A parking robot includes: a driving device; a camera; a communicator; and a controller electrically connected to the driving device, the camera, and the communicator, and wherein the controller is configured to, while the parking robot controls the driving device to move the parking robot under a target vehicle, identify one or more markers positioned on a following parking robot following the parking robot based on image data obtained through the camera to identify a relative posture of the one or more markers with respect to the parking robot, receive positioning information of the following parking robot from the following parking robot through the communicator, and determine a position of the parking robot under the target vehicle based on the relative posture of the one or more markers with respect to the parking robot and the positioning information of the following parking robot.

In one example embodiment, a computer-implemented method for transporting cargo using smart palettes includes determining receipt of a first cargo onto a platform of a first smart palette at a first distribution hub. The method includes generating one or more signals that control a loading of the first smart palette and the first cargo onto a trailer located at the first distribution hub. The method includes determining a coordination with one or more second smart palettes associated with the trailer to determine a first position inside the trailer for the first smart palette and the first cargo. The method includes generating one or more signals that position the first smart palette and the first cargo at the first position inside the trailer.

The present disclosure relates to an automatic detection system and an automatic detection method for an enclosed space. The automatic detection system includes: an interactive device; a movable platform; an environment perceiving device; a defect detection device; a memory; and a processing device. The processing device is configured to process the environmental data of the environment perceiving device to control the movable platform and the defect detection device, and process the detection data generated by the defect detection device to generate a detection report. The interactive device, the environment perceiving device, the defect detection device, the memory and the processing device are installed on the movable platform, and the interactive device can be operated to identify the enclosed space and enable the automatic detection system to automatically perform detection in an automatic detection mode based on the digital mock-up data of the enclosed space.

Determination and alleviation of root causes for the emission of pollutants from vehicles includes receiving emission data associated with emission of a set of pollutants by the vehicle. The emission data is received from at least one of the vehicle or a set of data sources. A machine learning (ML) model is applied to the emission data. A set of root causes is determined based on the application of the ML model to the emission data. A set of robots is controlled to execute a set of actions within the vehicle to alleviate the set of root causes associated with the emission of the set of pollutants.