Subjects: Geosciences >> Space Physics submitted time 2017-01-22
Abstract: The managing project was researched on this paper for payload self-explore of DAMPE-Satellite, analyzing about payload’s work-modes of the explorer. The designing method and the software realization result was given out for the payload’s self-explore base on event-driven, which was conjoint by programming-experts on the ground and perform-units on the satellite. Meanwhile, the reliability & security measures was studied. The test results were provided: the function of anytime and anywhere for skillful exploring of the satellite was implemented. And it reduces the workload of the remote control.
Peer Review Status:
Awaiting Review
Subjects: Geosciences >> Space Physics submitted time 2016-04-22
Abstract: The payload of the satellite has different working modes. In order to obtain the optimum working state, it needs to be switched constantly between each mode. When switching, many working state parameters need to be configured, such as, 28 Front Electronic Ends (FEE), neutron acquisition and processing circuit, the trigger system circuit, high voltage powers and payload data management system. To improve the switch flexibility of payload exploration mode and lower the complexity of parameter configuration during switching, the management project is studied for payload self-exploration of the satellite by analyzing the working modes of this explorer. The designing method is based on event-driven which are combined by programming-experts on the ground and perform-units on the satellite. Software realization result is given out for the payload self-exploration. Meanwhile, the reliability and security measures are studied. The test results show that the function is implemented. It can be used on the satellite to explore space anytime and anywhere. It reduces the dependency on the remote control center.
Peer Review Status:Awaiting Review
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