This book was compiled from contributions given at the 7th IAA Symposium on Small Satellites for Earth Observation, May 4-8, 2009, Berlin (IAA - International Academy of Astronautics). From the 15 sessions for oral presentations and two poster sessions, 52 contributions were selected which are representative for the new developments and trends in the area of small satellites for Earth observation. They re ect the potentials of a diversity of missions and related technologies. This may be based on national projects or international co-operations, single satellites of constellations, pico-,…mehr
This book was compiled from contributions given at the 7th IAA Symposium on Small Satellites for Earth Observation, May 4-8, 2009, Berlin (IAA - International Academy of Astronautics). From the 15 sessions for oral presentations and two poster sessions, 52 contributions were selected which are representative for the new developments and trends in the area of small satellites for Earth observation. They re ect the potentials of a diversity of missions and related technologies. This may be based on national projects or international co-operations, single satellites of constellations, pico-, nano-, micro- or mini-satellites, developed by companies, research institutions or agencies. The main focus is on new missions to monitor our Earth's resources (Part I), and the environment in which our Earth is emb- ded (Part II). Part III deals with distributed space systems, a unique feature of small satellites and in most cases impractical to do with large satellites. Here we concentrate on constellations of satellites with focus on future missions relying on co-operating satellites. For all the new developments and projects we need well e- cated specialists coming from the universities. Many universities included already the development and implementation of small satellites in their curriculum. The u- versity satellites chapter (Part IV) shows the high quality which is already reached by some of the universities worldwide.
Dr. Rainer Sandau, PhD 1997 and habilitation 1990, is Chief Scientist at the German Aerospace Center (DLR) in Berlin, Germany. He has over 25 years of experience in airborne and spaceborne remote sensing activities.
Prof. Dr. Hans-Peter Roeser is director of the Institute of Space Systems at the University of Stuttgart and head of the German SOFIA Institute. Arnoldo Valenzuela Ph.D., Chief Scientific Officer, has served in this capacity at Media Lario Technologies since January 2004. From 1999 until 2003 he was president and CEO; and from 1995 to 1998, Dr. Valenzuela served as the Company's managing director. Prior to joining Media Lario Technologies, Dr. Valenzuela was director of scientific programs and responsible for business development and marketing strategy at Kayser-Threde GmbH, a German provider of complete space systems from launch to recovery. Also in Germany, from 1971 through 1994, Valenzuela was senior scientist and leading investiga
tor at the Max Planck Institut (MPE). From 1986 until 1988, Valenzuela was president of the Argentine National Commission for Space Research. A board member of Argentina's National Commission for Space Research, Valenzuela was the Argentine representative to the Committee on Peaceful Uses of Outer Space within the United Nations' General Assembly. Internationally recognized for scientific achievement, Valenzuela has garnered awards from the International Academy of Astronautics (2), NASA (2), and European Space Agency (1). He has three international patent applications and is an active member of the International Academy of Astronautics, Academy of Space Sciences: Argentina, and many professional scientific organizations. In addition to his current responsibilities at Media Lario Technologies, Valenzuela serves as chairman of both the Commission IV and the Committee on Small Satellite Missions for the International Academy of Astronautics. Valenzuela holds a Ph.D.
in physics and a M.S. in physics from the National University of Cuyo, Argentina. He received a B.Sc. in electronics from the University of Córdoba, Argentina.
