Optical locating system

We claim: 1. A method for uniquely identifying areas within a facility for location services, comprising: operating a plurality of beacons disposed within the facility; emitting, from at least a first beacon of the plurality of beacons, a first beam having a first beamwidth in a manner so as to communicate at least a unique identification code associated with a first physical area of the facility; receiving the unique identification code communicated via the first beam at a remote beacon receiver; performing operations by the remote beacon receiver to facilitate a setting of an operational mode of a mobile tag reader based on the unique identification code communicated via the first beam; changing a value for a beamwidth parameter to modify an area of coverage for the first beacon, where said changing is performed autonomously by the first beacon or in response to the first beacon's reception of a command from the remote beacon receiver; emitting, from the first beacon, a second beam having a second beamwidth in a manner so as to communicate at least the unique identification code associated with the first area of the facility, where the second beamwidth is different from the first beamwidth; and performing operations by the remote beacon receiver to facilitate a renewal of the operational mode based on the unique identification code communicated via the second beam. 2. The method according to claim 1 , wherein the value for the beamwidth parameter is changed so that at least two of the beacons have an overlapping area of coverage. 3. The method according to claim 1 , wherein information specifying the first beamwidth is communicated from the first beacon via the first beam and information specifying the second beamwidth is communicated from the first beacon via the second beam. 4. The method according to claim 1 , further comprising minimizing interference between the first beacon and an adjacent second beacon of the plurality of beacons by communicating error correction codes from the first beacon via the first and second beams. 5. The method according claim 1 , further comprising using randomized transit timing to minimize interference between the first beacon and an adjacent second beacon of the plurality of beacons. 6. The method according to claim 5 , wherein each of the plurality of beacons has a known directional emission pattern. 7. The method according to claim 1 , wherein the remote beacon receiver is worn by a person or carried by the person as an accessory of the mobile tag reader. 8. The method according to claim 1 , further comprising: determining an inaccurate location of a mobile tag in the facility using the mobile tag reader to read a fixed tag with a known location; and increasing an accuracy of the inaccurate location using the first beacon's known physical location which is associated with the unique identification code emitted from the first beacon via the first or second beam. 9. The method according to claim 8 , further comprising considering the mobile tag as being located in a Zone Of Interest (“ZOI”) of the first beacon for which the unique identifier has been received by the mobile tag reader if a read of the mobile tag occurred within a certain time period inclusive of a time at which the read of the fixed tag occurred. 10. The method according to claim 9 , further comprising generating a map showing at least one of a location of the mobile tag reader relative to the first beacon in multi-dimensional space and a location of the fixed tag relative to the first beacon in multi-dimensional space. 11. A system, comprising: a mobile tag reader; a plurality of beacons disposed within a facility and comprising a first beacon that emits a first beam having a first beamwidth in a manner so as to communicate at least a unique identification code associated with a first physical area of the facility, has a value for a beamwidth parameter which is changed to modify an area of coverage for the first beacon autonomously by the first beacon or in response to the first beacon's reception of a command from a remote beacon receiver, and emits a second beam having a second beamwidth in a manner so as to communicate at least the unique identification code associated with the first area of the facility, where the second beamwidth is different from the first beamwidth; a remote beacon receiver configured to perform operations to facilitate a setting of an operational mode of the mobile tag reader based on the unique identification code communicated via the first beam and to facilitate a renewal of the operational mode based on the unique identification code communicated via the second beam. 12. The system according to claim 11 , wherein the value for the beamwidth parameter is changed so that at least two of the beacons have an overlapping area of coverage. 13. The system according to claim 11 , wherein information specifying the first beamwidth is communicated from the first beacon via the first beam and information specifying the second beamwidth is communicated from the first beacon via the second beam. 14. The system according to claim 11 , further comprising minimizing interference between the first beacon and an adjacent second beacon of the plurality of beacons by communicating error correction codes from the first beacon via the first and second beams. 15. The system according claim 11 , wherein randomized transit timing is used to minimize interference between the first beacon and an adjacent second beacon of the plurality of beacons. 16. The system according to claim 15 , wherein each of the plurality of beacons has a known directional emission pattern. 17. The system according to claim 11 , wherein the remote beacon receiver is worn by a person or carried by the person as an accessory of the mobile tag reader. 18. The system according to claim 11 , wherein: the mobile tag reader is configured to read a fixed tag with a known location to facilitate a determination of an inaccurate location of a mobile tag in the facility; and the unique identification code is used to increases an accuracy of the inaccurate location. 19. The system according to claim 18 , wherein the mobile tag is considered as being located in a Zone Of Interest (“ZOI”) of the first beacon for which the unique identifier has been received by the mobile tag reader if a read of the mobile tag occurred within a certain time period inclusive of a time at which the read of the fixed tag. 20. The system according to claim 19 , wherein a map is generated by the mobile tag reader that shows at least one of a location of the mobile tag reader relative to the first beacon in multi-dimensional space and a location of the fixed tag relative to the first beacon in multi-dimensional space.