Abstract:
An event analysis engine on a user device may be configured to receive information representative of a user event and to determine a type of the event according to the received information. One or more tasks associated with the determined type of event may be identified. Each of the identified tasks may be associated with a reminder having a trigger condition that is a function of information specific to the task. The task-specific information may be retrieved and the reminders associated with the tasks may be displayed when a device condition matches a calculated trigger condition for the reminder. Each task may be identified as completed when a completion condition associated with the task is satisfied.
Abstract:
An electronic device with one or more processors and memory includes a procedure for sharing information with a third party recipient. In some embodiments, the device receives a speech input from a first user, the speech input specifying a second user different from the first user, and an information item to be shared with the second user. In response to the speech input, the device initiates a background process during which a digital assistant searches for the information item and causes the information item to be sent to the second user without further review and instruction from the first user.
Abstract:
A mobile device can obtain wireless network signal strength map data that indicates, for various nearby geographical regions, the wireless network signal strength in each such region. A mobile device can transmit that data to a vehicular navigation system responsible for automatically selecting a high-quality route of vehicular travel between a specified source and destination. The system can take the wireless network signal map data into account when selecting that route. When selecting from among multiple different routes of vehicular travel between a specified source and destination, the system may employ an algorithm that considers wireless network signal strengths along those routes, in addition to the other factors. Consequently, the system can select a longer route having better signal strength over a shorter route having worse signal strength. The system can present the selected route within a set of suggested routes, potentially along with reasons for each route's suggestion.
Abstract:
A system, method and apparatus are disclosed for monitoring a mobile device en route to a destination. A user of a monitored device specifies geo-fence regions along a route to the destination. Entry and exit of regions triggers the sending of event notifications to a monitoring device. Event notifications may be sent if an estimated time of arrival changes due to delay. Event notifications may be sent if the monitored device deviates from a planned route by a threshold distance. Event notifications may be sent through a direct communication link between the monitored device and monitoring device or through a location-based service.
Abstract:
Electronic equipment in vehicles may transmit and receive wireless messages. Each wireless message that is transmitted by a transmitter may include information on the vehicle from which it is being transmitted, information on the location of the transmitter within the vehicle, and other vehicle status information. Receiving equipment in vehicles may be used to receive the transmitted messages. Received signal strength indicator information may be associated with the transmitted messages. Using the received signal strength indicator information and information on the locations of the transmitters within the vehicles in which the transmitters are installed, equipment in a receiving vehicle may determine locations for nearby vehicles. Alerts may be presented to a driver of a vehicle and other suitable actions may be taken based on the locations of nearby vehicles, vehicle type information, and other information regarding traffic in the vicinity of the driver.
Abstract:
In some implementations, wireless transceivers (“nodes”) can be located throughout a building. In some implementations, an originating mobile device can request the current location of a target mobile device. In some implementation, if a direct connection cannot be established between the originating mobile device and the target mobile device, the originating mobile device can send the location request to one or more nodes in the building. The nodes can relay the location request to the target mobile device. The target mobile device can determine the target mobile device's current location and send the current location of the target mobile device back to the originating mobile device through the nodes.
Abstract:
Techniques for performing various communications functionality based on detecting a bump condition and/or close proximity between wireless devices. A wireless access point may be configured to automatically initiate an authentication procedure with a User Equipment (UE) device in response to detecting a bump condition and/or detecting a particular proximity between the UE device and the wireless access point. The particular proximity may be detected based on a signal strength of a radio frequency signal. The wireless access point may also be configured to disable a security protocol. A UE device may be configured to participate in an authentication procedure and/or automatically transfer data to the wireless access point in response to detecting a bump condition and/or detecting a particular proximity.
Abstract:
Methods, systems, computer-readable media, and apparatuses for obtaining updated navigation information are presented. A first computing device can receive routing information from a second computing device, where the routing information is indicative of a route determined by the second computing device to a destination. Subsequently, navigation instructions can be provided at the first computing device based upon the routing information received from the second computing device. The first computing device then can receive, from the second computing device, a change to the routing information. Thereafter, and responsive to receiving the change to the routing information, the first computing device can provide modified navigation instructions.
Abstract:
A system, method and apparatus are disclosed for monitoring a mobile device en route to a destination. A user of a monitored device specifies geo-fence regions along a route to the destination. Entry and exit of regions triggers the sending of event notifications to a monitoring device. Event notifications may be sent if an estimated time of arrival changes due to delay. Event notifications may be sent if the monitored device deviates from a planned route by a threshold distance. Event notifications may be sent through a direct communication link between the monitored device and monitoring device or through a location-based service.
Abstract:
A telephone number corresponding to an incoming telephone call may be utilized to obtain information associated with the incoming call. If it is determined that the telephone number does not match records stored on the device on which the call is received, a request may be sent from the receiving device to an external device to obtain information associated with the incoming call. The request may be directed to a remote contacts application, another device listed in a data store of the receiving device, or to the calling device itself. When a response is received, the information may be displayed or otherwise utilized by the receiving device.