PATENT ABSTRACT
A wireless communication system including a station having communication software for: (1) receiving a capability request from each of a plurality of non-emergency-service-providers, and (2) generating and transmitting a capability request response that includes a status indicator of a non-emergency-services position-determination (NESPD) capability of the station, wherein the NESPD capability of the station is user-selectable to enable or disable all NESPD irrespective of which of the plurality of non-emergency-service-providers is associated with the capability request. Additionally, a method of operating an element of a wireless communication network, comprising: (1) exchanging NESPD messages with a mobile station; (2) receiving a status indicator from the mobile station, at least indirectly, the status indicator indicating that the mobile station is configured to refrain from providing position information for non-emergency-services; and (3) preventing a plurality of NESPD messages from being transmitted to the mobile station in response to receiving the status indicator.

PATENT DESCRIPTION
CROSS REFERENCE 
   The present disclosure claims priority from U.S. Provisional Patent Application Ser. No. 60/447,391, filed on Feb. 14, 2003, which is hereby incorporated by reference. 

   BACKGROUND 
   The present disclosure relates generally to wireless communication networks and, more specifically, to a method and system whereby a wireless mobile device may report the status of a non-emergency-services position-determination (NESPD) capability, wherein the NESPD capability is user-selectable. 
   Location based services (LBSs) are increasingly important across wireless networks. Generally, there are two classes of LBSs: emergency services (ES), and value-added services (VASs). Emergency services may be used, for example, to locate a mobile phone user who places a call for emergency services. VASs may be commercial services such as navigational services, store location services, or locate-me services. Through known location services (LCS) techniques, it is possible for a wireless network and wireless mobile device to provide a location (e.g. latitude and longitude) and location-related information to an LBS provider. 
   In some instances, the wireless mobile device may be configured to disregard LCS requests for all but ES. The wireless mobile device may be configured not to respond to VAS-related requests, or to respond, but without the requested location data, and possibly with a general-purpose reject reason. This may result in the network repeatedly sending LCS requests for VASs to the wireless mobile device since the network and/or VAS provider have no way to know exactly why the wireless mobile device is not responding to a request. The wireless mobile device has no way to unambiguously inform the network that it will only respond with LCS data to ES-related LCS requests. 
   Accordingly, what is needed is system and method of use thereof that addresses the issues discussed above. 
   SUMMARY 
   The present disclosure introduces a computer data signal including a plurality of wireless mobile device native capability data (NCD) and a status indicator of a non-emergency-services position-determination (NESPD) capability. The NESPD capability is user-selectable. The NCD may include one or more of a GPS acquisition capability indicator, a position calculation capability indicator, a wireless mobile device location standard revision number indicator, a wireless mobile device digital mode indicator, and a wireless mobile device pilot phase capability indicator. 
   A wireless communication system is also provided in the present disclosure. In one embodiment, the system includes first and second stations having first and second communication software, respectively. The first communication software may be configured to generate and transmit a capability request. The second communication software may be configured to receive the capability request and to generate and transmit a capability request response that includes a status indicator of a non-emergency-services position-determination (NESPD) capability, wherein the NESPD capability is user-selectable. 
   The present disclosure also introduces a method of communicating between telecommunications network stations. In one embodiment, the method includes generating a capability request at a first station and transmitting the capability request to a second station, which receives the capability request. The capability request may comprise or be contained in a position determination data message (PDDM). A capability request reply, which may also comprise or be contained in a PDDM, is generated in response to the capability request at the second station, wherein the capability request reply includes a status indicator of a non-emergency-services position-determination (NESPD) capability of the second station, the NESPD capability being user-selectable. The capability request reply may also be transmitted before, or without, the capability request. The capability request reply is transmitted to and received at the first station. 
   The foregoing has outlined features of several embodiments so that those skilled in the art may better understand the detailed description that follows. Additional features will be described below that further form the subject of the claims herein. Those skilled in the art should appreciate that they can readily use the present disclosure as a basis for designing or modifying other processes and structures for carrying out the same purposes and/or achieving the same advantages of the embodiments introduced herein. Those skilled in the art should also realize that such equivalent constructions do not depart from the spirit and scope of the present disclosure. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     Aspects of the present disclosure are best understood from the following detailed description when read with the accompanying figures. It is emphasized that, in accordance with the standard practice in the industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion. 
       FIG. 1  illustrates a block diagram of one embodiment of a capability request response according to aspects of the present disclosure. 
