A vehicle includes a frame, a drive system coupled to the frame to propel and steer the vehicle, an energy storage device coupled to the frame and configured to provide power to the drive system, a lift implement coupled to the frame, the lift implement comprising a cradle to support a load and a lift assembly configured to adjust a position of the cradle relative to the frame, one or more sensors configured to provide sensing data indicative of an environment surrounding the vehicle, and a controller comprising one or more memory devices having instructions stored thereon, that, when executed by one or more processors, cause the one or more processors to: operate the vehicle along a first path, determine the first path extends into a first predefined zone, generate a second path that avoids the first predefined zone; and operate the vehicle along the second path.

An autonomous vehicle system includes a vehicle including a base assembly having a front surface, a rear surface opposite the front surface, and side surfaces extending between the front surface and the rear surface. A sensor system is coupled to the base assembly and configured to detect one or more objects located in an area near the vehicle. The sensor system includes a first sensor oriented parallel with at least one of the front surface, the rear surface, or the side surfaces, and a second sensor oriented non-parallel with the front surface, the rear surface, and the side surfaces. A control system is configured to receive a communication regarding the detection of the one or more objects from the sensor system and generate one or more controls for at least one of the base assembly or one or more tractive elements.

A manufacturing system includes a vehicle configured to facilitate movement of a product throughout a manufacturing environment. The vehicle assembly includes a chassis, an interface coupled to the chassis and configured to support the product, and a sensor coupled to the interface. The sensor is operatively coupled to a controller, which is configured to receive sensor data, receive current stage of assembly of a product, determine an expected force based on the current stage of assembly, and compare the measured force and expected force. In response to a determination that the measured force differs from the expected force, the controller provides a notification to the user of the current status of the product.