format za topologijo omrežja javnega prevoza
Tehnična specifikacija CEN/TS 16614-1 je namenjena izmenjavi rednih podatkov (omrežnih in voznorednih informacij ter informacij o vozninah). Temelji na Transmodelu V5.1 (EN 12896), IFOPT (EN 28701) in SIRI (CEN/TS 15531-4, CEN/TS 15531-5 in prEN 15531-1, prEN 15531-2 in prEN 15531-3) ter podpira izmenjavo za potnike pomembnih informacij o storitvah javnega prevoza in za delovanje avtomatskih nadzornih sistemov za vozila (AVMS). Čeprav je izmenjava podatkov NeTEx namenjena predvsem posredovanju podatkov iz sistemov razporedov prevoza informacijskim sistemom za potnike in avtomatskim nadzornim sistemom za vozila, ni omejena le na to dejavnost; NeTEx je lahko učinkovita rešitev v številnih drugih primerih izmenjave podatkov o prevozu.
General Information
Relations
Standards Content (Sample)
SLOVENSKI STANDARD
SIST-TS CEN/TS 16614-1:2014
01-september-2014
Javni prevoz - Izmenjava omrežnih in voznorednih podatkov (NeTEx) - 1. del:
Izmenjavni format za topologijo omrežja javnega prevoza
Public transport - Network and Timetable Exchange (NeTEx) - Part 1: Public transport
network topology exchange format
Öffentlicher Verkehr - Netzwerk und Fahrplan Austausch (NeTEx) - Teil 1: Öffentlicher
Verkehr Netzwerk Topologie
Transport Public - Échanges des informations planifiées (NeTEx) - Partie 1: Topologie du
réseau
Ta slovenski standard je istoveten z: CEN/TS 16614-1:2014
ICS:
03.220.01 Transport na splošno Transport in general
35.240.60 Uporabniške rešitve IT v IT applications in transport
transportu in trgovini and trade
SIST-TS CEN/TS 16614-1:2014 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST-TS CEN/TS 16614-1:2014
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SIST-TS CEN/TS 16614-1:2014
TECHNICAL SPECIFICATION
CEN/TS 16614-1
SPÉCIFICATION TECHNIQUE
TECHNISCHE SPEZIFIKATION
May 2014
ICS 35.240.60
English Version
Public transport - Network and Timetable Exchange (NeTEx) -
Part 1: Public transport network topology exchange format
Transport Public - Échanges des informations planifiées Öffentlicher Verkehr - Netzwerk und Fahrplan Austausch
(NeTEx) - Partie 1: Topologie du réseau (NeTEx) - Teil 1: Öffentlicher Verkehr Netzwerk Topologie
This Technical Specification (CEN/TS) was approved by CEN on 12 November 2013 for provisional application.
The period of validity of this CEN/TS is limited initially to three years. After two years the members of CEN will be requested to submit their
comments, particularly on the question whether the CEN/TS can be converted into a European Standard.
CEN members are required to announce the existence of this CEN/TS in the same way as for an EN and to make the CEN/TS available
promptly at national level in an appropriate form. It is permissible to keep conflicting national standards in force (in parallel to the CEN/TS)
until the final decision about the possible conversion of the CEN/TS into an EN is reached.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United
Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2014 CEN All rights of exploitation in any form and by any means reserved Ref. No. CEN/TS 16614-1:2014 E
worldwide for CEN national Members.
