The systems and methods described herein disclose providing compensation for data transmission during a refill event. As described here, a vehicle collects operation data sets during movement in the vehicular environment. Vehicles can then transfer one or more of the operation data sets during the refill of the collecting vehicle. Thus, operator can determine the desirability and value of trading the upload time for compensation. The systems and methods can include detecting a refill event for a collecting vehicle. A data analysis can then be received for one or more operation data sets produced by the collecting vehicle. A data value can then be determined from the data analysis, with the operator determining transfer one or more operation data sets from the collecting vehicle during the refill event. Once received, compensation can be provided to the collecting vehicle for the received operation data sets based on the data value.

A network of collection, charging and distribution machines collects, charges and distributes portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). Vehicle diagnostic data of a vehicle using the portable electrical energy storage device is stored on a diagnostic data storage system of the portable electrical energy storage device during use of a respective portable electrical energy storage device by a respective vehicle. Once the user places the portable electrical energy storage device in the collection, charging and distribution machine, or comes within wireless communications range of a collection, charging and distribution machine, a connection is established between the collection, charging and distribution machine and the portable electrical energy storage device. The collection, charging and distribution machine then reads vehicle diagnostic data stored on the diagnostic data storage system of the portable electrical energy storage device and provides information regarding the diagnostic data.

An image forming apparatus connected to a charging device includes an image forming unit, a fixing unit, a charge processor, a controller, and a printed sheet counter. The charge processor charges a fee for printing. The controller selects an energy saving mode, upon deciding that a balance of a deposited amount in the charging device is less than a threshold amount. The printed sheet counter counts the number of sheets of the recording medium printed by the image forming unit in one single printing job. The controller selects the energy saving mode for the next printing job, upon deciding that the number of sheets printed in one single printing job is less than a predetermined threshold number of sheets, when the deposit balance is remaining in the charging device.

A two-way distribution, charging, and vending system permits a subscriber to exchange one or more partially or completely discharged portable electric energy storage devices for a comparable number of charged portable electric energy storage devices. The two-way distribution, charging, and vending system includes a number of charging modules, each with a dedicated power converter, communicably coupled to at least one two-way distribution system controller and to a power distribution grid. Upon receipt of a discharged portable electric energy storage device, the at least one two-way distribution system controller validates a manufacturer identifier and a subscriber identifier stored in a nontransitory storage media carried by the discharged portable electric energy storage device. Responsive to a successful authentication and validation, the at least one two-way distribution system controller dispenses a charged portable electric energy storage device to the subscriber.

A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). Locations of collection, charging and distribution machines having available charged portable electrical energy storage devices are communicated to or acquired by a mobile device of a user, or displayed on a collection, charging and distribution machine. The locations are indicated on a graphical user interface on a map on a user's mobile device relative to the user's current location. The user may use their mobile device select particular locations on the map to reserve an available portable electrical energy storage device. The system nay also warn the user that the user is near an edge of the pre-determined area having portable electrical energy storage device collection, charging and distribution machines. Reservations may also be made automatically based on information regarding a potential route of a user.

According to an aspect of the present invention, a wireless power reception device includes: a power pick-up circuit which is configured to form magnetic coupling with a wireless power transmission device and receive wireless power from the wireless power transmission device; and a communication/control circuit which is configured to perform at least one among control of the transmission of the wireless power and data transmission and reception on the basis of communication with the wireless power transmission device, wherein the communication/control circuit can receive a check message for checking payment information from the wireless power transmission device and perform a payment procedure for wireless power transmission, and can provide a user interface related to information for the payment procedure.

A charger system comprising a charging station including a plurality of nests for chargers is described. Each of the plurality of nests is designed to partially eject the charger when instructed to do so, and further comprises a nest lock to lock in the charger into the nest when not ejecting. The charger system interacting with a user account, enabling a user to request the charger, wherein the charger is ejected from the nest for a valid request.

An example mobile platform can be equipped with an electrical energy source and one or more of: static or dynamic billboard content displayed externally on sides or rear of the mobile platform using light-emitting displays; externally-facing sensors affixed to the mobile platform, including one or more of: cameras; radar; Lidar; and atmospheric sensors; onboard computers to provide source content for the dynamic billboard content on the mobile platform, and to store data collected from the externally-facing sensors on the mobile platform; and communications equipment to send and receive data related to advertising content, onboard sensors, and control thereof.

A charging locker includes a frame, and a plurality of modular shelf units. Each modular shelf unit having an integral floor, at least one side wall, and a back wall. The plurality of modular shelf units are configured to extend vertically above one another to form a stack of modular shelf units in which the side walls and back walls of the plurality of modular shelf units form nearly contiguous first and second surfaces. A plurality of tabs on corners of each of the modular shelf units are provided to be received in notches in the frame to support the modular shelf units relative to the frame. A plurality of electrical receptacles are also provided. At least one electrical receptacle is accessible from within each of the modular shelf units.

Systems and methods for vending devices having ad-watching as consideration are described. In some implementations, a vending apparatus includes a dispensing portion operable to dispense a product (e.g. electricity) to a user; a communication portion operable to provide a communicable content (e.g. an advertisement) to the user; and a control system operatively coupled to the dispensing portion and the communication portion. The control system receives a signal indicative of a consent by the user to receive or review the communicable content at least partially in exchange for the product, and after receipt of the signal, causes the communication portion to provide the communicable content to the user and causes the dispensing portion to dispense the product to the user. In further implementations, the apparatus may include a monitoring system operable to determine whether the user is receiving or reviewing the communicable content.