TRENDS IN RFID AND THE IOT IN HEALTHCARE MANAGEMENT
Health Care is one domain that is benefiting from this internet infrastructure called the Internet of Things (IoT). This anytime, anywhere connectivity connecting any device will bring out advancements in the healthcare domain. Things will soon all be connected, sending and receiving data in one big infrastructure called the Internet of Things. All “things”, sensors, actuators, mobile and stationary will soon be sharing trillions and trillions of data between each other. These devices will pave the way for technological advancements in information technology domains such as the healthcare management. According to [2], the IoT consist of mobile computing, pervasive computing, wireless
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With the emergence of the internet and IoT and the declining cost of RFID we now have a viable solution and the ability to tag trillions of devices while monitoring and analyzing their big data. RFID is currently gaining popularity in monitoring activity and as in [4]. In a clothing store RFID can be equipped to articles of clothing to take each item for security and inventory purposes. These same concepts can be applied in the healthcare management domain.
We first begin with an introduction to RFID then touch on how it has grown more popularity because of the Internet of Things. Healthcare management faces many challenges today and finding new means to tackle these challenges usually is a direct result of new technology that is affordable and easy to implement, RFID can be the solution to many of these common challenges. In this paper we will touch on these challenges and see how using a simple RFID tag solution could possible improve on or solve these challenges. There is a lot of research today in all areas of healthcare management. This article will also look at some current related work on RFID as it relates to healthcare.
RFID
RFID is simply a wireless technology used to store information on an integrated circuit which is commonly referred to as a tag. The IoT suggest that we could potential see billions, if not trillions of these device all cross communicating with one another. These inexpensive tags can be placed on objects devices and even people
Internet applications in healthcare management have made major breakthroughs in the last decade. From e-mailing communications between doctors and their patients to having medicine prescriptions being renewed online. There has been certainly a number of the Internet of things innovated and thus far, the health care industry benefitting from it the most because of the simplicity and easy-to-use websites for health care services. There are a variety of applications that make daily tasks such as creating and putting patient records together, transferring medical records through secured databases to other facilities. Some factors of internet applications are for the improvement of patient care, decreasing costs, uniformity of future use, patient knowledge, increasing use of internet databases are all used in the healthcare industry. According to the National Center for Biotechnology Information “e-health is said to be very broad and covers topics such as telemedicine, electronic records, recruitment, going paperless, procurement, healthcare score cards, audits, information systems etc.” (Svensson, 2002). These factors of e-health services play such a huge role in today’s healthcare industry, giving customers of health a sense of independence with their medical information in which a patient will not be able to access after office or normal business hours. Technology in the healthcare industry in the long run does bring many benefits and yet still has its downfalls.
Regardless of the frequency, method of communication, or the power supply, the goal of any RFID system is to enable specific data to be transmitted between a portable device and the tag, and then be processed and used accordingly. RFID systems are used for objects which get lost, stolen often, underutilized, or difficult to locate in a timely manner.
The typical daily cost for single in patients in hospitals was over $1,700 in 2013, according to the Kaiser Family Foundation [10]. Remote monitoring products such as the BodyGuardian provide the healthcare advantages such as the option to move patients to their home and retain monitoring of their status by doctors and nurses. A paper [11] proposes an original, IoT-aware, smart architecture for automatic monitoring and tracking of patients, personnel, and biomedical devices within medical
I agree with you that in the medical field it is imperative that RFID tags be placed on equipment, access badges, laptop computers, and any other valuable assets. Being able to track medical equipment can save organizations money as lost or stolen equipment can be costly to replace. Additionally, it is important to have the ability to track badges as they provide employees with access to different departments of a hospital or facility which if misplaced or stolen can result in a breach of security. Furthermore, an employee laptop may have confidential patient information on it, therefore, having the ability to track such equipment is invaluable. Ultimately, the implementation of RFID tags provides several benefits to the hospital that not only
This will reduce the risks of medication errors that can seriously the harm patients, and cost the healthcare organization lots of money in order to compensate the patient, and to provide new drug dosage. Also, tis technology will help reduce the number of counterfeit prescription drugs that are given to the patients for a sick leave in the healthcare organizations. It is like mass sterilization of the prescription drugs where it ensures that each prescription is credible to use by the patient. The product will have a unique number to each prescription drug in order to record the to record information about all transactions involving the product. Overall, track and trace prescription drugs using RFID technology help in improving patient safety in and out side the healthcare
The scope of this paper is to bring about digitization in healthcare, where each individual’s health records are uploaded to the cloud and are accessed by a smart health card.
