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EN IEC 63173-1:2021

(Main)

Maritime navigation and radiocommunication equipment and systems - Data interface - Part 1: S-421 route plan based on S-100

Maritime navigation and radiocommunication equipment and systems - Data interface - Part 1: S-421 route plan based on S-100

This part of IEC 63173 specifies an S-100 compliant product specification for route plan intended for exchange of information. It specifies the content, structure, and metadata needed for creating fully S-100 compliant route plan information and its portrayal within an S-100-based application. The IHO manages all numbers for S-100 compliant product specifications and has assigned S-421 for this route plan IEC standard. This document specifies only a data format for the route plan exchange. This document does not specify a data format of vessel monitoring and logging information. This information can be provided by other mechanisms or be specified in other standards. The format of the route plan exchange includes some limited vessel static information. When more static information is required, it can be obtained by other methods such as AIS.

Navigations- und Funkkommunikationsgeräte und -Systeme für die Seeschifffahrt - Digitale Schnittstellen - Teil 1: S-421 Routenplan auf Grundlage von S-100

Matériels et systèmes de navigation et de radiocommunication maritimes - Interface de données - Partie 1: Plan de route S-421 basé sur la S-100

L’IEC 63173-1:2021 énonce une spécification de produit conforme à la S-100 pour un plan de route destiné à l’échange d’informations. Elle précise le contenu, la structure et les métadonnées nécessaires pour créer des informations de plan de route entièrement conformes à la S-100 et les présenter dans une application basée sur cette même spécification. L’OHI gère les références des spécifications de produit conformes à la S-100 et a attribué la référence S-421 à la présente norme IEC de plan de route. Le présent document spécifie uniquement un format de données pour l’échange de plans de route. Il ne spécifie pas de format de données pour les informations de surveillance et de journalisation des navires. Ces informations peuvent être fournies par d’autres mécanismes ou être spécifiées dans d’autres normes. Le format d’échange de plans de route comprend des informations statiques limitées concernant les navires. Lorsque des informations plus statiques sont exigées, elles peuvent être obtenues par d’autres méthodes telles que le système d’identification automatique (AIS, automatic identification system).

Pomorska navigacijska in radiokomunikacijska oprema in sistemi - Podatkovni vmesnik - 1. del: Načrt poti S-421 na podlagi S-100 (IEC 63173-1:2021)

General Information

Status
Published
Publication Date
12-Aug-2021
ICS
47.020.70 - Navigation and control equipment
Technical Committee
CLC/SR 80 - Maritime navigation and radiocommunication equipment and systems
Drafting Committee
IEC/TC 80 - IEC_TC_80
Current Stage
6060 - Document made available - Publishing
Start Date
13-Aug-2021
Completion Date
13-Aug-2021
Ref Project
SIST EN IEC 63173-1:2021 - Maritime navigation and radiocommunication equipment and systems - Data Interface - Part 1: S-421 Route Plan Based on S-100 (IEC 63173-1:2021)
EN IEC 63173-1:2021 - BARVEEN IEC 63173-1:2021 - BARVE
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SLOVENSKI STANDARD
01-oktober-2021
Pomorska navigacijska in radiokomunikacijska oprema in sistemi - Podatkovni
vmesnik - 1. del: Načrt poti S-421 na podlagi S-100 (IEC 63173-1:2021)
Maritime navigation and radiocommunication equipment and systems - Data Interface -
Part 1: S-421 Route Plan Based on S-100 (IEC 63173-1:2021)
Navigations- und Funkkommunikationsgeräte und -Systeme für die Seeschifffahrt -
Digitale Schnittstellen - Teil 1: S-421 Routenplan auf Grundlage von S-100 (IEC 63173-
1:2021)
Matériels et systèmes de navigation et de radiocommunication maritimes - Interface de
données - Partie 1: Plan de route S-421 basé sur la S-100 (IEC 63173-1:2021)
Ta slovenski standard je istoveten z: EN IEC 63173-1:2021
ICS:
47.020.70 Navigacijska in krmilna Navigation and control
oprema equipment
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EUROPEAN STANDARD EN IEC 63173-1

NORME EUROPÉENNE
EUROPÄISCHE NORM
August 2021
ICS 47.020.70
English Version
Maritime navigation and radiocommunication equipment and
systems - Data interface - Part 1: S-421 route plan based on S-
(IEC 63173-1:2021)
Matériels et systèmes de navigation et de Navigations- und Funkkommunikationsgeräte und -Systeme
radiocommunication maritimes - Interface de données - für die Seeschifffahrt - Digitale Schnittstellen - Teil 1: S-421
Partie 1: Plan de route S-421 basé sur la S-100 Routenplan auf Grundlage von S-100
(IEC 63173-1:2021) (IEC 63173-1:2021)
This European Standard was approved by CENELEC on 2021-07-21. CENELEC members are bound to comply with the CEN/CENELEC
Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.
Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC
Management Centre or to any CENELEC member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CENELEC member into its own language and notified to the CEN-CENELEC Management Centre has the
same status as the official versions.
CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the
Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.

