1、BRITISH STANDARD AEROSPACE SERIES BS ISO 14711:2003 Space systems Unmanned mission operations concepts Guidelines for defining and assessing concept products ICS 49.140 BS ISO 14711:2003 This British Standard was published under the authority of the Standards Policy and Strategy Committee on 15 May
2、2003 BSI 15 May 2003 ISBN 0 580 41861 8 National foreword This British Standard reproduces verbatim ISO 14711:2003 and implements it as the UK national standard. The UK participation in its preparation was entrusted by Technical Committee ACE/68, Space systems and operations, to Subcommittee ACE/68/
3、-/3, Operations and ground support, which has the responsibility to: A list of organizations represented on this subcommittee can be obtained on request to its secretary. Cross-references The British Standards which implement international publications referred to in this document may be found in th
4、e BSI Catalogue under the section entitled “International Standards Correspondence Index”, or by using the “Search” facility of the BSI Electronic Catalogue or of British Standards Online. This publication does not purport to include all the necessary provisions of a contract. Users are responsible
5、for its correct application. Compliance with a British Standard does not of itself confer immunity from legal obligations. aid enquirers to understand the text; present to the responsible international/European committee any enquiries on the interpretation, or proposals for change, and keep the UK i
6、nterests informed; monitor related international and European developments and promulgate them in the UK. Summary of pages This document comprises a front cover, an inside front cover, ISO title page, pages ii to v, a blank page, pages 1 to 11 and a back cover. The BSI copyright date displayed in th
7、is document indicates when the document was last issued. Amendments issued since publication Amd. No. Date Comments Reference number ISO 14711:2003(E)INTERNATIONAL STANDARD ISO 14711 First edition 2003-03-01 Space systems Unmanned mission operations concepts Guidelines for defining and assessing con
8、cept products Systmes spatiaux Concept doprations de mission non habite Lignes directrices pour la dfinition et lvaluation des produits du concept BSISO14711:2003ii BSISO14711:2003 iiiContents Page Foreword iv Introduction v 1 Scope 1 2 Terms and definitions. 1 3 Requirements for the operations conc
9、ept 2 3.1 General. 2 3.2 Mission operations concept guidance 2 3.3 Guideline descriptions. 6 Bibliography . 11 BSISO14711:2003iv Foreword ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing Interna
10、tional Standards is normally carried out through ISO technical committees. Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with
11、ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization. International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2. The main task of technical
12、committees is to prepare International Standards. Draft International Standards adopted by the technical committees are circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. Attention is drawn to t
13、he possibility that some of the elements of this document may be the subject of patent rights. ISO shall not be held responsible for identifying any or all such patent rights. ISO 14711 was prepared by Technical Committee ISO/TC 20, Aircraft and space vehicles, Subcommittee SC 14, Space systems and
14、operations. BSISO14711:2003 vIntroduction This International Standard defines the steps required to develop a comprehensive space system mission operations concept for the development and operations after the boost phase of a space mission is completed. Effective concept development relies on a deve
15、lopment process that runs concurrently with the mission and flight element development efforts, balancing performance, cost, and risk issues. This International Standard is also applicable to the mission operations support to the pre-launch and launch phases of the mission using the mission operatio
16、ns systems. Standard products enable industry to develop commercial off-the-shelf tools for developing a space systems mission operations concept. This International Standard is specifically tailored for unmanned space missions and may be of partial use for human flight mission operations concepts.
17、Users of this International Standard include project managers, operations personnel, flight element engineers, and operations facility personnel who are responsible for developing and integrating the mission operations system. This International Standard lists items to be considered and defines the
18、contents of a mission operations concept for space systems. This International Standard is applicable for the flow of data from the integration site and/or the launch pad to the operations centre and users, but does not include the items needed for a launch operations concept. A space systems missio
19、n operations concept is prepared in parallel with the mission concept and flight element design and contains increasing levels of detail as the mission matures. During the early study phases, the operations concept is a high-level overview and contains many assumptions. As the mission operations con
20、cept evolves and advances to the approval stage, the content becomes more detailed with fewer documented assumptions. The space systems mission operations concept does not detail a missions development or operational costs, but is the basis of cost estimation. Developing a space system mission opera
21、tions concept early in the study phase helps to minimize life-cycle costs, make acceptable risk trades, and to determine the effectiveness of using existing system capabilities. The mission operations documentation and development costs are also reduced as all the documents are referenced to a speci
22、fic operations concept rather than a set of high-level project documents. The earlier the space systems mission operations concept is developed, the more leverage there is for influencing the operability of the entire mission system, including the flight element. This International Standard establis
23、hes early in the projects development cycle a conceptual view of the mission data system which allows for a) early understanding of data and command transfer between sensors and end users, b) testing operational capabilities, and c) training personnel as the mission operation system matures. The dev
24、elopment of the space system mission operations concept is most beneficial when done in parallel with the flight element design, thus creating a tight coupling between the two efforts performing trade studies in the areas of cost, performance and risks. BSISO14711:2003INTENRATIONAL TSANDADR IS:11741
25、 O3002(E)I SO 3002 All irhgts seredevr 1Space systems Unmanned mission operations concepts Guidelines for defining and assessing concept products 1 Scope This International Standard gives guidelines for areas to be addressed and defines the products that are to be generated to develop a space system
26、s mission operations concept. This International Standard enables the generation of standard space systems mission operations concept products produced either by an industry, a government agency, or by a university. 2 Terms and definitions For the purposes of this document, the following terms and d
