Method and an apparatus for positioning system assisted cellular radiotelephone handoff and dropoff
First Claim
1. A communication system, comprising:
- one or more radiotelephones;
a plurality of base stations for transmitting communication signals to and receiving communication signals from the radiotelephones;
a positioning system in at least one of the radiotelephones for determining the spatial position of the radiotelephone;
wherein one of the base stations performs a dropoff of the radiotelephone containing the positioning system when the quality of the radiotelephone communication signal is predicted to be less than a predetermined value based on the spatial position of the radiotelephone, the radiotelephone being dropped from the communication system when the base station performs the dropoff;
the positioning system uses GPS satellite signals to determine spatial position;
the radiotelephone further comprises;
a data storage area for storing ephemeris data of the GPS satellites;
a clock synchronized with one of the GPS satellites;
a code storage area including software programs; and
a microprocessor for executing the software programs.
9 Assignments
0 Petitions
Accused Products
Abstract
A method and an apparatus is provided for acquiring satellite signals to establish the exact spatial position of a cellular radiotelephone, in order to perform a timely dropoff or smooth handoff to another base station or frequency. The cellular radiotelephone is equipped with its own positioning system which uses satellite data to determine its spatial position. The communication system is preferably a Code Division Multiple Access (CDMA) system, and the positioning system is preferably a Global Positioning System (GPS). The method of the present invention may be used to determine the base station closest to the cellular radiotelephone. In the alternative, it may be used to compute a distance between the cellular radiotelephone and a location where the quality level of the cellular radiotelephone communication signal is predicted to be less than the predetermined value, and to determine from the computed distance whether the cellular radiotelephone should be handed off.
346 Citations
33 Claims
-
1. A communication system, comprising:
-
one or more radiotelephones;
a plurality of base stations for transmitting communication signals to and receiving communication signals from the radiotelephones;
a positioning system in at least one of the radiotelephones for determining the spatial position of the radiotelephone;
wherein one of the base stations performs a dropoff of the radiotelephone containing the positioning system when the quality of the radiotelephone communication signal is predicted to be less than a predetermined value based on the spatial position of the radiotelephone, the radiotelephone being dropped from the communication system when the base station performs the dropoff;
the positioning system uses GPS satellite signals to determine spatial position;
the radiotelephone further comprises;
a data storage area for storing ephemeris data of the GPS satellites;
a clock synchronized with one of the GPS satellites;
a code storage area including software programs; and
a microprocessor for executing the software programs. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A communication system, comprising:
-
one or more radiotelephones;
a plurality of base stations for transmitting communication signals to and receiving communication signals from the radiotelephones;
a positioning system in at least one of the radiotelephones for determining the spatial position of the radiotelephone;
wherein one of the base stations performs a dropoff of the radiotelephone containing the positioning system when the quality of the radiotelephone communication signal is predicted to be less than a predetermined value based on the spatial position of the radiotelephone, the radiotelephone being dropped from the communication system when the base station performs the dropoff;
the positioning system uses GPS satellite signals to determine spatial position of the radiotelephone further comprises;
a data storage area for storing ephemeris data of the GPS satellites;
a clock synchronized with one of the GPS satellites;
a code storage area including software programs;
a microprocessor for executing the software programs; and
a detachable GPS receiver connected to the radiotelephone.
-
-
8. In a communication network including a radiotelephone and a plurality of base stations, a method for performing radiotelephone handoff and dropoff comprising the steps of:
-
determining the spatial position of the radiotelephone using a positioning system;
determining a distance between the radiotelephone and a location where the quality level of a radiotelephone communications signal is predicted to be less than a predetermined value, based upon the spatial position of the radiotelephone;
comparing the determined distance with a distance limit to predict a quality level of a radiotelephone communication signal based on the spatial position of the radiotelephone;
performing a dropoff of the radiotelephone from the communication network when the quality level of the radiotelephone communication signal is predicted to be less than a first predetermined value; and
performing a handoff of the radiotelephone when the quality of the radiotelephone communication signal is predicted to be less than a second predetermined value. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
registering the radiotelephone with at least one of the base stations;
answering pages from the base stations; and
sending the spatial position of the radiotelephone to at least one of the base stations.
-
-
13. The method of claim 12 further comprising the steps of:
-
computing a distance between the radiotelephone and a location where the quality of the radiotelephone communication signal is predicted to be less than a second predetermined value; and
determining whether to handoff the radiotelephone based on the computed distance.
-
-
14. The method of claim 13 wherein the steps of computing the distance and determining whether to handoff the radiotelephone are performed in one of the base stations.
-
15. The method of claim 13 wherein the steps of computing the distance and determining whether to handoff the radiotelephone are performed in the radiotelephone.
-
16. The method of claim 12 wherein the paging step is performed only when the radiotelephone is to be handed off.
-
17. The method of claim 8 wherein the base station performs a dropoff of said cellular radiotelephone based on the cellular radiotelephone spatial position.
-
18. The method of claim 8 further comprising the steps of:
-
computing a distance between the radiotelephone and a location where the quality of the radiotelephone communication signal is predicted to be less than the first predetermined value; and
determining whether to dropoff the radiotelephone based on the computed distance.
-
-
19. The method of claim 18 wherein the steps of computing the distance and determining whether to dropoff the radiophone are performed in the radiotelephone.
-
20. The method of claim 8 further comprising the step of computing the distance between the radiotelephone and one of the base stations.
-
21. A radiotelephone for use in a communications system, comprising:
-
a cellular communications unit for transmitting a cellular communication signal with at least one base station;
a global positioning system electrically coupled to the cellular communications unit, for determining the spatial position of the radiotelephone;
positioning system memory for storing data indicating an ephemeris of a plurality of satellites;
the cellular communications unit further comprises a central processing unit (CPU), a memory electrically coupled to the CPU, and software programs stored on the memory and executable by the CPU to support a communication protocol between the radiotelephone and the at least one base station; and
the at least one base station is capable of performing a drop-off of the radiotelephone when the quality of the radiotelephone communication signal is predicted to be less than a predetermined value based upon the spatial position of the radiotelephone. - View Dependent Claims (22, 23, 24)
-
-
25. A radiotelephone for use in a communications system, comprising:
-
first means for transmitting a cellular communication signal to at least one base station;
second means for determining a spatial position of the radiotelephone;
third means for storing data indicating an ephemeris of a plurality of satellites;
the first means further comprises a support means to support a communication protocol between the radiotelephone and the at least one base station; and
the at least one base station is capable of performing a drop-off of the radiotelephone when the quality of the radiotelephone communication signal is predicted to be less than a predetermined value based upon the spatial position of the radiotelephone. - View Dependent Claims (26, 27, 28, 29, 30)
-
-
31. A method for controlling communications of a radiotelephone with at least one base station, comprising the steps of:
-
establishing a cellular communications link with at least one base station;
determining a spatial position of the radiotelephone, wherein the spatial position is employed to control a state of the cellular communications link with the at least one base station;
storing data indicating an ephemeris of a plurality of satellites into a storage area within the radiotelephone;
receiving a base station position and a distance limit from the at least one base station;
determining a distance between the radiotelephone and a location where the quality level of the cellular communications link is predicted to be less than a predetermined value, based upon the spatial position of the radiotelephone;
comparing the determined distance with the distance limit to determine whether the radiotelephone is a candidate for a handoff; and
notifying the at least one base station that the radiotelephone is a candidate for handoff. - View Dependent Claims (32, 33)
-
Specification