| Record ID | ia:isbn_9780471619512 |
| Source | Internet Archive |
| Download MARC XML | https://archive.org/download/isbn_9780471619512/isbn_9780471619512_marc.xml |
| Download MARC binary | https://www.archive.org/download/isbn_9780471619512/isbn_9780471619512_meta.mrc |
LEADER: 05659pam 22004094a 4500
001 9922661420001661
005 20150423144751.0
008 020814s2003 enka b 001 0 eng
010 $a 2002028089
015 $aGBA3-13316
019 $a51622737
020 $a0470851023 (cloth : alk. paper)
020 $a0471619515 (pbk. : alk. paper)
029 1 $aUKM$bbA313316
035 $a(CSdNU)u162224-01national_inst
035 $a(Sirsi) l2002028089
035 $a(Sirsi) l2002028089
040 $aDLC$cDLC$dYDX$dUKM$dOrPss
042 $apcc
049 $aCNUM
050 00 $aTL875$b.S68 2003
082 00 $a629.47/4$221
245 00 $aSpacecraft systems engineering /$cedited by Peter Fortescue, John Stark, Graham Swinerd.
250 $a3rd ed.
260 $aChichester, England ;$aHoboken, NJ :$bJ. Wiley,$cc2003.
300 $axxvi, 678 p. :$bill. ;$c25 cm.
504 $aIncludes bibliographical references and index.
505 0 $aIntroduction / John P. W. Stark, Graham G. Swinerd, Adrian R. L. Tatnall -- Payloads and Missions -- A System View of Spacecraft -- The Future -- The Spacecraft Environment and its Effect on Design / John P. W. Stark -- Pre-Operational Spacecraft Environments -- Operational Spacecraft Environments -- Environmental Effects on Design -- Dynamics of Spacecraft / Peter W. Fortescue -- Trajectory Dynamics -- General Attitude Dynamics -- Attitude Motion of Specific Types of Spacecraft -- Oscillatory Modes -- Inertia -- Celestial Mechanics / John P. W. Stark, Graham G. Swinerd, Peter W. Fortescue -- The Two-body Problem--Particle Dynamics -- Specifying the Orbit -- Orbit Perturbations -- Restricted Three-body Problem -- Mission Analysis / John P. W. Stark, Graham G. Swinerd -- Keplerian Orbit Transfers -- Mission Analysis -- Polar LEO/Remote-Sensing Satellites -- Satellite Constellations -- Geostationary Earth Orbits (GEO) -- Highly Elliptic Orbits -- Interplanetary Missions -- Propulsion Systems / J. Barrie Moss, John P. W. Stark -- Systems Classification -- Chemical Rockets -- Secondary Propulsion -- Electric Propulsion -- Launch Vehicles / J. Barrie Moss, Graham E. Dorrington -- Basic Launch Vehicle Performance and Operation -- Spacecraft Launch Phases and Mission Planning -- The Ariane Launch Vehicle -- The Shuttle Space Transportation System (STS) -- Small Launchers -- Re-Entry into Earth's Atmosphere -- Specific Launch Costs and Reliability -- Spacecraft Structures / John M. Houghton -- Design Requirements -- Design Process -- Material Selection -- Analysis -- Design Verification -- Impact Protection -- Configuration Examples -- The Future of Space Structures -- Attitude Control / Peter W. Fortescue, Graham G. Swinerd -- ACS Overview -- The Spacecraft Attitude Response -- Torques and Torquers -- Attitude Measurement -- ACS Computation -- Electrical Power Systems / John P. W. Stark -- Power System Elements -- Primary Power Systems -- Secondary Power Systems: Batteries -- Power Management, Distribution and Control -- Power Budget -- Thermal Control of Spacecraft / Chris J. Savage -- The Thermal Environment -- Thermal Balance -- Thermal Analysis -- Thermal Design -- Thermal Technology -- Thermal Design Verification -- Example of Satellite Thermal Design--XMM/Newton -- Tele-Communications / Howard Smith, Ray E. Sheriff -- Techniques of Radio Communications -- The Communications Payload -- Telemetry, Command, Data Handling and Processing / Nigel P. Fillery, David Stanton -- System Architecture -- Telemetry Data Formatting -- Telecommand -- Communication Techniques and Protocols -- On-Board Data Handling (OBDH) and Processing -- Technology -- Tools and Controlling Documents -- Ground Stations / Richard Holdaway -- Hardware -- Software -- People -- Operations -- Cost-Effective and Autonomous Ground Systems -- Looking to the Future -- Spacecraft Mechanisms / H. Mervyn Briscoe, Guglielmo S. Aglietti -- One-Shot Devices -- Continuously and Intermittently Operating Devices -- Components -- Materials -- Tribology -- Testing and Verification -- Spacecraft Electromagnetic Compatibility Engineering / Ken M. Redford -- Examples of EMC Problems -- EMC Specifications -- Electromagnetic Compatibility--Terms and Definitions -- EMC Fundamentals -- The Systems Approach to EMC -- EMC Categories -- Electrostatic Discharge -- Spacecraft Grounding Schemes -- Major Causes of Spacecraft EMC Problems -- Analysis Methods for Spacecraft EMC Engineering -- Product Assurance / Thomas A. Meaker -- Failures -- Reliability -- The Use of Qualified Parts -- Materials and Processes -- Safety -- Configuration Control -- Build and Verification -- The Arrhenius Equation -- Particle Radiation Data -- De-rating -- Small-Satellite Engineering and Applications / Martin N. Sweeting, Craig I. Underwood -- Small-satellite Design Philosophy -- Small-satellite System Design -- COTS Components in the Space Environment -- Microsatellite Platforms -- Minisatellite Platforms -- Nanosatellite Platforms -- Affordable Launches for Small Satellites -- In-orbit Operations -- Small-satellite Applications -- Picosatellites and Recent Advances in Miniaturization -- Spacecraft System Engineering / Adrian R. L. Tatnall, John B. Farrow, C. Richard Francis -- System Engineering.
650 0 $aSpace vehicles$xDesign and construction.
650 0 $aAstronautics$xSystems engineering.
700 1 $aFortescue, Peter W.
700 1 $aStark, John.
700 1 $aSwinerd, Graham.
982 $aTL875$a.S68$a2003
983 $a31786101669874
994 $a92$bCNU
999 $aTL 875 .S68 2003$wLC$c1$i31786101669874$d4/10/2012$e2/6/2012 $f4/7/2004$g1$lCIRCSTACKS$mNULS$n3$q1$rY$sY$tBOOK$u6/19/2003