SPOC: Secure and Privacy-Preserving Mobile-Healthcare Emergency Framework

Problem Definition

Problem Description: Privacy and security of personal health information (PHI) during healthcare emergencies is a crucial issue. Current systems lack a secure and privacy-preserving framework for opportunistic computing in mobile healthcare settings. There is a need for a system that can effectively utilize the resources of smartphones while ensuring minimal privacy disclosure. Additionally, there is a lack of efficient user-centric privacy access control mechanisms for PHI data processing and transmission during healthcare emergencies. This leads to potential risks of privacy breaches and unauthorized access to sensitive health information.

To address these challenges, a comprehensive solution like the SPOC framework is required to provide high reliability and privacy in PHI processes in mobile healthcare emergency situations.

Proposed Work

The proposed work titled "SPOC: A Secure and Privacy-preserving Opportunistic Computing Framework for Mobile-Healthcare Emergency" aims to address the crucial issue of information security and privacy preservation in m-Healthcare emergencies. The SPOC framework utilizes the resources of smart phones, such as computing power and energy, to gather personal health information during emergencies while minimizing privacy disclosure. An innovative user-centric privacy access control mechanism is introduced within the SPOC framework to ensure the reliability and privacy of the personal health information process and transmission. This mechanism is based on attribute-based access control and privacy-preserving scalar product computation techniques, enabling the selection of users who can participate in the computation and processing of the health data. By implementing SPOC, user-centered privacy access control can be achieved in healthcare emergencies, ensuring high reliability and privacy in personal health information processes.

The project falls under the category of C#.NET Based Projects and the subcategory of .NET Based Projects. The project was developed using C# programming language and the .NET framework.

Application Area for Industry

The project "SPOC: A Secure and Privacy-preserving Opportunistic Computing Framework for Mobile-Healthcare Emergency" can be beneficially implemented in various industrial sectors, particularly in the healthcare industry. Healthcare organizations face the challenge of ensuring the privacy and security of personal health information (PHI) during emergencies, and the SPOC framework offers a solution by utilizing smartphones to gather and process PHI while minimizing privacy disclosure. This solution can be applied in hospitals, clinics, and emergency response services to improve the reliability and privacy of health information processing during critical situations. By implementing the user-centric privacy access control mechanism introduced in the SPOC framework, healthcare organizations can effectively manage and protect sensitive health data, reducing the risks of privacy breaches and unauthorized access. Overall, the project's proposed solutions can benefit the healthcare sector by providing a secure and privacy-preserving framework for opportunistic computing in mobile healthcare settings, enhancing data security and privacy in emergency situations.

Application Area for Academics

The proposed project on "SPOC: A Secure and Privacy-preserving Opportunistic Computing Framework for Mobile-Healthcare Emergency" holds immense potential for research by MTech and PHD students in the field of information security and privacy preservation in mobile healthcare settings. This project addresses the critical issue of privacy and security of personal health information during emergencies, offering a comprehensive solution through the SPOC framework. MTech and PHD students can leverage this framework to conduct innovative research on user-centric privacy access control mechanisms for PHI data processing and transmission. By utilizing attribute-based access control and privacy-preserving scalar product computation techniques, researchers can explore new methods for selecting users who can participate in health data processing while ensuring high reliability and privacy. This project provides a solid foundation for developing simulations, data analysis, and innovative research methods for dissertations, theses, and research papers in the C#.

NET based projects domain. Future research can focus on expanding the SPOC framework to other healthcare settings and exploring additional privacy-preserving technologies to enhance its effectiveness. Overall, this project offers a valuable resource for MTech students and PHD scholars looking to pursue cutting-edge research in the field of information security and mobile healthcare.

Keywords

Privacy, security, personal health information, PHI, healthcare emergencies, opportunistic computing, mobile healthcare settings, privacy-preserving framework, smartphones, privacy disclosure, access control mechanisms, privacy breaches, user-centric, SPOC framework, information security, m-Healthcare emergencies, smart phones, computing power, energy, user-centric privacy access control mechanism, reliability, privacy preservation, attribute-based access control, scalar product computation techniques, healthcare data, user-centered privacy access control, C#.NET Based Projects, .NET Based Projects, C# programming language, .NET framework.