A robotic system that includes a body, a hitch assembly coupled to the body, and a sensor array coupled to the body. The robotic system includes a processor and operating logic containing programming instructions thereon that, when executed, causes the processor to detect, via the sensor array, a location of a vehicle relative to the body. The programming instructions of the operating logic further cause the processor to detect, via the sensor array, a position of a hitch receiver along the vehicle and move the body toward the vehicle to position the hitch assembly proximate to the hitch receiver. The programming instructions of the operating logic further cause the processor to move the hitch assembly relative to the body and in alignment with the hitch receiver and engage the hitch assembly to the hitch receiver to securely couple the body to the vehicle.

A robotic system that includes a body, a hitch assembly coupled to the body, and a sensor array coupled to the body. The robotic system includes a processor and operating logic containing programming instructions thereon that, when executed, causes the processor to detect, via the sensor array, a location of a vehicle relative to the body. The programming instructions of the operating logic further cause the processor to detect, via the sensor array, a position of a hitch receiver along the vehicle and move the body toward the vehicle to position the hitch assembly proximate to the hitch receiver. The programming instructions of the operating logic further cause the processor to move the hitch assembly relative to the body and in alignment with the hitch receiver and engage the hitch assembly to the hitch receiver to securely couple the body to the vehicle.

A vehicle control apparatus that controls movement of a vehicle in response to an instruction from a remote control terminal located outside the vehicle, the apparatus comprising: an obtaining unit configured to obtain an image captured by an image capturing unit configured to capture an image of a periphery of the vehicle; an operator detecting unit configured to detect an operator of the remote control terminal on the basis of the image obtained by the obtaining unit; a terminal detecting unit configured to detect a position of the remote control terminal relative to the vehicle; and a control unit configured to control, on the basis of a detection result from the operator detecting unit and a detection result from the terminal detecting unit, whether to permit or prohibit a remote control operation of the vehicle performed through the remote control terminal.

A vehicle control apparatus that controls movement of a vehicle in response to an instruction from a remote control terminal located outside the vehicle, the apparatus comprising: an obtaining unit configured to obtain an image captured by an image capturing unit configured to capture an image of a periphery of the vehicle; an operator detecting unit configured to detect an operator of the remote control terminal on the basis of the image obtained by the obtaining unit; a terminal detecting unit configured to detect a position of the remote control terminal relative to the vehicle; and a control unit configured to control, on the basis of a detection result from the operator detecting unit and a detection result from the terminal detecting unit, whether to permit or prohibit a remote control operation of the vehicle performed through the remote control terminal.

A vehicular system where a vehicle moves in a traveling area in which magnetic markers are arranged so that magnetic polarities form a predetermined pattern and a wireless tag is annexed correspondingly to some of the magnetic markers, the wireless tag outputting, by wireless communication, tag information allowing a position of the magnetic marker to be identified, includes a first position identifying part which identifies a vehicle position where the vehicle is located based on the position of the magnetic marker identified by using the tag information and a second position identifying part which identifies, on a route after the vehicle passes over the magnetic marker serving as a reference when the first position identifying part identifies the vehicle position, a magnetic marker newly detected by the vehicle based on detection history of magnetic markers and identifies the vehicle position based on the position of the identified magnetic marker.

A vehicular system where a vehicle moves in a traveling area in which magnetic markers are arranged so that magnetic polarities form a predetermined pattern and a wireless tag is annexed correspondingly to some of the magnetic markers, the wireless tag outputting, by wireless communication, tag information allowing a position of the magnetic marker to be identified, includes a first position identifying part which identifies a vehicle position where the vehicle is located based on the position of the magnetic marker identified by using the tag information and a second position identifying part which identifies, on a route after the vehicle passes over the magnetic marker serving as a reference when the first position identifying part identifies the vehicle position, a magnetic marker newly detected by the vehicle based on detection history of magnetic markers and identifies the vehicle position based on the position of the identified magnetic marker.

A conveyance control device executes: a control step of detecting entering to a merging point adjacent area set on adjacent to each merging point on the conveyance route; a detection step of detecting whether there is an obstacle around the carrying cart; a communication step of performing, when the entering to each merging point adjacent area is detected, local wireless communications with another carrying cart by using a common frequency band and a common identification code set to values different among merging points; and a merging point passing control step of starting the communication step when the other carrying cart is detected in the merging point adjacent area in the detection step, and causing passing of a merging point in accordance with a priority set to each entering passage to the merging point, after a handshake with the other carrying cart is successfully performed in the communication step,

A guidance vehicle guides a dog for a walk, and includes a leash attachment, a distance sensor, and an electronic control unit. The leash attachment is configured to attach a leash that connects the dog. The distance sensor is configured to detect a dog-to-vehicle distance being a distance between the dog and the guidance vehicle. The electronic control unit is configured to execute a travel control of the guidance vehicle. The electronic control unit includes, as one of modes of the travel control, a walk guidance mode that causes the guidance vehicle to automatically travel along a walk route while guiding the dog to walk. The walk guidance mode executed by the electronic control unit includes a basic walk mode that controls the dog-to-vehicle distance so as to maintain a constant distance when the dog is moving along the walk route.

When on-water control means 20 having moving means and capable of moving near a water surface controls a multiple underwater vehicles 30 which cruise in water, the moving means 23 controls movement of the on-water control means 20 such that the multiple underwater vehicles 30 are located in a control region X where the on-water control means 20 can position the multiple underwater vehicles 30 utilizing acoustic positioning means 24 provided in the on-water control means 20. According to this, it is possible to deploy and operate the multiple underwater vehicles in water and safely and efficiently carry out survey operation and the like such as water bottom exploration.

Methods, systems, and devices for security descriptor generation are described. An end device may be authenticated based on a certificate and a device key based on a security descriptor. The security descriptor may be generated based on publicly-available information such as time of day information, geographical information, or a default set of information. The security descriptor may be used for generation of a certificate accessible by a server used for authenticating the device and also may be used by an end device to generate a device key for verification by the server authenticating the device.