CESS collaborates with top medical science experts to create revolutionary infrastructure for the DeSci track

CESS
2024-12-23 10:22:36
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CESS provides strong technical support for DeSci through innovative decentralized storage technology and a decentralized framework.

Image Scientific research is entering a new era of decentralization. Decentralized Science (DeSci) leverages blockchain technology and distributed storage to enhance the openness, transparency, and efficiency of scientific research. As an innovator in the next-generation decentralized storage platform, CESS not only possesses an excellent technical foundation but has also brought in Dr. Changge Fang, who has rich experience in the international medical and research fields, to contribute to its development. The aim is to provide revolutionary infrastructure support for the DeSci sector while developing vertical applications to inject new momentum into global scientific research.

Top Medical Science Experts Support: Driving Transformation in the DeSci Sector

Dr. Changge Fang has nearly thirty years of experience in medical research and innovation, including the development of patented three-dimensional tumor models during his tenure as a researcher at the NIH to accelerate cancer drug screening. His contributions in areas such as cancer immunotherapy and stem cell therapy have not only improved treatment outcomes but also promoted the industrialization of medical technology. This background injects strong momentum into CESS's deep expansion in the DeSci sector. Dr. Changge Fang will support CESS's innovations in the following areas:

  1. Optimizing medical research data storage solutions Medical data is vast and sensitive. With Dr. Changge Fang's professional advice, CESS will further enhance the security and access efficiency of its storage architecture.
  2. Promoting data sharing and standardization Dr. Changge Fang's experience will assist CESS in formulating decentralized storage and data sharing standards that comply with the medical industry, promoting collaboration among global research institutions.
  3. Empowering precision medicine and health data analysis Through CESS's technology, medical data can be securely stored and analyzed, providing strong technical support for precision medicine.

How Does CESS's Technology Support the DeSci Sector?

CESS provides strong technical support for DeSci through innovative decentralized storage technology and a decentralized framework, specifically in the following aspects:

  • High-frequency dynamic data support

CESS supports dynamic data storage and management, offering complete CRUD (Create, Read, Update, Delete) functionality. Research data often requires multiple updates and verifications, and CESS can meet the multi-stage storage needs from experimental records to data analysis through its dynamic data support features.

  • Location-Based Storage System (LBSS)

The LBSS feature enables CESS to manage data regionally based on geographic location, ensuring that medical and research data comply with the regulatory requirements of various countries. Particularly for multinational research collaborations, LBSS can meet the regulatory standards of different regions, enhancing data utilization efficiency.

  • Decentralized privacy permission hierarchical management

CESS provides multi-level privacy permission settings, supporting users in finely managing data access and usage. By ensuring data sovereignty through blockchain technology, CESS can safeguard the privacy and security of medical research data during storage, sharing, and analysis.

  • Large-scale commercial storage support

CESS's decentralized object storage service (DeOSS) rivals centralized Amazon S3, achieving storage performance close to Web3 on a decentralized basis. DeOSS supports the storage needs of large-scale research projects, such as genomic analysis and drug development in high-frequency, big data scenarios. Additionally, through a distributed storage network, CESS can significantly reduce storage costs.

  • Disaster recovery management system

CESS employs an innovative PoDR² (Proof of Recoverable Storage with Multiple Replicas) mechanism to ensure the integrity and availability of data in any unforeseen circumstances. This feature is particularly suitable for research data that requires long-term preservation and repeated verification.

  • Millisecond-level retrieval capability

CESS's storage system supports millisecond-level data retrieval, meeting the high real-time requirements of scenarios such as smart city construction and medical data analysis.

  • Promoting compliance and transparency

CESS combines smart contract technology to ensure the public verification of research data and the transparency of resource allocation, addressing trust issues in data usage and enhancing research efficiency.

Vertical Applications: Comprehensive Coverage from Infrastructure to Research Scenarios

Based on the research and innovation of CESS technology, the following dedicated applications are under development and promotion:

  • Research data management platform: Scientists can securely store and manage experimental data and easily share research results.

  • Decentralized academic publishing system: Breaking down traditional publishing barriers, making research results more accessible.

  • Distributed clinical trial database: Supporting the transparency and credibility of clinical trial data.

  • Medical AI model training platform: Providing high-quality data for AI model training, driving medical innovation.

Industry Recognition and Collaboration

As a builder of decentralized data infrastructure and a key component of it—leading storage technology, CESS plays an important role in the standardization construction within the industry. For example, CESS proposed the first decentralized storage protocol standard IEEE P3220.02, laying the foundation for industry technical specifications. At the same time, CESS is a member of professional organizations such as the Blockchain Association (BA) and the Global Blockchain Association (GBA), actively promoting the mainstream application of blockchain technology. Through in-depth collaboration with these organizations, CESS can participate in the formulation of global compliance policies, laying the groundwork for future entry into government and public sector markets.

Future Vision: Openness and Fairness in Scientific Research

The combination of CESS's technology and medical science not only drives the transformation of scientific research models but also brings the following important values to the global research community:

  • Empowering global collaboration: Eliminating data silos and promoting interdisciplinary and inter-institutional collaboration.

  • Protecting data sovereignty: Providing scientists and institutions with complete control over their data.

  • Promoting equitable access to research results: Reducing knowledge barriers through decentralized technology, allowing more people to benefit from scientific progress.

Conclusion

The future of scientific research belongs to openness and decentralization. By combining cutting-edge technology with the wisdom of global medical scientists, CESS is building a solid foundation for the DeSci sector and continuously driving innovation in research scenarios. CESS's vision is not only to change the way research data is stored but also to promote global scientific research into a fair and transparent new era.

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