Smart Energy

Smart Energy

Smart Energy

The energy market is becoming a vertical market based on the machine economy.

The power industry contains a large number of distributed new energy and smart grid equipment. The digital transformation of energy industry will make the communication between energy equipment more frequently. At the same time, a large number of smart devices (such as new energy vehicles, smart charging piles, etc.) will create a new business model for reverse charging the power grid.

Trust to be Free

Solution Highlights

The BoAT SDK is embedded into the major cellular IoT module manufactures in the market. The BoAT SDK becomes integrated into a variety of commercially deployed blockchain networks, and also supports IoT devices to implement device trusted ID generation, registration, and one-stop blockchain smart contracts. IoT devices, once widely distributed in the field, become oracles for the blockchain network, achieving on-chain and off-chain data fusion, ensuring data reliability and tamper-resistance.

The BoAT SDK also utilizes various secure container (enclave) technologies such as the TEE (Trusted Execution Environment), SE (Secure Elements), and on the network server side a threshold signatures-based MPC (Multi-Party Computing) scheme to achieve monitoring of key generation, key storage, and data signatures. Different levels of data security protection and monitoring of operations is utilized to help ensure the integrity and credibility of the IoT data at the (edge) source of generation. These different levels actually help to protect data privacy, while complementing, guiding and ensuring that the blockchain becomes the key store of data value.

The BoAT SDK supports remote authentication of IoT devices, based on chip-level RoT (Root of Trust). Based on industry standards for remote device authentication, the service provider can reliably obtain the device ID and characteristics. After obtaining the device’s ID, service providers can make judgments on the integrity and credibility of the device according to the authentication report, and then determine the authenticity of the device to detect intrusions as service risk control. Risk control is needed to enhance the capabilities of service providers to protect the credibility of device data.