       FIG. 2  illustrates a block diagram of one embodiment of a telecommunications network according to aspects of the present disclosure 
       FIG. 3  illustrates a message sequence chart of one embodiment of a method of reporting the status of an emergency services position-determination capability according to aspects of the present disclosure 
   

   DETAILED DESCRIPTION 
   It is to be understood that the following disclosure provides many different embodiments, or examples, for implementing different features of various embodiments. Specific examples of components and arrangements are described below to simplify the present disclosure. These are, of course, merely examples and are not intended to be limiting. In addition, the present disclosure may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. 
   The present disclosure is related to and hereby incorporates in its entirety, Position Determination Service Standard for Dual Mode Spread Spectrum Systems, Addendum 1, TIA/EIA IS-801-1, Telecommunications Industry Association (March, 2001). 
   As described above, situations exist in which it is necessary or desired to determine the physical location of a wireless mobile device, such as a mobile phone, a wireless-enabled PDA, etc. For example, if a mobile phone user places a call to a police department, it may be necessary for the police department to locate the mobile device user without requiring the user to provide spoken directions. Non-emergency services may also make use of the capability to determine the position of wireless mobile devices. For example, a mobile phone user may wish to wirelessly receive directions to the nearest ATM, movie theater, restaurant, etc., without keying in the user&#39;s current location. Thus, a wireless network may be enabled to send requests to a wireless mobile device within the network (or other networks) to provide information detailing the physical location of the mobile device (e.g., latitude/longitude coordinates, etc.). 
   However, a wireless mobile device user may also enable or disable their mobile device from automatically responding to such external requests for location information. For example, a user may disable their wireless device from transmitting location information to all requesters except emergency services providers (e.g., police and fire departments). When a mobile device has been disabled from providing location information to a non-emergency service provider, requests for location information from non-emergency service providers may nevertheless be sent to the mobile device. However, the non-emergency service provider requesting the location information will not receive the requested location information from the mobile device. Of course, the non-emergency service provider may continue to receive other messages from the mobile device not pertaining to the specific location of the mobile device. Thus, the non-emergency service provider may continue to request location information, possibly assuming that previous request for location information were corrupted, blocked, or otherwise errant. 
   The present disclosure, however, provides for informing the non-emergency services provider that non-emergency position-determining capabilities of the mobile device have been disabled. Thus, the non-emergency service providers may cease the repeated requests for location information from the mobile device. Consequently, the non-emergency service providers may be able to limit over-the-air data traffic in cases where a mobile device has position-determining capabilities but the mobile device user has chosen to disable position-determining capabilities for location information requests from non-emergency service providers. 
   Referring to  FIG. 1 , illustrated is a block diagram (or bit map) of one embodiment of a capability request response  100  according to aspects of the present disclosure. The response  100  may be a message generated and/or transmitted by a wireless mobile device or other telecommunications network element, possibly in response to a capability request message received from another telecommunications network element, such as one including a position determining entity (PDE). The response  100  may be part of a position determination data message (PDDM), as in IS-801-1. 
   The response  100  may include a plurality of wireless mobile device native capability data (NCD  110   a - e , collectively) and a status indicator  120  of a non-emergency-services position-determination (NESPD) capability. Each of the NCD  110   a - e  may have values that are predetermined. The NCD  110   a - e  may be set by the OEM, they may be hardware-specific, and/or they may depend upon the network or signal strength where the wireless mobile device is located. The NCD  110   a - e  may be stored within a nonvolatile memory of a wireless mobile device. The NCD  110   a - e  are not user selectable. The status indicator  120  indicates a user-selectable preference for providing position information for ES but not for VASs. The status indicator  120  may be modified by a user&#39;s interaction with the machine-human interface of a wireless mobile device as will be explained below. 
   In the illustrated embodiment, the response 100  includes a wireless mobile device location standard revision indicator (MS_LS_REV)  110   a , a wireless mobile device digital mode indicator (MS_MODE)  110   b , and a wireless mobile device pilot phase capability indicator (PILOT_PH_CAP)  110   c . Other examples of NCD in the illustrated embodiment include a GPS acquisition capability indicator (GPS_ACQ_CAP)  110   d  and a position calculation capability indicator (LOC_CALC_CAP)  110   e.    
   The MS_LS_REV  110   a  may indicate the wireless mobile device location standard revision being used by the wireless mobile device. For example, IS-801-1 may be used by the wireless mobile device, which may correspond to a value in the MS_LS_REV  110   a  of ‘000001’. In such case, the MS_LS_REV  110   a  field may be set to ‘00001’ and may not be changeable by a wireless mobile device user. In the illustrated embodiment, the MS_LS_REV  110   a  has a length of 6 bits, although other lengths are within the scope of the present disclosure. 
