BSI PD CEN/TR 17603-60:2022

$167.15

Space engineering. Control engineering handbook

Published By	Publication Date	Number of Pages
BSI	2022	42

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Category: BSI

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This Handbook deals with control systems developed as part of a space project. It is applicable to all the elements of a space system, including the space segment, the ground segment and the launch service segment. The handbook covers all aspects of space control engineering including requirements definition, analysis, design, production, verification and validation, transfer, operations and maintenance. It describes the scope of the space control engineering process and its interfaces with management and product assurance, and explains how they apply to the control engineering process.

PDF Catalog

PDF Pages	PDF Title
2	undefined
8	1 Scope
9	2 References
10	3 Terms, definitions and abbreviated terms 3.1 Terms from other documents 3.2 Terms specific to the present handbook
14	3.3 Abbreviated terms
16	4 Space system control engineering process 4.1 General 4.1.1 The general control structure
19	4.1.2 Control engineering activities 4.1.3 Organization of this Handbook 4.2 Definition of the control engineering process
20	4.3 Control engineering tasks per project phase
26	5 Control engineering process recommendations 5.1 Integration and control 5.1.1 General 5.1.2 Organization and planning of CE activities 5.1.3 Contribution to system engineering data base and documentation 5.1.4 Management of interfaces with other disciplines
27	5.1.5 Contribution to human factors engineering 5.1.6 Budget and margin philosophy for control 5.1.7 Assessment of control technology and cost effectiveness 5.1.8 Risk management 5.1.9 Support to control components procurement
28	5.1.10 Support to change management involving control 5.1.11 Control engineering capability assessment and resource management 5.2 Requirements engineering 5.2.1 General 5.2.2 Generation of control requirements
29	5.2.3 Allocation of control requirements to control components 5.2.3.1 Sensors
30	5.2.3.2 Actuators
31	5.2.3.3 Controller hardware requirements 5.2.3.4 Controller software requirements
32	5.2.4 Control verification requirements 5.2.5 Control operations requirements 5.3 Analysis 5.3.1 General
33	5.3.2 Analysis tasks, methods and tools
34	5.3.3 Requirements analysis
35	5.3.4 Disturbance analysis 5.3.5 Performance analysis 5.3.5.1 Early phases models 5.3.5.2 Phase C/D models
36	5.3.5.3 Features and usages of mathematical models
37	5.3.5.4 Relationship with budgets 5.4 Design and configuration 5.4.1 General
38	5.4.2 Functional design 5.4.3 Operational design 5.4.4 Control implementation architecture
39	5.4.5 Controller design 5.4.5.1 Nominal design 5.4.5.2 Robustness to uncertainties or evolutions
40	5.4.5.3 Robustness to failures 5.5 Verification and validation 5.5.1 Definition of control verification strategy
41	5.5.2 Preliminary verification of performance 5.5.3 Final functional and performance verification 5.5.3.1 Verification by analysis 5.5.3.2 Verification with flight H/W and S/W 5.5.4 In�flight validation