The simplest of task have been made simpler, yet not only is this the future but it’s the now. Radio Frequency identification technology is technology that was created from Identification friend or foe or other wise known as (IFF). This later brought to life RFID, (Radio-Frequency Identification). The purpose of RFID varies has multiple purpose and multiple looks, but the results are all the same. There are multiple looks and shapes to these tags, some come in stickers, plastic, and even chips that would be implanted. Originally During World War 2 a British engineer Watson-Watt, developed the first active identify friend or foe (IFF). The purpose was to identify aircrafts that where returning to base. According to rfidjournal.com, IFF either reflects back a signal or broadcasts a signal. Thus creating RFID the modern tracker. The sizes of the transmitters varied from plane to plane, but ground troops had special readers that allowed them to identify the aircrafts. The implications of these modern methods of tracking later led to develop RFID tags. During the 50’s and 60’s the worlds scientist begun to research how advancements in radio frequency could be harnessed, it became emanate that this advancement would be used to track packages for consumers world wide. The first patents for RFID was America Mario W. Cardullo, he claims to have the first United States patent for an RFID tag with rewritable memory during 1973. That same year, a man named Charles Walton, received a patent for a RFID tag to unlock a door without a key. The RFID tag had an embedded transponder, which communicated a signal to a reader near the door. When the reader picked up a valid identity, the reader unlocked the door. Ultimately this advancement is soon t... ... middle of paper ... ...ves flaws in most cases. Every scientific advancement come with a draw back. Furthermore this advancement has major drawbacks, dealing with privacy, identity fraud, and malfunctioning product. The frequencies used in RFID from America are currently not compactable with those of Japan or Europe, due to no standard or universal bar code guidelines to be followed. According to the FDA “their potential complications from implanting RFID chips into humans, Adverse tissue reaction, Migration of the implanted transponder, Failure of implanted transponder, Electrical hazards, Possible incompatibility with magnetic resonance imaging (MRI)”. FDA approved implanting in 2004 and published the potential risks that come along with implanting the microchip. However more recent studies have found a potential rick of developing cancer, due to the inflamed tissue surrounding the tag.
The article then follows with “even low id error rates can lead to serious medical errors” further illustrating the dangers associated with incorrect ID’s. Following the study conducted at The University of Kansas Hospital (2003) shows trends that barcoding of patient’s wrist bands has reduced all errors associated with incorrect ID’s. This technique seems to be improving the system so fewer errors do occur, why in general is more economically viable.
What is this world coming to? When most of us think of tracking devices they think of primarily negative issues. But that has all changed now. A tracking device the size of a tic tack that can be surgically implanted to provide a tamper proof means of identification, enhanced e-business security, locating lost or missing individuals, monitoring heart rate, vital signs, tracking of the elderly, the location of valuable property, and monitoring the medical conditions of at risk patients, all at the convenience of a button or a phone call (www.allnet). It is called the GPM or as we know it the Global Positioning Microchip. Today I will discuss the ideals of the implanted microchip and some of the technical, social, economic, ethical and practical implications of its technology. Furthermore exploring some of the benefits and dangers of such a device. Invented entirely for animals man has expanded its uses to stolen cars tracking devices, criminal rehabilitations, and experimental animal observations. The chip has come a long way but where will it go from here.
The placement of implantable chips into patients for the purpose of accurately identifying patients and properly storing their medical history records has become a subject of a strong debate. Making sure patients are properly identified before a procedure and storing their health history records for future use has been difficult, if not impossible. The idea of being able to retrieve accurate patient’s medical history for a follow up care without relying on patient’s memory is a challenging task for many healthcare organizations. Many ideas and technologies have been introduced over the years to help solve this problem, but unfortunately the problem is still not fully resolved. There are still many errors in the healthcare due in part by improper record keeping and inaccurate patient identification. One idea that has being in discussion to eliminate these problems for good, is the introduction of a chip or radio frequency identification (RFID) technology implanted into human for the purpose storing medical data and accurately identify patients. VeriChip Corporation is currently the maker of this implantable RFID chip. They are the only corporation cleared by the U.S. Food and Drug Administration (FDA) to make this implantable radio frequency transponder system for humans for the purpose of identifying patients and storing their health history information. The chip was first developed for the use of radar systems by Scottish physicist, Sir Robert Alexander Watson-Watt in 1935 just before World War II. (Roberti, 2007). This technology helps identify approaching planes of the enemy from mile away. Today, RFID has several uses. It is used for animal tracking. It is attached to merchandise in stores to prevent theft. It can be instal...
The specific method used to determine where your equine is and if they have any diseases is a Radio Frequency Identification Microchip or an RFID. This kind of microchip is an identification method that has been researched by the National Animal Identification System. It establishes a nationwide system to identify horses and their locations. They are also the same kind of microchips that are used in dogs and cats. These microchips are cylinder-type devices that are implanted by a hypodermic needle. The microchips have four parts to them: a capacitor, an antenna, a connecting wire, and a covering. They may seem like they are too big to put into the horses, but they are only about the size of a little grain of rice. They are also battery free and sealed with in a biocompatible glass covered with a sheath that prevents migration, and they are made of s...
