2D Barcode Biometrics
2D Barcode biometrics refers to a two-dimensional method of representing digital security information stored in biometric technologies. Suppliers of this technology provide 2D barcode biometrics applications products for businesses, often for fast, easy product identification, or easier and more efficient time and attendance systems for employees.
Companies using 2D barcode biometric technologies can expect greater efficiency and higher productivity because such products greatly lessen the time it takes to correctly identify merchandise and lowers the necessary time and effort for doing payroll if the company uses a 2D barcode identification system for logging hours. 2D barcode biometrics is especially useful law enforcement, government, military and certain commercial ventures.
2D barcode technologies work in concert with physiological biometric security devices to ensure the maximum level of security possible and identify both items and people. At airports for example, a biometric fingerprint sensor converts the individual’s unique fingerprint pattern into a 2D barcode which is subsequently printed on the passengers boarding pass.
Converting a biometric physical characteristic such as fingerprints, vein structure pattern, iris, or DNA into a 2D barcode helps process complex data more quickly and easily in many large and busy networks such as at airports. The development and improvement of 2D barcode technology has allowed for increased levels of security without slowing down travelers and holding up lines.
All the complex data which physiological biometric devices deal with such as the complex and intricate vein structure patterns, digitized in vein recognition biometrics, is condensed into a flat, small rectangle area called a 2D barcode.
For applications in retail, production and manufacturing, 2D barcode technology assists business owners to run their companies efficiently, productively, and with a heightened sense of security. Profitability increases with the application of 2D barcode technologies because it allows for asset tracking and theft prevention security systems. Owners and managers can track their products resulting in fewer losses and less potential for human error.
2D barcode technology is important to use with biometric physiological technologies in order to translate digital data of a processed image into a readable code, compatible with standard technologies. 2D barcodes make use of the vertical dimension to pack in a lot of data and save people and companies a lot of time and money in the process.
2D barcodes simplify identity authentication in conventional applications. Driver’s licenses, and many other major Identification cards, especially important ones all contain 2D barcodes to make verification quick and easy. The 2D barcode on the card is extremely useful because it contains a great amount of data that is nearly impossible to replicate and all on a small compact area.
The effectiveness and popularity of 2D barcodes has given rise to an entire industry of mobile biometric devices used for important security purposes, such applications would be impossible without 2d barcodes. In government, law enforcement and the military, mobile devices using biometric identification authentication techniques rely on 2D barcodes to verify and transmit important data across significant distances.
2D barcodes work by using upper and lower case letters, numerical symbols and special characters all compressed very small into a compact area. Some barcodes even use compressed images. The information contained in this compressed format is read extremely quickly and easily by a digital device.
It is clear that the use of 2D barcodes along with biometric technologies can make any industry more secure, efficient and productive. The market for devices, software and services using or implementing such technology is bound to grow as the need for increased security, efficiency, productivity and profitability continues to increase.
2D barcodes and biometrics are indispensable in today’s economy and can be found by following the links below.