This report summarizes key indicators that assess the status of the science and engineering (S&E) enterprise within the United States and that illustrate the U.S. global position in multiple aspects of the S&E enterprise. This includes information about the geographic distribution of S&E activities; science, technology, engineering,…

This "FOCUS Technical Brief" summarizes a paper recently published in the open-access journal Implementation Science1 (Stone & Lane, 2012). The full paper presents a conceptual framework that integrates all three knowledge-generating methods--scientific research (R), engineering development (D), and industry production (P)--into a…

The "Science and Engineering Indicators" series was designed to provide a broad base of quantitative information about U.S. science, engineering, and technology for use by policymakers, researchers, and the general public. "Science and Engineering Indicators 2014" contains analyses of key aspects of the scope, quality, and…

Science and Engineering Indicators (SEI) is first and foremost a volume of record comprising the major high-quality quantitative data on the U.S. and international science and engineering enterprise. SEI is factual and policy neutral. It does not offer policy options, and it does not make policy recommendations. SEI employs a variety of…

This document contains a list of appendix tables for the "Science and Engineering Indicators 2012" report. The tables are presented according to these chapters: (1) Elementary and Secondary Mathematics and Science Education; (2) Higher Education in Science and Engineering; (3) Science and Engineering Labor Force; (4) Research and Development:…

Obtaining more federal funds is the expressed research goal in "Closing the Gaps by 2015." It states: By 2015, increase the level of federal science and engineering research and development obligations to Texas institutions to 6.5 percent of obligations to higher education institutions across the nation. In 2006, Texas institutions of…

The National Science Board (Board) is required under the National Science Foundation (NSF) Act, 42 U.S.C. (United States Code) Section 1863 (j) (1) to prepare and transmit the biennial "Science and Engineering Indicators" ("SEI") report to the President and to the Congress by January 15 of every even-numbered year. The report…

The United States has long been a world leader in education, innovation, high-tech employment, and research and development (R&D). Its future status, however, is not secure. This is the conclusion of more than two dozen reports in recent years from a variety of groups of business leaders, educators and government officials. In this article,…

Public "upstream engagement" and other approaches to the social control of technology are currently receiving international attention in policy discourses around emerging technologies such as nanotechnology. To the extent that such approaches hold implications for research and development (R&D) activities, the distinct participation of scientists…

Indicates that the National Science Foundation (NSF) will emphasize technology to spur United States competition in technological development by raising support for engineering staff, research, and equipment. Includes a list of areas on which proposed engineering research centers should focus. (JN)

This digest of key science and engineering indicators draws primarily from the National Science Board's two-volume "Science and Engineering Indicators, 2008" report. The digest serves two purposes: (1) to draw attention to important trends and data points from across the chapters and volumes of "Science and Engineering Indicators, 2008," and (2)…

This report contains analyses of key aspects of the scope, quality, and vitality of the Nation's science and engineering enterprise and global science and technology. The report presents information on science, mathematics, and engineering education at all levels; the scientific and engineering workforce; U.S. and international and development…

This report addresses an opportunity to accelerate progress in virtually every branch of science and engineering concurrently, while also boosting the American economy as business firms also learn to exploit these new capabilities. The successful rapid advancement in both science and technology creates its own challenges, four of which are…

Volume 1 of this two-volume report contains analyses of key aspects of the scope, quality, and vitality of the Nation's science and engineering enterprise and global science and technology. The report presents information on science, mathematics, and engineering education at all levels; the scientific and engineering workforce; U.S. and…

Suggests six principles that should guide federal government involvement (influence, direction of finances) in high-technology industries. Government roles in establishing a healthy environment, support for long-term payoffs, demonstration programs, world leadership, investment for university research, and encouragement for industry/university…