An autonomous running vehicle transmits a camera image around the vehicle photographed by a camera to a remote monitoring center. An obstacle is detected on the basis of information obtained from autonomous sensors including the camera. When an obstacle is detected, the autonomous running vehicle is automatically stopped. The remote monitoring center determines, when the autonomous running vehicle automatically stops, whether or not the run of the autonomous running vehicle is permitted to restart on the basis of the received camera video. When it is determined that the autonomous running vehicle can be restarted, a departure signal is transmitted to the autonomous running vehicle. When the departure signal is received from the remote monitoring center, the autonomous running vehicle restarts running.

An autonomous mobile object includes an imaging unit, a positional information sender to acquire and send positional information to a server, and an operation controller to cause the autonomous mobile object to move autonomously based on an operation command. The server includes storage to receive and store the positional information from the autonomous mobile object, a commander to send the operation command to the autonomous mobile object, and a receiver to receive information relating to an emergency report including a target location. When the receiver receives the information relating to the emergency report, the commander sends an emergency operation command to the autonomous mobile object located in a specific area including the target location. The emergency operation command causes the autonomous mobile object to capture an image of a person or a vehicle moving away from the target location, and the autonomous mobile object sends the image to the server.

Apparatus, systems, processes, and computer-readable mediums for facilitating the use of drones are described. For one embodiment, such a system includes a user element having a user application computer program configured to instruct a user interface device to facilitate use of user data and use of mission parameter(s) for a proposed drone mission. An owner element includes an owner application computer program configured to facilitate use of owner data and use of at least one drone parameter. A fleet system element is communicatively coupled to the user element and to the owner element and includes a computer system processor configured to facilitate use of a fleet record and use of at least one fleet parameter.

A method for invoking a teleoperated driving session for a transportation vehicle equipped with an automated driving function, hereinafter called teleoperated driving session, wherein the transportation vehicle is equipped with a number of environment detection sensors and a communication module for communicating to a control center computer. The method includes determining a quality of service prediction for the communication between the transportation vehicle and the control center computer for the time when the teleoperated driving session is invoked, and selecting the class of data to be exchanged with the control center computer during the teleoperated driving session based on the QoS prediction. The method includes selecting the control category for the teleoperated driving session based on at least the available end-to-end latency presented in the QoS prediction and starting the teleoperated driving session with the selected control category and selected data class to be exchanged with the control center computer.

A method includes receiving, at a mobile hub device, communications including location-specific risk data and a task assignment. The method also includes generating an output indicating dispatch coordinates. The dispatch coordinates identifying a dispatch location from which to dispatch, from the mobile hub device, one or more unmanned vehicles to perform a task of the task assignment.

A control switching unit inquires of a remote control center via a communication unit as to presence or absence of another vehicle traveling within a predetermined range including a host vehicle and being switchable from remote driving control to follow-up driving control when a communication quality detected by a communication quality detecting unit becomes less than a predetermined communication quality during the control of the driving of the host vehicle by a remote driving control unit. The control switching unit causes the remote driving control unit to continuously control the driving of the host vehicle when there is a response indicating presence of the another vehicle, and causes a follow-up driving control unit to control the driving of the host vehicle when there is a response indicating absence of another vehicle.

A system includes at least partially autonomous vehicles, at least partially separated interconnected roadways, and a management system. Each of the vehicles is configured to cooperate with another vehicle or an area controller. The management system is configured to receive requests to transport, which may have respective start points and respective destinations. Additionally, the management system is configured, responsive to receiving the request, to assign a vehicle to fulfill the request. The assigned vehicle is configured to transport a person from the respective start point, at least in part via the interconnected roadways, to the respective destination.

According to one embodiment, a deadlock detection device includes a combining calculator and a deadlock determiner. The combining calculator performs selecting a mobile vehicle or combined mobile vehicles from among mobile vehicles, based on a traveling path configuration graph and first state information, going forward the selected mobile vehicle to go forward on traveling path configuration graph and combining the selected mobile vehicle to another mobile vehicle or another combined mobile vehicles at a back of the other mobile vehicle or the other combined mobile vehicles, iterating a process of the selecting, the going and combining. The deadlock determiner determines that a deadlock occurs if not all the mobile vehicles have been combined by the combining calculator, and determines that no deadlock occurs if all the mobile vehicles have been combined.

A system comprising, a plurality of unmanned aerial vehicles and a single controller for controlling said plurality of unmanned aerial vehicles, wherein the single controller is configured such that it can broadcast a command to all of the plurality of unmanned aerial vehicles so that each of the plurality of unmanned aerial vehicles receive the same command; and wherein each of the unmanned aerial vehicles comprise a memory which stores a plurality of predefined flight paths each of which is assigned to a respective command; and wherein each of the unmanned aerial vehicles comprise a processor which can, (i) receive a command which has been broadcasted by the single controller to said plurality of unmanned aerial vehicles, (ii) retrieve from the memory of that aerial vehicle the flight path which is assigned in the memory to that command, and (iii) operate the aerial vehicle to follow the retrieved flight path. There is further provided a corresponding method of controlling a plurality of unmanned aerial vehicles.

A movable body control system (SYS) includes a movable body (1) that is movable in a predetermined area (TA) in which a wireless communication network (NW) is built; a control apparatus (6) for controlling the movable body through the wireless communication network; and a measurement apparatus (3) for measuring a communication quality of the wireless communication network in the predetermined area, the control apparatus includes a generation unit (613) for generating, as a target moving route (TGT) for the movable body, a first route avoiding a low quality area (DA1) in which the communication quality does not reach a desired quality in the predetermined area, based on a measured result by the measurement apparatus; and a control unit (614) for controlling the movable body so that the movable body moves along the target moving route.