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MAB
Onboard Computers, Onboard Software and Satellite Operations: An Introduction
Kategorie
Beschreibung
036a
XA-DE
037b
eng
077a
366165593 Buchausg. u.d.T.: ‡Eickhoff, Jens: Onboard computers, onboard software and satellite operations
087q
978-3-642-25169-6
100
Eickhoff, Jens
331
Onboard Computers, Onboard Software and Satellite Operations
335
An Introduction
410
Berlin, Heidelberg
412
Springer Berlin Heidelberg
425
2012
425a
2012
433
Online-Ressource (XIV, 286p. 163 illus., 116 illus. in color, digital)
451b
Springer Aerospace Technology
501
Description based upon print version of record
517
Title page; Foreword; Preface; Acknowledgments; Contents; List of Abbreviations; Part I Context; Introduction; Design Aspects; Onboard Computers and Data Links; Mission / Spacecraft Analysis and Design; Phases and Tasks in Spacecraft Development; Phase A - Mission Analysis; Phase B - Spacecraft Design Definition; Phase C - Spacecraft Design Refinement; Phase D - Spacecraft Flight Model Production; Launcher Selection; Launch and Early Orbit Phase Engineering; Onboard Software and Hardware Design Freeze; Part II Onboard Computers; Historic Introduction to Onboard Computers. Human Space Mission OBCsThe NASA Mercury Program; The NASA Gemini Program; The NASA Apollo Program; The Space Shuttle Program; Satellite and Space Probe OBCs; The Generation of digital Sequencers; Transistor based OBCs with CMOS Memory; Microprocessors in a Space Probe; MIL Standard Processors and Ada Programming; RISC Processors and Operating Systems on Board; Today's Technology: Systems on Chip; Onboard Computers of Specific Missions; Onboard Computer Main Elements; Processors and Top-level Architecture; Computer Memory; Data Buses, Networks and Point-to-Point Connections. OBC Equipment InterconnectionsMIL-STD-1553B; SpaceWire; CAN-Bus; Transponder Interface; Command Pulse Decoding Unit; Reconfiguration Units; Debug and Service Interfaces; Power Supply; Thermal Control Equipment; OBC Mechanical Design; OBC Development; OBC Model Philosophy; OBC Manufacturing Processes; Special Onboard Computers; Part III Onboard Software; Onboard Software Static Architecture; Onboard Software Functions; Operating System and Drivers Layer; Equipment Handlers and OBSW Data Pool; Application Layer; OBSW Interaction with Ground Control; Service-based OBSW Architecture. Telecommand Routing and High Priority CommandsTelemetry Downlink and Multiplexing; Service Interface Stub; Failure Detection, Isolation and Recovery; OBSW Kernel; Onboard Software Dynamic Architecture; Internal Task Scheduling; Channel Acquisition Scheduling; FDIR Handling; Onboard Control Procedures; Service Interface Data Supply; Onboard Software Development; Onboard Software Functional Analysis; Onboard Software Requirements Definition; Software Design; Structured Analysis & Design Technique; Hierarchic Object-Oriented Design; The Unified Modeling Language - UML. Software Implementation and CodingSoftware Verification and Testing; Functional Verification Bench (FVB); Software Verification Facility (SVF); Hybrid System Testbed (STB); Electrical Functional Model (EFM); Onboard Software Test Sequence; OBSW Development Process and Standards; Software Engineering Standards - Overview; Software Classification According to Criticality; Software Standard Application Example; Part IV Satellite Operations; Mission Types and Operations Goals; The Spacecraft Operability Concept; Spacecraft Commandability Concept; Spacecraft Configuration Handling Concept. PUS Tailoring Concept
527
Buchausg. u.d.T.: ‡Eickhoff, Jens: Onboard computers, onboard software and satellite operations
540a
ISBN 978-3-642-25170-2
700
|53.59
700
|TRP
700
|TTDS
700
|TEC002000
700b
|629.1
700b
|629.47/4
700c
|TL787-4050.22
700g
1271473348 ZO 7276
750
This book is intended as a system engineer's compendium, explaining the dependencies and technical interactions between the onboard computer hardware, the onboard software and the spacecraft operations from ground. After a brief introduction on the subsequent development in all three fields over the spacecraft engineering phases each of the main topis is treated in depth in a separate part. The features of today's onboard computers are explained at hand of their historic evolution over the decades from the early days of spaceflight up to today. Latest system-on-chip processor architectures are
902s
209974966 Raumflugkörper
902s
210275537 Bordinstrument
902s
210108290 Avionik
902s
209747013 Bodenstation
902s
209706791 Systemtechnik
902s
20950224X Software Engineering
907s
209974966 Raumflugkörper
907s
210275537 Bordinstrument
907s
210108290 Avionik
907s
209747013 Bodenstation
907s
209706791 Systemtechnik
907s
20950224X Software Engineering
012
355115298
081
Eickhoff, Jens: Onboard Computers, Onboard Software and Satellite Operations
100
Springer E-Book
125a
Elektronischer Volltext - Campuslizenz
655e
$uhttp://dx.doi.org/10.1007/978-3-642-25170-2
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