System and method for intermittent satellite communication with a fixed antenna
First Claim
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1. A satellite communication system, comprising:
- a plurality of satellites in non-geostationary earth orbit in one or more predetermined orbital planes and distributed in an arrangement with distances between satellites sufficient such that, at times, all satellites are out of range of an antenna beam coverage region of a non-tracking antenna of an earth-based station; and
an earth-based satellite communication station to establish a temporary communication link with the plurality of satellites wherein the earth-based station is initially out of communication with the plurality of satellites, the earth-based station comprising;
a data storage area to collect and temporarily store data for subsequent transmission to a detected one of the plurality of satellites;
a non-tracking directional antenna having a fixed aperture with an antenna beam coverage region and positioned at a fixed azimuth and elevation;
a satellite detection system to detect when one of the plurality of satellites passes through the antenna beam coverage region, the satellite detection system generating an indicator that one of the plurality of satellites has been detected within the antenna beam coverage region;
a receiver coupled to the antenna to receive radio transmissions from the detected satellite when the satellite passes through the antenna beam coverage region; and
a transmitter coupled to the antenna to transmit the stored data to the detected satellite when the satellite passes through the antenna beam coverage region, the receiver and transmitter communicating with the detected satellite while the detected satellite is within the antenna beam coverage region and not communicating with any of the plurality of satellites when the detected satellite passes out of the antenna beam coverage region, such that the temporary communication link between the earth-based station and the plurality of satellites is terminated until the satellite detection system subsequently detects when one of the plurality of satellites passes through the antenna beam coverage region.
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Abstract
A low-cost, low maintenance earth-based station is disclosed which includes a fixed aperture antenna directed to a fixed location. The system operates with a plurality of non-geosynchronous satellites that will periodically pass through a beam coverage region of the antenna. When one of the satellites comes within range of the earth-based station, the earth-based station detects the presence of the satellite and synchronizes the earth-based station with the satellite. When synchronization is complete, the earth-based station transmits stored data to the satellite. The data to be transmitted is stored within a data storage device that may be present at the earth-based station or remotely located and transmitted to the earth-based station using conventional techniques. The data may be transferred to the earth-based station from a remote data storage facility in response to a polling request after the satellite has been detected within range of the antenna, or automatically transferred from the remote storage facility and temporarily stored at the earth-based station in anticipation of the next satellite to come within range.
26 Citations
37 Claims
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1. A satellite communication system, comprising:
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a plurality of satellites in non-geostationary earth orbit in one or more predetermined orbital planes and distributed in an arrangement with distances between satellites sufficient such that, at times, all satellites are out of range of an antenna beam coverage region of a non-tracking antenna of an earth-based station; and
an earth-based satellite communication station to establish a temporary communication link with the plurality of satellites wherein the earth-based station is initially out of communication with the plurality of satellites, the earth-based station comprising;
a data storage area to collect and temporarily store data for subsequent transmission to a detected one of the plurality of satellites;
a non-tracking directional antenna having a fixed aperture with an antenna beam coverage region and positioned at a fixed azimuth and elevation;
a satellite detection system to detect when one of the plurality of satellites passes through the antenna beam coverage region, the satellite detection system generating an indicator that one of the plurality of satellites has been detected within the antenna beam coverage region;
a receiver coupled to the antenna to receive radio transmissions from the detected satellite when the satellite passes through the antenna beam coverage region; and
a transmitter coupled to the antenna to transmit the stored data to the detected satellite when the satellite passes through the antenna beam coverage region, the receiver and transmitter communicating with the detected satellite while the detected satellite is within the antenna beam coverage region and not communicating with any of the plurality of satellites when the detected satellite passes out of the antenna beam coverage region, such that the temporary communication link between the earth-based station and the plurality of satellites is terminated until the satellite detection system subsequently detects when one of the plurality of satellites passes through the antenna beam coverage region. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An earth-based satellite communication station for communicating with a plurality of satellites in non-geostationary earth orbits on a temporary communication link wherein the plurality of satellites are distributed in an arrangement with sufficient distances between satellites such that, at times, all satellites are out of range of an antenna beam coverage region of a non-tracking antenna of an earth-based station, the satellite communication station comprising:
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a non-adjustable antenna having a fixed aperture with an antenna beam coverage region and aimed at a fixed position relative to the earth-based station;
a satellite detection system to detect when one of the plurality of satellites passes through the antenna beam coverage region;
