Microscopy is ubiquitous among measurement methods in the biological sciences and related engineering disciplines. Virtually all laboratories at MIT utilize some form of microscopic technology, yet these images are commonly obtained, stored, and analyzed on individual machines using commercially-available systems and standardized processing software. Interpretations often remain qualitative, and storage capabilities available to individual users limit data transfer speed and the number of raw and processed images that can be maintained. Today, however, computerized networks can greatly enhance and extend image acquisition, processing, analysis, storage, and interpretation. Accordingly, this project aims to develop a Quantitative Microscopy & Image Processing Network (QMIPN) that will enable access to facilities capable of acquiring, transferring, storing, and recalling images rapidly and efficiently. Advanced methodologies for quantitative image interpretation will be available from both central and remote sites. QMIPN will also serve as a platform for developing new imaging modalities, further enhancing hardware and software image processing modules, and establishing automated and remote forms of image acquisition and analysis. Three phases are planned: PHASE I -- The Principal Investigators will use relevant research projects as prototypes to define network capabilities. Light, fluorescent, confocal, atomic-force, and transmission electron microscopes will be connected to a central server/router. These microscopes will be adapted to provide common interface, data storage, and analysis paradigms, along with automated remote access and image manipulation. Local computer terminals will control each microscope and sample, communicate with the central processor, and perform basic image filtering. Acquired images will be transported via high-speed ATM connections and downloaded to large capacity systems so that more complex, computer-intensive proces sing methods can be employed. PHASE II -- This network will be broadened to involve an increased number of investigators and projects, employing either the core microscope facilities or their own individual laboratory microscope facilities. Inexpensive new CD-ROM writing capabilities will be used to create a large database of stored images. By developing indexing and retrieval methods, these images can be a world-wide source of information. PHASE III -- The network will be extended to an even wider group of investigators both on and off campus. Accessibility of our network through the Internet will provide a powerful teaching tool that can be tapped by other less-advantaged institutions with a relatively small investment. This would raise the possibility of developing innovative outreach programs to enrich curricula, e.g., at smaller minority schools that do not have strong research programs. Three major benefits will grow as the network develops: 1. Increased research efficiency and innovation, resulting from multi-user facilities involving investigators with diverse interests and skills, in terms of both applications and techniques; 2. Increased research productivity, resulting from wide dissemination and application of stateof-the-art image acquisition and processing methods; 3. Increased cooperation among scientists and engineers on and off campus in terms of both research and teaching, resulting from the ease of access to visual images display and analysis from electronic information networks. Substantial matching funds have already been raised from a variety of institutional and other non-federal sources, standing ready to be leverage this grant.

Agency
National Science Foundation (NSF)
Institute
Office of International and Integrative Activities (IIA)
Type
Standard Grant (Standard)
Application #
9511946
Program Officer
Cassandra M. Dudka
Project Start
Project End
Budget Start
1995-09-01
Budget End
1998-08-31
Support Year
Fiscal Year
1995
Total Cost
$38,921
Indirect Cost
Name
Cornell University
Department
Type
DUNS #
City
Ithaca
State
NY
Country
United States
Zip Code
14850