The present disclosure provides a server, a remote control device and a remote control method for an automatic driving vehicle. The method includes: after receiving a remote control request of an automatic driving vehicle, determining a control instruction according to the remote control request, and transmitting the control instruction by using wireless channels corresponding to a plurality of wireless networks.

The invention relates to a method for configuring the communication between at least one actuator and a remote control, in order to enable a control of the at least one actuator by the remote control, the at least one actuator being configured to communicate with the remote control, the communication between the at least one actuator and the remote control being established according to a first protocol or according to a second protocol, the communication according to the second protocol being implemented via a connection to a router connected to the mains, the method being implemented by a mobile terminal, the mobile terminal being configured to communicate according to the first protocol with the at least one actuator, and with the remote control, the mobile terminal being configured to communicate with the router according to the first protocol or according to a third protocol, the method comprising the following steps: —identifying an identifier of the at least one actuator, —identifying an identifier of the remote control, —analysing in order to detect a presence or absence of the router, —if the absence of the router is detected by the mobile terminal during the analysis step, transmitting, to the remote control, the identifier of the at least one actuator and/or transmitting, to the actuator, the identifier of the remote control, then transmitting, to the remote control and to the actuator, a request to deactivate the first protocol, if the presence of the router is detected by the mobile terminal during the analysis step, transmitting, to the router, the identifier of the at least one actuator and the identifier of the remote control.

A multiply redundant safety system that protects humans and assets while transfer(s)/fueling of on road/off road, rail, marine, aircraft, spacecraft, rockets, and all other vehicles/vessels utilizing Compressed and or Liquefied Gas Fuels/compound(s). Utilizing Natural Gas Chemical Family of Hydrogen/Propane/ethane/ammonia/and any mixtures along with or with out oxidizer(s), such as Liquefied Oxygen, Oxygen Triplet (O3)/ozone/hydrogen peroxide/peroxide/solid oxidizer(s) one or more processors, utilizing Artificial Intelligence techniques/machine learning in combination with one or more sensors; in combination with one or more micro switches/actuator(s) combine to detect any leaks/fire(s)/or explosion hazards/vehicle motion/arc's, spark(s)/and other hazards for quickly mitigating/locking out/stopping fueling/gas/transfers/vehicle releasing system(s).

Dual channel wireless communication system for monitoring and/or control of a machine (112), such as a press brake, by a remote interface device (10, 12) that communicates data with a machine controller (18) over two channels CH1, CH2 in parallel. Also, a system and method to determine whether a remote interface device (10, 12) is within a range or zone of a machine (112) that the remote interface device wirelessly monitors and/or controls, uses an ultrasound transmitter-receiver arrangement (100, 102) and an electromagnetic (EM) transmitter-receiver arrangement (104, 106, 108, 110) to determine difference in ultrasound and EM time of flight and therefore whether or not the remote interface device is permitted to monitor and/or control the machine or is within range to monitor and/or control the machine.

The invention relates to a method for configuring the communication between at least one actuator and a remote control, in order to enable a control of the at least one actuator by the remote control, the at least one actuator being configured to communicate with the remote control, the communication between the at least one actuator and the remote control being established according to a first protocol or according to a second protocol, the communication according to the second protocol being implemented via a connection to a router connected to the mains, the method being implemented by a mobile terminal, the mobile terminal being configured to communicate according to the first protocol with the at least one actuator, and with the remote control, the mobile terminal being configured to communicate with the router according to the first protocol or according to a third protocol, the method comprising the following steps: —identifying an identifier of the at least one actuator, —identifying an identifier of the remote control, —analysing in order to detect a presence or absence of the router, —if the absence of the router is detected by the mobile terminal during the analysis step, transmitting, to the remote control, the identifier of the at least one actuator and/or transmitting, to the actuator, the identifier of the remote control, then transmitting, to the remote control and to the actuator, a request to deactivate the first protocol, if the presence of the router is detected by the mobile terminal during the analysis step, transmitting, to the router, the identifier of the at least one actuator and the identifier of the remote control.

A control device is provided. The control device includes a first communication interface unit which transmits a control command in a first communication mode which uses a bi-directional wireless communication, a second communication interface unit which transmits a control command in a second communication mode which uses a unidirectional wireless communication, a state determination unit which determines a communication mode of the control device, a user interface unit which displays a user interface window which corresponds to a determined communication mode and receives the control command with respect to a broadcast receiver and a control unit which transmits the received control command according to the determined communication mode.

A multiply redundant safety system that protects humans and assets while transfer(s)/fuelling of on road/off road, rail, marine, aircraft, spacecraft, rockets, and all other vehicles/vessels utilizing Compressed and or Liquefied Gas Fuels/compound(s). Utilizing Natural Gas Chemical Family of Hydrogen/Propane/ethane/ammonia/and any mixtures along with or with out oxidizer(s), such as Liquefied Oxygen, Oxygen Triplet (O3)/ozone/hydrogen peroxide/peroxide/solid oxidizer(s) one or more processors, utilizing Artificial Intelligence techniques/machine learning in combination with one or more sensors; in combination with one or more micro switches/actuator(s) combine to detect any leaks/fire(s)/or explosion hazards/vehicle motion/arc's, spark(s)/and other hazards for quickly mitigating/locking out/stopping fueling/gas/transfers/vehicle releasing system(s).

A multiply redundant safety system that protects humans and assets while transfer(s)/fueling of on road/off road, rail, marine, aircraft, spacecraft, rockets, and all other vehicles/vessels utilizing Compressed and or Liquefied Gas Fuels/compound(s). Utilizing Natural Gas Chemical Family of Hydrogen/Propane/ethane/ammonia/and any mixtures along with or with out oxidizer(s), such as Liquefied Oxygen, Oxygen Triplet (O3)/ozone/hydrogen peroxide/peroxide/solid oxidizer(s) one or more processors, utilizing Artificial Intelligence techniques/machine learning in combination with one or more sensors; in combination with one or more micro switches/actuator(s) combine to detect any leaks/fire(s)/or explosion hazards/vehicle motion/arc's, spark(s)/and other hazards for quickly mitigating/locking out/stopping fueling/gas/transfers/vehicle releasing system(s).

A hand-held device with a sensor for providing a signal indicative of a position of the hand-held device relative to an object surface enables power to the sensor at a first time interval when the hand-held device is indicated to be in a position that is stationary and adjacent relative to the object surface, enables power to the sensor at a second time interval shorter than the first time interval when the hand-held device is indicated to be in a position that is moving and adjacent relative to the object surface, and enables power to the sensor at a third time interval when the hand-held device is determined to be in a position that is removed relative to the object surface.

A hand-held device with a sensor for providing a signal indicative of a position of the hand-held device relative to an object surface enables power to the sensor at a first time interval when the hand-held device is indicated to be in a position that is stationary and adjacent relative to the object surface, enables power to the sensor at a second time interval shorter than the first time interval when the hand-held device is indicated to be in a position that is moving and adjacent relative to the object surface, and enables power to the sensor at a third time interval when the hand-held device is determined to be in a position that is removed relative to the object surface.