Abstract: A method for determining an availability of an electric vehicle charging station is disclosed. The method includes: obtaining a distance between a mobile device and the electric vehicle charging station using a first geolocation information and a second geolocation information; based on the determined distance, determining an availability of the electric vehicle charging station; and sending a message to a user regarding the determined availability of the electric vehicle charging station.

Abstract: A method is disclosed for controlling a charge transfer of an electric vehicle using an electric vehicle charging station, a mobile device, and a cloud server. The method includes receiving, at a mobile device, a message for an electric vehicle of a user from the electric vehicle charging station, wherein a user of the mobile device is associated with the electric vehicle to be charged. The method also includes receiving the charging control signal from the cloud server via the mobile device at the electric vehicle charging station in response to authorizing a charging control signal using identification information and credit account information received from the mobile device, wherein the charging control signal is configured to adjust a parameter used to draw electric power from the electric vehicle charging station.

Abstract: A first electronic device of a first user programmed to: connect, with a second electronic device of a second user over a first peer-to-peer wireless network link; send, to the second electronic device, a first unique code generated by the first electronic device, corresponding to a first user identifier of the first electronic device; receive, from the second electronic device, a second unique code generated by the second electronic device, corresponding to a second user identifier of the second electronic device; store, the second unique code, and second metadata associated with the second electronic device including the time, proximity or duration of interaction; retrieve, from a coupled backend database stored in a cloud, a third unique code of an electronic device, uploaded to the coupled backend database stored in the cloud; and display, a notification on the first electronic device, if the third unique code matches the second unique code.

Abstract: A method for controlling a charge transfer of an electric vehicle using an electric vehicle charging station, a mobile device, and a cloud server is disclosed. The method includes: receiving, at a mobile device, a message for an electric vehicle of a user from the electric vehicle charging station, wherein a user of the mobile device is associated with the electric vehicle to be charged; sending, from the mobile device, the message for the electric vehicle of the user to the cloud server, wherein the charge transfer request relayed from the mobile device includes identification information; in response to a charging control signal being authorized using identification information received from the mobile device, receiving the charging control signal from the cloud server at the mobile device to be forwarded to the electric vehicle charging station, wherein the charging control signal is configured to adjust a charging parameter at the electric vehicle charging station.

Abstract: A first electronic device of a first user programmed to: connect, with a second electronic device of a second user over a first peer-to-peer wireless network link; send, to the second electronic device, a first unique code generated by the first electronic device, corresponding to a first user identifier of the first electronic device; receive, from the second electronic device, a second unique code generated by the second electronic device, corresponding to a second user identifier of the second electronic device; store, the second unique code, and second metadata associated with the second electronic device including the time, proximity or duration of interaction; retrieve, from a coupled backend database stored in a cloud, a third unique code of an electronic device, uploaded to the coupled backend database stored in the cloud; and display, a notification on the first electronic device, if the third unique code matches the second unique code.

Abstract: A system for controlling a charging of an electric vehicle, wherein a charging at one electric vehicle charging station affect a charging at another electric vehicle charging station is disclosed. The system includes: an electric power grid, a first electric vehicle charging station connected to the electric power grid, and a second electric vehicle charging station connected to the electric power grid, wherein the first electric vehicle charging station facilitates a charge transfer for an electric vehicle at the second electric vehicle charging station using a mobile device. The mobile device relays communication from the electric vehicle charging stations to the cloud server. The charge transfer request received at the cloud server is authorized using identification information and credit account information received from the mobile device. The charge transfer at the first electric vehicle charging station is adjusted based on a charging level at the second electric vehicle charging station.

Abstract: A method for determining an availability of an electric vehicle charging station is disclosed. The method includes: comparing a first geolocation information associated with a mobile device and a second geolocation information associated with the electric vehicle charging station; determining a distance between the mobile device and the electric vehicle charging station using the first geolocation information and the second geolocation information; and based on the determined distance, determining the availability of the electric vehicle charging station; and sending a message to a user regarding the determined availability of the electric vehicle charging station.