   The MS_MODE  110   b  may indicate the digital mode of the wireless mobile device. If, for example, the wireless mobile device operates under the IS-801-1 protocol, this field may have the value of ‘0000’. MS_MODE  110   b  is based on the wireless mobile device and is not changeable by the user. In the illustrated embodiment, the MS_MODE  110   b  has a length of 4 bits, although other lengths are within the scope of the present disclosure. 
   The PILOT_PH_CAP  110   c  may be used to store the pilot phase capability of the wireless mobile device. Specified values for the PILOT_PH_CAP  110   c  field may be based upon the capability of the wireless mobile device. For example, in the IS-801-1 standard, the values ‘000000’, ‘000001’, ‘000010’, ‘000011’, and ‘000100’ correspond to full chip measurement capability, half chip measurement capability, quarter chip measurement capability, eighth chip measurement capability, and one sixteenth chip measurement capability, respectively. The remaining possible values of PILOT_PH_CAP  110   c  may be reserved for future use. The value taken by PILOT_PH_CAP  110   c  may be hardware dependent and hence not selectable or changeable by the wireless mobile device user. In the illustrated embodiment, the PILOT_PH_CAP  110   c  has a length of 6 bits, although other lengths are within the scope of the present disclosure. 
   The GPS_ACQ_CAP  110   d  may correspond to the Global Positioning System (GPS) acquisition capability of the wireless mobile device. Each bit in the GPS_ACQ_CAP  110   d  field may represent one of several GPS acquisition capabilities. For example, if, as in the IS-801-1 standard, the GPS_ACQ_CAP  110   d  field has a total of 12 bits, bits  1 - 7  may correspond to GPS acquisition assistance, GPS sensitivity assistance, GPS almanac, GPS ephemeris, GPS navigation message bits, GPS almanac correction, and GPS autonomous acquisition capable, respectively. Bits  8 - 12  may be reserved. The GPS_ACQ_CAP  110   d  field may correspond to the hardware capabilities of the wireless mobile device such that they are not user selectable or changeable. In the illustrated embodiment, GPS_ACQ_CAP  110   d  has a length of 12 bits, although other lengths are within the scope of the present disclosure. 
   The LOC_CALC_CAP  110   e  field may be set to indicate the position calculation capability of a wireless mobile device. Each bit in the LOC_CALC_CAP  110   e  field may correspond to one of several position calculation capabilities. For example if, as in IS-801-1, the LOC_CALC_CAP  110   e  field has a total of 12 bits, bits  1  and  2  may correspond to a wireless mobile device being location calculation capable using spherical location assistance and Cartesian location assistance, respectively. Bit  3  may correspond to advanced forward link trilateration (AFLT) location calculation capability. Bits  4 - 6  may correspond to location calculation capable using GPS almanac assistance, GPS ephemeris assistance, and GPS almanac correction, respectively. Bit  7  may correspond to the wireless mobile device being autonomous location calculation capable, while bit  8  may indicate hybrid GPS and AFLT location calculation capability. Bits  9 - 11  may be reserved and bit  12  may be used to indicate a pre-programmed location capability. In the illustrated embodiment, the LOC_CALC_CAP  110   e  has a length of 12 bits, although other lengths are within the scope of the present disclosure. 
   The EMERGENCY_ONLY status indicator  120  indicates the status of the NESPD capability of the wireless mobile device or other applicable telecommunications network element. The EMERGENCY_ONLY status indicator  120  indicates a user-preference to refrain from providing position information for VASs although capability for providing position information for EMERGENCY services may remain active. The wireless mobile device may support various LCS capabilities, as described above, and may relay such capabilities to another station in the network, such as a BTS or a PDE, by transmitting the NCD  110   a - e . The user may disable the LCS capabilities of the wireless mobile device for all but EMERGENCY SERVICES LBSs. If so, the user may also wish to inform a PDE that the LCS capabilities of the wireless mobile device have been disabled for all but EMERGENCY SERVICES LBSs. The user of the wireless mobile device may do so by setting the EMERGENCY_ONLY  120  status indicator to true. When following the IS-801-1 standard conventions, true corresponds to a value of ‘1’ while false corresponds to a value of ‘0’. In this embodiment, the EMERGENCY_ONLY  120  status indicator comprises a single bit. However, in some embodiments more bits may be used. For example, one or more of the reserved bits  130  could be used for the EMERGENCY_ONLY  120  status indicator. 