a receiver coupled to the antenna and receiving radio transmissions from the detected satellite via the temporary communication when the satellite passes through the antenna beam coverage region and not receiving data from any of the plurality of satellites when the detected satellite passes out of the antenna beam coverage region until another one of the plurality of satellites passes through the antenna beam coverage region and is detected by the satellite detection system;
a data storage area to store data for transmission to the detected satellite; and
a transmitter coupled to the antenna and transmitting the stored data to the detected satellite when the satellite passes through the antenna beam coverage region and not transmitting to any of the plurality of satellites when the detected satellite passes out of the antenna beam coverage region until another one of the plurality of satellites passes through the antenna beam coverage region and is detected by the satellite detection system. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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18. An earth-based satellite communication system for communicating with a plurality of satellites in non-geostationary earth orbits wherein the plurality of satellites are distributed in an arrangement with sufficient distances between satellites such that, at times, all satellites are out of range of an antenna beam coverage region of a non-tracking antenna of an earth-based station, the satellite communication system comprising:
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a non-adjustable antenna having an antenna aperture with an antenna beam coverage region and aimed at a fixed position relative to the earth-based system;
a satellite detection system to detect when each of the plurality of satellites passes through the antenna beam coverage region;
a receiver coupled to the antenna and receiving radio transmissions from the satellite currently passing through the antenna beam coverage region;
a data storage area to store data for transmission to the satellite passing through the antenna beam coverage region; and
a transmitter coupled to the antenna transmitting the stored data to the satellite currently passing through the antenna beam coverage region, the receiver and transmitter communicating with each of the plurality of satellites as each of the satellites are passing through the antenna beam coverage region and not communicating with any of the plurality of satellites when no satellite is passing through the antenna beam coverage region. - View Dependent Claims (19, 20, 21, 22, 23)
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24. A method using an earth-based satellite communication system for communicating with a plurality of satellites in non-geostationary earth orbits wherein the plurality of satellites are distributed in an arrangement with sufficient distances between satellites such that, at times, all satellites are out of range of an antenna beam coverage region of a non-tracking antenna of an earth-based station, the method comprising the steps of:
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aiming a non-adjustable antenna, having an antenna aperture with an antenna beam coverage region, at a fixed position relative to the earth-based system;
detecting when one of the plurality of satellites passes through the antenna beam coverage region;
storing data prior to detecting when one of the plurality of satellites passes through the antenna beam coverage region;
establishing a temporary communication link with the detected satellite in the antenna beam coverage region to transmit the stored data to the detected satellite via the temporary communication link; and
terminating the temporary communication link when the detected satellite passes out of the antenna beam coverage region wherein no communication link exists between the earth-based station and any of the plurality of satellites when the temporary communication link is terminated until one of the plurality of satellites subsequently passes through the antenna beam coverage region and is detected. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31)
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32. A method using an earth-based satellite communication station for communicating with a plurality of satellites in non-geostationary earth orbits wherein the plurality of satellites are distributed in an arrangement with sufficient distances between satellites such that, at times, all satellites are out of range of an antenna beam coverage region of a non-tracking antenna of an earth-based station the method comprising the steps of:
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aiming a directional antenna with an antenna aperture having an antenna beam coverage region at a fixed azimuth and elevation;
detecting when each of the plurality of satellites sequentially passes through the antenna beam coverage region;
receiving radio transmissions from the satellite currently passing through the antenna beam coverage region;
storing data for transmission to the satellite currently passing through the antenna beam coverage region; and
transmitting the stored data to the satellite currently passing through the antenna beam coverage region, the steps of receiving and transmitting communicating with each of the plurality of satellites as each of the satellites are passing through the antenna beam coverage region and not communicating with any of the plurality of satellites when no satellite is passing through the antenna beam coverage region. - View Dependent Claims (33, 34, 35, 36, 37)
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Specification
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Current AssigneeHanger Solutions, LLC (IP Investments Group LLC)
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Original AssigneeTeledesic, LLC (Michael J. Larson, MBA)
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InventorsHassan, Amer A., Lundstrom, Mark E.
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Primary Examiner(s)Urban, Edward F.
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Assistant Examiner(s)Gesesse, Tilahun
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Application NumberUS08/935,919Time in Patent Office1,316 DaysField of Search455/13.1, 455/13.2, 455/13.4, 455/12.1, 455/430, 455/429, 455/428, 455/13.3, 455/25, 455/18, 342/352US Class Current455/13.1CPC Class CodesH04B 7/18513 Transmission in a satellite...