Inhaltsangabe
New Earth Observation Missions.- Overview on CNES Micro Satellites Missions: In Flight, Under Development and Next.- Small Earth Observing Satellites Flying with Large Satellites in the A-Train.- INTA?Sat-1 First Earth Observation Mission.- VEN?S (Vegetation and Environment Monitoring on a New Micro Satellite).- The "Ulingo" Mid-Low Latitudes Observation (MILO) Mission.- The Italian Precursor of an Operational Hyperspectral Imaging Mission.- Earth Environment Missions.- Space System "Radiomet" for GLONASS/GPS Navigation Signal Radio Occultation Monitoring of Lower Atmosphere and Ionosphere Based on Super-Small Satellites.- The Study of Electromagnetic Parameters of Space Weather, Micro-Satellite "Chibis-M".- SEPSAT - A Nanosatellite to Observe Parameters of Space Weather.- Small Satellite Constellations for Measurements of the Near-Earth Space Environment.- Distributed Space Systems.- Satellite Formation for a Next Generation Gravimetry Mission.- EO Small Satellite Missions and Formation Flying.- Relative Trajectory Design for Bistatic SAR Missions.- Conceptual Design of the FAST-D Formation Flying Spacecraft.- Earth Observation Using Japanese/Canadian Formation Flying Nanosatellites.- A Bi/Multi-Static Microsatellite SAR Constellation.- Mission Design of the Dutch-Chinese FAST Micro-Satellite Mission.- University Satellites.- SPRITE-SAT: A University Small Satellite for Observation of High-Altitude Luminous Events.- SwissCube: The First Entirely-Built Swiss Student Satellite with an Earth Observation Payload.- German Russian Education Satellite - Mission Outline and Objectives.- University Microsatellites Equipped with an Optical System for Space Debris Monitoring.- A First-MOVE in Satellite Development at the TU-München.- Design of a SmallEducational Satellite for the Italian High School Students: The EduSAT Project.- Testing of Critical Pico-Satellite Systems on the Sounding Rocket Rexus-4.- Laboratory Facility for Simulation and Verification of Formation Motion Control Algorithms.- Asynchronous Parallel Reactive System for Intelligent Small Satellite on-Board Computing Systems.- NanoSiGN - Nanosatellite for scientific interpretation of GNSS dual-frequency signals in the low Earth orbit.- Instruments and Technologies.- The Vegetation Instrument for the PROBA-V Mission.- Software Defined LFM CW SAR Receiver for Microsatellites.- PhytoMapper - Compact Hyperspectral Wide Field of View Instrument.- Development of Spaceborne Small Hyperspectral sensor HSC-III for Micro Satellite.- Towards a Miniaturized Photon Counting Laser Altimeter and Stereoscopic Camera Instrument Suite for Microsatellites.- A Plan of Spaceborne ISAR Satellite Imaging System Aiming at Space Objects.- Increasing the Data Volume Returned from Small Satellites.- Integrated Design Based Plug-and-Play Small SAR Satellite Project.- Attitude Control Systems.- Star Sensor Development Based on the TUBSAT Experience.- Small Sensors Big Choices.- Robust and Fault Tolerant AOCS of the TET Satellite.- Implementation of the T3?PS in the Delfi-n3Xt Satellite.- A Novel AOCS Cold-Gas Micro-Propulsion System Design and Applications to Micro and Nano Satellites.- Navigation.- Navigation Needs for ESA's Earth Observation Missions.- Benefits of Galileo for Future Satellite Missions.- Differential GPS: An Enabling Technology for Formation Flying Satellites.- GPS-Based Relative Navigation in Earth Observation Missions Relying on Cooperative Satellites.
New Earth Observation Missions.- Overview on CNES Micro Satellites Missions: In Flight, Under Development and Next.- Small Earth Observing Satellites Flying with Large Satellites in the A-Train.- INTA?Sat-1 First Earth Observation Mission.- VEN?S (Vegetation and Environment Monitoring on a New Micro Satellite).- The “Ulingo” Mid-Low Latitudes Observation (MILO) Mission.- The Italian Precursor of an Operational Hyperspectral Imaging Mission.- Earth Environment Missions.- Space System “Radiomet” for GLONASS/GPS Navigation Signal Radio Occultation Monitoring of Lower Atmosphere and Ionosphere Based on Super-Small Satellites.- The Study of Electromagnetic Parameters of Space Weather, Micro-Satellite “Chibis-M”.- SEPSAT – A Nanosatellite to Observe Parameters of Space Weather.- Small Satellite Constellations for Measurements of the Near-Earth Space Environment.- Distributed Space Systems.- Satellite Formation for a Next Generation Gravimetry Mission.- EO Small Satellite Missions and Formation Flying.- Relative Trajectory Design for Bistatic SAR Missions.- Conceptual Design of the FAST-D Formation Flying Spacecraft.- Earth Observation Using Japanese/Canadian Formation Flying Nanosatellites.- A Bi/Multi-Static Microsatellite SAR Constellation.- Mission Design of the Dutch-Chinese FAST Micro-Satellite Mission.- University Satellites.- SPRITE-SAT: A University Small Satellite for Observation of High-Altitude Luminous Events.- SwissCube: The First Entirely-Built Swiss Student Satellite with an Earth Observation Payload.- German Russian Education Satellite – Mission Outline and Objectives.- University Microsatellites Equipped with an Optical System for Space Debris Monitoring.- A First-MOVE in Satellite Development at the TU-München.