Company Filing History:
Years Active: 2019
Title: Nandish Kirtikumar Solanki: Innovator in Data Quality Management
Introduction
Nandish Kirtikumar Solanki is a notable inventor based in Pune, India. He has made significant contributions to the field of data quality management, particularly focusing on Spanish names and addresses. With a total of 3 patents to his name, Nandish has demonstrated a commitment to enhancing data accuracy and reliability.
Latest Patents
One of Nandish's latest patents is titled "Method and system for managing data quality for Spanish names in a database." This invention addresses the challenges faced in Spanish data quality assurance. The method involves parsing a dataset containing a plurality of Spanish names and addresses through a parsing engine. The parsed data is then sent to a probable identification engine to identify potential matches. The system includes a combination of name and address matching processes to ensure data quality. The Spanish name matching process identifies probable matches and calculates similarity percentages, while the address matching process does the same based on criteria such as the same city.
Career Highlights
Nandish Kirtikumar Solanki is currently employed at Tata Consultancy Services Limited, where he applies his expertise in data management. His work focuses on developing innovative solutions that enhance the quality of data in various applications. His contributions have been instrumental in improving data handling processes within the organization.
Collaborations
Nandish has collaborated with several professionals in his field, including Ashish Diwan and Sridhar Gopal Pattar. These collaborations have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Nandish Kirtikumar Solanki is a dedicated inventor whose work in data quality management has made a significant impact. His innovative patents and contributions to Tata Consultancy Services Limited highlight his commitment to advancing technology in this critical area.