The Most Pervasive Problems With Driver's License Production
Embedded Personalization Is a Fundamental Aspect of Driver's License Production
Nearly 150 countries accept IDPs as official translations of their driver's licenses. IDPs are booklets that include the photo and name (in Latin or Cyrillic) along with the date and location of issue, the categories that are allowed, and a signature.
Thales offers a variety of security features that are at the forefront of technology to make documents difficult to forge. We also offer a variety of solutions that work with the chip that is used to create them and allow the use of polycarbonate cards.
Polycarbonate
Modern identification cards are made of polycarbonate. Its multi-layered construction makes it resistant against cracking and warping. This guarantees the durability of ID cards and prolongs their lifespan. It is also recyclable which reduces its environmental footprint. It is also resistant to extreme temperatures, which makes it ideal for use in a variety of climates. The layered structure of polycarbonate also makes it difficult to counterfeit or tamper with.
Polycarbonate is a cost-effective material that is durable and provides security. It is manufactured by a special procedure and typically incorporates advanced security features to guarantee its authenticity. They include holographic features UV printing, laser engraving, as and microtext that is difficult to duplicate. These features can be added to the card in the personalization and construction stages to offer layered security.
Polycarbonate is also able to support an entire variety of color photos and advanced features like ghost windows. This allows law enforcement personnel to quickly identify a genuine document from a fake document.
Polycarbonate is a lightweight material, and has a beautiful surface finish. It is therefore a good material for ID cards and travel documents which are exposed to many wear and tear. The polycarbonate's recyclability further reduces its environmental impact.
The biggest benefit of using polycarbonate in ID card production is its tamper-proof characteristics. Polycarbonate is indestructible to bending and is able to endure extreme temperatures. This makes it more secure than other substrates, such as Teslin composite or PET composite. In fact, it is so secure that it is virtually impossible to remove or change the information without breaking the entire card.
Another advantage of using polycarbonate in ID card production is its superior transparency and strength. Its flexibility and tensile strength make it durable, but still allow for precise laser engraving. It has a fantastic surface finish, which makes it a great option for printing with color.
In addition, the tamper-proof property of polycarbonate makes it an ideal material for border crossing cards. These are cards that are used for frequent travel across air, sea, and guarded land border, which require a more durable type of identification.
Teslin
PPG Teslin, a paper-like material, offers durability to credentials and allows for the addition of security features. Its ability to stand up to road debris, water and other environmental dangers makes it a great choice for motor vehicle departments seeking a durable temporary license plate material. It is also lighter than vinyl and polyester, making it more affordable to produce. Teslin combines the durability and strength of a polyolefin-based matrix with an exclusive security feature set that guards data from being altered or hacked attempts. They include a special coating that responds to infra red light, and a photo security element that permits simple identification by law enforcement.
North Carolina has been using the card construction of Teslin-based driver's licences since the beginning of May 2017. The state chose the new format in order to support its REAL ID program and to meet the federal requirements for a long-lasting high-security ID card. The state also wanted to have a card that could support future technological advances. The card's construction includes a core consisting of Teslin substrate and an PETg overlay with a color-specific personalization printed on both layers. The result is a robust, secure card that offers an excellent bonding ability to stop any tampering, and has an estimated life of eight years.
Teslin is a durable and secure substrate that can be used for a variety of printing and design technologies. It is compatible with conventional and digital printing methods such as offset thermal transfer, flexographic laser and inkjet technologies. It also supports different finishing techniques, including sewing perforating, embossing foil stamping and punching. This versatility lets issuers have more flexibility than they would with traditional multilayer synthetic or coated papers.
click here! of moving to new Teslin-based cards has proven to be successful. The card is widely used by residents of the state and law enforcement personnel, and has served as a vital tool to educate citizens on the benefits of a REALID card. The NC DMV also provided training for retailers, banks, and other businesses to ensure they are aware of the security features of the card.
Personalization Embedded
Modern driver's licenses are more that just a piece plastic that confirms your legality to drive a car. They also serve as a crucial method of identification for citizens and are frequently used for security purposes, such as border control inspections. As such, they need to be as secure and trustworthy as possible. Embedded personalization is one way to accomplish this.
Optical Character Recognition is a technology that transforms static images into information that can be searched and accessed digitally. This process speeds up identity verifications and increases accuracy, while reducing human errors. OCR is a vital tool for modern driver's license production. It has many benefits to the people and businesses who depend on it.
To utilize OCR the image of the driver's license needs to be clear and free of visual clutter. To do this, the image should be processed using software that reduces noise and sharpen the text. The image should be skewed so that all lines of text are horizontal. This helps OCR software to interpret the data correctly, and avoids errors caused by glare or dark shadows. The image must also be adjusted for contrast to improve readability.
The OCR process extracts information from QR codes, barcodes and other security features on the driver's license. It also can detect and decode holograms or magnetic stripes. These features are important for ensuring the authenticity of a driver's licence and increasing the confidence of the public in it.
In addition to enhancing the security of driver's licenses personalization embedded in the license can increase the user experience and improve efficiency. Some states, for example are currently testing electronic driving licenses that can be used to identify themselves at checkpoints or other verification processes. These licenses can be read via an app or another device. This will decrease the amount of documents required by citizens. They can complete forms online prior to visiting the DMV and save staff time.
Embedded personalization, the latest trend in ID cards production, comes with numerous advantages. It offers security, durability and high-quality print. Additionally, it helps reduce costs and time by removing the requirement to manually enter data and ensuring accuracy. It permits the personalization of various types of cards such as drivers' licenses and medical insurance cards.
Security
Security is a crucial aspect of the driver's license's production. Its goal is to safeguard citizens from fraud and counterfeiting. Furthermore it is a crucial part of a driver's license's credibility and acceptance. It is essential that drivers select a document with advanced features in order to protect their personal information and personal data. Veridos offers the most up-to-date technology to enhance driver's licenses into more secure documents. Veridos' extensive production experience in ID cards and security printing - gained from its parent companies Giesecke & Devrient, and Bundesdruckerei - allows this to be done.
Driver's licenses of the current generation contain a variety of security features that guard against forgery. These include a robust laminate, which adds ten times the strength of normal paper optical variable devices which make holograms appear in a variety of shades depending on how the card is positioned and high-resolution printed images. Hackers can still compromise these security features.
In an effort to combat this, a number of states have adopted new designs that are more difficult to forge. For example New York's new driver's licenses are based on monochromatic photos instead of full-color photos. This reduces the appeal of documents for illegal use, such by underage drinkers and other criminals. The government hopes to thwart the development of a black market for fake driver's licenses.
The digital version of the driver's license is in development and will become more widely accepted in future. It will make it easier for people to verify their identity online and also allow authorities from government to do so. It will also allow people to use mDLs in ways other than driving, for example, accessing sensitive accounts and banking.
The digital version of the driver's license will use the exact same elements of data as an actual license, but will be stored electronically. This is a significant improvement over the present physical credentials that are vulnerable to fraud and theft, can be easily stolen or lost or contain outdated or incorrect information.