The European Space Operations Centre (ESOC) have a long experience in spacecraft mission control systems developments and use a large number of existing elements for the build up of control systems for new missions. The integration of such elements in a new system covers not only the direct re-use of infrastructure software but also the re-use of concepts and work methodology. Applying reusability is a major asset in ESOC’s strategy, especially for low cost space missions. This paper describes re-use of existing elements in the ESOC production of the SMART-1 mission control system (S1MCS) and explores the following areas: The most significant (and major cost-saving contributors) re-used elements are the Spacecraft Control and Operations System (SCOS-2000) and the Network Control and TM/TC Router System (NCTRS) infrastructure systems. These systems are designed precisely for allowing all general mission parameters to be configured easily without any change in the software (in particular the NCTRS configuration for SMART-1 was time and cost effective). Further, large parts of the ESOC ROSETTA and INTEGRAL software systems (also SCOS-2000 based) were directly re-used, such as the on-board command schedule maintenance and modelling subsystem (OBQ), the time correlator (TCO) and the external file transfer subsystem (FTS). The INTEGRAL spacecraft database maintenance system (both the editors and configuration control mechanism) and its export facilities into the S1MCS runtime system are directly re-used. A special kind of re-use concerns the ENVISAT approach to both the telemetry ? and telecommanding (TC) context saving in the redundant server system in order to enable smooth support of operations in case of prime server failure. In this case no software or tools can be re-used because the S1MCS is based on a much more modern technology than the ENVISAT mission control system as well as on largely differing workstations architectures but the
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