Abstract: A method is disclosed for controlling a charge transfer of an electric vehicle using an electric vehicle charging station, a mobile device, and a cloud server. The method includes receiving, at a mobile device, a message for an electric vehicle of a user directly from the electric vehicle charging station, wherein a user of the mobile device is associated with the electric vehicle to be charged. The method also includes receiving the charging control signal from the cloud server via the mobile device at the electric vehicle charging station in response to authorizing a charging control signal using identification information and credit account information received from the mobile device, wherein the charging control signal is configured to adjust a parameter used to draw electric power from the electric vehicle charging station.

Abstract: A method for controlling a charge transfer of an electric vehicle using an electric vehicle charging station, a mobile device, and a cloud server is disclosed. The method includes: receiving, at a mobile device, a message for an electric vehicle of a user directly from the electric vehicle charging station, wherein a user of the mobile device is associated with the electric vehicle to be charged; sending, from the mobile device, the message for the electric vehicle of the user directly to the cloud server; in response to a charging control signal being authorized using identification information and credit account information received from the mobile device, receiving the charging control signal from the cloud server via the mobile device at the electric vehicle charging station, wherein the charging control signal is configured to adjust a parameter used to draw electric power from the electric vehicle charging station; and adjusting the charge transfer based on the adjusted parameter.

Abstract: Content(s) of nearby device(s) acting as server(s) is presented to be interfaced with at a device acting as a client over a peer-to-peer direct wireless network. Any of the devices can act as a client, a server, or both, concurrently. Once connected, the client device can retrieve, present, interact and operate on the contents of the servers. The content(s) may be presented in the form of an interactive document, a filesystem volume, and/or an API, different from the original structure in which the content(s) are stored at each server. The client directly interacts and operates on the content(s) of the server(s) according to the client-side presentation. The types of interactions the client may perform can vary by presentation, but generally include viewing, browsing, streaming, downloading, uploading, editing, deleting, tagging, liking, commenting and the like.

Abstract: Content(s) of nearby device(s) acting as server(s) is presented to be interfaced with at a device acting as a client over a peer-to-peer direct wireless network. Any of the devices can act as a client, a server, or both, concurrently. Once connected, the client device can retrieve, present, interact and operate on the contents of the servers. The content(s) may be presented in the form of an interactive document, a filesystem volume, and/or an API, different from the original structure in which the content(s) are stored at each server. The client directly interacts and operates on the content(s) of the server(s) according to the client-side presentation. The types of interactions the client may perform can vary by presentation, but generally include viewing, browsing, streaming, downloading, uploading, editing, deleting, tagging, liking, commenting and the like.

Abstract: Content(s) of nearby device(s) acting as server(s) is presented to be interfaced with at a device acting as a client over a peer-to-peer direct wireless network. Any of the devices can act as a client, a server, or both, concurrently. Once connected, the client device can retrieve, present, interact and operate on the contents of the servers. The content(s) may be presented in the form of an interactive document, a filesystem volume, and/or an API, different from the original structure in which the content(s) are stored at each server. The client directly interacts and operates on the content(s) of the server(s) according to the client-side presentation. The types of interactions the client may perform can vary by presentation, but generally include viewing, browsing, streaming, downloading, uploading, editing, deleting, tagging, liking, commenting and the like.

Abstract: A method controlling reservations at an electric vehicle charging station is disclosed. The method includes: sending, from the mobile device, the charge transfer request for the electric vehicle of a first user at an electric vehicle charging station to the cloud server, wherein a user of the mobile device is associated with the electric vehicle to be charged; in response to authorizing the charge transfer request using identification information and credit account information received from the mobile device, charging the electric vehicle of the first user at the electric vehicle charging station for a first charging session; reserving a second charging session for an electric vehicle of a second user; and facilitating communication with the first user and the second user to modify the scheduled end time of the first charging session for the first user an amount of time and modify the scheduled start time of the second charging session of the second user an amount of time.

