WiMi Hologram Cloud Inc. (NASDAQ: WIMI) (“WiMi” or the “Company”), a leading global Hologram Augmented Reality (“AR”) Technology provider. As IoT applications continue to expand, traditional security models may not be able to meet the challenges of future digitalization needs. Enterprises are particularly concerned about user data privacy, recognizing that privacy breaches can have a huge impact on user trust and business reputation. Therefore, WiMi’s model focuses on protecting the data privacy of transactions through Bitcoin and Ether blockchain technology to ensure that user data is adequately protected during network transmission. WiMi developed a blockchain-based transaction data security model for large-scale private networks. First, it is necessary to ensure that the communication between nodes is secure against threats such as attacks. Secondly, it is necessary to address the risk of privacy leakage that a large amount of user data may suffer when it is transmitted in the network. Most importantly, to realize all of this in an IoT architecture, one needs to take into account the possibility that nodes may not always be able to rely on each other for critical communications.
WiMi utilized a combination of digital certificates, RSA-based public key infrastructure and blockchain technology. Digital certificates and public key infrastructure ensure the security of the communication channel, while blockchain technology is introduced to enhance data integrity and network node protection. This technology solution is designed to provide comprehensive privacy protection and security for large-scale private networks.
The model is based on Bitcoin and Ether, utilizing mechanisms such as Proof of Work (PoW) and Proof of Stake (PoS) to validate transactions and generate new blocks. This guarantees the legitimacy of transactions and the overall robustness of the network. The model ensures the integrity of the transaction data by referencing the immutability of Bitcoin. Each block contains a certain amount of transaction information, forming a coherent chain that prevents data tampering and forgery. The model introduces Ethernet’s smart contract concept, which enables a more flexible and automated transaction process through smart contracts.
The large-scale private network transaction data security model based on blockchain technology uses blockchain’s peer-to-peer encrypted links to ensure the security of data transmission. Each node ensures the security of the encryption and decryption process of the communication channel through the use of Bitcoin and Ethereum cryptography. Through the distributed ledger mechanism of Bitcoin and Ether, the model ensures that each node has an identical, up-to-date copy of the ledger. This helps to ensure data consistency and traceability throughout the large private network. Through the combined use of Bitcoin’s PoW mechanism and Ether’s PoS mechanism, the model enables efficient verification of transactions and the generation of new blocks. This improves the resistance of the entire network to attacks and makes large private networks more secure and reliable.
WiMi will continue to optimize and upgrade its large-scale private network transaction data privacy and security model as technology continues to evolve. The integration of emerging technologies, such as quantum security and more advanced encryption algorithms, will further enhance the security of the network. The model is not only applicable to specific industries, but is also expected to be a solution for building secure large-scale private networks across industries. From finance and healthcare to manufacturing and retail, secure large-scale private networks will play a key role in various fields.
WiMi’s blockchain technology will play a central role in the data privacy and security model for LPN transactions. By deeply integrating key technologies such as Bitcoin and Ether, the model fully utilizes the immutability of blockchain, the flexibility of smart contracts, and the trustworthiness of distributed ledgers. This integrated use provides an efficient, secure, and scalable technical framework for large-scale private networks, further advancing the development of blockchain technologies such as Bitcoin and Ether in practical applications.