Mobile terminals and methods for regulating power-on/off of a GPS positioning circuit
First Claim
1. A method for determining location of a mobile terminal, comprising:
- repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals; and
regulating the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location by;
detecting when the mobile terminal is GPS isolated in response to insufficient GPS signal strength for the GPS receiver circuit to determine location of the mobile terminal during at least a threshold length of time;
powering-off the GPS receiver circuit in response to detecting that the mobile terminal is GPS isolated;
determining a present acceleration-based location of the mobile terminal using acceleration information from an accelerometer circuit in the mobile terminal during the power-off cycle of the GPS receiver circuit;
extending duration of the power-off cycle of the GPS receiver circuit until a distance between the present acceleration-based location and a previous GPS-determined location of the mobile terminal exceeds a threshold distance; and
upon powering-on the GPS receiver circuit, attempting to determine a present GPS-determined location of the mobile terminal.
6 Assignments
0 Petitions
Accused Products
Abstract
A method for determining location of a mobile terminal includes repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals. The power-on to power-off duty cycle of the GPS receiver circuit is regulated in response to distance that the mobile terminal has moved from a previously determined location. The power-on to power-off duty cycle can be regulated in response to identifying GPS isolation, in response to an acceleration-determined distance from previous GPS-determine location, an acceleration-determined velocity of the mobile terminal, availability of position assistance information from a cellular system, presence/absence of signals from a WLAN/Bluetooth device, and/or detection of a new cellular base station ID.
30 Citations
18 Claims
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1. A method for determining location of a mobile terminal, comprising:
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repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals; and regulating the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location by; detecting when the mobile terminal is GPS isolated in response to insufficient GPS signal strength for the GPS receiver circuit to determine location of the mobile terminal during at least a threshold length of time; powering-off the GPS receiver circuit in response to detecting that the mobile terminal is GPS isolated; determining a present acceleration-based location of the mobile terminal using acceleration information from an accelerometer circuit in the mobile terminal during the power-off cycle of the GPS receiver circuit; extending duration of the power-off cycle of the GPS receiver circuit until a distance between the present acceleration-based location and a previous GPS-determined location of the mobile terminal exceeds a threshold distance; and upon powering-on the GPS receiver circuit, attempting to determine a present GPS-determined location of the mobile terminal. - View Dependent Claims (2, 3, 4, 5, 7)
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6. A method for determining location of a mobile terminal, comprising:
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repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals; and determining a GPS-based location of the mobile terminal using the GPS receiver circuit during the power-on cycle; determining velocity of the mobile terminal using acceleration information from an accelerometer circuit in the mobile terminal during the power-off cycle of the GPS receiver circuit; and regulating the power-on to power-off duty cycle of the GPS receiver circuit in response to the determined velocity of the mobile terminal by; increasing the power-on to power-off duty cycle of the GPS receiver circuit in response to the determined mobile terminal velocity exceeding a threshold velocity; and decreasing the power-on to power-off duty cycle of the GPS receiver circuit in response to the determined mobile terminal velocity being less than a threshold velocity.
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8. A method for determining location of a mobile terminal, comprising:
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repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals; and regulating the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location by; decreasing the power-on to power-off duty cycle of the GPS receiver circuit in response to discovering signals from a WLAN device associated with a previously determined and/or defined location where the mobile terminal remained substantially stationary for at least a threshold time; and increasing the power-on to power-off duty cycle of the GPS receiver circuit in response to detecting absence of signals from the WLAN device associated with the previously determined and/or defined location where the mobile terminal remained substantially stationary for at least the threshold time.
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9. A method for determining location of a mobile terminal, comprising:
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repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals; and regulating the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location by; decreasing the power-on to power-off duty cycle of the GPS receiver circuit in response to discovering signals from a Bluetooth device associated with a previously determined and/or defined location where the mobile terminal remained substantially stationary for at least a threshold time; and increasing the power-on to power-off duty cycle of the GPS receiver circuit in response to detecting absence of signals from the Bluetooth device associated with the previously determined and/or defined location where the mobile terminal remained substantially stationary for at least the threshold time.
