In an apparatus for controlling operation of a utility vehicle that runs a working area to perform work by a work unit, there provided with a set mowing height inputting unit configured to input a mowing height of lawn mowing work set by a user, a desired mowing height setting unit configured to set a desired mowing height based on the set mowing height inputted by the set mowing height inputting unit, and a mowing height regulating unit configured to regulate height from ground surface of the work unit based on the desired mowing height set by the desired mowing height setting unit.

A sensing device for actuating an airbag system in a motor vehicle comprises an airbag having a stowed condition and an inflated condition, an inflator operationally coupled with the airbag responsive to electrical actuation for inflating the airbag with a gas, an impact detection sensor for generating a signal upon an offset impact event, and a controller for processing the signal generated by the sensor and electrically actuating the inflator upon computing a predetermined impact severity to a forward corner of the motor vehicle. The motor vehicle further comprises a front bumper beam attached proximate a distal end of a front rail and the sensor comprises a flexible electro-resistive sensor mounted to a rear side of an outboard portion of the front bumper beam.

A rollover detection system is provided that comprises a device, a sensor and/or a group of sensors and a warning system for use in a vehicle to reduce or prevent the likelihood of a rollover during operation of the vehicle. The rollover detection system can provide a driver of a vehicle, information that informs the driver of the risk and imminence of a rollover and allows the driver to take corrective action to reduce the risk or imminence of a rollover. The rollover detection system can also allow for the review of information collected by a device by a driver or other individual during and after a risk of a rollover is detected.

Systems, apparatuses and methods for recognizing or detecting obstacles are provided. Passive infrared (PIR) sensors may be coupled to movable objects, such as unmanned aerial vehicles (UAVs). PIR sensors may detect and recognize obstacles such as humans and determine or calculate a distance to the obstacles. Based on the distance from the movable object to the obstacle, one or more flight response measures such as collision avoidance maneuvers may be effected or implemented.

A vehicle includes an acceleration sensor detecting collision, an electric actuator disposed outside a vehicle body, a battery and a boosting circuit supplying a high voltage to the electric actuator, and an electric suspension control ECU controlling the boosting circuit and the electric actuator, and in a case where the acceleration sensor detects the collision, the electric suspension control ECU limits the supply of the high voltage to the electric actuator.

An airbag apparatus to be applied to a vehicle includes an airbag, a collision determiner, an airbag deployment controller, and a pulling device. The airbag is configured to be deployed forward of a vehicle body front of the vehicle. The collision determiner is configured to establish a pre-crash determination in a case where a collision probability is equal to or higher than a predetermined threshold. The airbag deployment controller is configured to give to an inflator a command to supply deployment gas to the airbag and deploy the airbag, in response to the pre-crash determination. The pulling device is configured to pull, rearward of the vehicle, a collision portion with which a collision object is to collide or vicinity of the collision portion on a front surface of the airbag so as to form a recessed portion configured to restrain the collision object.

An airbag apparatus includes an airbag configured to be deployed forward of a front of a vehicle body of a vehicle; a collision determiner configured to establish a pre-crash determination when a collision probability with a collision object is equal to or higher than a predetermined threshold; and an airbag deployment controller configured to, in response to the pre-crash determination, give to an inflator a command to supply deployment gas to the airbag and deploy the airbag. The airbag includes front air chambers provided in a front portion of the airbag and disposed in a vehicle width direction, a coupling member configured to couple front end portions of the front air chambers in the vehicle width direction, and a rear air chamber disposed between rear portions of the front air chambers and a front end portion of the vehicle body, and communicating with an inside of each front air chamber.

An airbag apparatus includes an airbag configured to be deployed forward of a front of a vehicle body of a vehicle, a collision determiner configured to establish a pre-crash determination when a collision probability is a predetermined threshold or higher, an airbag deployment controller configured to, in response to the pre-crash determination, give to an inflator a command to supply deployment gas to the airbag and deploy the airbag, a vent controller configured to open and close a vent passage configured to discharge the deployment gas from the airbag, and an energy absorption state detector configured to detect a state of energy absorption by the airbag. The vent controller is configured to open the vent passage at an early stage of collision with a collision object, and subsequently, reduce an opening degree of the vent passage when the energy absorption state detector detects a completion of energy absorption.

An airbag device includes a first chamber filled with a gas supplied from a first gas supply part and inflated and deployed in a traveling direction of a vehicle body, a second chamber that is disposed behind the first chamber and able to bring in communication with an inside of the first chamber through a communication section, and a third chamber disposed to cover the communication section and configured to adjust an opening degree of the communication section by being filled with a gas supplied from a second gas supply part and being inflated and deployed.

A device for triggering at least one external protection function for a motor vehicle for the protection of external road users in particular need of protection, in particular for the protection of pedestrians, includes a control unit for evaluating sensor data from a first sensor system for sensing collision objects and for outputting a first trigger signal for the at least one external protection function, as well as an auxiliary control unit for evaluating sensor data from a second sensor system for sensing collision objects and for directly outputting a second trigger signal for the at least one external protection function if a collision object was detected, the auxiliary control unit being adapted such that the control unit is bypassed when the second trigger signal is output.