A spray paint mural on plywood, featuring a face wearing a mask, two smokestacks, and the word "COVID" in graffiti style lettering. From the creator: "On Tuesday March 31st I decided I was going to paint something for the public to not only display my art in hopes of getting commissioned for a local wall, but also to help my community find solac...
Creator:
Pendleton, Kevin
Created:
2020-03-31
Contributed By:
Archives and Special Collections, Kathryn A. Martin Library, University of Minnesota Duluth
A man working on a spray paint mural on plywood, with a can of spray paint in his hand and additional cans on his belt. Visible on the mural is a face wearing a mask, and some graffiti style lettering. From the creator: "On Tuesday March 31st I decided I was going to paint something for the public to not only display my art in hopes of getting c...
Creator:
Pendleton, Kevin
Created:
2020-03-31
Contributed By:
Archives and Special Collections, Kathryn A. Martin Library, University of Minnesota Duluth
In recent years, we developed a framework to study fluctuating signals generated by complex systems, specifically, for biological systems. We have demonstrated that it is possible to gain significant understanding of a complex biological system via studying its spontaneous fluctuations in time. This framework has tremendous utility for biomedica...
Creator:
Peng, Chung-Kang (Harvard Medical School)
Created:
2011-09-08
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.
Image analysis is the quantitative analysis of images. It feeds on advances in mathematics, signal processing and machine learning to apply them to information extraction from images, N-dimensional sampled signals. In this talk we will attempt to explore applications of mathematics to different areas of image analysis, from acquisition, to proce...
Creator:
Pengo, Thomas (University of Minnesota, Twin Cities)
Created:
2017-02-21
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.
Combining recent results on numerical integration and optimization, we derive a polynomial bound on the worst case complexity of a class of static stochastic optimization problems. We then describe a technique for reducing dynamic problems to static ones. The reduction technique is only a heuristic but it can effectively employ good guesses for ...
Creator:
Pennanen, Teemu (Helsinki University of Technology)
Created:
2010-10-19
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.