Abstract: An apparatus having both a Bluetooth-compatible transceiver and a cellular-telephony transceiver has a control circuit operably coupled to the foregoing configured to facilitate at least one on-board application using voice-based user input. The control circuit, upon determining that a call-setup message as received via the Bluetooth-compatible transceiver specifies a particular predetermined number (such as a predetermined number that comprises an invalid number to serve as a telephone number) to call, automatically uses audio content received via the Bluetooth-compatible transceiver as the aforementioned voice-based user input for that on-board application. By one approach, the apparatus can provide that predetermined number to a given secondary platform as part of a conveyed contacts list.

Abstract: Disclosed is a radio communication system capable of implementing a state transition related to an intermediate state between a connected state and an idle state. An aspect of the present invention relates to a user equipment, wherein the user equipment includes a state management unit that manages a communication state of the user equipment, and a state transition unit that causes the communication state of the user equipment to transition, and when the user equipment is communicating with the first base station, if cell reselection for the second base station is performed, the state transition unit performs the cell reselection for the second base station while the state management unit retains first radio parameter information for radio communication between the user equipment and the first base station and a first context identifier specifying the first radio parameter information.

Abstract: A Mobile Voice Self Service (MVSS) system that may include an MVSS mobile device and a client system. The system may be used to provide passive outdial support for a mobile device via WAP Push of an MVSS URL. The MVSS mobile device may have various local applications such as a bootstrap application and an outdial application. The client system may include an application server to deliver an MVSS file to the MVSS mobile device.

Abstract: A method of sending information to a radio access node (RAN) of a first radio access technology (RAT) regarding one or more coexisting RAN's of a second RAT is provided. In particular, the information comprises a number of parameters and operating modes used by the one or more coexisting radio access nodes.

Abstract: Systems and methods to determine a location of a mobile device by combining a radio frequency navigation system and an inertial navigation system, where the radio frequency navigation system determines a location of the mobile device in reference to a map of radio frequency signals and the inertial navigation system based on dead reckoning the position of the mobile device based on measurements from motion sensors. When a set of successive locations determined by the radio frequency navigation system is found to have a predetermined pattern (e.g., within a minimum distance from each other, or separated by more than a maximum distance), the mobile device discards the location results from the radio frequency navigation system for the period of time, in favor of the location results from the inertial navigation system.

Abstract: The disclosure generally relates to a method and apparatus for using a location token to locate a mobile device in a mapped environment. In one embodiment, the disclosure relates to identifying an AP in the environment using an AP location token. By finding a map from a map vendor which has a substantially identical map token, the AP and the map may be matched together. Once the AP is matched to the map, its exact location will be known. The location of a mobile device may be determined in relation to the AP's location. The same process may be used to identify the location of several APs on a map and thereby identify the location of the mobile device relative to the APs.

Abstract: Systems and methods for processing encoded messages within a wireless communications system are disclosed. A server within the wireless communications system performs signature verification of an encoded message and provides, together with the message, an indication to the mobile device that the message has been verified. In addition, the server provides supplemental information, such as, for example, a hash of the certificate or certificate chain used to verify the message, to the device, to enable the device to perform additional checks on the certificate, such as, for example, validity checks, trust checks, strength checks, or the like.

Abstract: A method and system are described for improving operating efficiency and QoS in a cellular communications network. According to an exemplary embodiment, the method includes predicting background interference levels due at least partly to signals generated in neighboring cells, and transmitting operating parameters to user equipment that include power, frequency, and/or spectral efficiency parameters. The operating parameters are selected according to the predicted background interference to provide acceptable quality of service while also optimizing use of available bandwidth. The method further includes updating the background interference predictions, and transmitting revised operating parameters to the user equipment according to rules that minimize changes to operating parameters that strongly affect background interference in neighboring cells, such as power levels and frequencies, thereby minimizing background interference fluctuations.

Abstract: Methods, systems and apparatuses, including computer program products, are described for detecting a proximity of a mobile computing device during a user session. The mobile computing device enters a first operational mode during the user session and obtains sensor data from at least one sensor responsive to a property of the location. The mobile computing device forwards to a server computing device, a baseline profile including the sensor data and a time stamp indicating a time the sensor data was obtained. The mobile computing device receives from the server computing device, a differential trigger threshold including a range of permissible values for sensor data obtained from the at least one sensor. The mobile computing device obtains updated sensor data from the at least one sensor. The mobile computing device enters a second operational mode when the updated sensor data is outside of the differential trigger threshold.

Abstract: A user equipment (UE) management method system and device, the method including obtaining, by a base station that stores a management list and that manages access to the base station by the UE, a UE type of the UE. The management list includes a UE type, a feature, and a home list. Each UE type corresponds to at least one feature. Each feature corresponding to each UE type corresponds to one home list. The home list indicates whether to allow UE of a type corresponding to the home list to execute a feature corresponding to the home list. The method further includes searching, by the base station according to the obtained UE type of the UE, the management list for a found feature and a found home list, and determining, according to the found home list, whether to allow the UE to execute the found feature.

Abstract: Technologies for user notification suppression include a user notification controller that controls a presentation of notifications to a user. The user notification controller includes a user notification determiner that determines whether a user notification is to be presented to the user, a user activity analyzer that determines an activity of the user, and a notification suppressor. The notification suppressor determines whether the determined activity of the user is indicative of the user's knowledge of information included in the user notification prior to the presentation of the user notification to the user. In response to a determination that the determined activity of the user is indicative of the user's knowledge of the information included in the user notification, the notification suppressor suppresses the presentation of the user notification to the user.

