• There are no items in your cart

I.S. EN 14737-1:2004

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

View Superseded by

SPACE ENGINEERING - GROUND SYSTEMS AND OPERATIONS - PART 1: PRINCIPLES AND REQUIREMENTS

Available format(s)

Hardcopy , PDF

Superseded date

19-02-2015

Superseded by

I.S. EN 16603-70:2015

Language(s)

English

Published date

01-01-2004

For Harmonized Standards, check the EU site to confirm that the Standard is cited in the Official Journal.

Only cited Standards give presumption of conformance to New Approach Directives/Regulations.


Dates of withdrawal of national standards are available from NSAI.

€108.00
Excluding VAT

Foreword
1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
  3.1 Terms and definitions
  3.2 Abbreviated terms
4 Ground systems and operations domain
  4.1 General
  4.2 Ground segment composition
  4.3 Ground system elements
      4.3.1 General
      4.3.2 Mission control system (MCS)
      4.3.3 Electrical ground support equipment (EGSE)
      4.3.4 Ground station system (GSTS)
      4.3.5 Ground communication subnet (GCS)
      4.3.6 Supporting infrastructure
      4.3.7 Control centres
5 Ground segment engineering processes
  5.1 General
  5.2 Ground segment phase 0/A: Feasibility studies and
      conceptual design
      5.2.1 Purpose of phase 0/A
      5.2.2 Inputs to phase 0/A
      5.2.3 Activities during phase 0/A
      5.2.4 Products of phase 0/A
      5.2.5 Milestones and reviews of phase 0/A
  5.3 Ground segment phase B: Preliminary design
      5.3.1 Purpose of phase B
      5.3.2 Inputs to phase B
      5.3.3 Activities during phase B
      5.3.4 Products of phase B
      5.3.5 Milestones and reviews of phase B
  5.4 Ground segment phase C: Design
      5.4.1 Purpose of phase C
      5.4.2 Inputs to phase C
      5.4.3 Activities during phase C
      5.4.4 Products of phase C
      5.4.5 Milestones and reviews of phase C
  5.5 Ground segment phase D: Production
      5.5.1 Purpose of phase D
      5.5.2 Inputs to phase D
      5.5.3 Activities during phase D
      5.5.4 Products of phase D
      5.5.5 Milestones and reviews of phase D
  5.6 Ground segment phase E: In-orbit operations
      5.6.1 Purpose of phase E
      5.6.2 Inputs to phase E
      5.6.3 Activities during phase E
      5.6.4 Products of phase E
      5.6.5 Milestones and reviews of phase E
  5.7 Ground segment phase F: Mission termination
      5.7.1 Purpose of phase F
      5.7.2 Inputs to phase F
      5.7.3 Activities during phase F
      5.7.4 Products of phase F
      5.7.5 Milestones and reviews of phase F
  5.8 Ground engineering processes summary
6 Ground segment engineering
  6.1 General
      6.1.1 Ground segment design
      6.1.2 Ground systems design and implementation
      6.1.3 Operations preparation
      6.1.4 Ground segment integration and technical verification
            and validation
      6.1.5 Operational validation
      6.1.6 Operations execution
      6.1.7 Disposal
      6.1.8 Logistics support
      6.1.9 Ground segment engineering - Categories of activities
      6.1.10 Critical areas
  6.2 Ground segment design
      6.2.1 Design general
      6.2.2 Ground segment requirements
      6.2.3 Analysis
      6.2.4 Ground segment system design
  6.3 Ground systems design and implementation
      6.3.1 General
      6.3.2 Common aspects
      6.3.3 Mission control system
      6.3.4 EGSE system
      6.3.5 Ground station system
      6.3.6 Ground communications subnet
  6.4 Operations preparation
      6.4.1 General
      6.4.2 Operations Design
      6.4.3 Mission operations data production
      6.4.4 Mission operations data validation
      6.4.5 Operations teams build-up and training
  6.5 Ground segment integration and technical
      verification and validation
      6.5.1 General
      6.5.2 Ground segment integration
      6.5.3 Technical verification and validation
  6.6 Operational validation
  6.7 Operations execution
      6.7.1 General
      6.7.2 Operations execution
      6.7.3 Reporting and reviews
      6.7.4 Operational
  6.8 Disposal
      6.8.1 General considerations
      6.8.2 Space segment disposal
      6.8.3 Ground segment disposal
  6.9 Logistics support
      6.9.1 General considerations
      6.9.2 Phasing
Annex A (informative) DRD list
Annex B (informative) Ground segment reviews

Includes basic rules, principles and requirements to be applied to the engineering of the ground segment and mission operations, which form an integral part of the overall system implementing a space mission.

DocumentType
Standard
Pages
74
PublisherName
National Standards Authority of Ireland
Status
Superseded
SupersededBy

Standards Relationship
SN EN 14737-1 : 2005 Identical
NF EN 14737-1 : 2004 Identical
NBN EN 14737-1 : 2004 Identical
DIN EN 14737-1:2004-12 Identical
BS EN 14737-1:2004 Identical
NS EN 14737-1 : 1ED 2004 Identical
NEN EN 14737-1 : 2004 Identical
UNI EN 14737-1 : 2005 Identical
EN 14737-1:2004 Identical

EN 13292:1999 Space engineering standards - Policy and principles
ISO 16091:2002 Space systems Integrated logistic support
EN 14824:2003 Space engineering - Testing
EN 14737-2:2004 Space engineering - Ground systems and operations - Part 2: Documents requirements definitions (DRDs)
EN 13701:2001 Space systems - Glossary of terms
EN ISO 16091:2002 Space systems - Integrated logistic support (ISO 16091:2002)
ISO 14620-1:2002 Space systems Safety requirements Part 1: System safety
EN 14160:2001 Space engineering - Software
EN 13290-4:2001 Space project management - General requirements - Part 4: Project phasing and planning
EN ISO 14620-1:2002 Space systems - Safety requirements - Part 1: System safety (ISO 14620-1:2002)
EN 14725:2003 Space engineering - Verification

Access your standards online with a subscription

Features

  • Simple online access to standards, technical information and regulations.

  • Critical updates of standards and customisable alerts and notifications.

  • Multi-user online standards collection: secure, flexible and cost effective.