An off-road vehicle includes a control module which limits power source rotational speed beneath a controlled rotational speed value based both on whether a protection device such as a safety belt is engaged or disengaged and on whether the vehicle velocity is greater than or less than a velocity threshold. If the safety belt becomes disengaged while the power source is spinning above the controlled rotational speed value, the control module gradually and safely reduces power source rotational speed. If/when the safety belt becomes reengaged, the control module logic will ensure that the power source rotational speed is released from the controlled first value without immediate change in vehicle response. The invention effectively reduces safety hazards of safety belt disengagement while not creating safety hazards of its own in a wide range of discussed situations.

A vehicle control device which can substantially eliminate or shorten a period when vehicle speed exceeds a lowered speed limit when a vehicle goes into a road where a speed limit lower than before then during running of the vehicle should be provided. A speed control decreases vehicle speed so that the vehicle speed approaches the next speed limit from a time point when it is judged that a position of the own-vehicle is at a predetermined position in front of a transition point which is a point where the next speed limit starts to be applied, in a case where a specified condition that the next speed limit is lower than the present speed limit is satisfied.

A system and method for encouraging a user of a recreational vehicle to wear safety equipment is described. The helmet contains a microprocessor and sensors to determine if the helmet is worn. The helmet communicates with the vehicle and the vehicle either disables operation or allows limited operation if the helmet is not worn. On motorized vehicles, the motor operation is restricted. On human powered vehicles mechanical resistance may limit operation.

Method for regulating travel of a golf cart or all-terrain vehicle includes determining, using an electronic controller on the golf cart or all-terrain vehicle, seatbelt usage for each occupant of the golf cart or all-terrain vehicle, and determining, using the electronic controller, whether the golf cart or all-terrain vehicle is travelling on or about to travel on a road which permits higher speed operation of golf carts and all-terrain vehicles. When it is determined that the golf cart or all-terrain vehicle is travelling on a road which permits higher speed operation of golf carts and all-terrain vehicles, travel of the golf cart or all-terrain vehicle is enabled on the road which permits higher speed operation only when all occupants are determined to be properly wearing seatbelts or the seatbelts are determined to be in buckled and/or spooled-out a set distance or within a distance range.

A method for automatically controlling vehicle speeds of a track-based work vehicle may generally include receiving, with a computing device, one or more signals associated with an operating temperature for a track component of a track assembly of the track-based work vehicle, comparing, with the computing device, the operating temperature for the track component to a predetermined temperature threshold defined for the track component and automatically limiting, with the computing device, a vehicle speed of the track-based work vehicle when the operating temperature for the track component exceeds the predetermined temperature threshold.

A vehicle acceleration suppression device and a vehicle acceleration suppression method are provided to be capable of suppressing a degradation in a drive performance and suppressing acceleration at the time of an incorrect manipulation of an accelerator, at the time of parking. Based on a parking frame certainty degree indicative of a degree of certainty that there is a parking frame in a vehicle travel direction and a parking frame entering certainty degree indicative of a degree of certainty that the vehicle enters the parking frame, a total certainty degree indicative of a total degree of certainty of the parking frame certainty degree and the parking frame entering certainty degree is set. As the total certainty degree is higher, a suppression degree of the vehicle acceleration to be controlled in response to a manipulation amount of an accelerator pedal manipulated by a driver to instruct a drive force is increased.

The present disclosure is directed to a control system for a machine having first and second traction devices and a cabin. The control system has a first actuator driving the first traction device and a first interface device to generate a first input indicating a desired movement of the first actuator. The control system also has a second actuator driving the second traction device and a second interface device to generate a second input indicating a desired movement of the second actuator. The control system has a controller that causes the first actuator to operate according to the first input and the second actuator to operate according to the second input when the cabin faces a first direction. The controller also causes the first actuator to operate according to the second input and the second actuator to operate according to the first input when the cabin faces a second direction.

A vehicle power control system includes a driving force control unit configured to limit a driving force during acceleration of a vehicle when the vehicle is in a predetermined power control driving state. The driving force control unit includes a notification unit configured to tactilely notify a driver via a throttle manipulator that a driving force limit state occurs during the acceleration of the vehicle.

According to certain embodiments, a convertible recreational vehicle comprises one or more front ground engaging members; one or more rear ground engaging members; a frame supported by the one or more front ground engaging members and the one or more rear ground engaging members. In addition, the convertible recreational vehicle comprises a steering assembly configured to steer the one or more front ground engaging members. In addition, the convertible recreational vehicle includes a seat assembly supported by the frame and configured to support at least one rider and a motor configured to drive at least one of: (i) the one or more front ground engaging members and (ii) the one or more rear ground engaging members. Further, the convertible recreational vehicle includes a floor panel including a surface that extends across a width of the floor panel.

A vehicle control method, vehicle and non-transitory computer readable storage medium that enables a current transmission ratio of a vehicle to be decreased prior to a driver turning a steering wheel so that a larger steering angle of a wheel can be obtained when the driver turns the steering wheel at a smaller angle in emergency driving situations.