Reducing the Cost of Spacecraft Ground Systems and Operations

Session 1 Mission Operations (MO).- The History and Continuing Quest to Reduce the Costs of Spacecraft Ground Stations and Operations.- Deep space network revitalization-operations for the 21st century.- SLE-Services, a Step to Standardisation in Cross Support?.- ROCSAT Multi-Mission Operations Center.- Minimum Fuel Station Keeping Manoeuvre Strategy for TURKSAT Geostationary Satellites.- Session 2: Telemetry Tracking and Command (TTC).- Low-cost ground station of KitSAT-3.- A Generic Method for Transferring Telemetry and Telecommand Data with Various Service Requirements.- The Operation of CK01 GPS Tracking Station.- Implementation of NSPO Remote Sensing Data Acquisition System.- Satellite Ground System Procurement without Software Development.- Session 3 Autonomous Operations (AO).- Autonomous Command Operations of the WIRE Spacecraft.- Ground Station Autonomous Operations.- Autonomous Procedure Execution: A Means Of Reducing Rosetta Operations Cost.- The Spacecraft Emergency Response System (SERS) For Autonomous Mission Operations.- The Architecture of Distributed Fusion System for Earth Observation.- ROCSAT-1 Science Data Archive and Distribution System.- Session 4: Mission Planning (MP).- Cost Reduction of Satellite systems: Lesson Learned from ROCSAT Programs.- ROCSAT-1 Mission Planning and Scheduling System.- NSPO Multi-Satellites Flight Dynamics Facility For ROCSAT Spacecraft Program.- Separated Spacecraft Interferometry — System Architecture Design and Optimization.- Flying Cassini With Virtual Operations Teams.- Session 5: Small and Mini Satellites Support (SM).- Microsatellites and Minisatellites for Low Cost Missions.- A Low-Cost Ground Station for the Small Satellite BIRD.- A Preliminary Study on Aeroassisted Reentry of an LEO Microsatellite.- On-boardRestart Program with MS-DOS Function Calls for Small Satellites.- Session 6: Small and Mini Satellites Support (SM).- Design and Analysis of Low Orbiting Fourier Transform Spectrometer Sensorcraft.- Micro Star Tracker and Attitude Determination System.- To Reduce the Size of Satellites.- The Ground System and the Mission Support For ROCSAT Space Program.- Design Concept for a Miniaturized, High-Resolution Fourier Transform Spectrometer.- Session 7: Data Processing (DP).- Development of ROCSAT-1 PROGRAM.- Low-Cost, High-Rate Data Processing.- Hubble Space Telescope Servicing Mission Data Base Supports.- Low Cost Archives.- Using Data Archive Standards for Cost Reduction.- Space Technology Education and Training Through a Low Cost Amateur Satellite Ground Station Development.- Session 8: Mission Control Centers (MCC).- to the ROCSAT-2 Program.- Monitoring and Diagnostic Expert System for Mars Probe “NOZOMI”.- Designing a Commercial Ground System to Reduce the Cost of Mission Operations.- Tools for Operations Preparation and Automation: The OPSWARE Approach.- The SCOS II Mimics System, an Advanced Display facility for Mission Control Systems.- Session 9: Development Tools (DT).- to ROCSAT-3 Program.- A Cost Saving Project: Adapting a Modern Satellite Control System to Replace an Outdated Ground Support System (GSSS).- Spacecraft Attitude Control Law Design Using Low Cost PC Base Real-Time Simulator.- Rosetta Common Check-out and Control System: A challenge and a way to reduce cost.- Session 10: Mission Operations (MO).- JPL’s Approach to Low Cost Mission Operations — An Overview.- Tasking System for an Episodic Spacecraft.- Spacecraft Onboard Software Maintenance — An Effective Approach which Reduces Costs and Increases Science Return.- Lessons LearnedDuring Implementation and Early Operations of the DS1 Beacon Monitor Experiment.- Reduce Cost by Combining the Bench Test Software, Integration and Test Software with the Mission Operations Software.- Reducing Operations, Data Flow, and Cost — The Relationships on One Program.- Navigation Operations with Prototype Components of an Automated Real-Time Spacecraft Navigation System.- Keynote Address.- ROC’S Space Ground System towards the 21st Century.- Not Presented.- Satellite Communication Using A Novel Symmetric Cryptography Based Upon Chaotic Masking Scheme With HAAR Wavelets Approach.- Symposium Members.- Name Index.