Proximity of a user/device to a designated location or other user/device can be determined and used to trigger automatic reconfiguration of a telephone ring list associated with the user/device. Accordingly, there is no need for manual reconfiguration to accommodate changes in the user's location or schedule. Specific phone numbers may be added or removed from a user's ring list based on proximity information, and the ring list may be reconfigured as the user arrives at or departs from a designated location. The user's desired phones will automatically ring for incoming calls based on the ring list and/or an identification of the incoming call.

An application server for use in a telecommunications network. The application server comprises a receiver for receiving an indication of a call setup or message to a fixed line telephone number of a subscriber, a determining unit for determining whether a mobile station of the subscriber is connected to a home femtocell of the subscriber, and a redirection unit for causing the call setup or message to be redirected towards the mobile station if the subscriber's mobile station is connected to the home femtocell.

An apparatus has a processor and a memory, the memory storing instructions that when executed by the processor, cause the processor to schedule a communication between a contact center and a communication device associated with a user, prompt the user to configure a geographic location for the communication device, track geographic location for the communication device, and initiate the communication in response to determining that the geographic location of the communication device appliance is the configured geographic location.

A device may obtain information. The information may represent a distance between a first user device and a second user device. The first user device and the second user device may share a destination address. The device may receive a first message associated with a call. The first message may be received based on the call having been made to the destination address. The device may determine, based on the information, whether to provide a second message associated with the call or a notification associated with the call. The device may selectively provide the second message or the notification based on determining whether to provide the second message or the notification.

Enhancements of and to cell phone operations are based in whole or in part on determining the location of the cell phone. Systems and methods select and determine locations or areas of importance or relevance, and based on that information and other programmed factors affect or alter the operations of the cell phone. While the systems and methods are illustrated by use of cell phone embodiments and applications, they are equally applicable to virtually any portable or mobile communication device, including for example, wireless laptop computers and PDAs.

Embodiments of the present invention address deficiencies of the art in respect to navigation in GPS-enabled mobile computing devices and provide a novel and non-obvious method, system and computer program product for location-based tsunami alerting navigational instructions in mobile computing devices. In an embodiment of the invention, a location-based tsunami alerting data processing system can be provided. The system can include a central processing unit coupled with a memory component, and a visual display along with location-based navigation logic that is enabled to compute a geographic zone of danger resulting from a tsunami, identify a geographic location for a mobile computing device corresponding to a subscriber, and render a set of personalized navigational instructions in the mobile computing device responsive to a determination that the subscriber is located in the geographic zone of danger.

A mobile phone or other mobile device is configured to compute a location code based on Wi-Fi or other wireless networking configuration parameters. The location code is computed as a cryptographic hash of the configuration parameters and is provided to a telecommunications system that supports Wi-Fi or other WLAN voice services. The telecommunications system maintains one or more location tables, each of which indicates multiple location codes and corresponding street addresses. When processing an emergency 9-1-1 call to an emergency response service, the system looks up the street address of the calling mobile device based on the most recently provided location code, and provides the street address to the emergency response service.

Techniques to support emergency voice-over-Internet Protocol (VoIP) calls are described. The techniques may be used for various 3GPP and 3GPP2 networks, various location architectures, and various types of User Equipment (UE). A UE communicates with a visited network to send a request to establish an emergency VoIP call. The UE interacts with a location server instructed by the visited network to obtain a first position estimate for the UE. The UE performs call setup via the visited network to establish the emergency VoIP call with a PSAP, which may be selected based on the first position estimate. The UE may thereafter perform positioning with the location server to obtain an updated position estimate for the UE, e.g., if requested by the PSAP.

A system for publishing digital content is described which, in one embodiment, includes a beacon device associated with a first user configured to transmit identification information and information indicating its current position. A browsing device includes a display configured and adapted to display to a second user a representation of a local geographical area, and to selectively display to the second user content information associated with the first user, based at least in part on whether the location of the beacon device is within the local geographical area.

In general, the invention relates to a method of interactive and live computerized matching in which a first user has a personal data device including a wireless communication system. A network is configured to include a server programmed with a personal characteristic database and a database searching algorithm, and a wireless communication system that is capable of communicating with the user's personal data device. The first user is allowed to log on through the wireless communication system to the network using his or her personal data device, and communicates to and stores in the database personal data defining his or her characteristics and those for his or her ideal match. Either the secure network automatically identifies the first users precise geographic location, or the user himself otherwise indicates and stores in the database of the network an identifying address that indicates his current specific geographic location. The user then instructs the database searching algorithm to search for and identify other users on to the network near the same geographic location to facilitate a match.