A vehicle control apparatus includes: a plurality of operation devices receive operations from an occupant; a plurality of driving devices operate a vehicle with operation quantities applied to the plurality of operation devices; and a control device controls the plurality of driving devices. The control device includes: first and second operating characteristics; and correction device. When the occupant operates the second operation devices during execution of operation of the first operation devices, the correction device corrects the second operating characteristics such that the second operation force at the second response start point is equivalent to the first operation force of the first operation devices obtained when the operation of the second operation devices is started.

An accelerator pedal information feedback system is provided for allowing the driver of the large electric vehicle to realize the status of the power system in real time. The information feedback system uses the power system information of the vehicle to calculate the systematic loading status information and feeds the information back to the driver. Consequently, the driver can realize the loading status of the power system in real time.

A method is provided to control the acceleration of a motor vehicle from a current speed, wherein the motor vehicle includes an accelerator pedal system able to generate on the accelerator pedal an added reaction force when the depression of the accelerator pedal reaches a given depression level. The method includes the steps of: a) measuring the current vehicle speed; b) determining a target speed of the motor vehicle in function at least of the current vehicle speed or determining from the current vehicle speed a maximum acceleration rate; c) determining at least one threshold depression level of the accelerator pedal that corresponds to the stabilization of the vehicle speed at the target speed or that corresponds to maximum acceleration rate; d) generating an added reaction force on the accelerator pedal if the depression of the accelerator pedal reaches or is about to reach the threshold depression level; wherein at least steps a), b), and c) are automatically repeated as vehicle speed increases.

The controller of the electric vehicle is configured to control the torque of the electric motor using the MT vehicle model based on the operation amount of the accelerator pedal, the operation amount of the pseudo-clutch pedal, and the shift position of the pseudo-shifter. The electric vehicle also includes a shift reaction force generator that generates a shift reaction force in response to the operation of the pseudo-shifter using by the operating of the reaction force actuator. The controller is configured to store the shift reaction force characteristic simulating the characteristic of the shift reaction force according to the operation of the shifter. Then, the controller is configured to control the shift reaction force output by the shift reaction force generator according to the operation of the pseudo-shifter using the stored shift reaction force characteristic.

A pedal operation amount display apparatus includes: a display device that is configured to display an accelerator operation amount of an accelerator pedal by an operating person by means of light emission of segments; and an assist reaction force calculation part that is configured to set a threshold operation amount as a target value of the accelerator operation amount; and a display control part that is configured to control the display device in a manner such that the accelerator operation amount corresponding to the threshold operation amount is constantly displayed by means of light emission of the segments. Even when the threshold operation amount is changed, the display control part keeps the light emission of the segments unchanged until the accelerator operation amount varies.

An integrated control apparatus for driving a vehicle is provided. The apparatus includes a lever housing mounted in an interior space of the vehicle; a joystick lever coupled to the lever housing and configured to be rotatable in a forward-backward direction and a leftward-rightward direction; and a gentle acceleration lever coupled to the joystick lever and configured to be rotatable in the forward-backward direction. When the gentle acceleration lever is operated, a gentle acceleration signal of the vehicle is generated, and when the joystick lever is operated, one of a sudden acceleration signal, a deceleration signal, a steering signal, or a braking signal of the vehicle is generated.

Systems and device configurations are provided for reducing misstep, such as miscommunication between a vehicle and a driver that results in applying the incorrect pedal. Vehicle pedal configurations having a positioning element are described. Embodiments include pedal configurations having a pedal pad and at least one positioning element to adjust the pedal pad in response to pedal misstep. Pedal adjustment can include rotation of a pedal pad, rotation of portions of a pedal pad, and multibody pedal pad configurations. According to embodiment, a pedal pad includes vibrational elements to control vibration of the pedal. Embodiments are also directed to a pedal configuration including a flip plate. Systems are provided including a controller to control a pedal configuration and positioning elements. The controller may control the pedal based on a driving mode, such as an assistive driving state wherein operator is instructed to apply a pedal.

A system for electrically driving a vehicle comprising an energy storage device connected to a master controller, an axle connected to the vehicle, at least one bearing concentrically and rotatably connected to the axle, a wheel concentrically connected to the at least one bearing, a tire concentrically connected to the wheel, a wheel motor assembly comprising at least two electric motors concentrically connected to the axle, and a wire harness connected to a first motor controller, a second motor controller, and the master controller. Operator input provides an input to the master controller to provide electrical power from the energy storage device through the wire harness to at least one of the first motor controller and the second motor controller, driving the wheel motor assembly, rotating the wheel and the tire about the axle, and providing propulsion to the vehicle.

An active accelerator pedal for a vehicle includes a pedal unit and an actuator unit. The pedal unit includes a pedal that is pivotable about a pivot axis. The actuator unit includes an electrical device and a worm gear positioned between the electrical drive and the pedal unit. The worm gear includes a worm and a driven worm element. The actuator unit is configured to apply a counterforce in a direction opposite to a pedal force exerted on the pedal.

A movable machine including a chassis, a tool coupled to the chassis, an operator control carried by the chassis and a controller. The controller is communicatively coupled to the operator control. The controller being configured to send a force feedback and/or a vibration feedback to the operator control thereby conveying information to the operator. The information is not related to a load encountered by the tool.