A mobile patient monitoring system using RFID (original) (raw)
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Abstract. This paper presents a customized design of a UHF Radio Frequency Identification (RFID) system to be installed at the Bank of Cyprus Oncology Center (BOCOC) in Cyprus. This is a pilot project that aims at evaluating the effectiveness and overall benefits of UHF RFID technology in the healthcare sector. The purpose of the project is threefold: a) Error-free identification of in-hospital patients through the use of RFID wristbands/cards; b) drug inventory control and monitoring; c) Real Time Location Service (RTLS) capable of lo-cating tagged objects within the premises of the hospital. For the three main pil-lars of the project, a Graphical User Interface (GUI) was developed in order to run on light-weight medical tablet PCs. The application can access data from a secured central database hosting sensitive information regarding patients, drugs, medical assets, and high-value equipment. The communication between the server and the medical tablet PCs is done over an encrypted ...
Framework to Build an Intelligent RFID System for Use in the Healthcare Industry
2012 Conference on Technologies and Applications of Artificial Intelligence, 2012
Information and Communication Technology (ICT) has been considered an important avenue for ensuring patients' good health, full social participation, and independent living as long as possible through their entire life span. In the last decade, various ICT solutions were developed to facilitate medical organizations in sharing critical information about patients, to enable patients to monitor their health, and to prevent errors in medications. Currently, there is increasing interest in using the Radio Frequency Identification (RFID) technology to save lives, to prevent errors, and to reduce costs. Medical organizations have adopted RFID tags to track and manage medical assets to improve their utilization and to reduce the need for future expenditures on duplicating equipment. To improve patient safety and medical service, some are using RFID for tracking and tracing patients while they are in a hospital environment, for integrating with medical monitoring equipment for emergency alerts and for ensuring the removal of tagged items of surgical equipment during an operation. As product and patient safety are global concerns, tracking and tracing legitimate drugs using RFID tags are being mandated by government agencies around the world. Although using RFID can provide trustworthy benefits in the healthcare industry, it is not being widely used due to the lack of security on the RFID tags and limited space for data storage. To tackle such concerns, we propose an integrated framework to build a RFID card system by embedding smart tags in insurance cards, medical charts, and medical bracelets to store medical information. It will simplify the maintenance and transfer of patient data in a secure, feasible and cost effective way.
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In healthcare context, the use of Radio Frequency Identification (RFID) technology has been employed to reduce health care costs and to facilitate the automatic streamlining of healthcare-associated infectious disease outbreak detection. RFID is playing an important role in monitoring processes in health facilities such as hospitals, nursing homes, special accommodation facilities and rehabilitation hospital. In this paper, we present a design of healthcare system using a real-time RFID-enabled application, called "Healthcareassociated Infectious Outbreak Detection and Monitoring System (HIODMS)".
RFID-based Hospital Real-time Patient Management System
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In a health care context, the use RFID (Radio Frequency Identification) technology can be employed for not only bringing down health care costs but also facilitate automating and streamlining patient identification processes in hospitals and use of mobile devices like PDA, smart phones, for design a health care management systems. In this paper, we outline a RFID model for designing a system in the health care. An application of the architecture is described in the area of RFID-based Real-time Hospital Patient Management System (HPMS).
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The studied and realized system uses the RFID identification technology in order to make more efficient the management of items and people in sanitary environments. This system has three main functions, covering respectively the tracking of items, the tracking and the identification of the employees, and the identification of the patients, including in this case also the function of electronic case history. For each of this cases specific studies have been made in order to identify the right technological solutions. For the first two applications a specific antenna has been created in order to reach the required performances. All these functions have been integrated into a single software platform managing all the activities of detection and identification, and providing all the required information to the users of the system.
IEEE Antennas and Propagation Magazine, 2012
In this paper, we present the design, implementation, and testing of a Radio Frequency Identification (RFID) system for healthcare applications. The constantly growing passive RFID technology at Ultra High Frequencies (UHF), in conjunction with current state-of-the-art Information & Communication Technologies (ICTs), was used for the system design. The end product was installed at an oncology hospital in Cyprus where it was thoroughly evaluated by medical staff and hospital administrators. This pilot project had three main objectives: a) automatic and error-free patient identification of in-hospital patients using RFID enabled cards or wristbands; b) Real Time Location Service (RTLS) for locating and tracking medical assets and high-value equipment in the hospital ward; c) quick and hassle-free drug inventory management through the use of inexpensive smart labels and cost effective stationary readers. Here, we present a detailed description of the three major subsystems of the pilot project emphasizing the main features and capabilities of the system, important design and implementation issues, as well as system evaluation and testing. During the design stage of the project, special emphasis was placed on user friendliness, system capabilities, adequate coverage and tag readability, privacy and security of sensitive patient data, system reliability, and the daily practices of medical personnel and hospital administrators.
RFID technologies in the health sector
E-Health Technologies and Improving Patient Safety: Exploring Organizational Factors, 2012
RFID technologies are increasingly acquiring a considerable relevance in the field of patients' assistance. This contributes to independent living and quality of life for many patients by reducing the need of caretakers and private nursing. In this chapter, the authors present an analysis of the use of RFID technologies for three different purposes: (i) collection and access of all patient records; (ii) tracking the movements of medical equipment; (iii) monitoring the health of patients. Moreover, the authors discuss the privacy implications and existing solutions. Privacy issue represents an obstacle to the acceptance of this technology. Transmitting unprotected signals, compressed in a standard format, through the RFID technology, is associated with the risk that someone might monitor these transmissions, accidentally or intentionally. Patient-monitoring applications require exceptional performance and quality of service to provide accurate, live information to the monitoring side.
An Rfid Based Device for Innovating the Patients Management
International Journal of Bioinformatics Research, 2012
The advent of computer systems in support of medical procedures has significantly improved healthcare services quality, and the patients' general quality of life. Nevertheless, these benefits not always improve patient's health directly. For example, in the case of an emergency relief to an injured or sick person, it is essential to obtain timely patient's past medical history in order to prevent the supply of incorrect treatments which could further aggravate the situation. In this context, the designed system wants to demonstrate how to dramatically improve medical history acquisition procedures and face the most serious situations, using RFID technology; not forgetting, among others, important aspects as integration into an existing computer system, or the economic factor.