Low earth orbit distributed gateway communication system
First Claim
1. A method for operating a communication system, comprising steps of:
- providing a satellite communication system segment comprised of at least one satellite that projects a plurality of beams on the surface of the earth and at least one satellite system ground station that is bidirectionally coupled to the at least one satellite;
providing a terrestrial communication segment comprised of a plurality of satellite user terminals located within a service region of said ground station;
initiating a call from a first user terminal to a second user terminal, wherein a call initiation request is relayed to the ground station through at least one satellite;
setting up the call using the ground station; and
assigning satellite system resources to one of the user terminals that is designated a call manager for the call.
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Accused Products
Abstract
A method for operating a communication system includes providing a satellite communication system segment and a terrestrial communication segment, initiating a call from one user terminal to another user terminal, setting up the call using a ground station that is part of the satellite communication system segment and assigning satellite system resources to one of the user terminals that is designated a call manager for the call. The satellite communication system segment includes at least one satellite system ground station that is bidirectionally coupled to at least one satellite and the terrestrial communication segment includes a plurality of satellite user terminals located within a service region of the ground station.
294 Citations
48 Claims
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1. A method for operating a communication system, comprising steps of:
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providing a satellite communication system segment comprised of at least one satellite that projects a plurality of beams on the surface of the earth and at least one satellite system ground station that is bidirectionally coupled to the at least one satellite;
providing a terrestrial communication segment comprised of a plurality of satellite user terminals located within a service region of said ground station;
initiating a call from a first user terminal to a second user terminal, wherein a call initiation request is relayed to the ground station through at least one satellite;
setting up the call using the ground station; and
assigning satellite system resources to one of the user terminals that is designated a call manager for the call. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
determining an availability of the called user terminal; and
sending a page message from the ground station to the called user terminal through at least one satellite.
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8. A method as in claim 1, wherein the step of setting up the call is comprised of step of assigning at least a channel/circuit pair to each of the user terminals.
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9. A method for operating a communication system, comprising steps of:
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providing a satellite communication system segment comprised of at least one satellite that projects a plurality of beams on the surface of the earth and at least one satellite system ground station that is bidirectionally coupled to the at least one satellite and also to a terrestrial communications system;
providing a terrestrial communication segment comprised of at least one localized network (LN) base station capable of bidirectional communications with a plurality of LN user terminals within an associated LN service region, the terrestrial segment further being provided so as to comprise a LN ground station that is bidirectionally coupled to the at least one LN base station and to the at least one satellite for bidirectionally coupling communications to and from individual ones of the LN user terminals into and out of the LN service region;
receiving an allocation of a portion of satellite system resources at a LN ground station from a satellite system ground station having a coverage region within which the LN ground station is located;
reallocating some of the allocated satellite system resources to one or more LN user terminals requesting service; and
receiving at least one updated allocation of satellite system resources at the LN ground station from the satellite system ground station. - View Dependent Claims (10, 11)
while providing service to a LN user terminal, employing at least a portion of the updated allocation of satellite system resources to make a change in the satellite system resources being used to provide the service to the LN user terminal.
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11. A method as in claim 10, wherein the change is made to a satellite diversity level so as to increase or decrease a number of satellites through which the service is being provided.
