Abstract: An Automatic Location Identifier (ALI) trigger mechanism can include a data tap configured to detect an ALI location request for an emergency services call. The data tap can also be configured to output a trigger signal in response to detecting the ALI location request. The ALI trigger mechanism can also include a metadata router configured to receive the trigger signal and output an enhanced caller information request to a metadata server in response to the trigger signal.

Abstract: A practical inter-carrier roaming solution by way of a roaming location protocol (RLP) router that provides consistent location support across heterogeneous wireless network standards. The RLP router maintains connectivity to each location server in a roaming ecosystem, alleviating the need for an expensive and impractical mesh network of location servers. When a home location server (H-LS) determines it cannot locate a subscriber device because the subscriber device is roaming, the H-LS sends an RLP request to the RLP router. The RLP router then routes the RLP request to a serving location server (S-LS), which subsequently returns location information for the roaming subscriber device. The RLP router maintains mobile switching center ID (MSCID) to location based services (LBS) mappings for routing RLP requests. The RLP router may also maintain rough MSC-level positioning data for each MSCID to enable the RLP router to resolve certain location fixes without utilizing an S-LS.

Abstract: A method and mechanism to allow a location server to initiate a user plane location service (e.g., SUPL defined by OMA) procedure to a user plane enabled device via Instant Messaging, or alternatively, via an existing SIP session if a multimedia session is already established. The location request is signaled to the user plane enabled device via a SIP INFO message. The location request uses SIP messaging to overcome firewall and other network security issues. Location using SUPL over SIP may be provided about a caller making an E911 emergency call. An Instant Message may be sent to the user plane enabled device, e.g., a VoIP wireless phone.

Abstract: An analysis master control can be configured to derive contextual information of visual media that includes extracted information and extrapolated information. The analysis master control can receive the extracted information characterizing visual media from a recognizer. An information finder can be configured to query a plurality of information sources for information based on the extracted information. The analysis master control can also be configured to match information received from the information sources with the extracted information to form the extrapolated information that characterizes the visual media.

Abstract: A technique and apparatus to allow a determination of an MSAG-valid address by use of normalized house numbers included in address entries in an MSAG Address data store, to facilitate the simple match of an input civic/postal address against entries in a MSAG data store based on the use of a normalization of the house numbers. The house number normalization allows for an easy lexicographical determination as to whether or not the input civic/postal house number falls with the range of house numbers in the MSAG data store. The inventive process and apparatus pre-stores normalized house number fields in an MSAG address data store, and then normalizes house numbers in a civic/postal address associated with an emergency call. The normalized numbers in the input civic/postal address associated with the emergency call are then lexicographically matched with normalized entries in an MSAG address data store.

Abstract: A location verifier can be configured to receive a location report of a target mobile device, wherein the location report includes data characterizing a location for the target mobile device. The location verifier can also be configured to receive a list of mobile devices that are within a predefined proximity of the target mobile device. The location verifier can further be configured to interrogate each mobile device in the list of mobile devices for a list of detected devices. Each device in the list of detected devices can be detected through peer-to-peer communications.

Abstract: A WiFi Access Point (AP) controller with location capabilities (e.g., an MSE) provides location to a SUPL location server platform (SLP), for response to a network location request. WiFi AP controllers are enabled to communicate with the SLP. WiFi location measurements are transferred via SUPL to the SUPL location server. An AP to WiFi AP controller mapping database provides an association of a WiFi AP controller list to the access points (AP) they manage. The AP to WiFi controller mapping database, together with SUPL messaging between a SUPL location server and the AP controllers, provides WiFi-determined precise location across networks from the SLP. A specific MSE is identified by the AP to WiFi controller mapping database, and queried, by the SLP for WiFi based positioning of mobile devices. In other embodiments a plurality of MSE's are identified, and queried, and a WiFi location is received from at least one.

