This invention relates generally to pet and child toys and drones. More specifically, the invention relates to an apparatus and method of operation for an autonomous or remotely controlled fetch toy drone for pets and children that is safe to operate and retrieve, extends the fetching range beyond that of a throw-type fetch toy, and also provides numerous other features, such as actuated shut-down and audio broadcast features, as well as video and audio recording capabilities, and supplemental stimuli features.

A materials handling vehicle includes a power unit, a load handling assembly and a positioning assistance system that provides assistance to an operator that is driving the vehicle. The assistance provided by the positioning assistance system includes at least one of an audible, tactile, or visual cue to indicate at least one of: a distance from the vehicle to a boundary object; or a heading of the vehicle with respect to the boundary object.

An apparatus for controlling vehicle movement comprises processing means configured to receive first signals from a receiving means arranged to receive transmitted signals from a remote control device indicating a requested motion of the vehicle. From the first signals or an additional signal received from a sensing means, one or more distance values indicative of a distance from a point on the vehicle to an object is determined, and a maximum speed value for the vehicle is determine in dependence on the one or more distance values. The processing means provides an output signal for controlling speed of the vehicle based on the requested motion. The output signal is arranged to control the speed of the vehicle to be less than or equal to the maximum speed value.

A retrofittable remote control system is provided for enabling remote controlling of an on-board component of machine that is inherently incapable of being remote controlled. An interface control module is retrofitted on machine and is configured to communicate with off-board remote control over wireless communication channel. The interface control module detects presence of an on-board control module that communicates with the on-board component over a digital communication channel. The interface control module is configured to then establish either a digital communication link with the on-board control module or a direct Input/Output (I/O) communication link with the on-board component of the machine based on the detection. The interface control module is configured to send a control signal over either the direct I/O communication link or the digital communication channel via the detected on-board control module, for controlling the on-board component.

A vehicle control method and a vehicle control device are configured to control the movement of a vehicle based on operation of a terminal device located outside the vehicle. The vehicle receives from the terminal device a first signal indicating that a first button of the terminal device has been pressed. The vehicle doors are unlocked based on the reception of the first signal, and the vehicle is placed in a state in which movement control is permitted.

A cleaning robot includes a navigator to move a main body, a remote controller to output a modulated infrared ray in accordance with a control command of a user and to form a light spot, a light receiver to receive the infrared ray from the remote controller, and a controller to control the navigator such that the main body tracks the light spot when the modulated infrared ray is received in accordance with the control command. Because the cleaning robot tracks a position indicated by the remote controller, a user may conveniently move the cleaning robot.

A work machine includes a moving boom, an ultra-wideband system (UWB) having one UWB tag and a number of UWB anchors, a marking apparatus that can be handled by a user and can be operated by the user, and a control unit. The UWB tag is mounted on the marking apparatus. The control unit is designed so as, when the marking apparatus is operated, to store a position of the UWB tag ascertained by way of the UWB system at the time of the operation and to control the operation of the mobile work machine on the basis of the ascertained position.

A delivery system includes a database configured to store information of a customer where the information includes a default payment method, a communication system configured to communicate with an autonomous vehicle and with a device of the customer, where the device includes a display screen having a button to summon an autonomous vehicle, at least one processor, and a memory storing instructions. The instructions, when executed by the at least one processor, cause the delivery system to receive an indication via the communication system that the button on the device of the customer has been clicked, and instruct the autonomous vehicle to travel to a location of the customer.

A materials handling vehicle includes: a power unit including: a steered wheel, and a steering device for generating a steer control signal; a load handling assembly coupled to the power unit; a controller located on the power unit for receiving the steer control signal; and a sensing device on the power unit and coupled to the controller. The sensing device monitors areas in front of and next to the vehicle. Based on sensing device data, the controller may modify at least one of the following vehicle parameters: a maximum allowable turning angle or a steered-wheel-to-steering-device ratio.

A parking support apparatus is provided with: a vehicle controller configured to park a vehicle by controlling behavior of the vehicle in accordance with the signal associated with the remote operation if a distance between a transmitter located outside of the vehicle and the vehicle is greater than or equal to a first distance and is less than or equal to a second distance. The vehicle controller performs a predetermined informing operation for an operator of the transmitter, instead of or in addition to controlling the behavior of the vehicle in accordance with the signal associated with the remote operation, if the distance is greater than or equal to the first distance and is less than or equal to a third distance or if the distance is greater than or equal to a fourth distance and is less than or equal to the second distance.