   The user may set the EMERGENCY_ONLY  120  indicator to true manually, or it may be automatically set to true by the wireless mobile device when VAS LBSs are disabled. The user may select the value of EMERGENCY_ONLY  120  when the wireless mobile device is in use, when the wireless mobile device is idle, or at startup. A default value may be set by the user, to which the stored EMERGENCY_ONLY  120  bit always resets during power up, or power down. The user may also be able to associate a stored EMERGENCY_ONLY  120  value with a profile for the wireless mobile device. For example, EMERGENCY_ONLY indicator may be set to a particular stored value when the wireless mobile device leaves a certain area, or during certain hours. As another example, the mobile user may wish to allow VAS LBSs only when in a home city and during business hours. Other user defined events corresponding to a change in the value of the stored EMERGENCY_ONLY  120  status indicator are also possible. 
     FIG. 2  illustrates a block diagram of one embodiment of a wireless telecommunications network  200  according to aspects of the present disclosure. The telecommunications network  200  is one environment in which the response  100  shown in  FIG. 1  may be employed. 
   The telecommunications network  200  includes a wireless mobile device  210  that may be in communication with a base transceiver station or system (hereafter collectively referred to as “BTS”)  220 . The BTS  220  may be part of a base station (BS), which may comprise other BTSs (not shown) and a base station controller (BSC)  230 . The BTS  220  may be controlled by the BSC  230 , which may in turn be controlled by a mobile switching center (MSC)  240 . The MSC  240  may receive calls from, or route calls to, a public switched telephone network (PSTN)  250 . An emergency services network  260  may interact with the PSTN  250  and also connect to a public safety answering point (PSAP  270 ) and a mobile positioning center (MPC)  275 . The MPC  275  may communicate with MSC  240 , and may operate to locate wireless mobile device  210  through position determining entity (PDE)  280 . VAS provider  285  may also locate wireless mobile device  210  through the MPC  275  and PDE  280 . 
   The wireless mobile device  210  may comprise a cellular telephone, a PDA, a pager, a personal computer with a wireless modem, an onboard vehicle computer, or another device for which location data may be desired. Here, only a single wireless mobile device  210  is shown although there may be many more in the same telecommunications network  200 . The wireless mobile device may be in communication with the BTS  220 . Here again, only a single BTS  220  is shown but the telecommunications network  200  may include many. In another embodiment, the wireless mobile device  210  may be in communication with multiple BTSs and possibly other wireless mobile devices. The wireless mobile device  210  may communicate with the BTS  220  using various wireless protocols. For example, the protocol be may related to, but is not limited to, CDMA, 1xRTT, TDMA, analog (e.g., AMPS), FDMA, GSM, UMTS, Bluetooth, or Wi-Fi. 
   The BTS  220  may be operated or controlled by BSC  230 . The BSC  230  may control multiple BTSs and may control how wireless mobile devices are allocated to the multiple BTSs and how the wireless mobile devices are handed-off between the BTSs. There may be multiple BSCs within the network  200  although only one is shown here. 
   The BSC  230 , and possibly others, may be in communication with the MSC  240 . The MSC  240  may be a single element, or a network of elements, that routes calls and information to and from the BSC  230 , or to other network elements. There may also be multiple MSCs within a network. The MSC  240  may connect the wireless portion of the telecommunications network  200  to the PSTN  250 . The PSTN  250  may be an ordinary public switched telephone network. The PSTN  260  may be connected to an emergency services network  260 , such as that used to report fires or call the police. The emergency services network may connected to or integrated with a Public safety answering point (PSAP)  270 . Emergency calls made by wireless mobile devices may be routed to or received by the PSAP  270 . An operator on the PSAP may be able to obtain location information about the mobile wireless device  210  via the MPC  275  and the PDE  280 . As previously described, a VAS provider  285  may provide LBSs to the wireless mobile device  210 . The VAS provider may also obtain location information from the PDE  280  via the MPC  275 . 
   To illustrate one embodiment of the present disclosure in operation, wireless mobile device  210  may register with the network  200 , or originate a call, and advise the network  200  of its general latent LCS capabilities, possibly in associated IS-2000 signaling messages (IS-2000 referring to TIA/EIA/IS-2000.5.A-1, Upper Layer (Layer 3) Signaling Standard for cdma2000 Spread Spectrum Systems, Addendum 1, November, 2000). If wireless mobile device  210  indicates support for the IS-801-1 protocol, the PDE  280  may establish a session with the wireless mobile device  210  for the exchange of application layer protocols. The protocol messages may be exchanged between the wireless mobile device  210  and the PDE  280  in the form of position data determination messages (PDDMs). It is understood, however, that PDDMs may pass between other network elements such as the MSC  240  and BSC  230  in route between the PDE  280  and wireless mobile device  210 . The PDDMs may each contain one or more request and/or response elements. The PDE  280  may send a PDDM containing an information or capability request element to the wireless mobile device  210  to determine its LCS capabilities. The wireless mobile device  210  may respond with a PDDM containing LCS capability information such as that described with respect to  FIG. 1 . In some instances the wireless mobile device  210  may send a PDDM with LCS capability information without first receiving a PDDM with a capability request. 
