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Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
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Appendices

Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
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Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
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Appendix A Meetings and Activities

Committee members met with representatives of the Army and other organizations many times. Five meetings were held in the facilities of the National Academy of Sciences and National Research Council in Washington, D.C. Two fact-finding sessions were hosted by the U.S. Army Communications-Electronics Command Research, Development and Engineering Center at Fort Monmouth, New Jersey. A third fact-finding session was hosted by the Motorola Government Systems Group in Scottsdale, Arizona. Specific briefings included:

Twenty-First Century Land Warrior

Maj. Marc Collins

Acting Product Manager

Project Manager—Soldier

Land Warrior Science and Technology Component

Mr. Patrick R. Snow, Jr., Manager

Force XXI Land Warrior Program

Natick Research, Development and Engineering Center, Soldier System Command

Land Warrior Operational Requirements

Lt. Col. Patrick J. Berger

TRADOC System Manager—Soldier

Infantry Center and School

Land Warrior Description

Mr. Michael Doney

Project Manager—Soldier

System Assumptions and Power Profiles

Mr. Michael Doney

Project Manager—Soldier

Technology Insertion Candidates

Mr. Bradford Laprise

Force XXI Land Warrior Program Office

Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
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Land Warrior Functional Demonstration

Sgt. Scott Decker

TRADOC System

Manager—Soldier

Infantry Center and School

Generation II Soldier Power Management Findings

Mr. James Hamilton

Motorola Space and Systems Technology Group

Force XXI Land Warrior Program Office

Computer Design Innovations

Dr. Daniel P. Siewiorek

Professor, Carnegie-Mellon University

Member, Committee on Electric Power for the Dismounted Soldier

The Army After Next

Col. Robert B. Killebrew

U.S. Army Training and Doctrine Command

War on Power Drain

Mr. Walter Davis

Vice President, Motorola Corporation

Member, Committee on Electric Power for the Dismounted Soldier

Power Management Research and Development

Mr. Zachary J. Lemnios

Electronics Technology Office

Defense Advanced Research Projects Agency

Research, Development and Engineering Center Reengineering and Business Strategies

Mr. Jan Moren, Director,

Advanced Systems Directorate

Communications-Electronics Command

Primary/Rechargeable Batteries Development

Dr. Harold A. Christopher, Chief,

Battery Development and Engineering Branch, Power Sources

Division, Communications-Electronics Command

Future Vision on Power Needs for the Army After Next

Mr. John Klevecz

TRADOC Technology Consultant

Science Applications International Corporation

Army Research Office Power Program on Fuels Cells and Thermophotovoltaics

Dr. Richard J. Paur

Chief, Electrochemistry and Advanced Energy Conversion

Army Research Office

Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×

Communications-Electronics Command (CECOM) Power Center of Excellence and Power Sources Program

Dr. Robert P. Hamlen

Director, Power Center of Excellence

Communications-Electronics Command

Ft. Belvoir Fuel Cell and Engineer Generator Program

Mr. James R. Carlson

Mr. Richard Jacobs

Communications-Electronics Command

Army Research Laboratory Battery and Fuel Cell Research Program

Dr. Sol Gilman

Chief, Electrochemistry Branch

Sensors and Electron Devices Directorate

Army Research Laboratory

Army Research Laboratory Battery and Fuel Cell Research Program

Mr. Mark Salomon

Research Chemist

Army Research Laboratory

Army Research Laboratory Battery and Fuel Cell Research Program

Dr. Michael Binder

Research Physical Scientist

Army Research Laboratory

Program on Microturbine Engines

Dr. Alan H. Epstein

Professor, Aeronautics and Astronautics

Massachusetts Institute of Technology

Overview and Insight

Mr. Robert Giordano

Director, Research, Development and Engineering Center

Communications-Electronics Command

Army Technical Architecture

Mr. Paul C. Manz

Senior System Engineer

Army Systems Engineering Office

Common Operating Environment

Dr. David Usechak

Project Manager—Common Software

Tactical Displays Technology

Mr. M. Robert Miller

Chief, Displays Branch

Sensors and Electronic Devices Directorate

Army Research Laboratory

Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×

Electrochemical Ultracapacitors

Dr. T. Richard Jow

Research Physical Scientist

Sensors and Electron Devices Directorate

Army Research Laboratory

Networks and Protocols

Mr. Charles Graff

Space and Terrestrial Communications Directorate

Research, Development and Engineering Center

Communications-Electronics Command

Global Mobile Information Systems

Mr. Robert Ruth

Defense Advanced Research Projects Agency

Digital Integrated Laboratory Presentation

Dr. Myron Holinko

Director, Digital Integrated Lab

Research, Development and Engineering Center

Communications-Electronics Command

Technology Thrust for the Warrior

Mr. Ed Efkeman

Research, Development and Engineering Center

Communications-Electronics Command

Hand-Held Multimedia Terminal

Mr. Charles Strimpler

Space and Terrestrial Communications Directorate

Research, Development and Engineering Center

Communications-Electronics Command

Soldier Terrestrial PCS

Mr. Joseph Staba

Space and Terrestrial Communications Directorate

Research, Development and Engineering Center,

Communications- Electronics Command

Low Power Electronics and Power Management

Mr. Robert H. Sproat

Advanced Systems Directorate

Research, Development and Engineering Center, Communications-Electronics Command

Advanced Warrior Technologies and Systems

Mr. Erling E. Rasmussen

Corporate Vice President and Assistant General Manager

Space and Systems Technology Group Motorola

Power Drain Philosophy and Paging Applications

Mr. Jerry Brand

Space and Systems Technology Group Motorola

Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×

SINCGARS Issues

Mr. Doug Antisell

Project Manager—Tactical Radio Communications Systems

Communications-Electronics Command

Overview and Performance of Complex Arithmetic Processors

Ms. Susan Gilfeather

Principle Engineer

Space and Systems Technology Group Motorola

Modular Multifunction Information Transfer Systems

Dr. Bruce Fette

Chief Engineer of Signal Processing

Space and Systems Technology Group Motorola

Information Distribution Technology

Dr. Samuel C. Chamberlain

Army Research Laboratory

Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
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Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×
Page 178
Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×
Page 179
Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×
Page 180
Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×
Page 181
Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
×
Page 182
Suggested Citation:"Appendix A." National Research Council. 1997. Energy-Efficient Technologies for the Dismounted Soldier. Washington, DC: The National Academies Press. doi: 10.17226/5905.
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Page 183
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This book documents electric power requirements for the dismounted soldier on future Army battlefields, describes advanced energy concepts, and provides an integrated assessment of technologies likely to affect limitations and needs in the future. It surveys technologies associated with both supply and demand including: energy sources and systems; low power electronics and design; communications, computers, displays, and sensors; and networks, protocols, and operations. Advanced concepts discussed are predicated on continued development by the Army of soldier systems similar to the Land Warrior system on which the committee bases its projections on energy use. Finally, the volume proposes twenty research objectives to achieve energy goals in the 2025 time frame.

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