A method for a system includes forming within an app running upon a user smart-device, an ephemeral ID having data associated with a server and anonymous data, outputting the ephemeral ID to a first receiver associated with a first computer and to a second receiver associated with a second computer system separate from the first, receiving from the first receiver an identifier and a nonce, providing the identifier and the nonce to the server, receiving from the server a token associated with the first computer system authorizing access to the first computer system but not the second computer system by the user smart-device, storing the token for facilitated authentication of the user smart-device, and providing the token to the first receiver.

A system and method for remote execution of applications for a connected vehicle infotainment system (CVIS). The method comprises establishing a network connection between the CVIS and a cloud server hosted in a cloud computing platform, sending a remote execution request for at least one application, wherein the at least one application is executed by the cloud server, receiving execution results from the at least one application cloud server, and rendering the execution results on the CVIS while allowing interoperability with applications executed over at least one other computing environment included in the vehicle.

A system for handling a lost item in an autonomous vehicle and a server. The vehicle includes a vision sensor configured to respectively capture a first vehicle interior image and a second vehicle interior image when a passenger boards and alights from the vehicle. The vehicle is configured to transmit the captured first vehicle interior image and second vehicle interior image to the server. The server is configured to compare the first vehicle interior image with the second vehicle interior image and transmit lost item information to the passenger when the lost item in the vehicle is sensed.

A parking lot management system according to the present disclosure includes a management apparatus, an image capturing apparatus, a cart, and a display apparatus. The management apparatus acquires, and stores as parking information, a license plate number and a spot number of a parking spot from the image capturing apparatus. Then, the management apparatus acquires, from a cart terminal of the cart, information that enables specification of the parking information of a vehicle of a customer using the cart and an identification number of the cart terminal, and stores the identification number of the cart terminal in association with the parking information. Then, the management apparatus detects return of the cart to a predetermined location, calculates a predicted time until the parking spot is freed up, and updates display on the display apparatus based on the predicted time.

A parking support device configured to support an automatic valet parking of a vehicle includes: an abnormality determiner configured to determine a presence or absence of an abnormality in an automatically driven vehicle when the automatically driven vehicle moves in a parking facility by automatic driving; and a notification instructor configured to issue, when determining an abnormality, a notification instruction for a portable terminal device held by a user of the automatically driven vehicle, notifying contents including (i) collection information indicating a collection position where the user should collect the automatically driven vehicle, and (ii) prompter information prompting that the user should go to the collection position.

Devices, systems, and methods for contactless vehicle codes are presented. A method may include receiving, by a vehicle, a first request to present a code associated with an activity. The method may include sending a second request to a device, the second request indicative of the activity. The method may include receiving, from the device, the code, wherein the code includes information associated with the activity. The method may include presenting, using a display of the vehicle, the code.

A system for electrical charging of a first vehicle by a second vehicle includes a network access device to communicate with a first source that includes at least one of the first vehicle or a mobile device associated with a user of the first vehicle. The system further includes a processor coupled to the network access device that is designed to receive a charge request from the first source via the network access device, the charge request requesting access to a source of electrical energy for charging the first vehicle. The processor is further designed to identify an available vehicle that is available to be used as the source of electrical energy for charging the first vehicle. The processor is further designed to control the network access device to transmit available vehicle information corresponding to the available vehicle to the first source in response to receiving the charge request.

A scheduling server is programmed to register terminals for autonomous vehicle use by allocating both capabilities and available times of the terminals to the server; identify a service to perform to an autonomous vehicle using data received from the vehicle; and send a waypoint to the vehicle directing the vehicle to arrive at an identified one of the terminals having capability to perform the service during the available times of the identified terminal.

The disclosure is directed to use of digital keys in providing access to secured locations, goods and resources as well as other assets. The access may be fee based with the disclosure further directed to including fee payment authorization into the access process. Electronic locks may be employed within modules to faciltiate the access. The digital keys may be accompanied with commands for the electronic locks and/or modules accomodating them to execute in the course of providing the access. The digital keys may be shared, limited to single or multiple use and may be lock agnostic. The commands may be sent from a smart mobile device and be digitally signed for subsequent attestation by the lock for authenticity verification. The digital keys may be generated and otherwise handled under one of a series of escalating security encryption methods typically used and reserved for financial transactions.

Embodiments herein are directed to a vehicle floating fleet vehicle system for determining a location of a user and one or more car-sharing vehicles. The system includes a server computing device operated by a floating fleet service provider. The server computing device includes at least one processor; a memory communicatively coupled to the at least one processor; and machine readable instructions stored in the memory. The machine readable instructions cause the vehicle floating fleet system to perform at least the following when executed by the at least one processor receive a request for the one or more car-sharing vehicles, determine the one or more car-sharing vehicles in one or more nearby gated parking facilities, send information about the one or more car-sharing vehicles to the user, and receive a selected car-sharing vehicle in a nearby gated parking facility of the one or more nearby gated parking facilities from the user.