Chanler Megan Crowe Cantor

Title: Innovations of Chanler Megan Crowe Cantor

Introduction

Chanler Megan Crowe Cantor is an accomplished inventor based in Madison, AL (US). She has made significant contributions to the field of technology, particularly in image processing and data alignment. With a total of two patents to her name, her work showcases her innovative spirit and technical expertise.

Latest Patents

One of her latest patents is titled "Encoding Enhanced Information into Pixel Channels." This patent focuses on processes for encoding an enhanced image with non-image data. The non-image data is distinct from image data, which defines the display characteristics of an image. The techniques involve accessing an image that includes at least one pixel associated with a color channel, encoding non-image data into that color channel, and generating an index to map where the non-image data has been encoded. This results in the creation of an enhanced image.

Another notable patent is "Aligning Data Sets Based on Identified Fiducial Markers." This patent discloses techniques for aligning fiducial markers that exist in multiple different N-dimensional data sets, specifically at least three-dimensional data sets. The process involves accessing a first and second set of N-D data, identifying common fiducial markers, and performing transformations to align the two sets. This alignment process ensures that a selected number of common fiducial markers exist within a threshold alignment relative to one another.

Career Highlights

Chanler is currently employed at Intuitive Research and Technology Corporation, where she continues to innovate and contribute to her field. Her work has garnered attention for its practical applications and technical advancements.

Collaborations

Some of her notable coworkers include Kyle Russell and Michael Yohe, with whom she collaborates on various projects.

Conclusion

Chanler Megan Crowe Cantor is a pioneering inventor whose work in image processing and data alignment has the potential to impact various technological fields. Her patents reflect her commitment to innovation and excellence in her profession.