An electronic payment system ideally should provide security, anonymity, fairness, transferability and scalability. Existing payment schemes often lack either anonymity or scalability. In this paper we propose WhoPay, a peer-to-peer payment system that provides all the above properties. For anonymity, we represent coins with public keys; for scalability, we distribute coin transfer load across all peers, rather than rely on a central entity such as the broker. This basic version of WhoPay is as secure and scalable as existing peer-to-peer payment schemes such as PPay, while providing a much higher level of user anonymity. We also introduce the idea of real-time double spending detection by making use of distributed hash tables (DHT), which further improves the security level of WhoPay.To evaluate how well WhoPay distributes load among peers, we have run simulations with several different configurations. The simulation results show that the majority of the system load is handled by the peers under typical peer availability, indicating that WhoPay should scale well.
Along with widespread information communication technology, digital management has been applied to a variety of fields. Considering the rapidly growing importance of medical treatment, for which medical record management plays a crucial role, it is time to make full use of digital techniques in the medical field. Doctors in different departments and locations can check the electronic records of patients without complex steps and can even consult together via the Internet. In this paper, we design a hierarchical–object–relational management system for electronic records (HORME). HORME can not only achieve the essentials of traditional paper‐based record but can also satisfy the requirements of privacy and security according to the factorization problem, which makes it possible to protect the right of the legal doctors, patients, and hospitals. Copyright © 2013 John Wiley & Sons, Ltd.
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