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U.S. Army Futures Command Research Program Realignment - Board On Army Research And Development - Bog - National Academies Press - Plusbog.dk

U.S. Army Futures Command Research Program Realignment - Board On Army Research And Development - Bog - National Academies Press - Plusbog.dk

The U.S. Army Futures Command (AFC) leads a continuous effort to modernize and innovate to support future warfighters. AFC now oversees Combat Capability Development Command and has recently reorganized certain research offices, laboratories, and engineering centers. In response to this realignment, the Senate Armed Services Committee asked the National Academies' Board on Army Research and Development to examine these research portfolio changes and assess their impact. This report investigates and assesses the Army's strategy behind the realignment, discusses the issues with stakeholders, and makes recommendations to ensure the alignment meets with Army modernization priorities. Table of ContentsFront MatterSummary1 Introduction and Background2 Analysis of Army S&T Authorities and Funding3 Innovation and WorkforceAppendixesAppendix A: Committee Member Biographical InformationAppendix B: Data-Gathering Session AgendasAppendix C: AcronymsAppendix D: Statutory Roles of AFC and ASA (ALT)Appendix E: Budget Activity Definitions

DKK 240.00
1

Reusable Booster System - Committee For The Reusable Booster System: Review And Assessment - Bog - National Academies Press - Plusbog.dk

Reusable Booster System - Committee For The Reusable Booster System: Review And Assessment - Bog - National Academies Press - Plusbog.dk

On June 15, 2011, the Air Force Space Command established a new vision, mission, and set of goals to ensure continued U.S. dominance in space and cyberspace mission areas. Subsequently, and in coordination with the Air Force Research Laboratory, the Space and Missile Systems Center, and the 14th and 24th Air Forces, the Air Force Space Command identified four long-term science and technology (S&T) challenges critical to meeting these goals. One of these challenges is to provide full-spectrum launch capability at dramatically lower cost, and a reusable booster system (RBS) has been proposed as an approach to meet this challenge. The Air Force Space Command asked the Aeronautics and Space Engineering Board of the National Research Council to conduct an independent review and assessment of the RBS concept prior to considering a continuation of RBS-related activities within the Air Force Research Laboratory portfolio and before initiating a more extensive RBS development program. The committee for the Reusable Booster System: Review and Assessment was formed in response to that request and charged with reviewing and assessing the criteria and assumptions used in the current RBS plans, the cost model methodologies used to fame [frame?] the RBS business case, and the technical maturity and development plans of key elements critical to RBS implementation. The committee consisted of experts not connected with current RBS activities who have significant expertise in launch vehicle design and operation, research and technology development and implementation, space system operations, and cost analysis. The committee solicited and received input on the Air Force launch requirements, the baseline RBS concept, cost models and assessment, and technology readiness. The committee also received input from industry associated with RBS concept, industry independent of the RBS concept, and propulsion system providers which is summarized in Reusable Booster System: Review and Assessment. Table of ContentsFront MatterSummary1 Background2 Air Force EELV-Class Launch Requirements and Approaches3 Reusable Booster System Technology Assessment4 Cost Assessment5 Program Implementation6 Findings and RecommendationsAppendixesAppendix A: Statement of TaskAppendix B: Committee Member and Staff BiographiesAppendix C: List of Presenters to the CommitteeAppendix D: Acronyms and AbbreviationsAppendix E: Selected Reusable Launch Vehicle Development HistoryAppendix F: RBS Booster Design for Operability

DKK 279.00
3

Assessment of the In-House Laboratory Independent Research at the Army's Research, Development, and Engineering Centers - Division On Engineering And

Assessment of the In-House Laboratory Independent Research at the Army's Research, Development, and Engineering Centers - Division On Engineering And

This report evaluates the In-House Laboratory Independent Research (ILIR) conducted at the Research, Development, and Engineering Centers (RDECs) of the U.S. Army's Research, Development, and Engineering Command (RDECOM) during 2018. It reviews and offers recommendations for each of the eight areas of ILIR research: chemistry, computational sciences, electronics, life sciences, materials science, mechanical sciences, network sciences, and physics. Table of ContentsFront MatterSummary1 Introduction2 Chemistry3 Computational Sciences4 Electronics5 Life Sciences6 Materials Science7 Mechanical Sciences8 Network Sciences9 Physics10 Crosscutting RecommendationsAppendixesAppendix A: Army Research Program Review andAnalysis Committee Biographical InformationAppendix B: Acronyms

DKK 344.00
3

2022 Assessment of the DEVCOM Army Research Laboratory - Division On Engineering And Physical Sciences - Bog - National Academies Press - Plusbog.dk

2022 Assessment of the DEVCOM Army Research Laboratory - Division On Engineering And Physical Sciences - Bog - National Academies Press - Plusbog.dk