The microchip is a tiny transponder the size of a grain of uncooked rice. The chip is a permanent radio-frequency identification (RFID) chip implanted under the dog's skin that can be read by a chip scanner or wand. Implantation is done with an injector that places the chip under the loose skin over the dog's shoulder. This is a quick and easy process that can be done by all veterinarians provided they have the right technology to do so. The chip identification number is stored in a tiny transponder that can be read through the dog's skin by a scanner emitting low-frequency radio waves (Woolf 1). The frequency is picked up by a tiny antenna in the transponder, and the number is retrieved, decoded, and displayed in the scanner readout window. The radio waves use a frequency much lower than AM broadcast stations use, and they must be approved by the Federal Communications Commission before they can be marketed (Woolf 1). The chip, antenna, and capacitor are encased in a tiny glass tube. The tube is composed of soda lime glass, which is known for compatibility with living tissue. The glass is hermetically sealed to keep moisture out.
...The product will be able to move. Because they can see what is being sold and where people are buying it they have the ability to change forecasts on what they should do. Using the RFID the tracking system will help eliminate errors and ensure quality of the products.
This piece of technology was manufactured and is being marketed by the VeriChip Corporation. The VeriChip is a microprocessor used for verification and identification. A VeriChip can also be referred to as a radiofrequency identification tag, abbreviated as RFID. The VeriChip is used by doctors and is implanted under the human skin behind the triceps of the right arm, between the elbow and shoulder with the use of a syringe and when done the device can be used to identify the person’s medical history, credit-card number, security clearance and even club membership status. The chip is no bigger than 12 mm long and 21 mm in diameter. The insertion of the VeriChip takes approximately 20 seconds and this procedure costs about $200 (Dishneau, 2005). The medical-grade glass container consists of two main components incorporated together: a small microchip and an antenna.
One of the first problems with Digital Angel and the Verichip is the sparseness of information relating to the technology. A quick tour of the Applied Digital Solutions’ Verichip website will give you a quick synopsis of what RFIDs are, and then list a few possible uses of the technology. The Frequently Asked Questions page on the website is equally shortchanged on information, with just a short tidbit on how the chips are installed, among other information. With a device that people will be living with for the rest of their lives (should they choose to bestow it upon them), I feel that many would rather have available detailed information on the technology. This is even more applicable when you consider the hostility that many people breed to technology that could lead to their mass surveillance (i.e. fear of conspiracy); many of these people’s concerns will likely be alleviated just by releasing more detailed info out on the web for the public to see.
new advancements such as microchip implant for humans and animals can be very controversial. At first, the implants may seem to have benefits but in the long run they will actually cause more trouble than they are worth. These potential "troublemakers" are about the size of an elongated grain of rice and are injected in the skin under the arm or hand (Feder, Zeller 15). The chip is not powered by battery and there is nothing that can possibly leak out into the body (Posada-Swafford 8). An early form of this technology was used to monitor salmon and has been used for other wildlife research (Verhovek 5). The idea of the chips was started from the September 11 tragedy when the firefighters going into the Twin Towers were "IDing" themselves by writing information on their arm about their blood type, health conditions, and their identity with a permanent marker (Bentley 10). The VeriChip Corporation, which is owned by Applied Digital Solutions, saw this as an opportunity to market their product. As a result of their marketing ploys, Applied Digital claims that so far there have been about 1,000 human recipients of the chip.
Many Law enforcements depend on rapid identification systems. The reason for this is law enforcement can take every criminal DNA and store it in a system and be able to access it, if needed or to find a criminal if she or he commits a crime. Also, law enforcement is dependent on identification computers because law enforcement doesn’t want a system that will crash. For example, if computers were to crash, police wouldn’t be able to identify if the criminal is telling the truth about who he or she is. Therefore, the computers law enforcement uses should be solid and efficient. Also, FBI depended on systems to keep track of their criminal record databases, because many criminals like to hack Law Enforcement computers. Law enforcement spends billions
Microchips exist everywhere in our society, and are used by everyone at anytime. Today’s technology is so advance that even a tiny microchip can trace someone’s track. When you are using your cellphone with the GPS system, have you realize that you are being monitored for 24/7 by someone you have never met before in your whole life? Nowadays, Radio-Frequency Identification, also known as RFID tags, are commonly used by corporations as a tool on product tracking. They claim that the purpose of the RFID tags are to improve supply-chain efficiency, cut theft, and to guarantee that brand-name products are authentic, not counterfeit (Lewan). Privacy of the consumers, however, has been invaded due to the usage of these tags. Not only the companies have your private information in their database, any other third parties would be able to access that information without your authorization. Moreover, the radio frequency that releases from the tags will reveal your location, that means, every movement that you make is being watched. With the existence of RFID tags in our society, every part of your life would be able to discover by someone else. When these tags are no longer in use, consumers will not be afraid of the disclosure of their private information while purchasing their favorite products.
Radios are the most common wireless item in existence and are in most homes. We use them for entertainment, communication, as an information source, or even just back ground noise. For many of us radios are almost a necessity, but how much do we know about how they function?
The world has gone through a lot of changed as time passes by. With advancements in the technological field people are can communicate with ones from around the world without having to even lift a finger. To make things more efficient and more cost saving industries have made technology wireless. Wireless technology gives people the chance to get up from their stationary computer, or cord phone and able to freely move without restrictions. The IT, or Information Technology has become a standard and very critical part of today’s society. Wireless technology came from the basic just cellular usage to sensors in the medical field. Wires are now a thing of the past in today’s world with forever revitalizing technology.
People in the present society have turned from the use of the old means of communication to the more advanced and technological ways of communicating. Technology has made it easier for people to communicate in a faster, efficient, and cost saving means through the introduction of the communication channels. The world has turned out to be the centre for technology with different technologies emerging daily as the people continue to develop from time to time to cope with the growing technology. The benefits of adopting the communication technology are explained in this article which shows why people do not function without technology.