A service robot can detect one or more makers positioned on relative surfaces of a vehicle. Each marker can include data corresponding to its location on the vehicle. The service robot can determine the location of the markers based on the data. The service robot can also determine the location of a service area proximate to the markers. The service robot can receive data generated by the vehicle corresponding to at least one maintenance condition for the vehicle related to the service area. The service robot can select a service to perform on the vehicle based on the at least one maintenance condition. The service robot can be controlled so as to perform the selected service on the vehicle.

The present application discloses a hydrogen station for supplying hydrogen to a tank of a tank-equipped device. The hydrogen station includes: an integrated controller for integrally controlling devices provided in the hydrogen station; a sensing portion for sensing leaked hydrogen which has leaked inside the integrated controller; a ventilation device performing a high ventilation measure of performing ventilation for air inside the integrated controller or an explosion prevention device performing an internal pressure-based explosion protection measure of creating a pressure-increased state inside the integrated controller; and a compressor unit including a compressor, which is used as one of the devices, and a housing, in which the compressor is stored. The integrated controller is mounted on the housing, and is electrically connected to the compressor via a through-hole formed in the housing to control the compressor.

The present application discloses a hydrogen station for supplying hydrogen to a tank of a tank-equipped device. The hydrogen station includes: an integrated controller for integrally controlling devices provided in the hydrogen station; a sensing portion for sensing leaked hydrogen which has leaked inside the integrated controller; a ventilation device performing a high ventilation measure of performing ventilation for air inside the integrated controller or an explosion prevention device performing an internal pressure-based explosion protection measure of creating a pressure-increased state inside the integrated controller; and a compressor unit including a compressor, which is used as one of the devices, and a housing, in which the compressor is stored. The integrated controller is mounted on the housing, and is electrically connected to the compressor via a through-hole formed in the housing to control the compressor.

Systems and methods for automatically servicing autonomous vehicles are provided. In one example embodiment, a computer implemented method includes obtaining data associated with one or more reference mechanisms located on an autonomous vehicle. The method includes identifying information associated with the autonomous vehicle based at least in part on the data associated with the one or more reference mechanisms located on the autonomous vehicle. The information associated with the autonomous vehicle includes an orientation of the autonomous vehicle. The method includes determining a vehicle maintenance plan for the autonomous vehicle based at least in part on the information associated with the autonomous vehicle. The method includes providing one or more control signals to implement the vehicle maintenance plan for the autonomous vehicle based at least in part on the orientation of the autonomous vehicle.

A portable facility and corresponding methods and systems for servicing autonomous vehicles, the facility having at least a first enclosure containing a fuel tank and defining a service space between a wall of the enclosure and a second enclosure containing a fuel tank, a roof positioned between the enclosures, a floor positioned between the enclosures, and large automatic doors positioned on opposite ends of the facility to accommodate entry/exit of autonomous vehicles which are guided to and/or by the facility for servicing.

A portable facility and corresponding methods and systems for servicing autonomous vehicles, the facility having at least a first enclosure containing a fuel tank and defining a service space between a wall of the enclosure and a second enclosure containing a fuel tank, a roof positioned between the enclosures, a floor positioned between the enclosures, and large automatic doors positioned on opposite ends of the facility to accommodate entry/exit of autonomous vehicles which are guided to and/or by the facility for servicing.

Various embodiments relate generally to autonomous vehicles and associated mechanical, electrical and electronic hardware, computing software, including autonomy applications, image processing applications, etc., computing systems, and wired and wireless network communications to facilitate autonomous control of vehicles, and, more specifically, to systems, devices, and methods configured to control driverless vehicles to facilitate coordination of driverless fuel replenishment. In some examples, a method may include monitoring an amount of fuel relative to a threshold, predicting fuel expenditure of an autonomous vehicle, identifying a candidate time frame, transmitting electronic messages from the autonomous vehicle to reserve a replenishment station, and activating the autonomous vehicle to drive autonomously to receive fuel replenishment.

Various embodiments relate generally to autonomous vehicles and associated mechanical, electrical and electronic hardware, computing software, including autonomy applications, image processing applications, etc., computing systems, and wired and wireless network communications to facilitate autonomous control of vehicles, and, more specifically, to systems, devices, and methods configured to control driverless vehicles to facilitate coordination of driverless fuel replenishment. In some examples, a method may include monitoring an amount of fuel relative to a threshold, predicting fuel expenditure of an autonomous vehicle, identifying a candidate time frame, transmitting electronic messages from the autonomous vehicle to reserve a replenishment station, and activating the autonomous vehicle to drive autonomously to receive fuel replenishment.

A fueling system can include an electric vehicle (EV) charging station and a non-charging fueling station for fueling vehicles other than EVs. The EV charging station includes a first control unit, a switching unit, and output connections that can be connected to EVs. The non-charging fueling station includes a second control unit and, for example, a liquid fuel pump. An integrated fuel management system is in communication with the EV charging station and the non-charging fueling station. The switching unit can direct a charging current from an input power supply to an output connection in response to commands from the first control unit that are issued according to a charging procedure. The first control unit can send state information for the EV charging station to the integrated fuel management system. The second control unit can send state information for the non-charging fueling station to the integrated fuel management system.

Petrol station 100 for supplying fuel to vehicles (200), comprising a device (103) for transporting vehicles (200) in a queue within a refuelling area while refuelling a vehicle in said refuelling area.