Abstract: A system for controlling a charging of an electric vehicle, wherein a charging at one electric vehicle charging station affect a charging at another electric vehicle charging station is disclosed. The system includes: an electric power grid, a first electric vehicle charging station connected to the electric power grid, and a second electric vehicle charging station connected to the electric power grid, wherein the first electric vehicle charging station facilitates a charge transfer for an electric vehicle at the second electric vehicle charging station using a mobile device. The mobile device relays communication from the electric vehicle charging stations to the cloud server. The charge transfer request received at the cloud server is authorized using identification information and credit account information received from the mobile device. The charge transfer at the first electric vehicle charging station is adjusted based on a charging level at the second electric vehicle charging station.

Abstract: Content(s) of nearby device(s) acting as server(s) is presented to be interfaced with at a device acting as a client over a peer-to-peer direct wireless network. Any of the devices can act as a client, a server, or both, concurrently. Once connected, the client device can retrieve, present, interact and operate on the contents of the servers. The content(s) may be presented in the form of an interactive document, a filesystem volume, and/or an API, different from the original structure in which the content(s) are stored at each server. The client directly interacts and operates on the content(s) of the server(s) according to the client-side presentation. The types of interactions the client may perform can vary by presentation, but generally include viewing, browsing, streaming, downloading, uploading, editing, deleting, tagging, liking, commenting and the like.

Abstract: A method for controlling a charge transfer of an electric vehicle using an electric vehicle charging station, a mobile device, and a cloud server is disclosed. The method includes: receiving, at a mobile device, a message for an electric vehicle of a user directly from the electric vehicle charging station, wherein a user of the mobile device is associated with the electric vehicle to be charged; sending, from the mobile device, the message for the electric vehicle of the user directly to the cloud server; in response to a charging control signal being authorized using identification information and credit account information received from the mobile device, receiving the charging control signal from the cloud server via the mobile device at the electric vehicle charging station, wherein the charging control signal is configured to adjust a parameter used to draw electric power from the electric vehicle charging station; and adjusting the charge transfer based on the adjusted parameter.

Abstract: A method is disclosed for controlling a charge transfer of an electric vehicle using an electric vehicle charging station, a mobile device, and a cloud server. The method includes receiving, at a mobile device, a message for an electric vehicle of a user directly from the electric vehicle charging station, wherein a user of the mobile device is associated with the electric vehicle to be charged. The method also includes receiving the charging control signal from the cloud server via the mobile device at the electric vehicle charging station in response to authorizing a charging control signal using identification information and credit account information received from the mobile device, wherein the charging control signal is configured to adjust a parameter used to draw electric power from the electric vehicle charging station.

Abstract: A method for determining an availability of an electric vehicle charging station is disclosed. The method includes: comparing a first geolocation information associated with a mobile device and a second geolocation information associated with the electric vehicle charging station; determining a distance between the mobile device and the electric vehicle charging station using the first geolocation information and the second geolocation information; and based on the determined distance, determining the availability of the electric vehicle charging station; and sending a message to a user regarding the determined availability of the electric vehicle charging station.

Abstract: A method controlling reservations at an electric vehicle charging station is disclosed. The method includes: sending, from the mobile device, the charge transfer request for the electric vehicle of a first user at an electric vehicle charging station to the cloud server, wherein a user of the mobile device is associated with the electric vehicle to be charged; in response to authorizing the charge transfer request using identification information and credit account information received from the mobile device, charging the electric vehicle of the first user at the electric vehicle charging station for a first charging session; reserving a second charging session for an electric vehicle of a second user; and facilitating communication with the first user and the second user to modify the scheduled end time of the first charging session for the first user an amount of time and modify the scheduled start time of the second charging session of the second user an amount of time.

Abstract: A system for controlling a charging of an electric vehicle, wherein a charging at one electric vehicle charging station affect a charging at another electric vehicle charging station is disclosed. The system includes: an electric power grid, a first electric vehicle charging station connected to the electric power grid, and a second electric vehicle charging station connected to the electric power grid, wherein the first electric vehicle charging station facilitates a charge transfer for an electric vehicle at the second electric vehicle charging station using a mobile device. The mobile device relays communication from the electric vehicle charging stations to the cloud server. The charge transfer request received at the cloud server is authorized using identification information and credit account information received from the mobile device. The cloud server sends a response enabling the charge transfer from the second electric vehicle charging station to the electric vehicle.