A dynamic blood information management system based on RFID

2015

A complete UHF radio-frequency identification (RFID)-based system capable of localizing individual blood bags inside storage cabinet drawers is presented. It was developed to demonstrate the improvement possibility of current blood stock management systems and as the submission to the 2014 IEEE AP-S Student Design Contest: Antennas for RFID Application. The system is composed of a cabinet model, a transceiver unit, and a PC with the controlling software. A new implementation of pseudolocalization principle is used to localize the blood bags that are equipped with dedicated passive tags designed to be resilient to blood proximity and small size. The detector antennas are placed at the drawers bottoms and additional passive tags are utilized to identify individual locations in each drawer. The transceiver unit is made from off-the-shelf commercial electronic boards and wirelessly controlled by software run on the PC. The entire system is small, transportable, battery powered, and low cost.

Biologicals, 2012

a b s t r a c t ISO/IEC 18000-3 mode 1 standard 13.56 MHz RFID tags have been accepted by the International Society for Blood Transfusion (ISBT) and the United States Food and Drug Administration (FDA) as data carriers to integrate with and augment ISBT 128 barcode data carried on blood products. The use of 13.56 MHz RFID carrying ISBT 128 data structures allows the global deployment and use of RFID, supporting both international transfer of blood and international disaster relief.

Vox Sanguinis, 2009

Background and Objectives Radio frequency identification (RFID) can be a key enabler for enhancing productivity and safety of the blood product supply chain. This article describes a systematic approach developed by the RFID Blood Consortium for a comprehensive feasibility and impact assessment of RFID application in blood centre operations.

ISBT Science Series, 2013

Automated identification and data capture systems, such as bar code and radio frequency identification (RFID), can be a key enabler for reducing errors and enhancing safety throughout the blood product supply chain. This project was funded by a Small Business Technology Transfer grant from the US National Institutes for Health. It represents the first comprehensive investigation to introduce RFID technology for automatic identification, tracking and monitoring of blood products across the blood banking spectrum. The System covers both blood center and hospital domains.

Short message service (SMS) blood bank provides the communication platform among the blood bank, blood donor and the person who require blood. The main purpose of the paper is to fulfill the blood request of the receptor with less hardship. In the existing systems the blood receptor will have to contact the blood bank and the blood donors individually which goes through time. Hence the proposed work aims to overcome this problem by allowing the receptor to simply send SMS in a predefined format, if the requested blood group is available at blood bank then the receptor will get contact details of the blood bank otherwise, he gets the contact numbers of the registered blood donors available at local database. The motivated individuals who are willing to donate blood can register his name by sending SMS, these data will be maintained in local database. The proposed work is implemented by using GSM modem, smart card CPU-Raspberry Pi 2 kit and IR sensors and Zigbee module.

Introduction:The need for the blood is important for treating in medical field. For every second someone needs blood to save their life. The task of blood bank is to receive blood from various donors, to monitor the blood groups database and to send the required blood during the need to the hospital in case of emergencies. In developing countries, especially like India, the blood resource lacks in quantity which is a barrier to others life. The Southern regions of Asia are weak in regulation of BTS and sometimes transferring the real time data are difficult. There are many shortcomings like decentralized nature of donor and required blood is needed at serious times. Manually is difficult in the current existing system and tracking the database for particular blood group is complicated. The aim of serving an efficient quality of blood to the patient. The last minute update of information are done in bidirectional way. So the information regarding the Blood Transfusion Services(BTS) is explained as entering the details about the blood groups, members, contact details, etc. and finding the donor with GIS. The update about the information after the donation of the blood by a donor is not entered in the system. The online blood bank management system helps to maintain the database and quality of blood. This increases reliability, fault tolerance and availability.

Automated Blood Bank is an associate work that brings voluntary blood donors and those in need of blood on to a common platform. The mission is to fulfill every blood request in the country with a promising android application and motivated individuals who are willing to donate blood. The proposed work aims to overcome this communication barrier by providing a direct link between the donor and the recipient by using low cost and low power Raspberry Pi B+ kit.

Asian Journal of Research in Computer Science, 2022

In the healthcare management domain, blood donation receives a particular interest due to its crucial and vital importance in saving people's lives. In Iraq, the blood donation procedure usually consumes a lot of time for donors as it is carried out through a non-automated and paper-based process, which is done only in hospitals/ medical centers for those who are willing to donate. Patients who are in a need for blood donation may have to wait until they receive the service, and this may results in dramatic or undesired consequences. At the same, the blood donation procedure negatively affects people who are willing or wish to donate blood and mostly leads to ignore this matter by a lot of them unless there is a critical situation concerning one of their family members. This paper propose a Mobile-Base Registration System for Blood Donation (MBRS_BD) using Firebase Cloud Messaging (FCM) to manage the process of donor's registration automatically using a smartphone to simulate, ease, and minimize the time required for that. Donor can register in any available Iraqi hospitals/ medical center using MBRS-BD and go in the exact time to complete his/her donation process.

IRJET, 2022

Life is the most priceless and valuable gift anyone can receive. It is crucial that anyone experiencing a health problem receives the necessary care as soon as possible. This project's primary goal is to meet the urgent blood needs of those who seek it. To accomplish this, we'll use an Android application that makes it simple to request blood. Users of this project can examine information about registered blood donors, including their name, address, and other personal facts, as well as information about their blood type and other medical details. The project also features a login page where users must register before viewing anything. Thus, using medical information and blood group information, this tool aids in quickly choosing the appropriate donor online. The major goal of creating this application is to drastically cut down on the amount of time needed to find the ideal donor and the necessary blood supply. Thus, this application quickly gives the necessary information and aids in hastening decision-making.

International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2023

Blood is a vital fluid. It transports oxygen and nutrients to cells. Human beings cannot live without blood. However, people may lose this valuable fluid at the time of accidents, pregnancies, or surgeries. So, blood is needed to transfuse to those people safely and quickly as latency in blood transfusion may lead to the death of that individual. Based on this, many systems were developed by different authors to help people in obtaining the required blood promptly. But all these developed systems solved this problem to some extent but they have their own merits and demerits. This paper is a review of those systems where different techniques and algorithms used by different authors in their proposed systems are discussed and compared. These systems uses either android application or GPS to track the donor's location. Blood donations and transfusions have become an increasingly serious problem, leading to blood shortages worldwide many people lose their lives. A major cause of these losses is the lack of a centralized blood donation system.