Abstract: An ALI/ESME steering gateway bridges the nationwide ALI/ESME network notes (or PSAPs) with the GMLC/MPCs of various different XPC networks. The steering gateway provides a unified interface between the PSAP/ALI network and positioning centers (GMLC/MPC/VPCs). Using the steering gateway, an E911 service provider accesses positioning centers (GMLC/MPC/VPC) of any XPC network. This access by the ALI to the positioning center is accomplished with any type of interface, irregardless of the protocol type. The connectivity of each virtual communication path between ALIs and PSAPs is managed. The ALI/ESME steering gateway also provides translation of the protocols between the two ALI-MPC interface sets (inbound and outbound). The ALI/ESME steering gateway also consolidates (or “de-duplicates”) any/all duplicated requests from a same ALI or PSAP for the same emergency call so that only one request is then sent to the destined positioning center within the relevant network.

Abstract: A method and mechanism to allow a location server to initiate a user plane location service (e.g., SUPL defined by OMA) procedure to a user plane enabled device via Instant Messaging, or alternatively, via an existing SIP session if a multimedia session is already established. The location request is signaled to the user plane enabled device via a SIP INFO message. The location request uses SIP messaging to overcome firewall and other network security issues. Location using SUPL over SIP may be provided about a caller making an E911 emergency call. An Instant Message may be sent to the user plane enabled device, e.g., a VoIP wireless phone.

Abstract: A technique and apparatus to allow a determination of an MSAG-valid address by use of normalized house numbers included in address entries in an MSAG Address data store, to facilitate the simple match of an input civic/postal address against entries in a MSAG data store based on the use of a normalization of the house numbers. The house number normalization allows for an easy lexicographical determination as to whether or not the input civic/postal house number falls with the range of house numbers in the MSAG data store. The inventive process and apparatus pre-stores normalized house number fields in an MSAG address data store, and then normalizes house numbers in a civic/postal address associated with an emergency call. The normalized numbers in the input civic/postal address associated with the emergency call are then lexicographically matched with normalized entries in an MSAG address data store.

Abstract: An Automatic Location Identifier (ALI) trigger mechanism can include a data tap configured to detect an ALI location request for an emergency services call. The data tap can also be configured to output a trigger signal in response to detecting the ALI location request. The ALI trigger mechanism can also include a metadata router configured to receive the trigger signal and output an enhanced caller information request to a metadata server in response to the trigger signal.

Abstract: A practical inter-carrier roaming solution by way of a roaming location protocol (RLP) router that provides consistent location support across heterogeneous wireless network standards. The RLP router maintains connectivity to each location server in a roaming ecosystem, alleviating the need for an expensive and impractical mesh network of location servers. When a home location server (H-LS) determines it cannot locate a subscriber device because the subscriber device is roaming, the H-LS sends an RLP request to the RLP router. The RLP router then routes the RLP request to a serving location server (S-LS), which subsequently returns location information for the roaming subscriber device. The RLP router maintains mobile switching center ID (MSCID) to location based services (LBS) mappings for routing RLP requests. The RLP router may also maintain rough MSC-level positioning data for each MSCID to enable the RLP router to resolve certain location fixes without utilizing an S-LS.

Abstract: The number of messages required in networks where location services are deployed may be reduced, by providing updated location information regarding particular subscribers, or even all subscribers, to subscribed or otherwise logged applications or services upon obtaining and providing location information for a different application or service. Consequential watch services in accordance with the principles of the present invention provide location information to one or more services OTHER than or in ADDITION to the service currently requesting location information, based on subscription to a suitable service.

Abstract: The risk that an incoming emergency call is a prank call is presented in real-time to the called party, in the form of, e.g., an index of suspicion. An index of suspicion aggregation server quantifies, qualifies, and aggregates risks, suspicions, and/or threats relevant to a call center to formulate a scale of suspicion. Metrics are acquired (e.g., calling device location information, device configuration information, caller information, etc.) relevant to each communications request made to a call center and uses acquired metrics to rate communications requests based on a known scale of suspicion. Once a suspicion rating is determined for a communications request, the communications request is routed to a relevant call-taker terminal, as is the index of suspicion for that incoming call. Real time presentation of the index of suspicion enables call-takers to make better call-handling decisions based on risk analysis and historical call data associated with a given caller.

