The goal of the Simplified Image Management and Processing Learning Environment for Science (SIMPLE Science) project is to help overcome barriers to use of image processing and analysis (IPA) in K-12 classrooms by:

• making IPA accessible to mainstream educators and the public as an easy-to-use learning tool,
• providing educator access to extensive and updateable archives of imaging data, and
• designing a pedagogical structure that helps educators use imaging data in a manner that
• supports attainment of specific national education standards for middle school education.

SIMPLE Science

• was created by the Center for Image Processing in Education (CIPE),
• includes activities on biology, medicine, Earth and space science, digital literacy, and social science,
• uses WebImage, a Web-based version of ImageJ, an image processing program used by scientists around the world,
• was funded by the National Science Foundation (NSF) and
• is a collection within the National Science Digital Library (NSDL) and the Digital Library for Earth System Education (DLESE).

SIMPLE consists of a three-tired structure that scaffolds students' use of image processing and analysis (IPA) from basic explorations of how imaging is used in various fields of science to developing lessons from an archive of images and data housed on the SIMPLE server.

Tier 1 is a video tutorial that showcases imaging research.
Tier 2 features 15 new and updated activities from CIPE's materials.
Tier 3 includes

• "Further Exploration" opportunities for each lesson, including additional images for discovery and research,
• an "Independent Discovery" link, which provides information and links to deeper investigation into image processing,
• the SIMPLE Science downloadable pedagogical template, LessonAide, so that teachers can develop their own lessons, using the Understanding by Design model of Wiggins and McTighe (1998) structure, and
• an archive of the "Further Exploration" images, so that teachers can incorporate them into their personal lesson plans.

The goal of this Phase II Small Business Technology Transfer (STTR) application—entitled Volumetric Imaging for Science Instruction of an Open Nature (VISION)—is to adapt an advanced technology employed in biomedical research and practice—volumetric image processing and analysis (VIPA)—for science and mathematics education in formal secondary school settings. VIPA is used in biomedicine to display, model, and analyze volumetric data—typically imaging data that has been created by making two-dimensional digital “slices” of an object of interest—such as in magnetic resonance imaging (MRI), functional MRI (fMRI), computed tomography (CT), and single photon emission computed tomography (SPECT). VIPA is also employed in non-biomedical disciplines where volumetric analyses are of interest, for instance, Earth science, engineering, hydrology, oceanography, and oil and gas exploration.

This project will create five e-Learning modules designed to supplement high school biology, Advanced Placement (AP) anatomy and physiology, and AP Biology instruction. The modules will be developed in an inquiry learning (IL) format in which students play the role of imaging scientists. Students will explore fascinating 3-D images; expand spatial thinking abilities by navigating 3-D data visualizations and changing the way the data is represented; master new quantification and technology skills by selecting and measuring features in microscopic and macroscopic specimens; enhance science process skills by working through all stages of a virtual research project; and learn standards-based science content.

The materials will be developed by Science Approach, LLC, in collaboration with the Biomedical Imaging Resource at the Mayo Clinic, the New Media Research Institute, ten experienced teachers, five researchers, a commercialization advisor from the Carolina Biological Supply Company, and the West Texas Office of Evaluation and Research. The VISION modules will be released as online Moodle courses available for a nominal cost by subscription.