Patent ID: 10673617

Abstract:
A combined system and not a system separately having a complex system hardware architecture and software with levels of complexity of P2PE, IAM, and BCE. A microcontroller (MC) 64-bit using MC (A) and MC (B) embedded into a device using point-to-point encryption (P2PE) to communicate with the novel IAM blockchain software and a central server database to track all registered and non-registered IoT devices in the BCE. The present invention includes a MC 64-bit method of MC (A) and MC (B) having an advanced encryption standards (AES) strong encryption algorithm (SEA) of 512-bit key utilizing the blockchain ecosystem (BCE), IoT identity to validate transactions between the authentication, and identity of the IoT devices. The MC 64-bit of MC (A) and MC (B) employs a novel AES-SEA 512-bit key to generate a real-time randomly validation symmetrical key encryption in rounds of 10 bits, sending data into the central server and the IAM blockchain software to authenticate each device, track IoT devices, MC entries, and validations. Once the encryption AES-SEA 256-bit key is generated in the MC (A) and the encryption AES-SEA 256-bit key is generated in MC (B), the communication between the MC (A) and MC (B) will generate the AES-SEA 512-bit key with 10 bits; the pseudo-random number process is modified using a time based to be programmed with a timer which has an input of the clock frequency. The MC 64-bit of MC (A) and MC (B) is programmed in a master mode and slave mode; therein providing a novel system of circuit hardware using an AES-SEA 512-bit key and AES 2048 algorithm key to generate PKI certifications for validation, authentication, and authorization through the BCE.