Above the cloud computing: applying cloud computing principles to create an orbital services model

“…The next section discusses some specific additional services that could potentially be bought, sold or exchanged via the OSM; this section expands on the OSM service procurement / exchange process described in [2], augmenting it both in 978-1-4799-1622-1114/$31.00 ©2014 IEEE 2 terms of specifics of operation and extending it to support additional types of services.…”

“…The use of the OSM for communications was discussed in [2]. The OSM, in the communications context, could be utilized to allow spacecraft to be equipped with short-range radios capable of high-bandwidth transmission.…”

“…The use of the OSM for imaging and sensing was discussed in [2]. The imaging and sensing use was initially selected due to the potential to immediately increase the temporal resolution of a spacecraft system and/or facilitate concurrent imaging (or sensing) at multiple locations, like might be required for certain missions (such as the QB50 concept [4]).…”

“…In [2], a model was presented where a collection of spacecraft would collaborate to perform missions that required technical capabilities beyond that of any one of the component craft. This synergistic outcome was produced via the distribution of tasks between multiple spacecraft with different capabilities and configurations.…”

“…An orbital services model has been proposed in [1,2] which proposes to use cloud-computing methodologies to facilitate collaborative space missions via the creation of a framework for communication and providing and consuming services from other spacecraft. Under the proposed model, a spacecraft might use the imaging or other capabilities of other spacecraft to augment its own capabilities.…”

Extending the orbital services model beyond computing, communications and sensing

“…The next section discusses some specific additional services that could potentially be bought, sold or exchanged via the OSM; this section expands on the OSM service procurement / exchange process described in [2], augmenting it both in 978-1-4799-1622-1114/$31.00 ©2014 IEEE 2 terms of specifics of operation and extending it to support additional types of services.…”

“…The use of the OSM for communications was discussed in [2]. The OSM, in the communications context, could be utilized to allow spacecraft to be equipped with short-range radios capable of high-bandwidth transmission.…”

“…The use of the OSM for imaging and sensing was discussed in [2]. The imaging and sensing use was initially selected due to the potential to immediately increase the temporal resolution of a spacecraft system and/or facilitate concurrent imaging (or sensing) at multiple locations, like might be required for certain missions (such as the QB50 concept [4]).…”

“…In [2], a model was presented where a collection of spacecraft would collaborate to perform missions that required technical capabilities beyond that of any one of the component craft. This synergistic outcome was produced via the distribution of tasks between multiple spacecraft with different capabilities and configurations.…”

“…An orbital services model has been proposed in [1,2] which proposes to use cloud-computing methodologies to facilitate collaborative space missions via the creation of a framework for communication and providing and consuming services from other spacecraft. Under the proposed model, a spacecraft might use the imaging or other capabilities of other spacecraft to augment its own capabilities.…”

Extending the orbital services model beyond computing, communications and sensing

Design of Aerospace Cloud Computing Server Based on Docker Cluster

Introduction