Aspects of the disclosure provide a parking method and system for a vehicle. For example, the parking system can include a processor and an output circuit. As another example, the parking system can include the processor and a compelling unit. The processor can be configured to determine whether a first weather condition, such as snowing, raining, icing and hailing, at a first parking location meets a first criterion, and identify, when the first weather condition meets the first criterion, a second parking location at which a second weather condition meets a second criterion different from the first criterion. The output unit can be configured to output an alert to the vehicle parked at the first parking location indicating that the vehicle is to be moved to the second parking location. The compelling unit can be configured to compel the vehicle to move to the second parking location.

Systems and methods of generating scenic routes and safe parking locations near scenic points are provided. Based at least in part upon a driver indication of a preference for a scenic route from an origin location to a destination location, a mobile device application may generate a scenic route by selecting route segments between the origin location and the destination location associated with a large number of scenic points. Scenic points may be identified based at least in part upon historical driver telemetry data and POI data. For instance, if historical telemetry data indicates that a large number of drivers stop briefly at a location not known to be near a POI, that location may be a scenic location (e.g., a location where drivers frequently leave their vehicles to take photos). Additionally, safe parking locations near each scenic point may be identified based at least in part upon historical vehicle damage data, and navigation directions to safe parking locations may be provided.

The disclosed technology provides solutions for facilitating the selection of a parking space by a user of a parking application. A process of the disclosed technology can include steps for monitoring sensor data and location data associated with a user device, retrieving, based on the location data associated with a user device, listing data associated with one or more parking spaces in a vicinity of the user device, and capturing image data that includes at least a portion of the one or more parking spaces. In some aspects, the process may further include steps for overlaying one or more graphical objects onto the image data, wherein the one or more graphical objects are based on the listing data associated with the one or more parking spaces. Systems and machine-readable media are also provided.

When a self-driving vehicle that transfers an object to a predetermined location is left at the predetermined location without the object in the vehicle, a vehicle control apparatus determines a moving destination among a plurality of standby places, based on the current location of the vehicle, the locations of the plurality of standby places, and vehicle-demand prediction information, and instructs the vehicle to move to the determined moving destination.

The invention relates to a method for determining a destination for a motor vehicle that is different from an intended location, comprising the following steps: specifying an intended location; determining a usage rate at the intended location by means of a computing apparatus on the basis of data provided on the intended location; determining a plurality of possible alternative destinations different from the intended location on the basis of the data provided on the intended location if the usage rate exceeds a predefined usage rate threshold value; determining a predicted usage rate at the possible alternative destinations by means of the computing apparatus on the basis of data provided on the possible alternative destinations; and selecting a destination from the plurality of possible alternative destinations while taking into consideration the predicted usage rate at the alternative destinations.

A system (100) and method for finding a likely available parking spot within a geographical area are disclosed. The system (100) may be configured to receive a request for directions for a first vehicle (702) to an open parking spot within a particular geographical area (210, 214), receive sensor information indicating potential open parking spots (346, 348), identify likely available parking spots (346, 348), and receive information regarding other vehicles searching for parking in the same geographical area. The system may use the identified likely available spots and the information regarding other vehicles searching for parking when computing a route (218, 220) to a likely available parking spot.

A method and a server for determining parking suggestions for a destination location on a map comprising: acquiring based on the destination location, a set of past routes having been taken on the map by users and terminating at the destination location. A set of final locations associated with the set of past routes is determined, each final location being an actual ending location of users having taken the respective past route. A road graph including a set of map objects is acquired, where each map object has: a respective object location, a respective object class indicative of a respective type of structure on the map. The set of final locations is then clustered based on the destination location, the respective classes and the respective final locations to obtain a set of clusters on the road graph, where each cluster includes a respective subset of final locations.

An approach is provided for providing a shared vehicle parking search route. The approach involves determining that a vehicle is nearing a destination. The approach also involves determining a boundary of a service area in which the vehicle is to remain. The approach further involves generating a parking search route for the vehicle to locate a parking space in proximity to the destination based, at least in part, on the boundary.

A data processing and relocation alerts system for processing data and provided relocation alerts is provided. The data processing and relocation alerts system includes at least one processor in communication with at least one database. The at least one processor is programmed to: (i) store profile data for registered users including at least a user identifier, contact data, at least one asset identifier, and an asset location; (ii) receive geographical location data for an impact area; (iii) store the impact area location data in the database; (iv) compare the impact area location data to the registered user profile data to identify the at least one registered asset located within the impact area; (v) retrieve contact information of impacted registered users based on the comparison; (vi) identify at least one safe area for relocation of the at least one registered asset; (vii) transmit a relocation alert using the contact information.

Embodiments of the present invention provide a communicable integration of a user network of devices and a vendor system. Embodiments receive, at the vendor system from the user network of devices, a request for provisioning of products by a vendor; determine a provisioning location for provisioning of the products by the vendor; continuously identify a real-time location of the user via the one or more components of the user network of devices; continuously calculate a real-time first limit based on the continuously identified current location of the user and the provisioning location; calculate a total time to provision the products comprising a sum of a product preparation time and the real-time first limit; and optimize delivery of the products based on the total time to provision and the real-time location of the user.