Antenna Positioning System
First Claim
1. A method for controlling the position of a rotatable antenna in an antenna system having a rotatable antenna, a motor rotating the antenna;
- and a user interface for enabling a user to select a desired angular position for the antenna;
said method comprising;
conducting an initial scan of the antenna by;
(a) rotating the antenna over a predetermined range of rotation;
(b) measuring the time required to rotate the antenna over the range of rotation; and
(c) calculating the angular velocity of the antenna during the initial scan based on the measured time to rotate the antenna over the range of rotation; and
in a subsequent operational mode, in response to user input selecting a desired angular position for the antenna;
(a) calculating the travel time and direction of travel to rotate the antenna to the desired angular position based on the present angular position and angular velocity of the antenna; and
(b) controlling the motor to rotate the antenna in the calculated direction of travel for the calculated travel time.
1 Assignment
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Accused Products
Abstract
An antenna positioning system includes an outdoor unit with a rotating antenna driven by a motor, and an indoor unit connected to the outdoor unit via a communications link, such as a cable or a wireless link, that enables the indoor unit to control the outdoor unit. On startup, the processor of the indoor unit directs the antenna to search for available signals. The resulting signal information is stored and displayed on a user interface on the indoor unit. The user can then select a desired signal and the processor of the indoor unit will automatically rotate the antenna to the appropriate angular position. Both the search procedure and repositioning of the antenna rely on accurate calibration of the antenna'"'"'s angular velocity to determine the antenna'"'"'s angular position, rather than relying on a position sensor.
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Citations
13 Claims
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1. A method for controlling the position of a rotatable antenna in an antenna system having a rotatable antenna, a motor rotating the antenna;
- and a user interface for enabling a user to select a desired angular position for the antenna;
said method comprising; conducting an initial scan of the antenna by; (a) rotating the antenna over a predetermined range of rotation; (b) measuring the time required to rotate the antenna over the range of rotation; and (c) calculating the angular velocity of the antenna during the initial scan based on the measured time to rotate the antenna over the range of rotation; and in a subsequent operational mode, in response to user input selecting a desired angular position for the antenna; (a) calculating the travel time and direction of travel to rotate the antenna to the desired angular position based on the present angular position and angular velocity of the antenna; and (b) controlling the motor to rotate the antenna in the calculated direction of travel for the calculated travel time. - View Dependent Claims (2, 3, 4, 5)
- and a user interface for enabling a user to select a desired angular position for the antenna;
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6. A method for controlling the position of a rotatable antenna in an antenna system having a rotatable antenna, a motor rotating the antenna;
- and a user interface for enabling a user to select a desired external signal source for the antenna;
said method comprising;conducting an initial scan of the antenna by; (a) rotating the antenna over a predetermined range of rotation; (b) receiving signals via the antenna from external signal sources during the initial scan and storing data regarding the identity and angular directions of the signals received; (c) measuring the time required to rotate the antenna over the range of rotation; and (d) calculating the angular velocity of the antenna during the initial scan based on the measured time to rotate the antenna over the range of rotation; and in a subsequent operational mode, in response to user input selecting a desired external signal source; (a) retrieving the stored angular direction associated with the desired external signal source; (b) calculating the travel time and direction of travel to rotate the antenna to the angular direction of the desired external signal source, based on the present angular position and angular velocity of the antenna; and (c) controlling the motor to rotate the antenna in the calculated direction for the calculated travel time. - View Dependent Claims (7, 8, 9)
- and a user interface for enabling a user to select a desired external signal source for the antenna;
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10. A method for controlling the position of a rotatable antenna in an antenna system having an outdoor unit (ODU) with a rotatable antenna and a motor rotating the antenna;
- and an indoor unit (IDU) with a communications link to the ODU, a receiver, data storage, and a user interface for enabling a user to select a desired external signal source for the antenna;
said method comprising;conducting an initial scan of the antenna by; (a) rotating the antenna over a predetermined range of rotation; (b) receiving signals via the antenna from external signal sources during the initial scan and storing data regarding the identity and angular directions of the signals received in the data storage of the IDU; (c) measuring the time required to rotate the antenna over the range of rotation; and (d) calculating the angular velocity of the antenna during the initial scan based on the measured time to rotate the antenna over the range of rotation; and in a subsequent operational mode, in response to user input selecting a desired external signal source; (a) retrieving the stored angular direction associated with the desired external signal source from data storage; (b) calculating the travel time and direction of travel to rotate the antenna to the angular direction of the desired external signal source, based on the present angular position and angular velocity of the antenna; and (c) employing the IDU to control the motor of the ODU to rotate the antenna in the calculated direction for the calculated travel time. - View Dependent Claims (11, 12, 13)
- and an indoor unit (IDU) with a communications link to the ODU, a receiver, data storage, and a user interface for enabling a user to select a desired external signal source for the antenna;
Specification