Abstract: A time of arrival t and a carrier wave phase ? of a positioning pulse that is transmitted from a mobile station in each posteriori period and that is received by each of at least three fixed stations are input. Then, by using an error reduction algorithm, a time of arrival tk+1 of the positioning pulse in the following posteriori period is predicted by using a carrier wave phase difference ?? of the positioning pulse. Then, by using the predicted time of arrival t of the positioning pulse, the location of the mobile station is calculated. A time interval dt of a posteriori period is set to a time interval with which a difference ??nm between the carrier wave phase differences, which is changed by the movement of the mobile station at an assumable maximum movement speed, is no greater than 180°.

Abstract: A tracking device can securely communicate with a secondary device by generating a hash value based on the identity of the tracking device. If the secondary device cannot resolve the hash value, the hash value can be provided to a tracking server, such as a cloud server, for resolving the hash value. Upon resolving the hash value, the tracking server can store a location of the tracking device in association with the identity of the tracking device. To preserve power, the secondary device can activate location-detection functionality (such as a GPS receive) only in response to the detection of movement of the tracking device, can obtain location information, and can de-activate the location-detection functionality upon providing the location information to the tracking server. The tracking server can associate one or both of a previous location and the current location information based on movement of the tracking device.

Abstract: A process for electronically detecting a criminal organization out-of-boundary condition includes first maintaining a stored first geofence definition defining a geographic area associated with a first criminal organization. One or more audio and/or video streams or RF identifiers from recording devices located outside of the first geofence definition are received. An out-of-boundary condition is then detected in the streams or identifiers in which an individual determined to be associated with the first criminal organization is detected outside of the first geofence definition. Responsive to detecting the out-of-boundary condition, causing an electronic notification of the out-of-boundary condition to be one of output and transmitted to another computing device notifying the another computing device of the out-of-boundary condition.

Abstract: A method for providing contents in a communication system according to an embodiment of the present invention comprises the steps of: discovering multiple synchronization devices which will communicate with a source device and identifying device types of the discovered multiple synchronization devices; generating multiple contents for the multiple synchronization devices on the basis of the identified device types; and providing each of the generated multiple contents to a corresponding synchronization device, wherein each of the device types is determined according to at least one among the capacity, type, and function of the device.

Abstract: An embodiment of the present invention provides an access method in a wireless communications network. Authentication and authorization functions of a 3GPP AAA server for a non-3GPP access network can be integrated into a mobility management network element. Therefore, after UE accesses the non-3GPP access network, a non-3GPP access gateway may select the mobility management network element that supports the authentication and authorization functions for the non-3GPP access network as a target mobility management network element, and request the target mobility management network element to perform authentication and authorization for the UE. After authentication and authorization are performed for the UE, the non-3GPP access gateway may select a P-GW for the UE, and set up a PDN connection between the non-3GPP access gateway and the selected P-GW for the UE.

Abstract: A network device stores in its nonvolatile memory, in response to detecting a power outage in a tree-based network, an identifier for a preferred parent and a distance identifier for the network device within the network. In response to power restoration, the network device starts a trickle timer based on the ring identifier, for determining whether a beacon request from a transmitting node and destined for the preferred parent is detected during the waiting interval. In response to the network device detecting the beacon request during the waiting interval, the network device sets its channel hopping schedule to the corresponding channel hopping schedule of the transmitting node in response to determining the beacon request is destined for the preferred parent, enabling rejoining with the preferred parent in response to detecting a beacon from the preferred parent to the transmitting node via the corresponding channel hopping schedule of the transmitting node.

Abstract: Aspects of the disclosure provide architectures, methods and systems that will allow reconfigurability of the network to suit the needs of various parties. Accordingly, some embodiments provide a controllable open operation environment. In such an environment, there can be a decoupling of various network aspects which would be conventionally be under the span of control of a service provider, allowing for each aspect to be provided by a different entity. For example, infrastructure can be provided separately from the provider of network services to subscribers and/or from the provider of slices and/or from the provider of NOS services. For example an infrastructure provider can provide infrastructure used by a slice provider to provide network slices to virtual network providers which provide services to end customers. Generally speaking, SONAC-Com is responsible for the composition of slices and manages resources at the slice level. SONAC-Op is responsible for the operation of slices.

Abstract: A system and method for accessing a carrier network by a client device. The method includes: receiving a selection of a first plan from a carrier marketplace that includes at least the first plan and a second plan, wherein the first plan corresponds to a first set of services provided by a first carrier network, and the second plan corresponds to a second set of services provided by a second carrier network; downloading a carrier profile from the server device to a multi-profile UICC (Universal Integrated Circuit Card) included in the client device, wherein the carrier profile is associated with the first plan; and storing the carrier profile in the multi-profile UICC.

Abstract: Systems and methods to determine a location of a mobile device based on a radio frequency navigation system and an inertial navigation system, where the radio frequency navigation system is used to determine a location of the mobile device in reference to a map of radio frequency signals and the inertial navigation system is based on dead reckoning the position of the mobile device based on measurements from motion sensors and/or magnetic field sensors. The position determination results from the radio frequency navigation system and the inertial navigation system are combined to determine two successive locations. A heading of the user of the mobile device is computed based on weighted averages for the two successive locations.