Abstract: A technique to allow a server such as a location server to throttle concurrent or closely timed location requests for the position of a given wireless device such that within a certain time period preferably only one location request will be initiated to the positioning engine and the remaining closely-timed location requests will be buffered or cached. When a position for the given wireless device is returned per the outstanding location request, then the retrieved position will be used to respond to each of the buffered location requests. Thus, a plurality of location requests are satisfied with a single request to the positioning engine. By optimizing the use of cached position requests, throttling of location requests per the invention reduces network traffic significantly, increases the efficiency of a positioning server (therefore reducing business cost), and provides for an improved grade or quality of location based services in general.

Abstract: An analysis master control can be configured to derive contextual information of visual media that includes extracted information and extrapolated information. The analysis master control can receive the extracted information characterizing visual media from a recognizer. An information finder can be configured to query a plurality of information sources for information based on the extracted information. The analysis master control can also be configured to match information received from the information sources with the extracted information to form the extrapolated information that characterizes the visual media.

Abstract: A location verifier can be configured to receive a location report of a target mobile device, wherein the location report includes data characterizing a location for the target mobile device. The location verifier can also be configured to receive a list of mobile devices that are within a predefined proximity of the target mobile device. The location verifier can further be configured to interrogate each mobile device in the list of mobile devices for a list of detected devices. Each device in the list of detected devices can be detected through peer-to-peer communications.

Abstract: A practical inter-carrier roaming solution by way of a roaming location protocol (RLP) router that provides consistent location support across heterogeneous wireless network standards. The RLP router maintains connectivity to each location server in a roaming ecosystem, alleviating the need for an expensive and impractical mesh network of location servers. When a home location server (H-LS) determines it cannot locate a subscriber device because the subscriber device is roaming, the H-LS sends an RLP request to the RLP router. The RLP router then routes the RLP request to a serving location server (S-LS), which subsequently returns location information for the roaming subscriber device. The RLP router maintains mobile switching center ID (MSCID) to location based services (LBS) mappings for routing RLP requests. The RLP router may also maintain rough MSC-level positioning data for each MSCID to enable the RLP router to resolve certain location fixes without utilizing an S-LS.

Abstract: The risk that an incoming emergency call is a prank call is presented in real-time to the called party, in the form of, e.g., an index of suspicion. An index of suspicion aggregation server quantifies, qualifies, and aggregates risks, suspicions, and/or threats relevant to a call center to formulate a scale of suspicion. Metrics are acquired (e.g., calling device location information, device configuration information, caller information, etc.) relevant to each communications request made to a call center and uses acquired metrics to rate communications requests based on a known scale of suspicion. Once a suspicion rating is determined for a communications request, the communications request is routed to a relevant call-taker terminal, as is the index of suspicion for that incoming call. Real time presentation of the index of suspicion enables call-takers to make better call-handling decisions based on risk analysis and historical call data associated with a given caller.

Abstract: A persona-notitia intellection codifier (P-NIC) server intelligently codifies and disburses personal user information from a user device (smartphone, laptop, etc.) to a multiplicity of designee devices. Masking Persona-Notitia Intellection Codes (a.k.a. PICs) are created that each stipulate control(s) and parametric limitation(s) for the associated one of a variety of personal user information. The Persona-Notitia Intellection Codifier (P-NIC) server rapidly produces a mask comprising a multiple bit “key” value (i.e., a persona-notitia intellection code (PIC)) that is uniquely distinguishable from every other PIC that's ever been generated for a given user. The value of the PIC is typically many bytes in length, and associates attributes to a unique key value that describes a desired subset of all the user's available personal user information to be unlocked by the key value (i.e., by the PIC).