Start Date

4-1987 8:00 AM

Description

Repair and serv1c1ng of orbiting satellites in the Space Station era will realize significant enhancements to the capabilities available to date. The first on-orbit repair of an orbiting satellite was demonstrated in 1972 on the Skylab mission using makeshift tools, procedures, and Extravehicular Activity (EVA) techniques. Subsequently, in 1984, the repair and resultant extension of the Solar Maximum Mission (SMM) took full advantage of the spacecraft's having been designed at the outset to be repaired and modified on orbit. Although this mission, among others performed by the Space Transportation System (STS) (Westar 6, Palapa 8-2, and Leasat F3), testified to the fact that much progress had been made in the on-orbit repair and servicing of satellites, it also served to highlight the areas in which considerable improvement and technology development were needed. The Space Station capabilities for on-orbit servicing will serve to provide these improvements and technology advances. By expanding on the servicing experience and capabilities provided directly by the STS, the Space Station will significantly enhance mission objectives of long-duration scientific missions, not only by repair and consumable replenishment, but also by the addition and replacement of scientfic instruments with upgraded versions. Major observatory missions such as the Hubble Space Telescope (HST), the Gamma Ray Observatory (GRO), and the Advanced X-ray Astronomical Facility (AXAF) will be among the beneficiaries of this new, enhanced capability. This paper will describe the satellite servicing capabilities planned for the Space Station.

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Apr 1st, 8:00 AM

Satellite Servicing in the Space Station Era

Repair and serv1c1ng of orbiting satellites in the Space Station era will realize significant enhancements to the capabilities available to date. The first on-orbit repair of an orbiting satellite was demonstrated in 1972 on the Skylab mission using makeshift tools, procedures, and Extravehicular Activity (EVA) techniques. Subsequently, in 1984, the repair and resultant extension of the Solar Maximum Mission (SMM) took full advantage of the spacecraft's having been designed at the outset to be repaired and modified on orbit. Although this mission, among others performed by the Space Transportation System (STS) (Westar 6, Palapa 8-2, and Leasat F3), testified to the fact that much progress had been made in the on-orbit repair and servicing of satellites, it also served to highlight the areas in which considerable improvement and technology development were needed. The Space Station capabilities for on-orbit servicing will serve to provide these improvements and technology advances. By expanding on the servicing experience and capabilities provided directly by the STS, the Space Station will significantly enhance mission objectives of long-duration scientific missions, not only by repair and consumable replenishment, but also by the addition and replacement of scientfic instruments with upgraded versions. Major observatory missions such as the Hubble Space Telescope (HST), the Gamma Ray Observatory (GRO), and the Advanced X-ray Astronomical Facility (AXAF) will be among the beneficiaries of this new, enhanced capability. This paper will describe the satellite servicing capabilities planned for the Space Station.

 

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