The U.S. Army Combat Capabilities Development Command (DEVCOM) Amy Research Laboratory (ARL) focuses on cutting-edge scientific discovery, technological innovation, and transition of knowledge products that offer great potential to strengthen the U.S. Army. The mission of the ARL is to operationalize science for transformational overmatch in support of persistent Army modernization. At the request of the DEVCOM Army Research Laboratory, this report provides an assessment of the scientific and technical quality of the ARL, with findings and recommendations related to the quality of ARL research, development, and analysis programs. Table of ContentsFront MatterSummary1 Introduction2 Humans in Complex Systems3 Terminal Effects4 Weapons Sciences5 Competency Conclusions and Recommendations and Crosscutting Conclusions and RecommendationsAppendixesAppendix A: Army Research Laboratory Technical Assessment Board Biographical InformationAppendix B: The U.S. Army Combat Capabilities Development Command Army Research Laboratory's 11 Competencies and Core CompetenciesAppendix C: 2022 Assessment CriteriaAppendix D: Acronyms and Abbreviations

DKK 201.00
3

Strategies to Leverage Research Funding - Board On Health Sciences Policy - Bog - National Academies Press - Plusbog.dk

Strategies to Leverage Research Funding - Board On Health Sciences Policy - Bog - National Academies Press - Plusbog.dk

Since 1992 the Department of Defense (DOD), through the U.S. Army Medical Research and Material Command, has received congressionally earmarked appropriations for programs of biomedical research on prostate, breast, and ovarian cancer; neurofibromatosis; tuberous sclerosis; and other health problems. Appropriations for these Congressionally Directed Medical Research Programs are used to support peer reviewed extramural research project, training, and infrastructure grants. Congress has become concerned about funding increases for these programs given current demands on the military budget. At the request of Congress, the Institute of Medicine (IOM) examined possibilities of augmenting program funding from alternative sources. The resulting IOM book, Strategies to Leverage Research Funding: Guiding DODa (TM)s Peer Reviewed Medical Research Programs, focuses on nonfederal and private sector contributions that could extend the appropriated funds without biasing the peer review project selection process.

DKK 357.00
3

Advanced Battle Management System - Division On Engineering And Physical Sciences - Bog - National Academies Press - Plusbog.dk

Advanced Battle Management System - Division On Engineering And Physical Sciences - Bog - National Academies Press - Plusbog.dk

The U.S. Department of Defense is pursuing an improved ability to more closely integrate and operate jointly against agile adversaries through Joint All-Domain Command and Control (JADC2). This framework will seamlessly integrate sensors, networks, platforms, commanders, operators, and weapon systems for rapid information collection, decision-making, and projection of joint and multinational forces. The Department of the Air Force's contribution to JADC2 is the Advanced Battle Management System (ABMS). As an evolving system in the early stages of definition, ABMS architecture and its supporting elements remain dynamic. Advanced Battle Management System assesses the technical approach being employed by ABMS and its ability to effectively support the range of system integration desired, while also supporting operational and development agility; and the governance being applied by ABMS and if it is appropriate and sufficient to enable quick development and evolution of capabilities while maintaining appropriate government control over the output. Table of ContentsFront MatterSummary1 Perspectives2 Architecture and Data3 Governance4 Challenges and OpportunitiesSelected BibliographyAppendixesAppendix A: Statement of TaskAppendix B: Data-Gathering MeetingsAppendix C: Acronyms and AbbreviationsAppendix D: Committee Member Biographical InformationAppendix E: Disclosure of Unavoidable Conflicts of Interest

DKK 214.00
3

Improved Operational Testing and Evaluation - Division Of Behavioral And Social Sciences And Education - Bog - National Academies Press - Plusbog.dk

Improved Operational Testing and Evaluation - Division Of Behavioral And Social Sciences And Education - Bog - National Academies Press - Plusbog.dk

The U.S. Army Test and Evaluation Command (ATEC) is responsible for the operational testing and evaluation of Army systems in development. ATEC requested that the National Research Council form the Panel on Operational Test Design and Evaluation of the Interim Armored Vehicle (Stryker) to explore three issues concerning the initial operation test plans for the Stryker/Interim Brigade Combat Team (IBCT). First, the panel was asked to examine the measures selected to assess the performance and effectiveness of the Stryker/IBCT in comparison both to requirements and to the baseline system. Second, the panel was asked to review the test design for the Stryker/IBCT initial operational test to see whether it is consistent with best practices. Third, the panel was asked to identify the advantages and disadvantages of techniques for combining operational test data with data from other sources and types of use. In this report the panel presents findings, conclusions, and recommendations pertaining to the first two issues: measures of performance and effectiveness, and test design. The panel intends to prepare a second report that discusses techniques for combining information. Table of ContentsFront MatterExecutive Summary1. Introduction2. Test Process3. Test Measures4. Statistical Design5. Data Analysis6. Assessing the IBCT/Stryker Operational Test in a Broad ContextReferencesAppendix A: Letter Report of the Panel to the Army Test and Evalution CommandAppendix B: Force Exchange Ratio, Historical Win Probability, and Winning with Decisive ForceAppendix C: Biographical Sketches of Panel Members and Staff

DKK 286.00
3

Sensing and Supporting Communications Capabilities for Special Operations Forces - Committee On Sensing And Communications Capabilities For Special

