Company Filing History:
Years Active: 2015
Title: Susan E Maloney: Innovator in Surface Deformation Analysis
Introduction
Susan E Maloney is a notable inventor based in New Bedford, MA (US). She has made significant contributions to the field of medical technology through her innovative inventions. Her work focuses on developing devices that enhance the monitoring and analysis of surface abnormalities in both human and animal tissues.
Latest Patents
Susan E Maloney holds a patent for a device known as the Surface Deformation Image Analyzer. This device is equipped with integrated hardware and software components designed for measuring and monitoring abnormalities on various surfaces. The analyzer features a display panel and a control panel secured to the upper surface of a housing, along with multiple sensor arrays attached to the lower surface on two scanner belts. A processor within the device receives input from these sensor arrays to create data objects, which are stored in an image object database. The retrieval component of the device identifies attributes to display images and quantitative values on the display panel. Additionally, a hardware processing component runs algorithms to determine the area of surface abnormalities, while another component allows user input to update images and select deformation regions for area calculation.
Career Highlights
Susan E Maloney is currently associated with the United States as represented by the Secretary of the Navy. Her work in this capacity has allowed her to contribute to advancements in medical imaging and analysis technologies.
Collaborations
Some of her notable coworkers include Nathan Johnnie and Francis J O'Brien, Jr. Their collaboration has likely fostered an environment of innovation and shared expertise in their respective fields.
Conclusion
Susan E Maloney's contributions to the field of surface deformation analysis exemplify her commitment to advancing medical technology. Her innovative patent reflects her dedication to improving the monitoring of tissue abnormalities, which can have significant implications for healthcare.