Systems and methods for operating a hybrid vehicle are provided. The method may comprise receiving, at a human-machine interface (HMI), a selection of at least one hybrid vehicle of a plurality of hybrid vehicles. The HMI may comprise a processor and a memory, and each hybrid vehicle, of the plurality of hybrid vehicles, may be configured to perform wheeled and walking locomotion. The method may further comprise rendering, at the HMI, a graphical user interface (GUI) based on the selection of the at least one hybrid vehicle, and receiving, at the HMI, one or more commands. The one or more commands may be configured to dictate an operation of one or more hybrid vehicles of the selection of the at least one hybrid vehicle.

A vehicle system includes a processor with access to a memory storing instructions executable by the processor. The instructions include determining whether an autonomous host vehicle can traverse an environmental obstacle, and if the autonomous host vehicle can traverse the environmental obstacle, controlling an active suspension system in accordance with the environmental obstacle and controlling the autonomous host vehicle to traverse the environmental obstacle.

A method for operating an off-highway vehicle, comprising: receiving a torque request; rotating a first wheel at a first speed via a first side motor based on the torque request, wherein the first side motor is positioned coaxially with respect to the first wheel; and rotating a second wheel at a second speed via a second side motor based on the torque request, wherein the second side motor is positioned coaxially with respect to the second wheel.

Vehicles including a plurality of front and rear ground engaging members, a front driveline operatively coupled to a first power source, a rear driveline operatively coupled to a second power source, at least one controller operatively coupled to the first drive system and the second drive system are disclosed. The vehicles may further include a torque request input adapted to be actuatable by an operator of the vehicle. The torque request input may provide an indication of a requested torque to the at least one controller. The at least one controller may, based on the requested torque, command a first output of the first drive system to the at least one front ground engaging member and a second output of the second drive system to the at least one rear ground engaging member. Vehicle drive control systems are also disclosed. Methods of controlling torque and battery management are also disclosed.

Embodiments of the present invention provide a control system for a motor vehicle comprising: means for detecting a side-slope condition in which a vehicle is traversing a side-slope; and means for controlling an amount of torque applied to one or more wheels to induce a turning moment on a vehicle, the system being configured to cause a turning moment to be induced in a direction opposing side-slip of a trailing axle in a down-slope direction relative to a leading axle.

A method for operating an off-highway vehicle, comprising: receiving a torque request; rotating a first wheel at a first speed via a first side motor based on the torque request, wherein the first side motor is positioned coaxially with respect to the first wheel; and rotating a second wheel at a second speed via a second side motor based on the torque request, wherein the second side motor is positioned coaxially with respect to the second wheel.

Systems and methods for enhancing safety of a vehicle for which a rider wears a helmet are provided. An example system include a passive tag reader and a controller in communication with the passive tag reader. The controller includes a processor and memory storing instructions that, when executed by the processor, cause the controller to perform a set of operations. The set of operations include: receiving an indication from the passive tag reader corresponding to a passive tag; evaluating the passive tag; and configuring a vehicle-limiting mode based on the evaluation.

A vehicle system includes a processor with access to a memory storing instructions executable by the processor. The instructions include determining whether an autonomous host vehicle can traverse an environmental obstacle, and if the autonomous host vehicle can traverse the environmental obstacle, controlling an active suspension system in accordance with the environmental obstacle and controlling the autonomous host vehicle to traverse the environmental obstacle.

A wheel driving system includes a generator connected to an engine and configured to generate electrical energy, a front axle configured to drive at least one front wheel and including a front electric motor configured to produce a driving torque from the electrical energy supplied from the generator and transmit the driving torque to the front wheel via a front drive shaft, a rear axle configured to drive at least one rear wheel and including a rear electric motor configured to produce a driving torque from the electrical energy supplied from the generator and transmit the driving torque to the rear wheel via a rear drive shaft, and a central connection unit operatively connected to the front drive shaft and the rear drive shaft and configured to transmit the driving torque between the front axle and the rear axle.

To enable control of vehicle speed according to the intentions of a driver by a simpler operation. When a vehicle body speed rapidly decreases and becomes lower than a brake target threshold speed, the brake target threshold speed is decreased in conformity with the vehicle body speed. This prevents the increase of the vehicle body speed toward the brake target threshold speed such that a vehicle accelerates regardless of a brake being in operation because the brake target threshold speed is set at a higher value than the vehicle body speed. Accordingly, the vehicle body speed decelerates by a simpler operation while being able to prevent the vehicle from accelerating against the intentions of a driver and being able to control the speed of the vehicle according to the intentions of the driver.