This document presents the Department of Defense’s (DoD) roadmap for developing and employing unmanned aerial vehicles (uavs) over the next 25 years
Download 0.67 Mb.
|
- Navigate this page:
- List of Figures
- List of Tables
- 1.0 Introduction
- 1.2 Approach
Table of ContentsExecutive Summary ii Table of Contents iv List of Figures v List of Tables v 1.0 Introduction 1 1.1 Purpose 1 1.2 Approach 1 1.3 Scope 2 2.0 Current UAV Programs 3 2.1 Operational UAV Systems 3 2.2 Developmental UAV Systems 4 2.3 Other UAV Systems 6 2.4 UAV Program Timelines 10
3.1 Warfighters’ Roles for UAVs 13 3.2 Requirements Association with UAVs 14
4.1 Platforms 18 4.2 Payloads 23 4.3 Communication 33 4.4 Information Processing 35 4.5 Current UAV Technologies Research 38 5.0 Operations 42 5.1 Operations Requirements 42 5.2 Operational Concepts Development 44 5.3 Reliability & Sustainability 46 5.4 Training 46 5.5 Communication Infrastructure 48 5.6 Cooperative UAV Flight 48
6.1 Operational Metrics 51 6.2 UAV Roadmap for 2000-2025 53 6.3 Comparative Costs of Manned vs. Unmanned Aircraft 53 6.4 Key Issues 57 6.5 Conclusions 61 Appendix 1 Lead Agency: US Army CECOM, Space and Terrestrial Communications Directorate 25 List of FiguresFigure 2.4-1: DoD Annual Funding Profile for UAVs. 11 11 Figure 2.4-2: Timeline of Current and Planned DoD UAV Platforms. 11 Figure 3.1-1: IPL Priorities link to UAV Missions. 13 Figure 4.1-1: UAV Platform Requirements. 18 Figure 4.1.2-1. IHPTET and VAATE Program Goals and Trends 19 20 Figure 4.1.2-2: Specific Fuel Consumption Trends. 20 Figure 4.1.2-3 Mass Specific Power Trends. 21 Figure 4.2-1: UAV Payload Requirements. 24 Figure 4.2.3-2: Forecast of Amount of Bandwidth Continuously Processable. 29 Figure 4.3-1: UAV Communications Requirements. 33 34 Figure 4.3-2: Airborne Data Link Data Rate Trends. 34 Figure 4.4-1: UAV Information Processing requirements. 35 Figure 4.4-2: Autonomous Control Level Trend. 36 37 Figure 4.4-3: Processor Speed Trend. 37 Figure 5.1-1: UAV Operations Requirements. 42 Figure 5.3-1: Israeli UAV mishap causes. 46 Figure 5.4-1: Relative Demand in Actual vs. Simulated Flight Training. 47 Figure 6.2-1: UAV Roadmap, 2000-2025. 54 List of TablesTable 2.2.3-1: Summary History of Recent UAV Programs. 6 Table 2.4-2: Classes of Worldwide Military Reconnaissance UAVs. 12 Table 3.2-1: UAV Mission Areas 14 Table 3.2-2: CINC/Service UAV Mission Prioritization Matrix--2000 15 Table 3.2-3: SOCOM UAV Mission Prioritization Matrix--2000 16 Table 4.2.2-1: Operational Performance of Current EO/IR sensors. 25 Table 4.2.3-1. Proposed UAV SIGINT Demonstration Program. 28 Table 4.2.4-1. Potential UAV MASINT Sensing Applications. 30 Table 4.2.4-2: Bacteriological Agent Detection Schemes. 31 Table 4.4.4-1: Future Processor Technologies. 38 Table 4.5-1: Comparison of Service Laboratory Initiatives with CINC Requirements. 39 Table 6.1-1: Operational Metrics. 51 Table 6.3.1-1: Manned vs. Unmanned Aircraft Development Costs. 55 Table 6.3.2-1: Manned vs. Unmanned Procurement Costs. 55 Table 6.4.2-1: Status of FAA and NATO UAV Flight Regulations. 59 Table 6.4.4-1: UAV Responsible Offices of Services. 60 1.0 Introduction1.1 PurposeThe purpose of this roadmap is to stimulate the planning process for US military unmanned aerial vehicle (UAV) development over the period from 2000 to 2025. It is intended to assist Department of Defense (DoD) decision makers in developing a long-range strategy for UAV development and acquisition in the forthcoming Quadrennial Defense Review (QDR) and beyond. It addresses the following key questions:
This roadmap is meant to complement ongoing Service efforts to redefine their roles and missions for handling 21st century contingencies. The Services see UAVs as becoming integral components of the future Army’s Brigade Combat Teams (BCTs), the Navy’s DD-21 destroyers, and the Air Force’s Aerospace Expeditionary Forces (AEFs). As an example, the Army’s current “Transformation” initiative envisions each BCT having a reconnaissance, surveillance, and target acquisition (RSTA) squadron equipped with a UAV system, reflecting the initiative’s emphasis on reducing weight, increasing agility, and integrating robotics. 1.2 ApproachThe approach used in this document is to:
Such a roadmap could potentially be used in a number of ways, to include:
Directory: intell -> library intell -> Project Fact Sheet Sustainable marketdriven terminal solutions for efficient freight transport (smartset) Main information intell -> Intelligence monitoring drone system intell -> Productivity commission inquiry into intellectual property arrangements mr j coppel, C intell -> A developing country's perspective intell -> Part I: conceptualizing and justifying ip space 3 library -> Appendix e ipb for tactical, operational, and strategic echelons intell -> Afs/Sea Grant Best Student Presentation Summary library -> Writer’s Draft 0 – 4 February 2000 fm 34-10-6/ST library -> Counterintelligence operations Download 0.67 Mb. Share with your friends:
|