Sensing and Supporting Communications Capabilities for Special Operations Forces - Committee On Sensing And Communications Capabilities For Special

Among its key responsibilities, the U.S. Special Operations Command (SOCOM) plans and synchronizes operations against terrorist networks. At any given moment, SOF are likely to be engaged in some state of the planning or execution of special operations in many countries around the world, spanning a wide range of environments and mission. SOF therefore must be capable of operating in environments ranging from tropical jungle to arctic, maritime to desert, subterranean to mountainous, and rural to urban. Within this vast range additional factors may influence technical and operational requirements including weather, topography, bathymetry, geology, flora, fauna, and human population density. All of these factors must be weighed in terms of the challenges they pose to supporting communications and operational security. In short, SOF must maintain the capability to operate globally, in any environment, angainst any threats that can be countered by its unique capabilities. Sensing and Supporting Communications Capabilities for Special Operations Forces focuses primarily on the key core SOF task of special reconnaissance, to determine SOF-specific sensing and supporting communications needs and mapping them to existing and emerging technologies. The book discusses preliminary observations, issuees, and challenges, and identifies additional capabilities and technology areas that should be addressed. Table of ContentsFront MatterSummaryAppendix A: Biographical Sketches of Committee MembersAppendix B: Meetings and Participating OrganizationsAppendix C: Suggested Reading

DKK 169.00
3

An Assessment of Potential Health Effects from Exposure to PAVE PAWS Low-Level Phased-Array Radiofrequency Energy - Board On Radiation Effects

An Assessment of Potential Health Effects from Exposure to PAVE PAWS Low-Level Phased-Array Radiofrequency Energy - Board On Radiation Effects

PAVE PAWS is a phased-array warning system designed to detect and track sea-launched and intercontinental ballistic missiles operated on Cape Cod since 1979 by the U.S. Air Force Space Command. In 1979, the National Research Council issued two reports to address concerns from Cape Cod residents about the safety and possible health effects of the radiofrequency energy from the radar. Following up on the1979 report, the new report finds no evidence of adverse health effects to Cape Cod residents from long-term exposure to the PAVE PAWS radar. The report specifically investigated whether the PAVE PAWS radar might be responsible in part for the reported higher rates of certain cancers in the area, but concludes there is no increase in the total number of cancers or in specific cancers of the prostate, breast, lung, or colon due to radiation exposure from PAVE PAWS. The report did find in the scientific literature a few biological responses to radiofrequency exposures that were statistically significant. Such responses do not necessarily result in adverse health effects, but the report recommends additional studies to better discern the significance, if any, of those findings. Table of ContentsFront MatterPublic SummaryExecutive Summary1 Introduction2 Assessment of Classified Research Relevant to PAVE PAWS3 Physical Mechanisms for RF Effects on Biological Systems4 Exposure Levels5 PAVE PAWS Exposure Conditions6 Evidence of Biological Effects of RF Exposure Relevant to PAVE PAWS Radar System7 Animal and Human Studies Addressing Health Effects8 Epidemiological Studies of the Possible Adverse Health Effects of Pulsed Radar Emissions9 Health Considerations in the Cape Cod population10 Summary of Conclusions and RecommendationsAppendix A: Interim Letter ReportAppendix B: Acronyms and AbbreviationsCommittee Biosketches

DKK 396.00
3

Improved Operational Testing and Evaluation and Methods of Combining Test Information for the Stryker Family of Vehicles and Related Army Systems -

Improved Operational Testing and Evaluation and Methods of Combining Test Information for the Stryker Family of Vehicles and Related Army Systems -

The U.S. Army Test and Evaluation Command (ATEC) is responsible for the operational testing and evaluation of Army systems in development. ATECrequested that the National Research Council form the Panel on Operational Test Design and Evaluation of the Interim Armored Vehicle (Stryker). The charge to this panel was to explore three issues concerning the IOT plans for the Stryker/SBCT. First, the panel was asked to examine the measures selected to assess the performance and effectiveness of the Stryker/SBCT in comparison both to requirements and to the baseline system. Second, the panel was asked to review the test design for the Stryker/SBCT initial operational test to see whether it is consistent with best practices. Third, the panel was asked to identify the advantages and disadvantages of techniques for combining operational test data with data from other sources and types of use. In a previous report (appended to the current report) the panel presented findings, conclusions, and recommendations pertaining to the first two issues: measures of performance and effectiveness, and test design. In the current report, the panel discusses techniques for combining information. Table of ContentsFront MatterExecutive Summary1. Introduction to Combining Information2. Examples of Combining Information3. Combining Information in Practice4. Prerequisites for Combining Information5. Testing Challenges and Opportunities Posed by the Future Combat SystemReferencesAppendix A: Further Details Concerning the Bearing Cage ExampleAppendix B: Technical Details on Combining Information in Estimation: A Treatment of Separate Failure ModesAppendix C: The Rocket Development ProgramAppendix D: Acronyms and AbbreviationsPhase I Report: Operational Test Design and Evaluation of the Interim Armored VehicleBiographical Sketches of Panel Members and Staff

DKK 409.00
3