European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2021 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
Ref. No. EN IEC 63173-1:2021 E

European foreword
The text of document 80/997/FDIS, future edition 1 of IEC 63173-1, prepared by IEC/TC 80 "Maritime
navigation and radiocommunication equipment and systems" was submitted to the IEC-CENELEC
parallel vote and approved by CENELEC as EN IEC 63173-1:2021.
The following dates are fixed:
• latest date by which the document has to be implemented at national (dop) 2022-04-21
level by publication of an identical national standard or by endorsement
• latest date by which the national standards conflicting with the (dow) 2024-07-21
document have to be withdrawn
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC shall not be held responsible for identifying any or all such patent rights.
Any feedback and questions on this document should be directed to the users’ national committee. A
complete listing of these bodies can be found on the CENELEC website.
Endorsement notice
The text of the International Standard IEC 63173-1:2021 was approved by CENELEC as a European
Standard without any modification.
In the official version, for Bibliography, the following notes have to be added for the standards
indicated:
IEC 61174 NOTE Harmonized as EN 61174
IEC 62288 NOTE Harmonized as EN 62288
ISO 19115 (series) NOTE Harmonized as EN ISO 19115 (series)
Annex ZA
(normative)
Normative references to international publications
with their corresponding European publications
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments)
applies.
NOTE 1  Where an International Publication has been modified by common modifications, indicated by (mod),
the relevant EN/HD applies.
NOTE 2  Up-to-date information on the latest versions of the European Standards listed in this annex is available
here: www.cenelec.eu.
Publication Year Title EN/HD Year
S-100 2018 IHO Universal Hydrographic Data Model - -
(edition 4.0.0)
IEC 63173-1 ®
Edition 1.0 2021-06
INTERNATIONAL
STANDARD
colour
inside
Maritime navigation and radiocommunication equipment and systems –

Data interfaces –
Part 1: S-421 route plan based on S-100

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
ICS 47.020.70 ISBN 978-2-8322-9888-6

– 2 – IEC 63173-1:2021 © IEC 2021
CONTENTS
FOREWORD . 10
INTRODUCTION . 12
1 Scope . 13
2 Normative references . 13
3 Terms and definitions . 13
4 Abbreviated terms . 14
5 General description . 15
5.1 General data product description . 15
5.2 Data product specification metadata . 15
5.3 Product specification maintenance . 16
5.4 Specification scopes . 16
5.5 Dataset identification . 16
6 Data content and structure . 16
6.1 General . 16
6.2 Application schema . 17
6.4 Geometry . 19
6.5 Coordinate reference systems. 19
7 Feature catalogue. 19
7.1 General . 19
7.2 Feature types . 20
7.2.1 Geographic . 20
7.2.2 Meta . 20
7.2.3 Route . 20
7.2.4 RouteActionPoints . 20
7.2.5 RouteActionPoint . 21
7.2.6 RouteWaypoints . 25
7.2.7 RouteWaypoint . 25
7.2.8 RouteWaypointLeg . 28
7.3 Information types . 33
7.3.1 General . 33
7.3.2 RouteSchedules . 33
7.3.3 RouteSchedule . 33
7.3.4 RouteScheduleManual/RouteScheduleCalculated/
RouteScheduleRecommended . 36
7.3.5 RouteScheduleElement . 36
7.3.6 RouteInfo . 36
7.4 Association roles of feature catalogue. 45
7.5 Associations of feature catalogue . 46
7.5.1 General . 46
7.5.2 Feature association . 46
7.5.3 Information association . 46
7.6 Attributes . 47
7.6.1 General . 47
7.6.2 Simple attribute types . 47
7.6.3 Complex attributes . 48
7.6.4 Spatial attribute types . 49