   To further illustrate, as previously described, the wireless mobile device  210  may have LCS capabilities that are native features of the device indicated by NCD  110   a - e  (of  FIG. 1 ) in addition to an NESPD indicator  120 . The user of the wireless mobile device  210  may have no current interest in any VAS LBSs. For example, the user may be traveling and have no interest in having the location of the wireless mobile device  210  tracked for the use of local advertisers. The user of the wireless mobile device  210  may set the EMERGENCY_ONLY indicator  120  to true to indicate that the NESPD capabilities of the wireless mobile device have been disabled by the user. This may be accomplished, for example, by selecting a profile (e.g. a traveling profile) on the mobile device  210 , or by setting the EMERGENCY_ONLY  120  indicator to true through a manual interface on the wireless mobile device  210 . 
   There may be a VAS provider  285  that wishes to advertise to all wireless mobile devices within a given radius of a specific advertiser. The PDE  280  may send a PDDM with an LCS request to the wireless mobile device  210 . The request may be passed through the mobile switching center  240 , to the base station controller  230 , to the BTS  220 , and wirelessly to the wireless mobile device  210 . 
   The wireless mobile device  210  may be capable of responding with location data based on its native capabilities. However, the EMERGENCY_ONLY  120  indicator, having been set to true to indicate NESPD capability disablement by the wireless mobile device  210  user, will be sent back through the network, possibly with the NCD  110   a - e , and possibly with an indication that an LCS request other than a capability request has been rejected, to the PDE  280 . The PDE  280  will receive the message containing the EMERGENCY_ONLY  120  indicator with a value of true and may indicate to the VAS provider  285  that the wireless mobile device  210  will not respond with location information unless the LCS request is for an ES. In some cases, without first receiving a PDDM containing a request for LCS data, the wireless mobile device  210  may send a PDDM to the PDE  280  indicating that only ES-related LCS will be provided with location-related data. 
     FIG. 3  illustrates a message sequence chart of one embodiment of a method  300  of reporting the status of a non-emergency-services position-determination (NESPD) capability according to aspects of the present disclosure. 
   A positioning determining entity (PDE)  280  may pass a PDDM comprising a capability request corresponding to a VAS to the wireless mobile device  210  at step  310 . An NESPD capability request or other LCS request may be passed in the same PDDM. The PDDM  310  may be passed through other network elements (not shown), such as an MSC, a BSC, or a BTS, before reaching the wireless mobile device  210 . If the wireless mobile device  210  is configured to respond with LCS data only for ES LBSs, the user may have already set the EMERGENCY_ONLY ( 120  of  FIG. 1 ) indicator to true. 
   As described with reference to  FIG. 1 , the EMERGENCY_ONLY value may be sent back to the PDE  280  along with NCD  110   a - e  ( FIG. 1 ). A PDDM  320  containing the EMERGENCY_ONLY value of ‘1’, and possibly NCD  110   a - e , may be sent to the wireless mobile device. The PDDM  320  may also pass through a other network elements (not shown), such as an MSC, a BSC, or a BTS, before reaching the PDE  280 . Upon receiving the PDDM  320  with EMERGENCY_ONLY set to ‘1’, the PDE  280  has thereby been informed that the wireless mobile device  210  will respond to LCS data requests only for ES LBSs. PDDMs requesting LCS data for non ES LBS providers may then be stopped at step  330 . As described previously, the wireless mobile device  210  may also send the PDDM (reply with EMERGENCY_ONLY=1)  320  without first receiving the PDDM (capability request)  310  from the PDE  280 . 
   Those skilled in the art should appreciate that they may readily use the present disclosure as a basis for designing or modifying other processes and structures for carrying out the same purposes and/or achieving the same advantages of the embodiments introduced herein. Those skilled in the art should also realize that such equivalent constructions do not depart from the spirit and scope of the present disclosure, and that they may make various changes, substitutions and alterations herein without departing from the spirit and scope of the present disclosure.