15 Trends To Watch In The New Year Driver's License Production

Embedded Personalization Is a Fundamental Aspect of Driver's License Production

Almost 150 countries accept IDPs as official translations of their driver's licenses. IDPs are books that contain a photo, name (in Latin and Cyrillic scripts) as well as the date/place of issue, categories that are allowed and signature.

Thales provides a variety of cutting-edge security features to ensure that documents are difficult to counterfeit. We also have a number of solutions that permit secure integration with the underlying chip, and that enable the use of polycarbonate cards.

Polycarbonate

Polycarbonate is an integral element of modern ID cards. The layered structure makes it resistant against cracking and warping. This guarantees the durability of ID cards and increases their lifespan. It is also recyclable and reduces the environmental footprint. Furthermore, it has high temperature resistance, making it suitable for use in a variety of climatic conditions. The polycarbonate's layered structure is also difficult to counterfeit or modify.

Polycarbonate is an economical material that offers durability and security. It is made with a specific manufacturing process and is frequently combined with other sophisticated security features to ensure authenticity. These include holographic components, UV printing, laser engraving microtext, and laser engraving, which are hard to duplicate. These features can be added at the card design and personalization stages to create layered security that is tamperproof.

Polycarbonate is also capable of supporting a full variety of color photos as well as advanced features like ghost windows. This lets law enforcement officers quickly distinguish between a legitimate and a counterfeit document.

In addition to offering a high level of security Polycarbonate is also extremely light and has a great surface finish. This makes it a suitable material for ID cards and passports, which are frequently subjected to wear and tear. Polycarbonate is recyclable, which further reduces the environmental impact.

The biggest benefit of using polycarbonate for ID card production is its tamper-proof characteristics. Polycarbonate is impervious to bending and can withstand extreme temperatures. This makes it more secure than other substrates like Teslin composite or PET composite. In fact, it's so secure that it is impossible to change or remove information without breaking the entire card.

Polycarbonate's exceptional transparency and strength are also advantages. Its flexibility and tensile strength make it durable, but still permit precise laser engraving. It has a beautiful surface finish, which makes it an excellent option for printing with color.

Polycarbonate is also tamperproof which makes it the ideal material for border crossing cards. These are cards used for frequent travel across ocean, air and even guarded land borders, and require a more durable method of identification.

Teslin

PPG Teslin is a paper-like substrate that adds durability to credentials and permits the inclusion of security elements. Its ability resist road debris, moisture and other environmental hazards makes it an excellent option for motor vehicle departments searching for a long-lasting temporary plate material. It is also lighter than polyester or vinyl and therefore cheaper. Teslin also combines the power of a polyolefin silicon matrix with a unique set security features that protect information from alterations and counterfeiting attempts. These include a special coating that responds to infra red light, and a photo security element that allows for simple identification by law enforcement.

North Carolina has used the card design of a Teslin substrate-based driver's license since May 2017. Sverige Express Kort chose the new format to help support its REAL ID program and meet the federal requirements for a durable, high-security ID card. The state also needed an ID card that could support future technology enhancements. The card is constructed using an Teslin core and a PETg overlay with personalization in color printed on both layers. The result is a highly durable and secure card that offers superior bonding to protect against the possibility of tampering. It also has an estimated life of eight years.

Teslin is a tough and dependable substrate that can be used in a variety of printing and design technologies. It is compatible with traditional and digital printing methods such as offset thermal transfer, flexographic laser and inkjet technology. It is also resistant to a variety of finishing techniques like perforating and embossing. This versatility allows issuers to have more flexibility than they do with traditional multilayer synthetic or coated papers.

The NC DMV's decision to move to new Teslin-based cards has been successful. The card is widely used by the state's residents and law enforcement, and has been an important tool for educating citizens about the benefits of a REALID card. The NC DMV has also provided training to banks, retailers and other businesses to ensure they understand the card's security features.

Personalization Embedded

Modern driver's licenses go beyond simply a piece of paper that proves one's eligibility to operate a motor vehicle. They also serve as a means of identification by citizens, and also for security reasons, like border control. They must be as safe and reliable as they can be. Embedded personalization is one way to accomplish this.

Optical Character Recognition (OCR) is a method of transforming static images of licenses into data that can be easily searched, accessed, and managed digitally. This process accelerates identity verifications and improves accuracy, while minimizing human error. OCR is an essential instrument in modern driver's license production, and it provides many benefits for the people and businesses that depend on it.

To enable OCR to work, the image must be clear and free of clutter. To accomplish this, the image must be processed with software to reduce noise while sharpening the text. Also, it should be de-skewed to ensure that all text lines are horizontal. This helps OCR software interpret the information correctly and avoids errors caused by dark shadows or glare. Additionally, the image should be contrast adjusted to improve readability.

The OCR process extracts information from barcodes, QR codes and other security features of a driver's licence. It also can detect and decode holograms as well as magnetic stripes. These features help to verify a driver's license's authenticity and are crucial for enhancing public trust in the document.

Personalization embedded into the licence is not just a way to enhance the security of a driver's license however, it can also boost efficiency and convenience. For instance, some states are testing electronic versions of their driving licenses that can be used to identify at checkpoints and other verification processes. The licenses can be read via an app or a different device. This will cut down on the amount of paperwork that is required for citizens, allowing them to complete online forms before arriving at a DMV location and saving staff time.

Personalization embedded in the card is the newest trend in ID card production, and has many benefits. It provides security, durability, and high-quality printing. In addition, it can reduce time and costs by removing the need for manual data entry and ensuring accuracy. It also permits the personalization of different types of cards, such as national IDs driver's licenses, national IDs, and medical insurance cards.

Security

The issue of driver's licenses is fundamentally based on security. Its primary goal is to guard citizens from fraud and counterfeiting. Moreover it is an essential element of a driver's licence's credibility and acceptance. It is therefore important that drivers choose a document that has advanced features to protect their personal data and information. Veridos uses the latest technologies to make driver's licences more secure. Veridos' vast experience in ID cards and security printing - acquired from its parent companies Giesecke & Devrient, and Bundesdruckerei which allows this to be done.

Driver's licenses of the current generation contain a variety of security features that protect against counterfeiting. The current version of driver's licenses has several security features to protect against counterfeiting. 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 the angle at which the card is tilted, and high-resolution images. Hackers can still compromise these security features.

To combat this, a few states have adopted new designs that are difficult to forge. For example, New York's new driver's licenses feature monochromatic photographs instead of full-color photos. This helps to reduce the attraction of the documents for illegal use, such as by underage drinkers or other criminals. The state hopes to also stop the development of a fake driver's license black market.

The digital version of the driver's license is in development and will be more widely accepted in the future. It will offer greater convenience to the consumer while permitting government agencies and other entities to perform verifications online. It will also enable people to use mDLs for reasons other than driving, such as accessing bank accounts with sensitive information and accessing sensitive accounts.

The digital version of the driver's licence will use the exact same information elements as a real license, but it will be stored electronically. This is an improvement over the present physical credentials, which are vulnerable to theft and fraud. can be easily stolen or lost and may contain inaccurate or outdated information.