🔎Comparison of Web2 and Web 3 Online Games

Our approach focuses on implementing a transparent and verifiable system based on block hashes, ensuring fairness and integrity in the generation process. This section provides an in-depth exploration of the key points of comparison.

Randomness and Fairness:

1.1 Ongoing Game: Most games employ random number generators (RNGs) to determine game outcomes. However, the underlying algorithms and mechanisms used in these apps may lack transparency and fail to provide users with robust verifiability of the generated numbers. Consequently, concerns about fairness and the potential for manipulation can arise.

1.2 Hash Fair System: Our proposed Hash Fair System addresses the challenge of randomness and fairness by utilizing block hashes. These hashes, obtained from an unbiased and auditable source, undergo a rigorous transformation process that ensures a transparent and secure derivation of roulette wheel numbers. By leveraging cryptographic principles and mathematical techniques, our system guarantees fairness and mitigates the possibility of manipulation.

Security and Transparency:

2.1 Ongoing Game: Security and transparency of the RNG algorithms employed in ongoing game may vary significantly. Some apps lack proper audit mechanisms or fail to offer users visibility into the underlying processes, potentially undermining trust and confidence in the generated outcomes.

2.2 Hash Fair System: Our Hash Fair System places paramount importance on security and transparency. By leveraging block hashes, which are generated in a decentralized and publicly auditable environment, our system provides an enhanced level of transparency. The transformation of these hashes into numerical values follows well-defined and verifiable procedures, ensuring the integrity and security of the derived roulette wheel numbers.

Verifiability and Trust:

3.1 Ongoing Game : Ongoing game typically rely on third-party RNG providers or proprietary algorithms for generating random numbers. However, users often lack the means to independently verify the fairness and reliability of these outcomes, leading to concerns regarding the verifiability and trustworthiness of the generated results.

3.2 Hash Fair System: The Hash Fair System we propose empowers users with the ability to independently verify the fairness of the derived roulette wheel numbers. Through transparent and auditable transformation processes from block hashes to numerical values, users can gain confidence in the integrity of the generated outcomes. This verifiability fosters trust and enhances the overall user experience.

Implementation Complexity:

4.1 Ongoing Games : Implementing random number generation in games typically involves integrating existing RNG algorithms or relying on third-party providers. While this simplifies the development process, it may restrict customization options and control over the randomness generation mechanism.

4.2 Hash Fair System: Implementing our Hash Fair System entails developing custom algorithms and methodologies to transform block hashes into numerical values and map them to roulette wheel numbers. This approach introduces additional complexity but offers greater control and customization possibilities. Consequently, our system provides a tailored and transparent solution, allowing for meticulous management of the randomness generation process.

Conclusion:

Our proposed Hash Fair System offers distinct advantages over ongoing games in terms of randomness, fairness, security, transparency, verifiability, and trust. By leveraging block hashes and implementing transparent and auditable transformation processes, we ensure a fair and trustworthy derivation of roulette wheel numbers, thereby enhancing the gaming experience for users.