Project Whitepaper
  • INTO Whitepaper
  • 1.Background Introduction
    • 1.1 From Web1 to Web3, the Internet has been evolving
    • 1.2 The Internet Requires New Ways of Communication and Transactions
    • 1.3 The Huge Market Potential of Web3 to Be Explored
  • 2.Introduction to INTO
    • 2.1 Vision and Goals of INTO
    • 2.2. INTO Technical Architecture
    • 2.3. Modules and Functions of INTO
    • 2.4. INTO's Features and Advantages
  • 3.Development Plan and Technical Roadmap of INTO
    • 3.1.Goals and Implementation Strategies for Each Stage
    • 3.2.Technical Roadmap
  • 4.INTO Token Economic Model
    • 4.1.Token allocation and issuance
    • 4.2 Token Use Cases and Value
  • 4.3.Incentives and Rewards Mechanisms
  • 5.INTO's Economic System
    • 5.1 INTO's Economic System
  • 6.Project Milestones
    • 6.1 Project Milestones
  • 7.Disclaimer and Legal Statement
    • 7.1. Risk Warnings
    • 7.2. Disclaimer
Powered by GitBook
On this page
  1. 2.Introduction to INTO

2.2. INTO Technical Architecture

To ensure the security and privacy of user data, INTO adopts distributed storage technology to store community data. Distributed storage divides data into encrypted pieces and stores them in a decentralized node network to ensure stability and persistence of data in the decentralized network, while protecting user privacy.

Blockchain Technology

INTO adopts Match as the underlying blockchain platform, utilizing its mature smart contract functionality and decentralized features to provide infrastructure for community governance. At the same time, INTO focuses on other promising blockchain platforms such as Ethereum, Polygon, Binance, exploring cross-chain interoperability, achieving cross-chain support and expanding the user base.

Distributed Storage

To ensure the security and privacy of user data, INTO adopts distributed storage technology to store community data. Distributed storage divides data into encrypted pieces and stores them in a decentralized node network to ensure stability and persistence of data in the decentralized network, while protecting user privacy.

Smart Contracts

INTO utilizes smart contracts to achieve automation and transparency of community governance. Community rules, voting, reward allocation, and other activities will be encoded and executed through smart contracts to ensure fairness and reduce the possibility of human intervention. Once a smart contract is deployed, it cannot be changed, ensuring the stability and reliability of community governance.

Identity Verification and Permission Management

INTO adopts decentralized identity verification (DID) technology to protect user privacy while achieving identity recognition. DID stores user identity information on the blockchain, allowing users to control and choose the information they disclose to third parties, enabling users to participate in community governance efficiently while enjoying privacy protection.

Token Economy

To incentivize community members' participation and contribution, INTO has designed a comprehensive token economy model, including community token issuance, reward allocation, governance voting, etc. Through the token economy, community members can directly benefit from their contributions, increasing participation and activity. The token economy model links the interests of community participants with community value, forming a virtuous circle and promoting the sustainable development of the community.

Privacy Protection

INTO attaches great importance to user privacy protection, using encryption technologies such as zero-knowledge proof (ZKP) to ensure the secure storage and transmission of user data throughout the system. ZKP allows users to prove their rights or qualifications to other community members without disclosing any privacy information, enabling users to participate fully in community activities while protecting their privacy.

Previous2.1 Vision and Goals of INTONext2.3. Modules and Functions of INTO

Last updated 2 years ago