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10. A method for determining location of a mobile terminal, comprising:
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repetitively switching power-on and power-off to a GPS receiver circuit which determines location of the mobile terminal using GPS signals; and regulating the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location by identifying an initial cellular base station ID where the GPS receiver became powered-off, and extending duration of the power-off cycle of the GPS receiver circuit until the mobile terminal receives and identifies a new cellular base station ID from a transmitting cellular base station, wherein the new cellular base station ID is different than the initial cellular base station ID.
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11. A mobile terminal comprising:
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a GPS receiver circuit configured to determine location of the mobile terminal using GPS signals; a controller circuit configured to repetitively switch power-on and power-off to the GPS receiver circuit, and to regulate the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location; an accelerometer circuit that generates acceleration information which is indicative of acceleration of the mobile terminal; and an acceleration-based position determination circuit configured to determine a present acceleration-based location of the mobile terminal using the acceleration information from the accelerometer circuit during the power-off cycle of the GPS receiver circuit, wherein the GPS receiver circuit is configured to detect when the mobile terminal is GPS isolated in response to insufficient GPS signal strength to determine location of the mobile terminal during at least a threshold length of time, and wherein the controller circuit is configured to power-off the GPS receiver circuit in response to detecting that the mobile terminal is GPS isolated, to extend duration of the power-off cycle of the GPS receiver circuit until a distance between the present acceleration-based location and a previous GPS-determine location of the mobile terminal exceeds a threshold distance, and to attempt to determine a present GPS-determined location of the mobile terminal upon powering-on the GPS receiver circuit. - View Dependent Claims (12, 13, 15)
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14. A mobile terminal comprising:
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a GPS receiver circuit configured to determine location of the mobile terminal using GPS signals; a controller circuit configured to repetitively switch power-on and power-off to the GPS receiver circuit, and to regulate the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location; an accelerometer circuit that generates acceleration information which is indicative of acceleration of the mobile terminal; and a velocity determination circuit configured to determine velocity of the mobile terminal using the acceleration information from the accelerometer circuit during the power-off cycle of the GPS receiver circuit, wherein the controller circuit is configured to increase the power-on to power-off duty cycle of the GPS receiver circuit in response to the determined velocity of the mobile terminal exceeding a threshold velocity, and to decrease the power-on to power-off duty cycle of the GPS receiver circuit in response to the determined velocity of the mobile terminal being less than a threshold velocity.
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16. A mobile terminal comprising:
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a GPS receiver circuit configured to determine location of the mobile terminal using GPS signals; and a controller circuit configured to repetitively switch power-on and power-off to the GPS receiver circuit, and to regulate the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location, wherein the controller circuit is configured to decrease the power-on to power-off duty cycle of the GPS receiver circuit in response to discovering signals from a WLAN device associated with a previously determined and/or defined location where the mobile terminal remained substantially stationary for at least a threshold time, and to increase the power-on to power-off duty cycle of the GPS receiver circuit in response to detecting absence of signals from the WLAN device associated with the previously determined and/or defined location where the mobile terminal remained substantially stationary for at least the threshold time.
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17. A mobile terminal comprising:
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a GPS receiver circuit configured to determine location of the mobile terminal using GPS signals; and a controller circuit configured to repetitively switch power-on and power-off to the GPS receiver circuit, and to regulate the power-on to power-off duty cycle of the GPS receiver circuit in response to distance that the mobile terminal has moved from a previously determined location, wherein the controller circuit is configured to decrease the power-on to power-off duty cycle of the GPS receiver circuit in response to discovering signals from a Bluetooth device associated with a previously determined and/or defined location where the mobile terminal remained substantially stationary for at least a threshold time, and to increase the power-on to power-off duty cycle of the GPS receiver circuit in response to detecting absence of signals from the Bluetooth device associated with a previously determined and/or defined location where the mobile terminal remained substantially stationary for at least the threshold time.
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18. A mobile terminal comprising:
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a GPS receiver circuit configured to determine location of the mobile terminal using GPS signals; a cellular receiver configured to communicate with cellular base stations; and a controller circuit configured to regulate power supplied to the GPS receiver circuit in response to distance that the mobile terminal has moved from a location previously determined using GPS signals, wherein the controller circuit is configured to identify an initial cellular base station ID where the GPS receiver became powered-off, and to power-on the GPS receiver circuit in response to receiving and identifying a new cellular base station ID from a cellular base station via the cellular receiver, wherein the new cellular base station ID is different than the initial cellular base station ID.
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Specification