ABSTRACT
The integration of blockchain technology, particularly hyperledger fabric, into the domain of remote patient monitoring, presents a new era that has the potential to greatly improve healthcare systems. This research paper introduces a methodical strategy for integrating hyperledger fabric into remote patient monitoring systems. It provides a structure that efficiently addresses key challenges pertaining to data security, privacy, and interoperability. This study aims to establish a methodology for remote patient monitoring environments by carefully analyzing the distinctive requirements and constraints associated with these types of environments. The methodology encompasses various key phases, including network configuration, smart contract design and sensitive data management specifically tailored to healthcare contexts. In addition, the study explores practical methods of implementation and conducts performance evaluation of the suggested strategy using minifab and hyperledger explorer, respectively. This analysis provides valuable insights into the effectiveness and efficiency of the approach in safeguarding the privacy and security of patient information. Through an examination of the mutually beneficial capabilities of hyperledger fabric and remote patient monitoring, this study makes a valuable contribution to the advancement of healthcare systems that are both secure and efficient.
