Company Filing History:
Years Active: 2015-2025
Title: The Innovative Contributions of Matthew E. Garr
Introduction
Matthew E. Garr is a notable inventor based in Palo Alto, California. He has made significant contributions to the field of building performance visualization. With a total of 6 patents to his name, Garr's work focuses on creating tools that enhance the understanding and assessment of building systems.
Latest Patents
One of Garr's latest patents is an "Interactive navigation environment for building performance visualization." This innovative tool provides a visualization of a system that reveals an interactive navigation environment for building performance observation and assessment. The tool is associated with a processor and incorporates various components such as a treemap, a graph pane, a treemap filter, a graph pane selector, a selected units box, and a date/time control mechanism. The visualization of the environment is presented on a display, showcasing building geometry and equipment units hierarchically, along with relevant data information. Users can interactively select units from the treemap and analyze them using the graph pane, which displays configurations and unit analyses. The graph pane selector allows for detailed views of selected units, while the control mechanism enables the selection of date and time intervals for analysis.
Career Highlights
Matthew E. Garr has established himself as a key figure in his field through his innovative patents and contributions. He is currently employed at Honeywell International Inc., where he continues to develop cutting-edge technologies that improve building performance and efficiency.
Collaborations
Garr has worked alongside talented colleagues such as Jiri Rojicek and Vladimir Bicik. Their collaborative efforts have contributed to the advancement of technologies in building performance visualization.
Conclusion
Matthew E. Garr's work exemplifies the spirit of innovation in the field of building performance visualization. His patents and contributions continue to shape the way we understand and assess building systems.