- Design of a SmallEducational Satellite for the Italian High School Students: The EduSAT Project.- Testing of Critical Pico-Satellite Systems on the Sounding Rocket Rexus-4.- Laboratory Facility for Simulation and Verification of Formation Motion Control Algorithms.- Asynchronous Parallel Reactive System for Intelligent Small Satellite on-Board Computing Systems.- NanoSiGN – Nanosatellite for scientific interpretation of GNSS dual-frequency signals in the low Earth orbit.- Instruments and Technologies.- The Vegetation Instrument for the PROBA-V Mission.- Software Defined LFM CW SAR Receiver for Microsatellites.- PhytoMapper – Compact Hyperspectral Wide Field of View Instrument.- Development of Spaceborne Small Hyperspectral sensor HSC-III for Micro Satellite.- Towards a Miniaturized Photon Counting Laser Altimeter and Stereoscopic Camera Instrument Suite for Microsatellites.- A Plan of Spaceborne ISAR Satellite Imaging System Aiming at Space Objects.- Increasing the Data Volume Returned from Small Satellites.- Integrated Design Based Plug-and-Play Small SAR Satellite Project.- Attitude Control Systems.- Star Sensor Development Based on the TUBSAT Experience.- Small Sensors Big Choices.- Robust and Fault Tolerant AOCS of the TET Satellite.- Implementation of the T3?PS in the Delfi-n3Xt Satellite.- A Novel AOCS Cold-Gas Micro-Propulsion System Design and Applications to Micro and Nano Satellites.- Navigation.- Navigation Needs for ESA’s Earth Observation Missions.- Benefits of Galileo for Future Satellite Missions.- Differential GPS: An Enabling Technology for Formation Flying Satellites.- GPS-Based Relative Navigation in Earth Observation Missions Relying on Cooperative Satellites.
New Earth Observation Missions.- Overview on CNES Micro Satellites Missions: In Flight, Under Development and Next.- Small Earth Observing Satellites Flying with Large Satellites in the A-Train.- INTA?Sat-1 First Earth Observation Mission.- VEN?S (Vegetation and Environment Monitoring on a New Micro Satellite).- The "Ulingo" Mid-Low Latitudes Observation (MILO) Mission.- The Italian Precursor of an Operational Hyperspectral Imaging Mission.- Earth Environment Missions.- Space System "Radiomet" for GLONASS/GPS Navigation Signal Radio Occultation Monitoring of Lower Atmosphere and Ionosphere Based on Super-Small Satellites.- The Study of Electromagnetic Parameters of Space Weather, Micro-Satellite "Chibis-M".- SEPSAT - A Nanosatellite to Observe Parameters of Space Weather.- Small Satellite Constellations for Measurements of the Near-Earth Space Environment.- Distributed Space Systems.- Satellite Formation for a Next Generation Gravimetry Mission.- EO Small Satellite Missions and Formation Flying.- Relative Trajectory Design for Bistatic SAR Missions.- Conceptual Design of the FAST-D Formation Flying Spacecraft.- Earth Observation Using Japanese/Canadian Formation Flying Nanosatellites.- A Bi/Multi-Static Microsatellite SAR Constellation.- Mission Design of the Dutch-Chinese FAST Micro-Satellite Mission.- University Satellites.- SPRITE-SAT: A University Small Satellite for Observation of High-Altitude Luminous Events.- SwissCube: The First Entirely-Built Swiss Student Satellite with an Earth Observation Payload.- German Russian Education Satellite - Mission Outline and Objectives.- University Microsatellites Equipped with an Optical System for Space Debris Monitoring.- A First-MOVE in Satellite Development at the TU-München.- Design of a SmallEducational Satellite for the Italian High School Students: The EduSAT Project.- Testing of Critical Pico-Satellite Systems on the Sounding Rocket Rexus-4.- Laboratory Facility for Simulation and Verification of Formation Motion Control Algorithms.- Asynchronous Parallel Reactive System for Intelligent Small Satellite on-Board Computing Systems.- NanoSiGN - Nanosatellite for scientific interpretation of GNSS dual-frequency signals in the low Earth orbit.- Instruments and Technologies.- The Vegetation Instrument for the PROBA-V Mission.- Software Defined LFM CW SAR Receiver for Microsatellites.- PhytoMapper - Compact Hyperspectral Wide Field of View Instrument.- Development of Spaceborne Small Hyperspectral sensor HSC-III for Micro Satellite.- Towards a Miniaturized Photon Counting Laser Altimeter and Stereoscopic Camera Instrument Suite for Microsatellites.- A Plan of Spaceborne ISAR Satellite Imaging System Aiming at Space Objects.- Increasing the Data Volume Returned from Small Satellites.- Integrated Design Based Plug-and-Play Small SAR Satellite Project.- Attitude Control Systems.- Star Sensor Development Based on the TUBSAT Experience.- Small Sensors Big Choices.- Robust and Fault Tolerant AOCS of the TET Satellite.- Implementation of the T3?PS in the Delfi-n3Xt Satellite.- A Novel AOCS Cold-Gas Micro-Propulsion System Design and Applications to Micro and Nano Satellites.- Navigation.- Navigation Needs for ESA's Earth Observation Missions.- Benefits of Galileo for Future Satellite Missions.- Differential GPS: An Enabling Technology for Formation Flying Satellites.- GPS-Based Relative Navigation in Earth Observation Missions Relying on Cooperative Satellites.