IEC 63173-1:2021 © IEC 2021 – 3 –
7.7 Binding . 49
7.7.1 General . 49
7.7.2 Feature binding . 49
7.7.3 Information binding . 50
8 Data type and structure of transmission format . 51
9 Maintenance . 51
9.1 Feature and portrayal catalogue management . 51
9.1.1 Feature catalogue management . 51
9.1.2 Portrayal catalogue management. 51
9.2 Data source . 52
9.3 Production process . 52
10 Portrayal . 52
10.1 General . 52
10.2 Portrayal catalogue . 52
11 Data product delivery . 53
11.1 General . 53
11.2 Single XML file . 53
11.3 Compressed data container . 54
11.4 S-100-compliant exchange set . 54
11.4.1 General . 54
11.4.2 Exchange set . 54
11.4.3 Dataset . 55
11.4.4 Exchange catalogue . 55
11.4.5 Digital signature . 55
11.4.6 Encryption . 55
11.4.7 Metadata . 56
12 Test methods and expected results . 59
12.1 General . 59
12.2 Test data . 60
12.2.1 Test material . 60
12.2.2 Minimum generic test data . 60
12.2.3 Basic generic test data . 61
12.2.4 Full generic test data . 62
12.3 Route plan test . 63
12.3.1 General . 63
12.3.2 Minimum generic route plan test . 63
12.3.3 Basic generic route plan test . 64
12.3.4 Full generic route plan test . 68
Annex A (normative) Examples of use cases for route . 75
A.1 General . 75
A.2 Route cross check . 75
A.2.1 Description . 75
A.2.2 Information exchange diagram . 76
A.2.3 State transition diagram . 77
A.2.4 Required objects and attributes and their usage . 78
A.2.5 Test methods and expected results . 84
A.3 Flow management . 86
A.3.1 Description . 86

– 4 – IEC 63173-1:2021 © IEC 2021
A.3.2 Information exchange diagram . 87
A.3.3 State transition diagram . 88
A.3.4 Required objects and attributes and their usage . 90
A.3.5 Test methods and expected results . 94
A.4 Enhanced monitoring . 95
A.4.1 Description . 95
A.4.2 Information exchange diagram . 96
A.4.3 State transition diagram . 97
A.4.4 Required objects and attributes and their usage . 98
A.4.5 Test methods and expected results . 102
A.5 Ice navigation . 103
A.5.1 Description . 103
A.5.2 Information exchange diagram . 104
A.5.3 State transition diagram ship side . 105
A.5.4 Shore side . 106
A.5.5 Required objects and attributes and their usage . 106
A.5.6 Test methods and expected results . 109
A.6 Under keel clearance management . 110
A.6.1 Description . 110
A.6.2 Information exchange diagram . 112
A.6.3 State transition diagram . 113
A.6.4 Required objects and attributes and their usage . 116
A.6.5 Test methods and expected results . 120
A.7 Fleet route planning . 123
A.7.1 Description . 123
A.7.2 Information exchange diagram . 123
A.7.3 State transition diagram . 124
A.7.4 Required objects and attributes and their usage . 126
A.7.5 Test methods and expected results . 130
A.8 Chart management . 131
A.8.1 Description . 131
A.8.2 Information exchange diagram . 132
A.8.3 State transition diagram . 132
A.8.4 Functional requirement . 133
A.8.5 Required objects and attributes and their usage . 133
A.8.6 Test methods and expected results . 135
A.9 Route optimization . 136
A.9.1 Description . 136
A.9.2 Information exchange diagram . 137
A.9.3 State transition diagram . 138
A.9.4 Required objects and attributes and their usage . 139
A.9.5 Test methods and expected results . 144
A.10 Port call synchronization . 145
A.10.1 Description . 145
A.10.2 Information exchange diagram . 146
A.10.3 State transition diagram . 148
A.10.4 Required objects and attributes and their usage . 150
A.10.5 Test methods and expected results . 153
A.11 Reference route . 154