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CEN/TS 16614-1:2014 (E)
Contents
Foreword .6
Introduction .7
1 Scope .8
1.1 General .8
1.2 Transport modes.8
1.3 Compatibility with existing standards and recommendations .8
2 Normative references .8
3 Terms and definitions .9
4 Symbols and abbreviations . 61
5 Use Cases for Network Topology Exchange . 62
5.1 Purpose . 62
5.2 Actors and Use Case Types . 62
5.2.1 Actors . 62
5.2.2 Delivery Use Cases . 63
5.2.3 Content Use Cases . 65
5.2.4 Object Lifecycle Support Use Cases . 66
5.2.5 Security Use Cases . 66
5.2.6 Excluded Use Cases . 67
5.3 Use Cases . 68
5.3.1 Requirements Table . 68
5.3.2 Collection of Use Cases . 74
6 Generic Physical Model and XSD mapping rules . 105
6.1 Introduction . 105
6.2 Model Driven Design . 105
6.3 Models – levels of abstraction. . 107
6.4 Open Implementation and technology use . 108
6.5 Models versus Protocols . 109
6.6 Modularisation . 109
6.7 Summary of Modelling Approach . 110
6.7.1 Use of packages in NeTEx models . 111
6.8 Model transforms and Traceability . 112
6.8.1 Conceptual Model UML Package . 112
6.8.2 Physical Model UML Container Packages and Mapping from Conceptual model . 112
6.8.3 XSD Model subschemas and Mapping from Physical model . 113
6.8.4 Summary of Basic Mapping . 114
6.9 Physical model to XSD schema mapping notes . 115
6.10 Uniqueness of reference and Namespaces . 115
6.11 Handling of inheritance . 115
6.12 NeTEx Notation, presentation and naming conventions . 116
6.12.1 Presentation of Element Names . 116
6.12.2 Naming conventions . 116
6.12.3 Presentation of Diagrams . 117
6.12.4 Use of Colour . 118
6.13 Mapping between models in NeTEx. 118
6.13.1 Common Design Patterns in NeTEx . 118
6.13.2 Mapping Example – Thing Model . 118
6.13.3 Mapping Example – Handling Inheritance the SubThing Model . 127
7 NeTEx Framework - Conceptual and Physical data model . 131
7.1 Introduction . 132
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7.2 Implementing Transmodel framework features in NeTEx . 133
7.3 Versions & Validity . 133
7.3.1 Introduction . 133
7.3.2 Version & Validity – Model Dependencies . 134
7.3.3 Generic Entity . 135
7.3.4 Generic Version . 144
7.3.5 Implementing relationships in NeTEx . 156
7.3.6 Generic Version Frame . 161
7.3.7 Generic Validity . 179
7.4 Responsibility . 186
7.4.1 Introduction . 186
7.4.2 Responsibility – Model Dependencies . 187
7.4.3 Generic Responsibility . 187
7.4.4 Responsibility Role . 202
7.4.5 Generic Organisation . 209
7.5 Generic Frames . 224
7.5.1 Composite Frame . 224
7.5.2 General Frame . 226
7.6 Generic Framework Model. 229
7.6.1 Generic Framework – Model Dependencies . 229
7.6.2 Unit & Utility Base Types . 230
7.6.3 Location Model . 244
7.6.4 Generic Grouping . 249
7.6.5 Generic Point & Link . 258
7.6.6 Common Section . 269
7.6.7 Generic Point & Link Sequence . 274
7.6.8 Generic Zone and Feature . 281
7.6.9 Generic Projection . 292
7.6.10 Generic Place . 311
7.6.11 Accessibility . 321
7.7 Reusable Components . 338
7.7.1 Reusable Components – Model Dependencies . 338
7.7.2 Resource Frame . 340
7.7.3 Transport Mode . 343
7.7.4 Transport SubMode . 349
7.7.5 Service Calendar . 357
7.7.6 Availability Condition . 381
7.7.7 Topographic Place . 385
7.7.8 Transport Organisations . 398
