LORA is a blockchain data value ecosystem for the AI IoT era, with its core goal of establishing a blockchain network that enables efficient, secure, and incentive-reinforced data exchange and value mining. Through building a demand-oriented, reward data contributions, and subpackage implementation of data structures in community networks, LORA creates a secure, efficient, traceable, no-data-deposition, and further developable data trading platform, systematically addressing these pain points through data competitions and decentralized data trading.
Transaction history is recorded on the blockchain and permanently verified, allowing both parties to trust the transaction network at low cost. This requires the network to be reliable and private while avoiding issues like data deposition.
Economic system design promotes network nodes to publish data based on data development and derivative value discovery functions, while participating in the entire ecosystem development promotes data value discovery and continuously reduces exchange costs.
Through network mechanism design, data asset transactions become more refined.
Through network mechanism design, market-driven data pricing becomes more refined.
Supports high-concurrency data exchanges, reaching millions in lab environments and 39,523 TPS in real-world networks, serving as the infrastructure for future large-scale data collection, exchange, and edge computing result exchanges for AI, IoT, and robotics.
Supports automated verification methods such as data sampling, cross-comparison, format comparison, type identification, and range identification, providing multiple data quality verification capabilities by default while ensuring transaction security.
Supports programmable model calculation functions for data, enables developers to create more complex data analysis tools using common languages and integrate with LORA, and supports Oracle network integration to enhance smart contract functionality.
Supports integration with blockchain services that have mature solutions in data storage and computing capabilities.
LORA is the first blockchain-based PKI implementation. It completely eliminates central certificate authorities, using blockchain as the distribution ledger for domain names and their public keys. Additionally, LORA provides an auditable public PKI without single points of failure. Using LORA blockchain technology, citizens can sign transactions with their generated identities.
LORA public chain allows nodes to freely enter and exit the network, and the blockchain's network layer does not register user identities. The financial industry has relatively higher risks and security requirements, and unregistered nodes freely entering and exiting the network brings many uncontrollable factors to system security. When applying LORA blockchain technology in the financial industry, it should be combined with business requirements to analyze the necessity of using public chains and register node identities in the network. Additionally, technologies such as VPN private networks, firewalls, and physical isolation should be used to protect the physical networks and hosts of nodes, especially miner nodes.
LORA network transmission security is more reflected in its ability to effectively combat man-in-the-middle attacks. A Man-in-the-Middle Attack (MITM) occurs when an attacker creates independent connections with both ends of a communication and exchanges the data they receive, making both ends believe they are communicating directly through a private connection, while in fact the entire session is completely controlled by the attacker. Secure digital wallets need to be able to scan the legality of all digital certificates in the terminal, check proxy settings during network transmission, and ensure the security of the basic network communication environment.
Through long-term testing and optimization practices, LORA's BOE technology enables transactions to be instantly confirmed through netting multiple times, high-frequency, and bi-directionally off-chain. LORA has a global-leading concurrency speed of 39,000 transactions per second, more than 10 times faster than EOS. Compared to existing blockchain systems, LORA provides faster and more stable transaction confirmation with sufficient flexibility in design. LORA's BOE technology has already met the requirements for 10,000+ TPS. With the introduction of mechanisms like Off-Chain, transaction throughput can be further significantly increased.
