When a remotely controlled work machine loses a wireless connection on a work site, operation of the work machine should be terminated for safety purposes. However, if the work machine is moving when the wireless connection is lost, the work machine will continue moving for some time due to inertia. Accordingly, embodiments predict the signal quality of a wireless connection as a work machine approaches a new geographical location. When the predicted signal quality is low, the work machine may be proactively derated before it enters the geographical location. After entering the geographical location, if the actual signal quality is significantly better than the predicted signal quality, the work machine may be rerated. The predicted signal qualities may be determined based on a signal map that is independently maintained and updated by each work machine, so as to evolve over time with the work site and the work machine.

A moving object movable by remote control comprises: a moving object communication unit for receiving a request for driving control from outside the moving object; a driving controller capable of implementing driving control over the moving object in response to the request for driving control during a course of manufacture in a factory for manufacture of the moving object; a signal detection unit for detecting an disablement signal at a predetermined place along a moving route of the moving object; and an disablement implementation unit that performs an disablement process for disabling the remote control if a first condition is fulfilled. The first condition includes an event that the disablement signal is detected or an event that the disablement signal having been detected becomes no longer detected.

The portable terminal is operated by an operator to operate the vehicle, and performs wireless communication with the vehicle. The portable terminal includes a sensor, a touch panel, and a processor. The sensor detects an inclination direction and an inclination angle of the portable terminal. The touch panel includes a display screen and detects touch of an operator on the display screen. The processor selects one of the first and second operation methods corresponding to the first and second holding methods of the portable terminal by the operator based on orientation information, generates travel control information for vehicle travel control based on the tilting operation of tilting the portable terminal during selection of the first operation method, and generates travel control information based on the tilting operation and the touch operation to a predetermined position on the display screen during selection of the second operation method.

An information processing apparatus acquires a route plan of a movable apparatus; acquires information regarding an obstacle factor hindering a way of the route plan of the movable apparatus; calculates the degree of obstacle for the route plan of the movable apparatus based on the information regarding the obstacle factor; determines an obstacle countermeasure for reducing the degree of obstacle based on the information regarding the obstacle factor and the route plan; and performs at least one of control for causing the obstacle factor evacuate and control for the movable apparatus to avoid the obstacle factor based on the obstacle countermeasure.