Mark 1 Active Repair System: Difference between revisions

The Mark 1S repair system is designed to manage and deploy the Mark 1S Active Repair Drone. Controlling via the ships computer or MSAI. The repair system involves upgrades to internal sensors and additional components for the management of and deploying of individual drones to different areas. Also included are docking and staging areas placed at strategic points within a vessel or facility from which drones will be deployed. Finally upgrades to the internal communication network and relay systems will also be provided to support drone communication channels.

The drones are dependant on a central computer for control and will have a dedicated ODN line from each drone staging area to the central computer, which serves as a backup if on board communications have failed. In addition each drone staging area can be fed commands directly from its own control console to direct the drones connected to that staging area. If internal communications are down, each staging area has its own short-range transceiver to maintain a connection to the mesh network of the drones themselves. Using the mesh network established by the drones it is possible to coordinate a large number of drones from one staging area console. Drones can also be directed to focus repairs on a specific system from such a console if there is a failure of the main computer in order to coordinate the drones in making repairs.

During normal operations the ships Chief Engineer and Operations Officer will set system priorities both in general and for specific situations.

On especially small installations the drones will be placed at key areas and there will not be a staging area but rather special transceiver assemblies at those key locations. This is the case for things like fighters, shuttles, and smaller runabouts where space is at a premium and the internal systems are not accessible during operation. In these cases the pilot has the ability to direct repair operations from the cockpit or a support vessel for a fighter or shuttle group may also do so.

Many smaller vessels lack advanced computer systems, so drone operations are often reliant upon their automated directives. The Operations Officer or Wing Commander may set broad policies for drones within fighters as well as auxiliary craft to permit the drones to continue automated repair functions without pilot intervention.

Each staging area is equipped with micro transporter nodes connected to ships power, though this is missing from smaller installations, larger vessels even have dedicated power supplies for staging areas. This allows drones to be deployed into areas of the facility which are otherwise inaccessible. During routine repair and maintenance the use of these systems can significantly increase the effectiveness of both automated repairs as well as routine maintenance without bothering the crew. These nodes are understandably low-power and thus short range. The pattern buffers in use are only large enough for 1 or 2 drones at a time. These nodes can only beam to locations inside the ship or on the outer hull, not to planets or distant locations.

The size of a vessel directly impacts how many drones it needs and will support. Different vessels and facilities require different numbers to balance out internal space utilized by the drones and their equipment with how likely systems are to require repair without intervention. In particular fighters and auxiliary craft which can be especially prone to damage require potentially more support but also have limited internal spaces within which to work.