"Advances in the computer and information sciences drive progress in all areas of science, engineering and education, which positively impacts the U.S. economy, furthers national priorities and bolsters our overall quality of life," said NSF Acting Director
The first Expeditions awards were made in 2008. As of today, 16 awards have been made through this program, addressing subjects ranging from foundational research in computing hardware, software and verification to research in sustainable energy, health information technology, robotics, mobile computing and Big Data.
The two awards announced today contribute to this rich intellectual portfolio. The first will further advances in molecular programming--a quest to understand and apply the principles of information processing at the molecular level in biological organisms. The second aims to improve the holistic design of machine vision systems to approach and someday exceed the capabilities of human vision systems.
"The Expeditions in Computing program catalyzes large-scale, far-reaching and potentially transformative research motivated by deep scientific questions," said
What follows is a description of the two Expedition projects, including the lead principal investigator (PI) and the universities involved in each collaborative effort.
Molecular Programming Architectures, Abstractions, Algorithms and Applications
This project will explore the incredible chemistry and molecular machinery of life, expanding advances made under a previous NSF award. With principles of computer science at its core, this new Expedition project aims to establish solid foundations for molecular programming--that is, systematically programming the behaviors of a wide array of complex information-based molecular systems, from decision-making circuitry and molecular-scale manufacturing to biomedical diagnosis and smart therapeutics.
Building on recent advances in DNA nanotechnology, DNA computing and synthetic biology, the project will develop methods for programmable self-assembly of DNA strands to create sophisticated 2-D and 3-D structures; dynamic biochemical circuitry based on programmable interactions between DNA, RNA and proteins and integrated behaviors within spatially organized molecular systems and living cells. These architectures will provide systematic building blocks for creating programmable molecular systems.
Putting the products of this fundamental research to the test, the project will pursue real-world applications such as molecular instruments for probing biological systems and programmable fabrication of nanoscale devices.
Put more simply, molecular programming has the potential to radically transform the material, chemical, biological and medical industries, and chemistry stands to become a major new field for information technology research in the 21st century.
Visual Cortex on Silicon
Lead PI: Vijaykrishnan Narayanan, The
With collaborators from:
This project envisions a holistic design of a machine vision system that will approach or exceed the capabilities and efficiencies of human vision, enabling computers to not only record images, but also to understand visual content at up to a thousand times the efficiency of current technologies.
While several machine vision systems today can each successfully perform one or a few human tasks--such as detecting human faces in point-and-shoot cameras--they are still limited in their ability to perform a wide range of visual tasks; to operate in complex, cluttered environments and to provide reasoning for their decisions. In contrast, the visual cortex in mammals excels in a broad variety of goal-oriented cognitive tasks and is at least three orders of magnitude more energy efficient than customized state-of-the-art machine vision systems.
In particular, this award aims to understand the fundamental mechanisms used in the visual cortex, with the hope of enabling the design of new vision algorithms and hardware fabrics that can improve power, speed, flexibility and recognition accuracies relative to existing machine vision systems.
Smart machine vision systems that understand and interact with their environments could have a profound impact on society, including aids for visually impaired persons, driver assistance capabilities for reducing automotive accidents and augmented reality systems for enhanced shopping, travel and safety.
"Without exception, the Expeditions in Computing awards fund bold, ambitious and exciting research," said
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