A system for directing a vehicle may include a processor configured to receive, from a wireless communication device, location data indicative of a current location of the vehicle and direct the vehicle to a desired destination using a first driving route. The processor may also be configured to receive, at a first time, data indicating that a new route for the vehicle is requested, and predict a location of the vehicle at a second time that will occur after the first time. The location may be one where a driver of the vehicle can safely implement instructions associated with changing the first driving route. The may further be configured to determine, based on the predicted location of the vehicle at the second time, a second driving route and prior to the second time, send instructions associated with the second driving route to the wireless communication device.

Techniques for providing network connection plans for computing devices planning to travel along a pre-specified route are disclosed herein. In an example, crowd-sourced data is used to generate a network map that includes network parameters mapped to one or more geographical locations. The network map is used to generate a network connection plan for a computing device planning to travel along a pre-specified route. The computing device may then connect to one or more wireless networks according to the network connection plan while traveling along the pre-specified route.

The present disclosure provides a system, method and associated apparatus for autonomous vehicle transportation. The system includes: an operation system configured to generate a transportation plan for a vehicle and transmit the transportation plan to a vehicle controller of the vehicle; and the vehicle controller configured to control, in accordance with the transportation plan, the vehicle to autonomously move to a position of a checkpoint at an entrance to a target highway port, and interact with a checkpoint controller corresponding to the position of the checkpoint for autonomously passing the checkpoint; and control the vehicle to autonomously move from the position of the checkpoint to a specified loading/unloading position in the target highway port, and interact with a loading/unloading control apparatus for autonomous loading/unloading at the loading/unloading position. The system, method and associated apparatus can achieve fully autonomous goods transportation, save transportation costs and reduce driving security risks.

A parking management system includes: a vacant slot sensor which detects a vacant slot among parking slots and creates vacant slot information indicating the position of the vacant slot; a vehicle information obtainment unit which obtains vehicle information of a vehicle; a first information obtainment unit which obtains first information indicating the presence or absence of a passenger of the vehicle; and a parking slot determination unit which determines a parking slot in which the vehicle is to be parked, and outputs the parking slot. When there are vacant slots and the first information indicates that a passenger is present, the parking slot determination unit determines, as the parking slot, a vacant slot located at a first distance from a facility which the passenger uses after alighting from the vehicle, preferentially over a vacant slot located at a second distance, which is greater than the first distance, from the facility.

A lighting system for illuminating an environment, the lighting system comprising a plurality of lighting modules (111, 112, 113), the lighting modules comprising a light source (111a) for emitting light, illuminating an area, an acoustic sensor (111b) arranged for sensing noise in the area, a network interface configured to allow the lighting module to send noise data via a network, and a vehicle routing device (120) comprising: a first network interface (121) configured to receive noise data from the plurality of lighting modules via the network, a processor circuit arranged to calculate noise metrics for different regions (341-344) in the environment from the received noise data, compare the calculated noise metric with noise metric threshold values, dependent upon the calculated noise metric exceeding a noise metric threshold value for a particular region, generating a traffic rerouting signal, said traffic rerouting signal causing a traffic routing system to reroute traffic away from said particular region.

Navigation devices and methods of operation are provided. The navigation device includes a communication unit; a display; an input unit for receiving an input of data; a communication unit; and a controller for controlling operation of the display and the input unit. The controller connects to a data server through the communication unit, requests path setting information to the data server, receives the path setting information from the data server, acquires present position information of the navigation device, acquires a user moving path by reflecting the acquired position information and the received path setting information, and sets the user moving path as a guidance path. In this case, the path setting information is generated in another electronic device or the data server based on user input information input from the another electronic device.

A parking assist device is configured to assist auto-parking for a plurality of self-driving vehicles. The device includes: a guide setting unit configured to set a guide route for each of the plurality of self-driving vehicles; an abnormality detecting unit configured to detect abnormality relating to parking assist; a non-overlapping setting unit configured to, when the abnormality concerning a particular vehicle of the plurality of self-driving vehicle is detected, set a non-overlapping route, as the guide route, for the particular vehicle such that the non-overlapping route does not overlap with any other guide routes set for remaining self-driving vehicles; and a route transmission unit configured to transmit the guide route to each of the plurality of self-driving vehicles.

A method comprises determining a plurality of available parking spaces within a threshold distance of a destination; determining an initial utility score for each of the available parking spaces based on a distance between each of the available parking spaces and the destination; determining a safety score associated with each of the available parking spaces based on crime data and a distance between each of the parking spaces and a major street, an entrance to a parking facility in which each available parking space is located, or an entrance to a point of interest; determining an adjusted utility score for each of the available parking spaces based on the initial utility score and the safety score associated with each of the available parking spaces; and selecting a parking space among the plurality of available parking spaces based on the adjusted utility score for the parking space.

The present disclosure relates to a method and system for monitoring on route transportations. The method includes obtaining a driving route of a target vehicle; obtaining a reference position on the driving route away from a first current position of the target vehicle; determining a second current position of the target vehicle after a reference time; determining a distance between the second current position and the reference position is greater than a preset distance; and sending a signal to a target terminal indicating that the target vehicle is off-route.

The present disclosure provides a system, method and associated apparatus for autonomous vehicle transportation. The system includes: an operation system configured to generate a transportation plan for a vehicle and transmit the transportation plan to a vehicle controller of the vehicle; and the vehicle controller configured to control, in accordance with the transportation plan, the vehicle to autonomously move to a position of a checkpoint at an entrance to a target highway port, and interact with a checkpoint controller corresponding to the position of the checkpoint for autonomously passing the checkpoint; and control the vehicle to autonomously move from the position of the checkpoint to a specified loading/unloading position in the target highway port, and interact with a loading/unloading control apparatus for autonomous loading/unloading at the loading/unloading position. The system, method and associated apparatus can achieve fully autonomous goods transportation, save transportation costs and reduce driving security risks.