Provided are a moving object, a cleaning robot, a floor condition determining device, a method of controlling the moving object, and a method of controlling the cleaning robot. The moving object includes a light source configured to irradiate a first light to a floor surface, a plurality of sensors for receiving light reflected from the floor surface at different positions from each other, and a controller configured to determine a condition of the floor surface on the basis of a result sensed by the plurality of sensors.

A method and a device for displaying a motion path of robot and a robot. The method for displaying a motion path of the robot includes acquiring a current motion path of the robot, recognizing the motion path to determine a type of the motion path, determining, according to the type of the motion path, a display manner corresponding to the type of the motion path, and displaying the motion path on an electronic map in the determined display manner.

The present invention relates to a device that is in particular detachable, connectable, or connected with a cleaning device, wherein the device comprises at least one sensor means in order to record the position of at least one cleaning area of a cleaning device, which area can be or is used for cleaning, at least one display device, and at least one data processing unit which interacts or can be made to interact functionally with the display device, and with the at least one sensor means, wherein the data processing device is configured and adapted to display at least one representation of at least one surface to be cleaned in at least one first color or without color and, based on a recorded change in the position of at least the cleaning area of the cleaning device, to display the surface to be cleaned in at least one second color or without superimposition of color.

Examples of techniques for controlling a plurality of robotic cleaners are disclosed. In one example implementation according to aspects of the present disclosure, a computer-implemented method includes receiving, by a processing system, data about a physical space to be cleaned by at least one of the plurality of robotic cleaners. The method further includes generating, by the processing system, a cleaning plan for the physical space based at least in part on the data about the physical space. The method further includes dispatching, by the processing system, the at least one of the plurality of robotic cleaners within the physical space to clean the physical space based at least in part on the cleaning plan.

Various embodiments include processing devices and methods for managing cleaning robot behavior. In some embodiments, a processor of the cleaning robot may obtain information about one or more cleaning operations in one or more locations of a structure. The processor may analyze the information about the one or more cleaning operations in the one or more locations. The processor may determine one or more cleaning parameters for the cleaning robot based on the analysis of the information about the one or more cleaning operations. Processor may generate an instruction for the cleaning robot to schedule an operation of the cleaning robot based on the one or more cleaning parameters. The processor may execute the generated instruction to perform the operation of the cleaning robot.

Various embodiments include processing devices and methods for managing cleaning behavior by a cleaning robot. In some embodiments, a processor of the cleaning robot may obtain user planning information and user location information from one or more information sources external to the cleaning robot. The processor may analyze the user planning information and the user location information. The processor may determine one or more cleaning parameters for the cleaning robot based on the analysis of the user planning information and the user location information. The processor may generate an instruction for the cleaning robot to schedule an operation of the cleaning robot based on the one or more cleaning parameters. The processor may execute the generated instruction to perform the operation of the cleaning robot.

Various embodiments include processing devices and methods for managing cleaning robot behavior. In some embodiments, a processor of the cleaning robot may determine operational information about operations of a heating, ventilation, and air conditioning (HVAC) system for at least one room in a structure. The processor may determine a time when operation of the HVAC system will end based on the determined operational information. The processor may generate an instruction for the cleaning robot to schedule an operation of the cleaning robot for a time after operation of the HVAC system will end. The processor may execute the generated instruction to perform the operation of the cleaning robot after operation of the HVAC system ends.

A solar panel cleaning robot is provided and has a robot body. The robot body can move on at least one solar panel. A cleaning device, a power system, a control system and an electric power system are disposed on an internal or an external of the robot body.

A traversal method and system, a robot, and a readable storage medium are disclosed, wherein the method may include: acquiring a grid map and establishing the rectangular coordinate system covering the grid map; and if traversal is performed for the first time, driving the robot to arrive at the starting point, and driving the robot to, according to a randomly selected preset rule, traverse the working region in which the starting point is located and work synchronously; when it is confirmed that the current preset rule applied to the first traversal cannot continue to be executed, acquiring the area of each independent working region in the remaining working region, if the area of any independent working region is not less than a preset area threshold, selecting any coordinate point as a working start point in the working region the area of which is not less than the preset area threshold, driving the robot to arrive at the working start point, and, starting from the working start point, randomly selecting the preset rule to perform traversal and work synchronously until the areas of all the independent working regions are less than the preset area threshold (S3). The present disclosure beneficially improves the traversal ability and work efficiency of the robot.

A mobile robot including a vision system, the vision system including a camera and an illumination system; the illumination system including a plurality of light sources arranged to provide a level of illumination to an area surrounding the mobile robot; and a control system for controlling the illumination system. The control system adjusts the level of illumination provided by the plurality of light sources based on an image captured by the camera; an exposure time of the camera at the time the image was captured; and robot rotation information.