IEC 63173-1:2021 © IEC 2021 – 5 –
A.11.1 Description . 154
A.11.2 Information exchange diagram . 155
A.11.3 State transition diagram . 156
A.11.4 Required objects and attributes and their usage . 158
A.11.5 Test methods and expected results . 163
A.12 Search and rescue . 164
A.12.1 Description . 164
A.12.2 Information exchange diagram . 165
A.12.3 State transition diagram . 166
A.12.4 Required objects and attributes and their usage . 167
A.12.5 Test methods and expected results . 169
A.13 Summary of objects and attributes used by service scenarios . 170
Annex B (normative) Data classification and encoding guide. 178
B.1 General . 178
B.1.1 Overview . 178
B.1.2 Descriptive characteristics . 178
B.1.3 Spatial characteristics . 179
B.2 Attributes . 179
B.2.1 General . 179
B.2.2 Simple attribute types with acronym. 180
B.2.3 Mandatory attributes by schema . 181
B.2.4 Missing attribute values . 182
B.2.5 Multiplicity . 183
B.2.6 Spatial attribute types . 183
B.2.7 Textual information . 183
B.2.8 Attributes referencing external files. 183
B.2.9 Dates . 184
B.3 Associations . 185
B.3.1 General . 185
B.3.2 Association names. 186
B.3.3 Association roles . 186
B.3.4 Use of various associations . 186
B.4 Datasets . 186
B.5 Metadata . 186
B.5.1 General . 186
B.5.2 Dataset metadata . 187
B.5.3 Support file metadata . 189
B.5.4 Exchange set metadata . 190
B.5.5 Catalogue file metadata . 190
B.6 Description of table format for feature and information formats . 191
B.7 Feature types . 193
B.7.1 Feature type in general . 193
B.7.2 Route . 193
B.7.3 RouteActionPoints . 195
B.7.4 RouteActionPoint . 195
B.7.5 RouteWaypoints . 197
B.7.6 RouteWaypoint . 198
B.7.7 RouteWaypointLeg . 198
B.8 Information types . 200

– 6 – IEC 63173-1:2021 © IEC 2021
B.8.1 InformationType in general . 200
B.8.2 RouteInfo . 201
B.8.3 RouteSchedules . 202
B.8.4 RouteSchedule . 203
B.8.5 RouteScheduleManual . 204
B.8.6 RouteScheduleCalculated . 205
B.8.7 RouteScheduleRecommend . 205
B.8.8 RouteScheduleElement . 206
Annex C (informative) Examples of how to fulfil the requirements of IMO voyage
planning . 208
C.1 General . 208
C.2 Reference points . 208
C.3 Astronomical events . 209
C.4 Under keel clearance . 210
C.5 Overhead clearance . 211
C.6 Regulated areas . 213
Annex D (normative) Route plan feature catalogue and example . 216
D.1 Application schema . 216
D.2 Example . 240
Annex E (informative) Guidelines for GML ID allocation . 245
Bibliography . 247

Figure 1 – Route plan application schema. 18
Figure 2 – RouteWaypointID usage examples: Delete . 26
Figure 3 – RouteWaypointID usage examples: Insert . 26
Figure 4 – RouteWaypointLegDistance between WP2 and WP3 . 28
Figure 5 – RouteWaypointLeg parameters belonging to WP3 . 28
Figure 6 – Under-keel clearance example . 29
Figure 7 – RouteWaypointLeg limits example . 30
Figure 8 – State diagram for route status from ship perspective . 38
Figure 9 – State diagram of route status from shore perspective . 38
Figure 10 – S-100 exchange set structure . 54
Figure 11 – Realization of the exchange set classes . 56
Figure 12 – Route exchange set catalogue . 57
Figure 13 – Route exchange set . 57
Figure 14 – Route exchange set – Example of class details . 58
Figure A.1 – Route cross check example . 76
Figure A.2 – Interaction diagram . 77
Figure A.3 – State transition diagram for the route plan onboard . 78
Figure A.4 – State transition diagram for the route plan onshore . 78
Figure A.5 – Flow management example . 87
Figure A.6 – Data interaction diagram . 88
Figure A.7 – State transition diagram for the route plan onboard . 89
Figure A.8 – State transition diagram for the route plan onshore . 89
Figure A.9 – Enhanced monitoring example . 96