RFID is a technology which has made a major impact in the growth of every industry in their respective fields. Healthcare is one of the major users of RFID which has given their industry some reputation amongst others. But this technology is like a double gamer where the benefits of this technology are accompanied by a few issues in violating the privacy too. The threats involved in violating the privacy could be unauthorised access to data, misuse of patient’s information and also having these chips on a patient it could be easy for an unauthorized personal to read the tags since the patients won’t be too sensitive to the radio signals. These threats have violated the privacy rights (Privacyrights.org, 2003). Since these threats started to
As a result, health care organizations are adjusting and creating new business models and strategies. This massive exchange of digital information and forming of digital relationships increases consumer communication and engagement. The IoT enables exclusive analytics and device interfaces that deliver unparalleled levels of value for both health care consumers and organizations. A comprehensively interconnected health care product experience may involve sensors, microchips, systems integration, data centers, personal devices and user platforms. For example, mobile medical applications (MMAs) transform mobile platforms into familiar medical device interfaces. MMAs connect to medical devices to control functionality, performance and even energy management. This empowers patients to display, transfer, store or convert their personal data between connected
The most obvious effect of IoT on the clinical practice is the ability of any physician or a nurse to access- without the limitations of the time & locations - the medical records of any patient (e.g. diabetic patient) using only a tablet or a desktop computer and the scanned patients’ ID cards that links to a secure cloud which stores their electronic health record (Dimitrov
The FTC additionally notes that the IoT offers protection danger of unauthorized access and misuse of personal information; facilitating assaults on different systems; and growing dangers to personal safety. There is no doubt that the IoT will have an effect on every industry, whether it effects in horrific or accurate methods. In terms of better planning, few invasion makes element easier like the evaluation of information gathered with the aid of smart devices. there was one research performed and it suggests the end result that far away monitoring of patients over the net expected to lessen medical institution visits through forty percentage. this text focuses on the capability impacts of IoT and the information accumulated by these gadgets on the healthcare enterprise.
RFID, or radio frequency identification, is the new system that is replacing the use of barcodes. RFID tags allow users to more quickly obtain information from the object that the RFID tag
When all is said in done, RFID (Radio Frequency Identification) is a strategy for perceiving a human or item using a radio frequency transmission. The technology can be used to perceive, track, sort or recognize a wide variety of articles. RFID (Radio Frequency Identification) can be portrayed as takes after Automatic ID technology which uses radio-frequency electromagnetic fields to recognize items
Radio Frequency identification involves a small electronic device that has a small chip and antenna. 2,000 bytes of data can be carried by this chip. RFID devices give an object or product its unique identifier, just in the same way that bar codes and magnetic strips which are placed behind credit, ATM or debit cards. The data stored on the chip is only accessible when on scans the device and then the information is captured on the computer. Though one needs to scan the RFID device to gain access to the data, it is not mandatory that one places the scanner directly beside the chip. The chips can be read from approximately 20 feet as it does not use line of sight. This gives RFID a greater advantage over the other methods for automated data collection. RFID use radio waves to transmit a signal that can be read by a reader thus enabling the chip to transmit information to the scanner which then converts the data to machine readable information(Taghaboni-Dutta & Velthouse, 2006).
RFID is one of the most important technology in the world, where in our daily life we use it frequently and also it reduces our effort and work very much. This is very easy to establish and use as it contains only a small tag which has small space to store data with a small antenna which transmits the signals from the tag to the reader. There is a reader where it scans the tags and find out the information present in the tag find outs the pulls the relevant information from the back end that is the data bases where the whole lot of information is stored. RFID is used in different places to track, identify and update the information. This technology also provides safety and privacy from the thief’s and forgery problems there are many kinds of security attacks which are handled with this technology.
Samuel Fosso Wamba et.al. (2012), they compared with bar cryptography technology, what 's the importance of the relative advantage of oftenness identification (RFID) within the health care sector? What’s the result of RFID technology on plus management connected processes in healthcare? What area unit the