Dynamic traffic allocation for power control in multiple satellite communication systems
First Claim
1. A satellite communications system operative with at least one existing terrestrial communication system for carrying traffic, comprising:
- a plurality of satellites in earth orbits, each of said satellites including a battery for sourcing electrical energy, said battery having energy sourcing limits;
one or more terrestrial gateways, said gateways bidirectionally linked to one or more satellites of said plurality of satellites for carrying said traffic;
a computing center, linked to said gateways, having a traffic control means for allocating said traffic to said gateways, said traffic control means comprising;
a power demand model for computing a first traffic allocation of traffic for each satellite of said plurality of satellites;
a satellite battery performance model descriptive of said energy sourcing limits; and
a control law for applying weighting values to said first traffic allocation to obtain a second traffic allocation for each satellite of said plurality of satellites, said second traffic allocation inducing an electrical energy consumption in each of said satellites that is less than said battery energy sourcing limits, wherein said weighting values are based on said battery performance model.
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Abstract
A satellite communications system operative with at least one existing terrestrial communication system for carrying traffic is described. The communication system has a plurality of satellites in earth orbits, each satellite including a battery for sourcing electrical energy. The battery has energy sourcing limits. Gateways, bidirectionally linked to the plurality of satellites are also provided. A computing center, linked to the gateways, has a traffic control means for allocating traffic to the gateways. The traffic control means has three parts a power demand model for computing a first traffic allocation of traffic for each satellite; a satellite battery performance model descriptive of the energy sourcing limits of the on-board batteries; and a control law for applying weights to the first traffic allocation by using the battery performance model to obtain a second traffic allocation for each satellite. The second traffic allocation induces an electrical energy consumption in each of the satellites that is less than the battery energy sourcing limits.
31 Citations
10 Claims
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1. A satellite communications system operative with at least one existing terrestrial communication system for carrying traffic, comprising:
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a plurality of satellites in earth orbits, each of said satellites including a battery for sourcing electrical energy, said battery having energy sourcing limits; one or more terrestrial gateways, said gateways bidirectionally linked to one or more satellites of said plurality of satellites for carrying said traffic; a computing center, linked to said gateways, having a traffic control means for allocating said traffic to said gateways, said traffic control means comprising; a power demand model for computing a first traffic allocation of traffic for each satellite of said plurality of satellites; a satellite battery performance model descriptive of said energy sourcing limits; and a control law for applying weighting values to said first traffic allocation to obtain a second traffic allocation for each satellite of said plurality of satellites, said second traffic allocation inducing an electrical energy consumption in each of said satellites that is less than said battery energy sourcing limits, wherein said weighting values are based on said battery performance model. - View Dependent Claims (2, 3, 4, 5)
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6. A method for allocating traffic in a satellite communication system operative with at least one existing terrestrial communication system for carrying traffic comprising the steps of:
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providing a plurality of satellites in earth orbits, each of said satellites including a battery for sourcing electrical energy, said battery having energy sourcing limits; providing one or more terrestrial gateways, said gateways bidirectionally linked to one or more satellites of said plurality of satellites for carrying said traffic; linking a computing center to said gateways, said computing center using a traffic control method for allocating said traffic to said gateways, said traffic control method comprising the steps of; computing a power demand model descriptive of a first traffic allocation of traffic for each satellite of said plurality of satellites; computing a satellite battery performance model predicting said energy sourcing limits; and applying weighting values to said first traffic allocation with a control law to obtain a second traffic allocation for each satellite of said plurality of satellites, wherein said second traffic allocation induces an electrical energy consumption in each of said satellites that is less than said battery energy sourcing limits, said weighting values being based on said battery performance model. - View Dependent Claims (7, 8, 9, 10)
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Specification