Innovative Systems Design and Engineering www.iiste.org ISSN 2222-1727 (Paper) ISSN 2222-2871 (Online) Vol.5, No.10, 2014 79 A Sector Analysis for Rfid Human Implantation: Technical Analyses for Privacy Enhancing Techniques Muhammad Habib yahabebi@ymail.com Abstract Radio Frequency Identification (RFID) has produced a lot of attention in replacing the barcode with microchip. This interdisciplinary research aims to undertake a scoping study of emerged technology serving the security purposes of devices, infrastructures and human utilization. The study aims to address the key areas of widespread RFID implementation, its control over the applied widgets and the effective improvement in the protection measures like owner tracking and cloning. As a part of research an attempt will be taken toward discussion on security framework to improve the model of smart environment eliminating the privacy loopholes. To enhance the real time security structure the Origins of RFID Microchips are essential to be discussed for the application in several sectors like logistics and health care industries. The study will contribute to develop methods and procedures to re-plane the RFID control system, as well as mark other privacy issues which arise in operations. INTRODUCTION Radio Frequency Identification (RFID) technology had humble beginnings in WWII in flying industries, Allied airplanes as well as to track nuclear material and in Australia its being in use by veterinary industry (NLIS) at large scale [1]. Technology then took another jump and currently used in logistics and supply chain management to track the items. Broadly the RFID tags are classified in three categories Active tag, Passive tag and Semi- Passive tags. The ultimate aim of this research is to contribute to the existing technology of RFID, a microchip having the ability to transmit static identity at the short distance: short distance is due to low power of emitting electromagnetic waves. Extensive research has been done to serve the humanity medically with RFID technology. The prosthetic use of microchips can progress scientifically, assist people to hear better, help the handicaps and possibly can facilitate the paralyzed people to move [2]. The human embedding microchip technology is available which implant the chips under the controlled application methods though some issues arises in its functional security framework as well as in the control application concerns. The issues include, tracking the person’s location at exact coordinates, habitual changes in action at security access point, the privacy concerns as well as the hacking personnel information and access to the secured data illegally. The security problems in the RFID are complex in nature. The undergone research will contribute to steadfast all the significant issue related to the Microchip implementation methodology, its operational measures and all the intensive security issues. LITERATURE REVIEW Radio Frequency Identification (RFID) technology began in World War II with an "Early Identification Friend (IFF) systems where it was possible for Allied fighters and anti-aircraft systems to distinguish their own returning bombers from aircraft sent by the enemy’’ [3]. All along with the benefits of the Micro chipping there are also some potential health problems as well. For example the major effects of radio waves can harm in a dangerous way where Non-lionizing Radiation from microwave radio frequency and magnetic fields can also cause of various health issues [4]. Within the medical field there are different ways that RFID can be incorporated. For example RFID chips can be used to track equipment within a hospital. Wristbands with an RFID chip embedded can help hospitals with patient safety requirements. Medical personnel can read the chip to get instant access to the patients' medical history such has medication allergies, medications prescribed and dosage, and specimen results [5]. One example of the Neuro electronic Interface being used is with a paraplegic named John Nagle. "Nagle showed an ability to perform a number of tasks with his mind: control a TV, move a mouse cursor on a screen, and command an artificial hand to open and close grip" [6]. There are limitations at this time for the Neuro-electronic Interface for RFID chip usage in human. The first is the amount of neurons available for the device. The fewer amounts of neurons there are will result the less likely the device work performance. There is health risks associated with the human being implanted with a microchip. Some health issues include "adverse tissue reaction, migration of implanted transponder, electromagnetic interference, electrical hazards, and magnetic resonance imaging incompatibility" [7]. The majority of RFID applications have centered on firms increasing efficiencies in the supplier management process, which ultimately results in lowered costs. However, RFID is also currently being used by logistic service companies in order to enhance the service effectiveness to