Disclosed are a carbon coin trading system and a method thereof. The system includes at least one authentication device connected to a piece of equipment, at least one physical carbon coin, and a trading management host device. The authentication device includes a detection module that detects energy consumption data of the equipment, so that a carbon computation module of the physical carbon coin calculates, according to the energy consumption data, a first carbon emission that is uploaded to the trading management host device. The trading management host device acquires, by means of a declaration calculation module, a declaration of alternatives, so that the declaration calculation module calculates, according to the declaration of alternatives, a second carbon emission and further determined, through calculation, a valuable digital token to be granted and also, a carbon coin trading event is generated and recorded.

Systems, methods, and computer readable media are disclosed for providing a hand free interaction between a user and a dispenser device. In embodiments of the invention, a mobile communication device and a beacon device associated with the dispenser device (or the dispenser device operating as a beacon device) may perform mutual authentication with a federated platform. Once the entities are authenticated, the user may be allowed to dispense the resource utilizing the dispenser device. Data associated with the interaction and related to the resource dispensed may be provided to the federated platform via the mobile communication device and the interaction data may be recorded. The federated platform may subsequently provide the interaction data to a resource provider to enable the resource provider to conduct a settlement process.

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 method for autonomous data routing in a distributed network includes installing containerized applications at a plurality of nodes including a first node, a second node, and a relay node in a computer network, automatically measuring one-way latencies between the plurality of nodes responsive to instructions of the containerized applications, automatically selecting, responsive to the containerized applications, a relayed data routing path from the first node to the second node via the relay node at least in part based on the one-way latencies between nodes in the computer network, automatically transferring data from the first node to the second node along the relayed data routing path responsive to instructions of the containerized applications, and in response to the data transfer, automatically transferring a payment between digital wallets under the control of the containerized applications.

Systems and methods for financial settlement of transactions within an electric power grid network are disclosed. A multiplicity of active grid elements are constructed and configured for electric connection and network-based communication over a blockchain-based platform. The multiplicity of active grid elements are operable to make peer-to-peer transactions based on their participation within the electric power grid by generating and executing a digital contract. The multiplicity of active grid elements generate messages autonomously and/or automatically within a predetermined time interval. The messages comprise energy related data and settlement related data. The energy related data of the multiplicity of active grid elements are based on measurement and verification. The energy related data and the settlement related data are validated and recorded on a distributed ledger with a time stamp and a geodetic reference.

Some embodiments of the application disclose a method and apparatus for paying a fare. When a user takes a public transit means, the user terminal establishes an NFC connection with the fare-collecting device of the public transit means, the user terminal transmits the encrypted account ID of the user to the fare-collecting device, and the fare-collecting device may request a server to deduct the fare from the account of the user.

A method for managing operational costs associated with distributed computing. The method includes: creating, via a graphical user interface (GUI), a distributed computing team; linking a digital team wallet to the distributed computing team, wherein the digital team wallet is linked to a currency account; adding a member to the distributed computing team; allowing the member to purchase compute resource access from a plurality of compute resource providers using the digital team wallet; and notifying a team manager when funds in the digital team wallet reduce to at least a team threshold value.

Presented are methods and systems to universally assess composite utility consumption (1) in which a plurality of real-time and batch sensor readings such as from multiple disparate utility sensor data inputs (3) may be acquired and stored such as into a local device (2) or a central data warehouse (6). A composite utility estimated cost generator (9) can generate missing or uncorrelated data and a collected composite utility data information correlator (11) can correlate the data so it can be applied to determine some type of composite utility cost information. For real-time calculation, a disparate utility rate information accessor (8) can obtain multiple items of disparate rate information and this can use with correlated data to create a composite utility consumption and spend so a user can manage and control utility usage for a home, building, facility, plant, specific equipment, or the like. Cost information, such as a rate of spend or spend amount(s) to date or for a period may be presented to user in a variety of visualizations and reporting formats including specific time usage and spend information, specific time range usage and spend, and “time-of-use” billing information for specific real-time data points. The visualization and reporting may be used to answer a plurality of usage questions along with specific characterizations of utility spend across time of day domains and specific equipment usage domains thus affording more effective utility cost management.

A radio frequency identification (RFID) switch tag is disclosed. This RFID switch tag includes a base component having an ultra-high frequency (UHF) booster, and a detachable component having at least one UHF RFID module and a high frequency (HF) RFID module. In some embodiments, the detachable component is positioned in close proximity to the base component in a first configuration of the RFID switch tag such that the at least one UHF RFID module is sufficiently coupled to the UHF booster in the base component to form an UHF RFID system having a desired performance. The detachable component can also be separated from the base component to obtain a second configuration of the RFID switch tag, and the HF RFID module remains functional within the detached detachable component so that the detachable component can be used as a standalone HF RFID tag.

In general, intelligent fuel dispensers are provided. In at least some implementations, an intelligent fuel dispenser can determine customer identities and/or other characteristics and provide customized fueling sessions based on the determined customer identities and/or other characteristics. In at least some implementations, the fuel dispenser includes a touchless interface allowing customers to complete fueling sessions with minimal physical contact with the fuel dispenser.