IEC 63173-1:2021 © IEC 2021 – 7 –
Figure A.10 – Information exchange diagram . 97
Figure A.11 – State transition diagram for the route plan onboard . 97
Figure A.12 – State transition diagram for the route plan onshore . 98
Figure A.13 – Ice navigation example . 104
Figure A.14 – Interaction diagram on request . 105
Figure A.15 – State transition diagram for a ship . 105
Figure A.16 – State transition diagram for a shore . 106
Figure A.17 – Example of UKCM area . 111
Figure A.18 – Example of portrayal of S-421 part of UKCM . 111
Figure A.19 – Example of portrayal of S-129 overlay part of UKCM . 112
Figure A.20 – Information exchange diagram . 113
Figure A.21 – State transition diagram of UKCM for a ship. 114
Figure A.22 – State transition diagram of UKCM for a shore . 115
Figure A.23 – Information sequence diagram . 124
Figure A.24 – State transition diagram for a ship . 125
Figure A.25 – State transition diagram for a shore . 125
Figure A.26 – Interaction diagram . 132
Figure A.27 – Route optimization example . 136
Figure A.28 – Interaction diagram on request . 137
Figure A.29 – State transition diagram for a ship . 138
Figure A.30 – State transition diagram for a shore . 139
Figure A.31 – Interaction diagram . 147
Figure A.32 – State transition diagram for a ship . 149
Figure A.33 – State transition diagram for shore . 150
Figure A.34 – Example of reference routes . 155
Figure A.35 – Data interaction diagram . 156
Figure A.36 – State transition diagram for a ship requesting a reference route . 157
Figure A.37 – State transition diagram for a shore center providing a reference route . 158
Figure A.38 – A search and rescue example . 165
Figure A.39 – Interaction diagram . 165
Figure A.40 – State transition diagram for a ship . 166
Figure A.41 – State transition diagram for shore . 167
Figure B.1 – Association routeInfoComposition . 185
Figure B.2 – Metadata packages . 187
Figure C.1 – Example of reference point . 208
Figure C.2 – Example of presentation of added textual information . 209
Figure C.3 – Example of astronomical event . 210
Figure C.4 – Example of presentation of added textual information . 211
Figure C.5 – Example of presentation of added textual information . 214
Figure C.6 – Example of graphical presentation of regulated area . 215

Table 1 – Informal description of the data product . 15
Table 2 – Data product specification metadata . 15

– 8 – IEC 63173-1:2021 © IEC 2021
Table 3 – Route plan product specification scope . 16
Table 4 – Dataset identification . 16
Table 5 – Route plan coordinate reference systems . 19
Table 6 – Route object attributes . 22
Table 7 – RouteActionPoints object attributes . 22
Table 8 – RouteActionPoint object attributes . 23
Table 9 – Definition of RouteActionPointRequiredAction . 24
Table 10 – RouteWaypoints object attributes . 24
Table 11 – RouteWaypoint object attributes . 27
Table 12 – RouteWaypointLeg object attributes . 31
Table 13 – RouteSchedules object attributes . 34
Table 14 – RouteScheduleManual object attributes . 34
Table 15 – RouteScheduleCalculated object attributes. 34
Table 16 – RouteScheduleRecommended object attributes . 34
Table 17 – RouteSchedule object attributes . 35
Table 18 – RouteScheduleElement object attributes . 39
Table 19 – RouteInfo object attributes . 40
Table 20 – Definition of RouteInfoStatus . 42
Table 21 – Type of ship . 43
Table 22 – Roles of the route plan . 45
Table 23 – Feature association for route plan . 46
Table 24 – Information association for route plan . 47
Table 25 – Simple attribute types . 48
Table 26 – RouteExtensions attributes . 49
Table 27 – Spatial attributes . 49
Table 28 – Feature binding for the route plan . 50
Table 29 – Information binding for the route plan . 51
Table 30 – Information binding for the route plan portrayal catalogue . 52
Table 31 – Dataset metadata . 59
Table A.1 – Objects and attributes used by route cross check. 79
Table A.2 – Test procedures for route cross check . 84
Table A.3 – Objects and attributes used by flow management . 91
Table A.4 – Test procedures for flow management . 94
Table A.5 – Objects and attributes used by enhanced monitoring . 99
Table A.6 – Test procedures for enhanced monitoring . 102
Table A.7 – Objects and attributes used by ice navigation . 107
Table A.8 – Test procedures for ice navigation . 109
Table A.9 – Objects and attributes used by UKCM . 117
Table A.10 – Test procedures for UKCM . 120
Table A.11 – Objects and attributes used by fleet route planning . 127
Table A.12 – Test procedures for fleet route planning .
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Maritime navigation and radiocommunication equipment and systems - Presentation of navigation-related information on shipborne navigational displays - General requirements, methods of testing and required test results
SIST EN IEC 62288:2022