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12. A method for operating a communication system, comprising steps of:
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receiving a call for a user terminal at a satellite system gateway, the call originating from another user terminal;
examining a database to determine if the called user terminal is located within a coverage area of the satellite system gateway;
if yes, formulating a paging message and transmitting the paging message to the called user terminal, the paging message being transmitted via at least one satellite;
upon the called user terminal responding to the page, establishing the call using satellite system resources;
designating one of the calling or called user terminals as a call manager for the duration of the call; and
making a temporary assignment of satellite system resources to the call manager user terminal for use in managing the remainder of the call. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A communication system, comprising:
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a satellite communication system segment comprised of at least one satellite that projects a plurality of beams on the surface of the earth and at least one satellite system ground station that is bidirectionally coupled to the at least one satellite and also to a terrestrial communications system; and
a terrestrial communication segment comprised of at least one localized network (LN) base station capable of bidirectional communications with a plurality of LN user terminals within a LN service region, said terrestrial segment further comprising a LN ground station that is bidirectionally coupled to said LN base station and to said at least one satellite for bidirectionally coupling communications to and from individual ones of said LN user terminals into and out of said LN service region, wherein one or more beams from one or more of said satellites at the surface of the earth cover a regional service area (RSA) within which said LN service region is located, and wherein said communication system further comprises at least one database that stores information for associating individual ones of said LN user terminals with said RSA; and
wherein an individual one of said LN user terminals is enabled to complete a call to another individual one of said LN user terminals, where one of the LN user terminals is designated as a call manager for the call.- View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
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39. A communication system, comprising:
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a satellite communication system segment comprised of at least one satellite that projects a plurality of beams on the surface of the earth and at least one satellite system ground station that is bidirectionally coupled to the at least one satellite and also to a terrestrial communications system; and
a terrestrial communication segment comprised of a plurality of localized network (LN) base stations each of which is capable of bidirectional communications with a plurality of LN user terminals within an associated LN service region, said terrestrial segment further comprising a LN ground station that is bidirectionally coupled to each of said LN base stations and to said at least one satellite for bidirectionally coupling communications to and from individual ones of said LN user terminals into and out of said LN service regions, wherein one or more beams from one or more of said satellites at the surface of the earth cover a regional service area within which at least one of said LN service regions is located, wherein said communication system further comprises a system database coupled to said satellite system ground station and a LN database coupled to each of said plurality of LN base stations that store information for associating individual ones of said LN user terminals with a home LN service region;
whereinLN user terminals that roam from one LN service region to another LN service region, or from one LN service region to a location outside of any LN service region, are authenticated and provided service based on information stored in said database of a home LN service region; and
whereinfor a call from a first LN user terminal to a second LN user terminal, a call initiation request is relayed to the LN ground station through at least one satellite and is set up using the LN ground station, and satellite system resources are assigned to one of the LN user terminals that is designated a call manager for the call.
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40. A communication system, comprising:
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a satellite communication system segment comprised of at least one satellite that projects a plurality of beams on the surface of the earth and at least one satellite system ground station that is bidirectionally coupled to the at least one satellite and also to a terrestrial communications system; and
a terrestrial communication segment comprised of a plurality of virtual gateways each comprised of a localized network (LN) base station capable of bidirectional communications with a plurality of LN user terminals within an associated virtual gateway service region, each of said virtual gateways further comprising a LN ground station that is bidirectionally coupled to each of said LN base stations and to said at least one satellite for bidirectionally coupling communications to and from individual ones of said LN user terminals into and out of said LN service regions, said terrestrial communication segment further comprising a regional virtual gateway that is bidirectionally coupled to each of said virtual gateways and to said satellite system ground station through at least one satellite, said regional virtual gateway allocating system resources amongst said virtual gateways based on resource assignments received from said satellite system ground station;
whereinsaid satellite system ground station designates one of the calling or called LN user terminals as a call manager for the duration of the call, and makes a temporary assignment of satellite system resources to the call manager LN user terminal for use in managing the remainder of the call.
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41. A communication system, comprising at least one virtual gateway comprised of a localized network (LN) base station capable of bidirectional wireless communications with a plurality of LN user terminals within an associated regional service region covered by one or more beams associated with one or more satellites, said at least one virtual gateway further comprising a LN satellite ground station that is bidirectionally coupled to said LN base station and to at least one satellite for bidirectionally coupling communications to and from individual ones of said LN user terminals into and out of said LN service regions, said virtual gateway allocating satellite system resources amongst said LN user terminals based on satellite system resource assignments received from a satellite system ground station;
- wherein one of the calling or called LN user terminals is designated as a call manager for the duration of the call, and receives a temporary assignment of satellite system resources for use in managing the call.
- View Dependent Claims (42, 43, 44, 45, 46, 47, 48)
Specification