Block chain based, decentralized transaction settlement systems and methods for wireless electric vehicle charging stations which enables real-time monitoring of electric vehicle charging demand for distribution system managers. The system is operable to enable easy implementation of rebate programs for electric vehicle owners, as well as charging station owners, and provides a secure, cost efficient, and transparent transaction settlement system using block chain software technology.

This disclosure generally relates to a battery kiosk that houses and distributes rechargeable batteries for light electric vehicles. The battery kiosk includes various visual indicators that are activated based on the individual's progress with a rechargeable battery exchange process.

A remote monitoring method is provided for a remote monitoring system including a first communicator connected to a server that performs a charging process depending on a state of a power supply of an electrical apparatus and a second communicator connected to the first communicator via a wireless communication network and that monitors the state of the power supply of the electrical apparatus. When the second communicator detects turning-off of the electric power of the electrical apparatus, the second communicator transmits on-information indicating the change in the state to the first communicator via the wireless communication network, and maintains the electrical apparatus in the on-state as long as the wireless communication continues. However, if an occurrence of an interruption of the wireless communication is detected, the second communicator turns off the electric power of the electrical apparatus.

Various example embodiments generally relate to charging electric devices. An apparatus (200) may receive a payment authorization message, which may be associated with a payment terminal (110). The apparatus (200) may determine a charging station group associated with the payment terminal (110). The apparatus (200) may further receive a status notification comprising an indication of a charging connector (142) of the charging station group being occupied. The apparatus (200) may send a charging command to cause initiation of charging via the charging connector (142), in response to receiving the payment authorization message and the status notification. Example embodiments enable payments to be linked with charging connectors (142) without associated user input at the payment terminal (110). Apparatuses, methods, and computer programs are disclosed.

A system and method for navigating a vehicle automatically from a current location to a destination location without a human operator is disclosed. The method includes identifying a vehicle location using global positioning system (GPS) data regarding the vehicle. Also included is identifying that the vehicle location is near or at a parking location. Then, using mapping data defined for the parking location. The mapping data at least in part is used to find a path at the parking location to avoid a collision of the vehicle with at least one physical structure when the vehicle is automatically moved at the parking location. The method includes instructing the electronics of the vehicle to proceed with controlling the vehicle to automatically move from the current location to the destination location at the parking location. The electronics use as input at least part of the mapping data and sensor data collected from around the vehicle by at least two vehicle sensors. The path is configured to be updatable dynamically based on changes in the destination location or changes along the path. The destination location is a parking spot for the vehicle at the parking location.

A charging locker including a charging station. The charging locker can receive a power connection to a user device via the charging station. The charging locker can actuate a lock for a door of the charging locker to a locked state. the charging station can provide power that charges the user device. Responsive to receiving a user event when the lock for the door of the charging locker is in the locked state, the charging locker can actuate the lock for the door of the charging locker to an unlocked state.

Methods, systems and media are provided for managing personal security of a user of a vehicle. The vehicle is provided with a plurality of active sensors. One method includes receiving a first remote request at the vehicle to activate a first level of security. The first level of security activates a first active sensor. The method includes recording an area proximate to vehicle in response to activating the first level of security. The recording produces a media file. The method includes transmitting the media file to Internet storage associated with an account of the user of the vehicle. The method includes setting indicators, such as lighting in and around the vehicle to identify a security level of the vehicle. The lighting can be color illumination, that indicates to a user before the user fully approaches the vehicle if the vehicle has a particular security level, based on prior monitored activity.

An example operation includes one or more of detecting, by a transport, an environment via a first sensor, determining, by the transport, an event related to the environment is imminent, powering, by the transport, a second sensor associated with the imminent event, and detecting, by the transport, the event as it is occurring via the second sensor.

An embodiment may involve receiving, by a computing system, a message from a wireless service provider system. The computing system may include one or more computing devices located, e.g., in the trusted cloud. The message may contain a service-provider-based identity of a client device, an indication that the service-provider-based identity has been authenticated by the wireless service provider, and a code that the client device obtained from a remote machine proximate to the client device. The computing system may generate an anonymized identity of the client device based on the service-provider-based identity. The computing system may verify that a task associated with the code is within the authorized capabilities of the anonymized identity. Possibly based on the code (and perhaps other information as well), the computing system may transmit an instruction to the remote machine. The instruction may direct the remote machine to perform the task.

A system for charging a battery of a vehicle using inductive charging is provided. The system includes a charging pad for inductive charge transfer. The charge pad is configured with electronics that enables wireless communication. A self-aligning mechanism is part of the charging pad, and the self-aligning mechanism is configured to adjust positioning of the charging pad when the vehicle is disposed over the charging pad. A computer associated with the charging pad is configured to execute method operations for communicating with electronics of the vehicle to enable charging of the battery of the vehicle. The electronics of the vehicle is configured to identify a user account for charging the vehicle. An application associated with the user account is configured to receive updates regarding a charging status of the vehicle responsive to said inductive charge transfer being enabled.