Embedded Personalization Is a Fundamental Aspect of Driver's License Production
Almost 150 countries recognize IDPs as official translations of their driver's licenses. IDPs are a booklet that includes a photo and a name (in Latin or Cyrillic) as well as the date and time of issue, the categories allowed, and an signature.
Thales provides a variety of cutting-edge security features to ensure that documents are difficult to counterfeit. We also have a range of options that allow secure integration with the underlying chip, and that enable the use of polycarbonate cards.
Polycarbonate
Polycarbonate is an integral component of modern identification cards. Its layers make it resistant to warping and cracking, ensuring the authenticity of ID documents and extending their lifespan. It is also recyclable, which reduces the environmental impact. It is also resistant to extreme temperatures, making it ideal for use in many climates. The layered structure of polycarbonate is also difficult to counterfeit or tamper with.
Aside from its strength and security polycarbonate is an affordable material for the production of driver's licences. It is made with a specific manufacturing process and is frequently incorporated with other advanced security features to ensure authenticity. They include holographic features such as UV printing, laser engraving, as well as microtext that are difficult to duplicate. These features can be added to the card during the personalization and construction stages to offer layered security.
Moreover, polycarbonate can support the full range of color photographs and advanced features such as ghost windows. This lets law enforcement officers to easily differentiate between a genuine authentic document and a fake.
In addition to providing a high security level Polycarbonate is also light and has a superior surface finish. This makes it a suitable material for ID cards and passports which are often subject to wear and tear. Polycarbonate is recyclable, which further reduces the environmental impact.
The most significant advantage of using polycarbonate in ID card production is its tamper-proof characteristics. Polycarbonate is not prone to bend, and can stand up to extreme temperatures. This makes it safer than other substrates such as Teslin composite or PET composite. It's so tamper-proof that it is impossible to erase the information or change it without breaking the card.
Another benefit of using polycarbonate in ID card production includes its superior transparency and strength. Its flexibility and tensile strength make it durable, but still permit precise laser engraving. It also has an excellent surface finish, making it a great option for color printing.
Polycarbonate is also tamper proof and therefore a great material for border crossing cards. These cards are used for frequent travel via sea, air or land, which requires the most durable of forms.
Teslin
PPG Teslin, a paper-like material, offers durability to credentials and permits the addition of security features. Its ability to stand up to moisture, road debris and other environmental hazards makes it an ideal option for motor vehicle departments looking for a durable temporary license plate material. It is also lighter than vinyl or polyester, which makes it more affordable. Teslin also is able to combine the power of a polyolefin silicon matrix with a unique set of security features that shield data from alteration and counterfeiting attempts. This is a special coating that reacts to infra-red and ultra violet light, as well as an embedded photo security component that allows simple authentication by law enforcement personnel.
körkort utan hinder has used the card-based design of a Teslin substrate-based driver's license since May 2017. The state has chosen the new format to support its REAL-ID program and meet the federal requirements for a long-lasting high-security ID. The state also wanted an ID card that could support future technology enhancements. The card construction features the core made of Teslin substrate and a PETg overlay, with color personalization printed over both layers. The result is a highly durable, secure card that offers superior bonding to protect against tampering and offers a reported life of eight years.
Teslin is a strong and dependable substrate that can be used for many printing and design technologies. It is compatible with conventional and digital printing techniques that include offset thermal transfer, flexographic laser and inkjet technologies. It also supports a range of finishing techniques like sewing perforating, embossing foil stamping and punching. This versatility gives issuers greater flexibility than with traditional synthetic multilayer or coated papers.
The NC DMV's decision to switch to new Teslin-based cards has proven to be successful. The card is widely accepted by residents of the state and law enforcement personnel, and has been an important tool for educating citizens on the benefits of a real ID card. The NC DMV has also provided training to banks, retailers and other businesses to ensure that they are aware of the security features of the card.
Personalization Integrated
Modern driver's licenses are more than just a piece of plastic that proves one's right to drive a motor vehicle. They also function as a vital method of identification for citizens and are frequently employed for security purposes for border control inspections. As such, they need to be as secure and reliable as they can be. Personalization in software is one way to achieve this.
Optical Character Recognition is a technology that transforms static images into data which can be searched and accessed electronically. This process speeds up identity verifications and improves accuracy, reducing human error. OCR is a crucial tool in modern driver's licence production, and it provides many benefits to the individuals and businesses that rely on it.
To be able to use OCR the image of a driver's licence must be clear and free of visual clutter. To achieve this, the image needs to be processed by software that reduces noise and improve the clarity of the text. The image should be de-skewed to ensure that all text lines are horizontal. This helps the OCR software to read the data correctly and avoids mistakes caused by shadows or glare. The image should also be adjusted to improve contrast to increase readability.
The OCR process extracts information from barcodes, QR codes and other security features of the driver's licence. It also can detect and decode holograms as well as magnetic stripes. These are essential to ensure the authenticity of a driver's license and improving the trust of the public in it.
In addition to improving the security of driver's licences, personalization embedded in the license can increase efficiency and ease of use. For instance, some states are experimenting with electronic versions of their driving licenses, which could be used to verify identity at checkpoints and other procedures for verification. The licenses can be read through an app or other device. This will reduce the amount of paperwork that is required for citizens, allowing them to complete forms online before arriving at the DMV location, and also save staff time.
Embedded personalization is the latest trend in ID card production, and has many benefits. It offers security, long-lasting and high-quality printing. It also helps save time and money by eliminating manual data entry. It also allows personalization of various kinds of cards, such as medical insurance cards.
Security
The issue of driver's licenses is primarily built on security. Its purpose is to protect citizens from counterfeiting and fraud. Moreover, it is a vital part of a driver's license's credibility and acceptance. This is why it's crucial for drivers to select documents that have advanced features to protect their personal information and data. Veridos makes use of the latest technologies to make driver's licenses more secure. This is possible due to its vast production experience in security printing and ID cards gained through its parent companies Giesecke & Devrient and Bundesdruckerei.
The new driver's licenses of the future incorporate various security features to guard against counterfeiting. The latest version of driver's licenses has a range of security features to guard against forgery. This includes a sturdy lamination, which adds 10 times the strength of standard papers; optical variable devices that create holograms that appear in different shades of color depending on how the card is tilted, and high-resolution images. Hackers can still compromise these security features.
In an effort to stop this, a variety of states have adopted new designs that are harder to create. New York's driver's licences, for instance, have monochromatic images instead of full-color photos. This helps to reduce the attraction of the documents to be used in illegal ways for example, by minor drinkers or other criminals. The government hopes that it will also hinder the development of an illegal market for fake driver's licenses.
The digital version of the driver's license is being developed and will become more widely accepted in future. It will provide more convenience for consumers while allowing government agencies as well as other entities to verify identities online. It will also allow people to use mDLs for reasons other than driving, like accessing sensitive accounts and banking.
The digital version of the driver's licence will utilize the exact data elements as an actual licence, but will be stored electronically. This will be an improvement over the current physical credentials that are vulnerable to fraud and theft, can be easily lost or stolen, or contain outdated or incorrect information.