Health services research has suffered because of unrealistic expecta- tions of what it could provide in the way of easy answers for policy- makers in the health field. There are no quick fixes for problems of health manpower and distribution or cost containment. This means that it is enourmously important to know much more than we do about the complex variety of factors affecting our health care system if we are to make sensible policy decisions. We need to know what we are talk- ing about, and for this reason the report gives a proper definition of health services research. Health services research is a field and not a discipline and this means that by its very nature it is multi- disciplinary. The report strongly supports the continuation of the national center for health services research without either reorgani- zation or relocation.
Governments have done much to leverage information technology to deploy e-government services, but much work remains before the vision of e-government can be fully realized. Information Technology Research, Innovation, and E-government examines the emerging visions for e-government, the technologies required to implement them, and approaches that can be taken to accelerate innovation and the transition of innovative information technologies from the laboratory to operational government systems. In many cases, government can follow the private sector in designing and implementing IT-based services. But there are a number of areas where government requirements differ from those in the commercial world, and in these areas government will need to act on its role as a "demand leader." Although researchers and government agencies may appear to by unlikely allies in this endeavor, both groups have a shared interest in innovation and meeting future needs. E-government innovation will require addressing a broad array of issues, including organization and policy as well as engineering practice and technology research and development, and each of these issues is considered in the book.
Recent vision research has led to the emergence of new techniques that offer exciting potential for a more complete assessment of vision in clinical, industrial, and military settings. Emergent Techniques for Assessment of Visual Performance examines four areas of vision testing that offer potential for improved assessment of visual capability including: contrast sensitivity function, dark-focus of accommodation, dynamic visual acuity and dynamic depth tracking, and ambient and focal vision. In contrast to studies of accepted practices, this report focuses on emerging techniques that could help determine whether people have the vision necessary to do their jobs. In addition to examining some of these emerging techniques, the report identifies their usefulness in predicting performance on other visual and visual-motor tasks, and makes recommendations for future research. Emergent Techniques for Assessment of Visual Performance provides summary recommendations for research that will have significant value and policy implications for the next 5 to 10 years. The content and conclusions of this report can serve as a useful resource for those responsible for screening industrial and military visual function.
"The Nation has lost sight of its public health goals and has allowed the system of public health to fall into 'disarray'," from The Future of Public Health. This startling book contains proposals for ensuring that public health service programs are efficient and effective enough to deal not only with the topics of today, but also with those of tomorrow. In addition, the authors make recommendations for core functions in public health assessment, policy development, and service assurances, and identify the level of government--federal, state, and local--at which these functions would best be handled.
EarthScope is a major science initiative in the solid-earth sciences and has been described as "a new earth science initiative that will dramatically advance our physical understanding of the North American continent by exploring its three-dimensional structure through time". The initiative proposes to cover the United States with an array of instruments created to reveal how the continent was put together, how the continent is moving now, and what lies beneath the continent. The initiative is made of four components, three of which are funded by the Major Research Equipment program of the National Science Foundation (NSF) and one of which is mostly associated with the National Aeronautics and Space Administration (NASA). In response to a request by the NSF, the National Research Council (NRC) established a committee to review the science objectives and implementation planning of the three NSF components, United States Seismic Array (USArray), the Plate Boundary Observatory (PBO), and the San Andreas Fault Observatory at Depth (SAFOD). The committee was charged with answered four specific questions: Is the scientific rationale for EarthScope sound, and are the scientific questions to be addressed of significant importance? Is there any additional component that should be added to the EarthScope initiative to ensure that it will achieve its objective of a vastly increased understanding of the structure, dynamics, and evolution of the continental crust of North America? Are the implementation and management plans for the three elements of EarthScope reviewed here appropriate to achieve their objectives? Have the appropriate partnerships required to maximize the scientific outcomes from EarthScope been identified in the planning documents? Review of EarthScope Integrated Science presents the committee's findings and recommendations. To reach its conclusions the committee reviewed extensive written material and listened to presentations by members of the EarthScope Working Group and other interested scientists. The recommendations encompass science questions, management, education and outreach, and partnerships. Overall the committee was impressed by the EarthScope initiative.
This report is the summary of a workshop conducted by the National Research Council in order to learn from both forecast makers and forecast users about improvements that can be made in understanding the markets for doctoral scientists and engineers. The workshop commissioned papers examined (1) the history and problems with models of demand and supply for scientists and engineers, (2) objectives and approaches to forecasting models, (3) margins of adjustment that have been neglected in models, especially substitution and quality, (4) the presentation of uncertainty, and (5) whether these forecasts of supply and demand are worthwhile, given all their shortcomings. The focus of the report was to provide guidance to the NSF and to scholars in this area on how models and the forecasts derived from them might be improved, and what role NSF should play in their improvement. In addition, the report examined issues of reporting forecasts to policymakers.
The Institute of Medicine (IOM) of the National Academy of Sciences (NAS) collaborated in this study with the Board on Maternal, Child, and Family Health Research of the Commission on Life Sciences of the National Research Council (NRC) to determine methodologies needed to evaluate current childbirth settings in the United States. Although the proportion of non-hospital births runs as high as 4.4 percent annually in Oregon, insufficient data exist to permit complete evaluation of the various birth settings. The application of good research methods should lead to scientific findings that provide the basis for informed, rational decision making about alternative settings for childbirth. A committee of 11 experts was appointed to review current knowledge, provide background knowledge, and identify the kinds of research designs useful for assessing such matters as the safety, quality of maternity care, costs, psychological factors, and family satisfaction of different birth settings. The committee was also charged with preparing a report that could be used to solicit, evaluate, and fund proposals for studies on childbirth settings. The committee did not design specific studies to be carried out, but rather attempted to point out issues that should be considered by researchers because it believed that the best proposals would arise from investigator-initiated research. Gaps in research could be filled by requests for proposals developed by agency staff and the agency peer review committee. In addition, IOM staff members and several consultants provided background papers for the committee's consideration. The research that results from this report will be useful to policymakers and to consumers searching for information to aid in making decisions about birth settings. Research Issues in the Assessment of Birth Settings summarizes the study.
This book focuses on the best possible communication strategies for anyone working with data. From students developing a research poster to faculty presenting data findings at a conference, it provides the guiding principles of presenting data in evidence-based ways so that audiences are more engaged and researchers are better understood.
High school graduation and dropout rates have long been used as indicators of educational system productivity and effectiveness and of social and economic well being. While determining these rates may seem like a straightforward task, their calculation is in fact quite complicated. How does one count a student who leaves a regular high school but later completes a GED? How does one count a student who spends most of his/her high school years at one school and then transfers to another? If the student graduates, which school should receive credit? If the student drops out, which school should take responsibility? High School Dropout, Graduation, and Completion Rates addresses these issues and to examine (1) the strengths, limitations, accuracy, and utility of the available dropout and completion measures; (2) the state of the art with respect to longitudinal data systems; and (3) ways that dropout and completion rates can be used to improve policy and practice.