New Earth Observation Missions.- Overview on CNES Micro Satellites Missions: In Flight, Under Development and Next.- Small Earth Observing Satellites Flying with Large Satellites in the A-Train.- INTA?Sat-1 First Earth Observation Mission.- VEN?S (Vegetation and Environment Monitoring on a New Micro Satellite).- The “Ulingo” Mid-Low Latitudes Observation (MILO) Mission.- The Italian Precursor of an Operational Hyperspectral Imaging Mission.- Earth Environment Missions.- Space System “Radiomet” for GLONASS/GPS Navigation Signal Radio Occultation Monitoring of Lower Atmosphere and Ionosphere Based on Super-Small Satellites.- The Study of Electromagnetic Parameters of Space Weather, Micro-Satellite “Chibis-M”.- SEPSAT – A Nanosatellite to Observe Parameters of Space Weather.- Small Satellite Constellations for Measurements of the Near-Earth Space Environment.- Distributed Space Systems.- Satellite Formation for a Next Generation Gravimetry Mission.- EO Small Satellite Missions and Formation Flying.- Relative Trajectory Design for Bistatic SAR Missions.- Conceptual Design of the FAST-D Formation Flying Spacecraft.- Earth Observation Using Japanese/Canadian Formation Flying Nanosatellites.- A Bi/Multi-Static Microsatellite SAR Constellation.- Mission Design of the Dutch-Chinese FAST Micro-Satellite Mission.- University Satellites.- SPRITE-SAT: A University Small Satellite for Observation of High-Altitude Luminous Events.- SwissCube: The First Entirely-Built Swiss Student Satellite with an Earth Observation Payload.- German Russian Education Satellite – Mission Outline and Objectives.- University Microsatellites Equipped with an Optical System for Space Debris Monitoring.- A First-MOVE in Satellite Development at the TU-München.- Design of a SmallEducational Satellite for the Italian High School Students: The EduSAT Project.- Testing of Critical Pico-Satellite Systems on the Sounding Rocket Rexus-4.- Laboratory Facility for Simulation and Verification of Formation Motion Control Algorithms.- Asynchronous Parallel Reactive System for Intelligent Small Satellite on-Board Computing Systems.- NanoSiGN – Nanosatellite for scientific interpretation of GNSS dual-frequency signals in the low Earth orbit.- Instruments and Technologies.- The Vegetation Instrument for the PROBA-V Mission.- Software Defined LFM CW SAR Receiver for Microsatellites.- PhytoMapper – Compact Hyperspectral Wide Field of View Instrument.- Development of Spaceborne Small Hyperspectral sensor HSC-III for Micro Satellite.- Towards a Miniaturized Photon Counting Laser Altimeter and Stereoscopic Camera Instrument Suite for Microsatellites.- A Plan of Spaceborne ISAR Satellite Imaging System Aiming at Space Objects.- Increasing the Data Volume Returned from Small Satellites.- Integrated Design Based Plug-and-Play Small SAR Satellite Project.- Attitude Control Systems.- Star Sensor Development Based on the TUBSAT Experience.- Small Sensors Big Choices.- Robust and Fault Tolerant AOCS of the TET Satellite.- Implementation of the T3?PS in the Delfi-n3Xt Satellite.- A Novel AOCS Cold-Gas Micro-Propulsion System Design and Applications to Micro and Nano Satellites.- Navigation.- Navigation Needs for ESA’s Earth Observation Missions.- Benefits of Galileo for Future Satellite Missions.- Differential GPS: An Enabling Technology for Formation Flying Satellites.- GPS-Based Relative Navigation in Earth Observation Missions Relying on Cooperative Satellites.
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Internetauftritt der buecher.de internetstores GmbH
Geschäftsführung: Monica Sawhney | Roland Kölbl | Günter Hilger
Sitz der Gesellschaft: Batheyer Straße 115 - 117, 58099 Hagen
Postanschrift: Bürgermeister-Wegele-Str. 12, 86167 Augsburg
Amtsgericht Hagen HRB 13257
Steuernummer: 321/5800/1497