27、efinitions apply. 2.1 mission data system hardware and software located both on the space platform and in the ground support systems that provide the transport mechanisms for mission data together with the information system that properly configures and controls this hardware and software 2.2 missio
28、n operations concept description, in operator and user terms, of the operational attributes of a missions flight and ground elements 2.3 mission operations system MOS system consisting of mission data system and the operations organization 2.4 operations organization people and procedures that contr
29、ol the flight element, including payload, and process the mission data and information 2.5 product process, document, software tool, workstation, facility, procedure, or training aid that the operations organization develops to support their operation of the space system 2.6 trade study report on a
30、systematic examination of multiple factors that influence the economic and technical success of a project BSISO14711:20031IS:11741 O3002(E) 2 I SO 3002 All irhgts seredevr3 Requirements for the operations concept 3.1 General The space systems mission operations concept is a result of a co-operative
31、effort of the various project systems: flight element, ground support equipment system, mission operations system, launch vehicle, etc. Its development is closely coupled and is implemented in parallel with the development of the other project systems to produce a consistent and integrated mission o
32、perations concept. The space systems mission operations concept specifies design details and emphasises the way a mission is operated. It describes the operational characteristics of the space elements being controlled. The space systems mission operations concept consists of mission documentation,
33、constraints, and characteristics. It also contains the specific required mission operations products, including operational scenarios, time lines, processes performed by personnel, hardware and software processes, derived requirements, contingency scenarios, and conflict resolution processes. It als
34、o may contain a technology plan. End-user data products are specified and, depending on the mission, may be in various forms such as analogue, digital, and physical (e.g. sample return) data products. Another end user data product received from the mission operations system should be a lessons-learn
35、ed report to help future missions. A list of elements to be considered, defined, and generated when developing a space system mission operations concept is given in 3.2. Each item of the list is described further in 3.3. This guidance specifies the broadest scope of possible mission operations, task
36、s, issues, and products to facilitate mission managers and engineers in assessing the full scope of their mission operations concept. 3.2 Mission operations concept guidance 3.2.1 Inputs Define or make assumptions for the following inputs to the concept: a) mission scope, objectives, and requirement
37、s on operations; b) mission description and science characteristics; c) mission environments; d) end-user data products; e) mission philosophies, strategies, and tactics; f) programmatic and operational constraints; g) data relay capabilities (space-to-space, space-to-ground); h) ground system capab
38、ilities and characteristics; i) customer and users identified; j) relationships with other missions and/or programs; k) external dependencies with other agencies or companies. BSISO14711:20032IS:11741 O3002(E) I SO 3002 All irhgts seredevr 33.2.2 Mission element characteristics Describe the followin
39、g mission element characteristics: a) space systems capabilities and characteristics; b) payload capabilities and characteristics. 3.2.3 Mission operations processes Identify and characterize the following mission operations processes: a) establishment of a list of top-level operations processes tha
40、t shall be performed; b) descriptions of uplink processes: 1) user request planning; 2) space system resources to be managed by the ground system; 3) space system constraints to be enforced by the ground system; 4) space system maintenance activities to be managed by mission operation system; 5) pro
41、cedure for processing user requests; 6) process for scheduling data acquisition services; 7) integration of activity requests; 8) method for validating commands (if necessary) prior to uplink; 9) method for converting integrated requests to executable commands; 10) method for transmitting command fi
42、les to the space system and/or payload; 11) verification process for command execution or command storage; 12) method for receipt of command files by the spacecraft and/or payload and for storage or execution of commands; 13) on-board execution and processing of commands or rules; 14) method for arc
43、hiving command files; 15) flight software maintenance process; c) descriptions of downlink processes: 1) payload-to-user processes and interfaces; 2) transmission of data from: i) payload instruments and flight element subsystems to onboard storage; ii) onboard storage area to the space system trans
44、mitter; iii) space system transmitter to the storage in the ground database (Level 0 processing); BSISO14711:20033IS:11741 O3002(E) 4 I SO 3002 All irhgts seredevr3) processing steps required from the receipt of the space system and payload data in the project database to delivery to the end user; 4
45、) method of data encapsulation and delivery to the user; 5) method of analysing data with regard to that analysis required to conduct the mission; 6) method to archive data; 7) effect of processed data on the mission plan or planned sequencing; 8) processes and concepts involved in anomaly detection
46、 (space and ground) and responses; 9) ground software maintenance process; d) anomaly detection and response process; e) end-to-end information capabilities and characteristics with data flow diagrams. 3.2.4 Process enablers Identify ways to accomplish the process: a) specify existing capabilities a
47、nd services to be utilized and identify who provides these; b) specify new technology development needed and plans for its verification; c) summarize the facilities, ground support equipment, and tools needed to make the mission operations successful. 3.2.5 Perform trade studies Perform trade studie
48、s where operating methods and operations issues have impact on cost, quality, reliability, or mission risk for the processes that may be accomplished in more than one way. 3.2.6 Mission operations organization and responsibility allocations Describe the mission operations system organizational struc
49、ture and allocate responsibilities to its individuals and teams: a) specify operations organization; b) define the roles and responsibilities of the operations teams and personnel; c) describe training responsibilities and approach. 3.2.7 Operational scenarios Develop the following operational scenarios for the processes: a) total mission scenario based on the trajectory and the mission goals; b) specify scenarios which reflect activity periods and missi
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