This document specifies the general requirements, methods of testing, and required test results, for the presentation of navigation-related information on shipborne navigational displays in support of IMO resolutions MSC.191(79) as amended by MSC.466(101) in June 2019, and where applicable MSC.302(87). This document also supports the guidelines included in the related IMO Circulars MSC.1/Circ.1609 on the standardization of user interface design for navigation equipment and SN.1/Circ.243 as revised in June 2019 on the presentation of navigation related symbols, terms and abbreviations. This document also specifies the presentation of AIS data reports and the AIS Application Specific Messages defined for international use in IMO SN.1/Circ.289 and intended to be received by a ship for display onboard. NOTE All text in this document whose wording is identical to text contained in an IMO document is printed in italics. Reference to the document is noted at the beginning of the paragraph. The notation contains a prefix referring to the document and a suffix with the paragraph number from the document (for example, (MSC191/1); (SN243/1), etc.).

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EN 61996-1:2013/A1:2021(Amendment)
Maritime navigation and radiocommunication equipment and systems - Shipborne voyage data recorder (VDR) - Part 1: Performance requirements, methods of testing and required test results
SIST EN 61996-1:2014/A1:2021

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EN IEC 63154:2021(Main)
Maritime navigation and radiocommunication equipment and systems - Cybersecurity - General requirements, methods of testing and required test results
SIST EN IEC 63154:2021

IEC 63154:2021 specifies requirements, methods of testing and required test results where standards are needed to provide a basic level of protection against cyber incidents (i.e. malicious attempts, which actually or potentially result in adverse consequences to equipment, their networks or the information that they process, store or transmit) for: a) shipborne radio equipment forming part of the global maritime distress and safety system (GMDSS) mentioned in the International Convention for Safety of Life at Sea (SOLAS) as amended, and by the Torremolinos International Convention for the Safety of Fishing Vessels as amended, and to other shipborne radio equipment, where appropriate; b) shipborne navigational equipment mentioned in the International Convention for Safety of Life at Sea (SOLAS) as amended, and by the Torremolinos International Convention for the Safety of Fishing Vessels as amended, c) other shipborne navigational aids, and Aids to Navigation (AtoN), where appropriate.

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EN IEC 61924-2:2021(Main)
Maritime navigation and radiocommunication equipment and systems - Integrated navigation systems (INS) - Part 2: Modular structure for INS - Operational and performance requirements, methods of testing and required test results
SIST EN IEC 61924-2:2021

This part of IEC 61924 specifies the minimum requirements for the design, manufacture, integration, methods of testing and required test results for an integrated navigation system (INS) to comply with the International Maritime Organization (IMO) requirements of Resolution MSC.252(83), as amended by Resolution MSC.452(99). In addition, it takes account of IMO Resolution A.694(17) to which IEC 60945 is associated. When a requirement in this document is different from IEC 60945, the requirement of this document takes precedence. For bridge alert management, IMO Resolution MSC.302(87) supersedes IMO Resolution MSC.252(83). Accordingly, this document incorporates references to IEC 62923-1 and IEC 62923-2 which are associated with Resolution MSC.302(87) for requirements and tests, where applicable. This document indicates which requirements and associated tests of MSC.252(83) have been superseded by MSC.302(87). NOTE All text of this document whose wording is identical to that in IMO Resolution MSC.252(83), as amended by MSC.452(99), is printed in italics and the Resolution and paragraph number indicated between brackets.

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EN IEC 61108-5:2020(Main)
Maritime navigation and radiocommunication equipment and systems - Global navigation satellite systems (GNSS) - Part 5: BeiDou navigation satellite system (BDS) - Receiver equipment - Performance requirements, methods of testing and required test results
SIST EN IEC 61108-5:2020

IEC 61108-5:2020 specifies the minimum performance requirements, methods of testing and required test results for BDS shipborne receiver equipment, based on IMO resolution MSC.379(93), which uses the signals from the BeiDou navigation satellite system in order to determine position. It takes account of the general requirements given in IMO resolution A.694(17) and is associated with IEC 60945. When a requirement in this document is different from IEC 60945, the requirement in this document takes precedence. This document also takes account, as appropriate, of requirements for the presentation of navigation-related information on shipborne navigational displays given in IMO resolution MSC.191(79) and is associated with IEC 62288 and MSC.302(87) associated with IEC 62923-1. This receiver standard applies to navigation in the ocean, coastal, harbour entrances, harbour approaches and restricted waters, as defined in IMO resolution A.915(22) and IMO resolution A.1046(27).

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