6. Product Roadmap and Future development plan:

6.1. Inference Endpoints Marketplace with zero-knowledge proof (verifiable ML)

• Concept overview

Traditionally, model buyers may worry about sellers altering parameters to reduce computational costs or downgrading the model in real production. You want assurance that the machine learning model some entity claims has been run is indeed the one that ran. Examples include a case where a model is accessible behind an API, and the purveyor of a particular model has multiple versions – say, a cheaper, less accurate one, and a more expensive, higher-performance one. Without proofs, you have no way of knowing whether the purveyor is serving you the cheaper model when you’ve actually paid for the more expensive one (e.g., the purveyor wants to save on server costs and boost their profit margin).Specifically, so many people are complaining that the quality of GPT4 decreased significantly recently compared to what was promised in their demo and some of the initial days launched. However, the integration of zero-knowledge proof mechanisms on the blockchain can remove these concerns.With this technology, API inference endpoints become more efficient and reliable, as buyers no longer need to worry about the authenticity and quality of the model. Furthermore, model owners have the opportunity to crowdsource "model validation" tasks in real-time to users on our AxisX AI platform. This crowdsourcing approach ensures that the model's outputs are continuously validated, maintaining customer satisfaction with the model's quality and performance.

6.2 Consensus-driven labeling and model monitoring (on-chain)

In the realm of AI training and production, ensuring the accuracy and reliability of labeled data is paramount, yet it remains a significant challenge. Current methodologies in web2 often rely on a limited set of annotators whose biases and errors can inadvertently skew the data, leading to models that are less robust and potentially discriminatory. Furthermore, once AI models are deployed, monitoring their performance and integrity in a transparent and tamper-proof manner is difficult, especially in critical applications where trust is essential. Integrating a consensus-driven labeling and model monitoring system, leveraging blockchain technology, offers a promising solution to these problems. The consensus mechanism inherent in blockchain provides a decentralized and democratic approach to validate and verify labeled data, ensuring that it is not only accurate but also traceable later easily on chain. This method reduces the risk of bias and errors significantly. Moreover, by utilizing blockchain for model monitoring, every interaction and adjustment made to the AI model can be recorded in an immutable ledger, enhancing transparency and accountability.Here is how it could technically unfold:

1. Task Distribution: A smart contract distributes a data labeling task to a predetermined number of participants (e.g., 10 people) in the network. Each participant reviews the same piece of data and submits their label to the smart contract.

2. Consensus Threshold: The smart contract is programmed with a consensus threshold, in this case, 70% or more. This means that if at least 70% of participants agree on a particular label, the smart contract automatically accepts this label as the final consensus result for the data point.

3. Result Recording: Once the consensus is achieved, the smart contract records the agreed-upon label on the blockchain. This record includes the label itself, the task identifier, and possibly the identifiers of the participants who contributed to the consensus. This ensures transparency and traceability.

4. Cryptography Incentive Distribution: Participants who contributed to the consensus will be paid instantly and automatically with tokens as per the smart contract's terms. This incentivizes quality and honest participation.

To enhance the quality of labeling, contributors will be required to stake tokens as a commitment to accountability unless they will lose their own money. This mechanism encourages them to maintain higher standards and deliver superior quality work.

6.3 Crowdsourcing marketplace for AI development on chain

Challenges in Traditional Crowdsourcing Marketplaces such as Amazon Mechanical Turk:

1. High Fees and Margin Costs: Platforms like Amazon Mechanical Turk often charge significant fees (20%), reducing the earnings of task contributors and increasing costs for task requesters. These platforms act as intermediaries, necessitating higher margins to cover operational costs.

2. Lack of Transparency: Traditional platforms may not provide detailed insight into how tasks are distributed, completed, or how disputes are resolved. This lack of transparency can lead to trust issues among participants.

3. Centralized Control: Centralized platforms have complete control over the rules, fee structures, and the distribution of tasks, which can lead to imbalances in power and potential censorship or bias in task distribution.

4. Limited Trust and Security: Participants must trust the platform for payment processing, personal data security, and fair dispute resolution, which can be problematic if the platform fails to uphold high standards of integrity and security.

5. Inefficient Dispute Resolution: Centralized platforms often have slow and bureaucratic dispute resolution processes, which can be frustrating for both task requesters and contributors.

6. Slow payment process for contributors: traditionally, contributors have to wait for at least 30 days to receive the payment and the traditional payment methods always charge fee (such as 4.4% for paypal).

Blockchain-Based Crowdsourcing Marketplace Advantages:

1. Reduced Costs through Decentralization: By operating on the blockchain, the marketplace can significantly reduce or even eliminate high platform fees. Smart contracts automate task distribution, completion verification, and instant payments, reducing the need for a costly intermediary.

2. Enhanced Transparency and Trust: All transactions, including task postings, completions, and payments, are recorded on the blockchain, providing an immutable and transparent audit trail. This transparency builds trust among participants.

3. Democratic Task Governance: Utilizing a consensus mechanism for task validation and dispute resolution democratizes the marketplace. Participants can have a say in important decisions, such as changes to the platform's rules or dispute outcomes, based on a consensus model.

4. Secure, Direct and instant Payments: Payments are made directly, automatically and instantly between participants through token-based systems, secured by blockchain technology. This reduces the risk of fraud and non-payment.

5. Efficient and Fair Dispute Resolution: Disputes can be resolved through a consensus mechanism, where selected or interested participants can vote on the outcome. This process can be quicker and perceived as fairer compared to centralized arbitration.

6. Incentive and Reputation Systems: The platform can incorporate token-based incentives for high-quality work and participation in governance. A transparent reputation system, recorded on the blockchain, can help ensure reliability and quality of work.

By addressing the limitations of traditional crowdsourcing platforms with a blockchain-based approach, this new marketplace can offer a more equitable, transparent, and efficient environment for AI development tasks. The integration of consensus mechanisms not only for task validation but also for governance and dispute resolution introduces a level of democratic participation and trust that is often lacking in centralized platforms.

6.4 Launchpad for AI projects

Our ecosystem offers a comprehensive suite of tools for AI projects, and as part of our ongoing commitment to support innovation, we also plan to introduce a launchpad for AI projects. This platform will offer them the opportunity to secure funding directly from the community through token sales. Our fee structure will be based on the amount of funds each project successfully raises or fixed fees.

6.5 Decentralized dataset pool: (start from xxx USD/mon to use this decentralized dataset pool) The final pricing will be announced later.

AxisX AI is committed to building a decentralized, high-quality AI dataset pool to support the AI community in early 2025. One of our core strengths lies in our extensive background in the AI data field, which allows us to contribute a vast collection of rare and valuable real-world datasets to kickstart the pool. These datasets include but not limited to:

• Real call center audio data in multiple languages

• Diverse image datasets representing various ethnicities

• Medical datasets in DICOM format

• Authentic medical dictation audio datasets

These datasets, valued at several million USD in the current market, will form the foundation of the pool. By contributing this invaluable data, we aim to establish a strong initial foundation to attract early customers. This, in turn, will incentivize more new contributors to join the ecosystem, creating a robust and sustainable decentralized AI dataset marketplace.One of the key advantages for customers is a simple flat monthly subscription fee. With this model, customers gain access to a continuously expanding pool of high-quality datasets as new contributions are added, ensuring long-term value and scalability for their AI development needs.1. Key Factors for Point Distribution to distribute revenue sharing for contributors:Points will be awarded based on the following three factors: