Moreover, the peer-to-peer architecture used in blockchains allows all copies of a patient's record to be synchronized with one another as updates are made, even though they are stored in different computers. In fact, each network node holds a copy of the entire blockchain, and they communicate regularly to ensure data is up to date and authentic. Thus, decentralization and data distribution are also important aspects.
It is worth mentioning that blockchains are distributed but not always decentralized (in terms of governance). Decentralization is not a binary thing, so depending on how nodes are distributed and on the overall architecture, distributed systems may present variable degrees of decentralization. In the context of healthcare, blockchains are usually built as a private network, as opposed to the public ones that are typically used as cryptocurrency ledgers. While anyone can join and contribute to the development of a public blockchain, private versions require permission and are managed by a smaller number of nodes.
Increased security
As mentioned, one of the most important use cases of blockchains in the healthcare industry is leveraging the technology to create a secure and unified peer-to-peer (distributed) database. Thanks to blockchains' immutability, data corruption should no longer be a concern. The blockchain technology can be used to effectively register and track the medical data of thousands of patients. Unlike traditional databases that rely on a centralized server, the use of a distributed system allows for data exchange with higher levels of security, while also cutting down on the administrative costs that the current system imposes. The decentralized nature of blockchains also makes them less vulnerable to technical failures and external attacks that often compromise valuable information. The security provided by blockchain networks can be particularly useful for hospitals, which are often dealing with hacker invasion and ransomware attacks.
Interoperability
Another advantage of blockchain-based medical records is their ability to enhance interoperability among clinics, hospitals, and other health service providers. Technological differences in data storage systems often make it difficult for organizations to share documents. Blockchains, however, can solve this problem by allowing authorized parties to access a unified database of patient files or even medicine distribution records. So rather than attempting to interface with each others' internal storage, service providers can work together on a single one.
Distributed business public blockchain BitCherryโ-โDistributed Cloud Computing Cloud computing is a type of distributed computing, which refers to the process of decomposing massive data computing processing programs into countless small programs through the network "cloud", and then processing and analyzing these small programs through a system composed of multiple servers to obtain results and Return to the user. In the early days of cloud computing, it was simple distributed computing, which solved task distribution and merged the calculation results. Therefore, cloud computing is also called grid computing.
As the world's first technology-based services to IPv8 distributed business expansion can enhance blockchain infrastructure, BitCherry innovative physical layer built P2Plus-end encryption network protocol that provides a high-performance, high security for the medical field, increased availability of the underlying technical support, Through cloud computing technology, it can complete the processing of tens of thousands of data in a short time (a few seconds), thereby providing robust network services for the medical field. The application scenarios of cloud computing technology in the medical industry are wealthy. Effective use of cloud computing technology can solve many problems in the medical industry in data management, telemedicine, etc. Still, at present, it is limited by the unique business model restrictions of the medical sector, BitCherry also requires constant exploration and development, but precisely because of this step by step exploration, BitCherry to allow better integration of cloud computing technology integrated with the medical profession to serve the community.
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