7.7.9 Generic Equipment . 408
7.7.10 Additional Organisations . 423
7.7.11 Vehicle Type . 430
7.7.12 Actual Vehicle Equipment . 445
7.7.13 Vehicle Passenger Equipment . 448
7.7.14 Facility . 454
7.7.15 Access Rights . 490
7.7.16 Train . 493
7.7.17 Schematic Map . 504
7.7.18 Notice . 512
8 Part 1 – The Network Topology . 521
8.1 Network Description – Model dependencies . 522
8.2 Infrastructure Frame . 523
8.2.1 Infrastructure Frame – Conceptual MODEL. 523
8.2.2 Infrastructure Frame– Physical Model . 524
8.3 Service Frame . 526
8.3.1 Service Frame – Conceptual MODEL . 526
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8.3.2 Service Frame – Physical Model . 527
8.4 Network Description – Subsystem. 530
8.4.1 Network Infrastructure . 530
8.4.2 Network Restriction . 540
8.4.3 Activation . 549
8.4.4 Vehicle & Crew Point . 555
8.4.5 Lines and Routes . 561
8.4.6 Line Network . 587
8.4.7 Timing Pattern . 595
8.4.8 Flexible Network . 606
8.5 Fixed Object – Subsystem . 619
8.5.1 Fixed Objects – Model Dependencies . 620
8.5.2 Site Frame . 621
8.5.3 Site . 625
8.5.4 Stop Place . 652
8.5.5 Flexible Stop Place . 685
8.5.6 Point Of Interest . 692
8.5.7 Associating Equipment with Places . 708
8.5.8 Equipment Description . 708
8.5.9 Path Links . 795
8.5.10 Navigation Paths . 808
8.5.11 Check Constraint . 831
8.5.12 Parking . 844
8.5.13 Vehicle Stopping . 861
8.5.14 Connections & Transfer times . 865
8.5.15 Passenger Information Equipment . 880
8.5.16 Accessibility Coverage . 889
8.5.17 Accessibility Coverage of Paths . 890
8.6 Tactical Planning Components – Subsystem . 891
8.6.1 Tactical Planning – Model Dependencies . 891
8.6.2 Journey Pattern . 893
8.6.3 Service Pattern . 908
8.6.4 Routing Constraints . 927
8.6.5 Time Demand Type . 934
8.6.6 Passenger Stop Assignment . 941
8.6.7 Train Stop Assignment . 950
8.6.8 Path Assignment. 955
9 NeTEx Service Interface . 958
9.1 Introduction . 958
9.2 Protocols versus payload . 959
9.3 NeTEx Publication XSD schema . 960
9.3.1 NeTEx PublicationDelivery . 960
9.3.2 Publication Request – Service Element . 963
9.3.3 Frame Request Topics Filter . 965
9.3.4 Frame Request Policy . 968
9.4 NeTEx SIRI-NX services XSD schema . 972
9.4.1 Brief overview of SIRI communication layer . 973
9.4.2 SIRI ServiceRequest wrapper . 975
9.4.3 SIRI ServiceDelivery . 977
9.4.4 Data Object Service [SIRI-NX] . 981
9.5 Use of NeTEx with SOAP / WSDL. 986
9.5.1 Web Services . 987
9.5.2 SOAP (Simple Object Access Protocol) . 987
9.5.3 WSDL (Web Services Definition Language) . 987
9.5.4 NeTEx WSDL . 988
Annex A (informative) Mapping with existing standards . 990
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A.1 Introduction . 990
A.2 VDV 452 Mapping . 994
A.3 NOPTIS Mapping . 994
A.4 NEPTUNE (Trident /Chouette profile) . 995
A.4.1 Foreword . 995
A.4.2 NEPTUNE. 995
A.4.3 NEPTUNE to NeTEx mapping information . 996
A.5 ERA mapping . 997
A.5.1 Foreword . 997
A.5.2 Explanation of the mapping . 998
A.5.2.1 Structure of mapping excel-file . 998
A.5.2.2 Hierarchy of EDIFACT . 998
A.5.2.2.1 Explanation of the mapping . 998
A.5.3 Limitations. 999
A.6 TransXChange, NaPTAN & NPTG mappings . 1000
A.6.1 Foreword . 1000
A.6.2 TransXChange to NeTEx mapping information .
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