A navigation method is implemented by a group of portable devices which are associated with a map-and-information system and each of which is communicatively coupled to an instrument cluster device of a respective vehicle. The group of the portable devices includes a leader device and at least one follower device. The map-and-information system computes, for the follower device, a dynamic navigation path from the follower device to the leader device. The instrument cluster device of the vehicle that corresponds to the follower device perceivably outputs the dynamic navigation path.

A method includes receiving information associated with a first haul truck configured to traverse a travel path extending from a paving material plant to a worksite. The method also includes identifying the first haul truck as having a location sensor that is one of missing and faulty, determining whether a second haul truck traversed the travel path ahead of the first haul truck, and determining an arrival time at which the first haul truck is expected to arrive at the worksite. In such a method, the arrival time is determined based at least in part on an estimated travel time associated with the first haul truck traversing the travel path, or a recorded travel time associated with the second haul truck traversing the travel path ahead of the first haul truck.

An example method for assisting autonomous vehicle (AV) riders reach their destination after drop-off can include navigating the AV to a drop-off location associated with a user in the AV, receiving sensor data from sensors associated with the AV, determining, based on the sensor data, an orientation of the user in the AV and a location of the AV relative to a final destination of the user, generating a recommendation for how to exit the AV at the drop-off location based on the orientation of the user in the AV and the location of the AV relative to the final destination of the user, and providing the recommendation via a display, a speaker, a light-emitting device, and/or a client device, the recommendation including a visual indication of an exit direction or an AV door to use to exit the AV, audio instructions for exiting the AV, and/or visual exit instructions.

An example method for assisting autonomous vehicle (AV) riders reach their destination after drop-off can include receiving, by an autonomous vehicle (AV), a ride service request from a user, the ride service request specifying a pick-up location, a pick-up time, and a destination of a trip associated with the ride service request; navigating the AV to the pick-up location; providing the user a recommendation for where to sit within the AV, the recommendation being based on at least one of the destination of the trip, a drop-off location associated with the trip, environment conditions associated with the drop-off location, and an estimated egress location; receiving sensor data from one or more sensors associated with the AV; determining, based on the sensor data and the drop-off location, a pull-over location for dropping off the user; and navigating the AV to the pull-over location.

An event is detected at a first device. Responsive to the detection, at least some functionality of the first device is deactivated. The presence of a second device, cryptographically paired with the first device, is detected by the first device. Responsive to the detection, at least some functionality of the first device is activated or reactivated.

An apparatus comprising a processor and memory including computer program code, the memory and computer program code configured to, with the processor, enable the apparatus at least to: generate an indication of one or more communication network receiver upload zones for a road data gatherer along a planned route to be traveled by the road data gatherer, the indication determined according to a predetermined upload criterion, which takes account of the bandwidth capacities of communication network receivers along the planned route for the road data gatherer, to specify communication network receivers to be used by the road data gatherer for uploading of road data; and provide the indication to guide uploading of the road data gathered by the road data gatherer.

A navigation system and a computer program are capable of changing the role of an apparatus that implements navigation in accordance with its performance and circumstances, and achieving single navigation, in a coordinated fashion, with multiple apparatuses to which their roles are appropriately distributed. At least one apparatus is provided with: a plurality of function executing units that independently have different functions for navigation, each of the function executing units performing processing associated with the function in response to a given instruction and returning a result of the processing; and an instruction unit that provides an instruction to each of the plurality of function executing units, and receives a result of the processing returned in response to the instruction; the instruction unit of the apparatus provides an instruction to one or more of the plurality of function executing units according to a procedure suitable for a purpose to be accomplished as to navigation, and outputs navigation data based on a result of processing returned in response to the instruction.

This vehicle-mounted device installed in a vehicle is provided with a communication unit that communicates with a mobile terminal; a vehicle information acquiring unit that acquires operation information of the vehicle; and a vehicle-mounted controller that, on the basis of an operating status of the vehicle-mounted device, transmits a first notification notifying the mobile terminal of the possibility that the vehicle has stopped to the mobile terminal via the communication unit and that, on the basis of the operation information of the vehicle, transmits a second notification notifying the mobile terminal that the vehicle has stopped to the mobile terminal via the communication unit.

A system and method for maintaining private communication between groups of travelers travelling to the same destination. The method is achieved using a navigation module working with an infotainment device such as mobile phone/vehicle dashboard. The navigation module includes a long range, low power transceiver, a positioning transceiver, a Bluetooth wireless transceiver and a network communication transceiver. Each traveler has a navigation module. The method dynamically hosts an instance of the cloud for a connected group. The group leader can create a private travel group and the group is connected using both the cloud a long range, low power RF network. The method helps the group to interact among themselves by sharing their live positions, and responses such as alerts or chats. The group remains connected while the network communication transceiver is active (online) and while long range, low power RF network is active (offline).

A first computing device may implement a method for sharing a navigation session to minimize driver distraction. The method includes requesting access to a shared navigation session synchronized with a navigation session at a second computing device indicative of a navigation route, and the navigation session includes route data. In response to receiving access to the shared navigation session, the first computing device may receive synchronized route data indicative of the navigation route at the second computing device. The method further comprises obtaining one or more first navigation instructions corresponding to the synchronized route data including at least one navigation instruction that augments or is output in a different manner than one or more second navigation instructions output at the second computing device, and outputting the one or more first navigation instructions.