CS Graduate Student Named Winner of the $30,000 Lemelson-MIT Illinois Student Prize

3/8/2012 Stephanie Larson, Technology Entrepreneur Center

Sixth Illinois student to win the $30,000 Lemelson-MIT Illinois Student Prize

Written by Stephanie Larson, Technology Entrepreneur Center

Kevin Karsch, a passionate and diligent graduate student in computer science (CS) at Illinois, is the sixth annual winner of the $30,000 Lemelson-MIT Illinois Student Prize, funded through a partnership with the Lemelson-MIT Program.

“Like the Post-It® Note, Kevin’s invention succeeds because it solves a common problem in an easy-to-use package,” said his letter of recommendation writer, Alyosha Efros, Finmeccanica Associate Professor of Robotics and Computer Science at Carnegie Mellon University. “The key to the method’s success is a well-designed collaboration between the human and machine.”

Karsch's software is able to relight inserted objects and even works for complex lighting patterns. Note the strongly directed pools of light on the dragon's back, giving the appearance that the sculpture was really in the photo.
Karsch's software is able to relight inserted objects and even works for complex lighting patterns. Note the strongly directed pools of light on the dragon's back, giving the appearance that the sculpture was really in the photo.

In his research, Karsch noted that currently adding digital actors or props to media is a painstakingly long process that requires artistry, expertise, and physical measurements of the scene. To simplify this process, Karsch developed a new technique for inserting objects and special effects into photographs and videos that requires no scene measurements and can be performed by novice users in only a few minutes.

With over 850,000 views on his online demonstration video and interest from a variety of companies, the tool’s possibilities are versatile and ubiquitous. Thus far, proposals for uses of Karsch’s technology span from 3D modeling to picture editing as well as virtual home and property redecoration. The University is working with him to file for a patent and has already begun licensing agreements. The future looks promising for the advancement of Karsch’s technology.

Illinois computer science PhD student Kevin Karsch
Illinois computer science PhD student Kevin Karsch

“Kevin’s system takes several complex technical methods (lighting estimation, perspective modeling, interactive matting, etc.) and puts them into an intuitive interface that outputs a 3D model that works with standard rendering packages,” said Efros. “Kevin has the most important skills of an inventor: ability to incorporate and innovate complex technical ideas; a grasp of the human element in product design; and an understanding of the end-to-end use of a product.”

In addition to his advisor, David Forsyth, Karsch works closely with CS faculty members Derek Hoiem and John Hart. Karsch has high hopes that his invention will revolutionize current image editing and significantly reduce production cost and time.

Not only can you insert the balls onto the table, but you can also quickly create an animated game of pool.
Not only can you insert the balls onto the table, but you can also quickly create an animated game of pool.

"This year’s Lemelson-MIT Collegiate Student Prize winners and finalists from the Massachusetts Institute of Technology (MIT), Rensselaer Polytechnic Institute (RPI), and Illinois are helping to fulfill the country’s need for innovation. These students’ passion for invention and their ideas will improve people’s lives around the world” states Joshua Schuler, executive director of the Lemelson-MIT Program. “We applaud their accomplishments that will also undoubtedly inspire future generations of inventors.”

This prize at Illinois encourages the creation of new, sustainable solutions to real world problems. Administered by the Technology Entrepreneur Center in the College of Engineering, the $30,000 Lemelson-MIT Illinois Student Prize is funded through a partnership with the Lemelson-MIT Program, which has awarded the $30,000 Lemelson-MIT Student Prize to outstanding student inventors at MIT since 1995. In addition to Karsch, the finalists for this year’s Lemelson-MIT Illinois Student Prize include:

  • Sriram Chandrasekaran– PhD Candidate in BioPhysics/School of Molecular and Cellular Biology
  • Muhammed Fazeel – Senior – Integrative Biology, College of Liberal Arts and Sciences
  • James Langer – PhD Candidate – Materials Science & Engineering.
  • Pradeep S. Shenoy - PhD Candidate – Electrical Engineering, College of Engineering

Chandrasekaran created versatile computational tools that can rapidly search for drug targets for diseases like tuberculosis. Fazeel developed an innovation that can call emergency services in case of major cardiac events that is affordable and non-invasive.  Langer developed a new class of ion-exchange fiber composite (IXFC) materials exhibiting the potential for efficient, high capacity removal of perchlorate (a toxic rocket fuel component) from drinking water in a low-cost, high-flow configuration. Shenoy’s work on differential power processing has led to techniques that demonstrate system level improvements specifically in microprocessor power delivery and solar PV energy conversion. (see earlier article about the five finalists).

Lemelson-MIT Collegiate Student Prizes
In addition to Karsch’s ground-breaking work, the other winners of the annual Lemelson-MIT Collegiate Student Prize at their respective universities include:

  • Lemelson-MIT Student Prize Winner Miles C. Barr has developed solar cells with the ability to be fabricated on a variety of everyday surfaces, from textiles to car windows. By eliminating the professional installation fee required for rigid solar panels, this approach has the potential to reduce the cost of current solar technology and create an opportunity for universal use of solar energy.
  • Lemelson-MIT Rensselaer Student Prize winner Fazel Yavari has developed a new sensor to detect extremely small quantities of hazardous gases. Made from a 3-D foam of the world’s thinnest material, graphene, this sensor is durable, inexpensive to make, and opens the door to a new generation of gas detectors for use by bomb squads, defense and law enforcement officials, as well as in industrial settings.

About the Lemelson-MIT Program - Celebrating innovation, inspiring youth
The Lemelson-MIT Program celebrates outstanding innovators and inspires young people to pursue creative lives and careers through invention. Jerome H. Lemelson, one of U.S. history’s most prolific inventors, and his wife Dorothy founded the Lemelson-MIT Program at the Massachusetts Institute of Technology in 1994. It is funded by The Lemelson Foundation and administered by the School of Engineering. The Foundation sparks, sustains and celebrates innovation and the inventive spirit. It supports projects in the U.S. and developing countries that nurture innovators and unleash invention to advance economic, social and environmentally sustainable development. To date The Lemelson Foundation has donated or committed more than U.S. $150 million in support of its mission.


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This story was published March 8, 2012.