Satellite ground terminal incorporating a smart antenna that rejects interference
First Claim
1. A method for signal communication with a plurality of satellites with at least one signal source having known directional information via an antenna array, the antenna array having an angular resolution smaller than an angular separation of the satellites and comprising a set of directional antenna elements aligned in a predetermined direction and having a baseline selected according to the angular resolution and a controller module, the baseline being a distance between two outermost edges of apertures of the antenna elements, the method comprising the acts of:
- (a) receiving a set of input signals having signal parameters from the plurality of satellites via the directional antenna elements;
(b) receiving user-defined performance criteria via the controller module;
(c) adjusting relative spacing of the directional antenna elements within the baseline;
(d) performing weighting and summing of the input signals via the controller module, the weighting having weighting functions that are updatable and are based on the signal parameters including at least amplitudes and phases or the known directional information of the at least one signal source;
(e) generating performance measurables from the act of (d) performing weighting and summing of the input signals, via the controller module;
(f) comparing the performance measurables to the user-defined performance criteria, via the controller module; and
(g) updating the weighting functions using a gradient search based on the act of comparing the performance measurables to the user-defined performance criteria, via the controller module.
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Accused Products
Abstract
This device combines multiple elements that function like a single smart antenna that performs both connectivity and spatial discrimination functions. The antenna functions in both receive and transmit modes. The apparatus utilizes commonly used components to distinguish and separate desired satellite signals from those signals of satellites in close directional proximity. Disclosed are six methods for optimizing simultaneously reception of multiple desired satellite signals performed either mechanically or electronically and also included is an optimization technique. The transmission apparatus uses many of the same components as the receiver antenna and additionally uses in-beam nulling to fine tune transmission.
47 Citations
26 Claims
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1. A method for signal communication with a plurality of satellites with at least one signal source having known directional information via an antenna array, the antenna array having an angular resolution smaller than an angular separation of the satellites and comprising a set of directional antenna elements aligned in a predetermined direction and having a baseline selected according to the angular resolution and a controller module, the baseline being a distance between two outermost edges of apertures of the antenna elements, the method comprising the acts of:
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(a) receiving a set of input signals having signal parameters from the plurality of satellites via the directional antenna elements; (b) receiving user-defined performance criteria via the controller module; (c) adjusting relative spacing of the directional antenna elements within the baseline; (d) performing weighting and summing of the input signals via the controller module, the weighting having weighting functions that are updatable and are based on the signal parameters including at least amplitudes and phases or the known directional information of the at least one signal source; (e) generating performance measurables from the act of (d) performing weighting and summing of the input signals, via the controller module; (f) comparing the performance measurables to the user-defined performance criteria, via the controller module; and (g) updating the weighting functions using a gradient search based on the act of comparing the performance measurables to the user-defined performance criteria, via the controller module. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for signal communication with first and second satellites each having known directional information via an antenna array, the antenna array having an angular resolution smaller than an angular separation of the first and second satellites and comprising a set of directional antenna elements aligned in a predetermined direction and having a baseline selected according to the angular resolution and a controller module, the baseline being a distance between two outermost edges of apertures of the antenna elements, the method comprising the acts of:
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(a) receiving a set of input signals having signal parameters from the first and second satellites via the directional antenna elements; (b) receiving user-defined performance criteria via the controller module; (c) adjusting relative spacing of the directional antenna elements within the baseline; (d) performing weighting and summing of the input signals via the controller module, the weighting having weighting functions that are updatable and are based on the signal parameters including at least amplitudes and phases or the known directional information of the at least one signal source; (e) generating performance measurables from the act of (d) performing weighting and summing of the input signals, via the controller module; (f) comparing the performance measurables to the user-defined performance criteria, via the controller module; (g) updating the weighting functions using a gradient search based on the act of comparing the performance measurables to the user-defined performance criteria, via the controller module; and (h) creating simultaneously a first beam and a second beam via the controller module, the first beam having a first beam peak in a direction of the first satellite and a first null in a direction of the second satellite, the second beam having a second beam peak in the direction of the second satellite and a second null in the direction of the first satellite. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for signal communication with N satellites each having known directional information via an antenna array, N being greater than 1, the antenna array having an angular resolution smaller than an angular separation of the N satellites and comprising a set of directional antenna elements aligned in a predetermined direction and having a baseline selected according to the angular resolution and a controller module, the baseline being a distance between two outermost edges of apertures of the antenna elements, the method comprising the acts of:
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(a) receiving a set of input signals having signal parameters from the N satellites via the directional antenna elements; (b) receiving user-defined performance criteria via the controller module; (c) adjusting relative spacing of the directional antenna elements within the baseline; (d) performing weighting and summing of the input signals via the controller module, the weighting having weighting functions that are updatable and are based on the signal parameters including amplitudes and phases or the known directional information of the respective N satellites; (e) generating performance measurables from the act of (d) performing weighting and summing of the input signals, via the controller module; (f) comparing the performance measurables to the user-defined performance criteria, via the controller module; (g) updating the weighting functions using a gradient search based on result of the act of comparing the performance measurables to the user-defined performance criteria, via the controller module; and (h) creating simultaneously N orthogonal beams corresponding respectively to the N satellites via the controller module, each of the N beams having a high-gain beam peak toward a direction of a respective satellite of the N satellites and nulls towards directions of the remaining N-1 satellites. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26)
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Specification