Company Filing History:
Years Active: 2023
Title: Martha Lee Blair: Innovator in Data Bearing Card Technology
Introduction
Martha Lee Blair is a notable inventor based in Castle Rock, CO (US). She has made significant contributions to the field of data bearing card technology. With a focus on improving the functionality and reliability of these cards, her work has garnered attention in the industry.
Latest Patents
Martha holds a patent for "Cards with non-visible production indicia and related systems." This innovative patent describes an improved data bearing card that includes a card body, personalization data unique to the card, and non-visible production indicia. These indicia are separate from the personalization data and are indicative of production-related information not otherwise provided on the card. The non-visible production indicia can indicate a corresponding piece of production equipment or an operator utilized in connection with the card. Additionally, it may provide information about the location of a corresponding region of a sheet assembly from which the card body was separated during production. This technology facilitates remedial action in the event of defects and aids in card tracking during the production process. Martha has 1 patent to her name.
Career Highlights
Martha is currently employed at CPI Card Group-Colorado, Inc., where she continues to innovate in the field of card technology. Her work has been instrumental in enhancing the production and quality assurance processes of data bearing cards.
Collaborations
Martha has collaborated with several talented individuals in her field, including Maxmillian David Michieli and Jeremiah Witte. These collaborations have contributed to the advancement of technology in card production.
Conclusion
Martha Lee Blair is a pioneering inventor whose work in data bearing card technology has made a significant impact. Her innovative patent and contributions to CPI Card Group-Colorado, Inc. highlight her dedication to improving card functionality and production processes.