曝光台 注意防骗
网曝天猫店富美金盛家居专营店坑蒙拐骗欺诈消费者
Environment
TNMC Total Not Mission Capable
IA Information Assurance TOS Time On Station
IADS Integrated Air Defense Systems TPPU Task, Post, Process, Use
IAI Israeli Aircraft Industries TRADOC Training and Doctrine Command
IBS Integrated Broadcast System TRAP Tactical Related Applications
ICAO International Civil Aviation Organization TRIXS Tactical Intelligence Exchange System
ICE Internal Combustion Engines; Immigration and
Customs Enforcement
TRL Technology Readiness Level
UAS ROADMAP 2005
ACRONYM LIST – Page ix
ID Identification TSA Transportation Security Administration
IETF Internet Engineering Task Force TSAS Tactile Situation Awareness System
IFF Identification Friend or Foe TSAT Transformational Satellite
IFR Instrument Flight Rules TSC Tactical Support Centers
IFSAR Interferometric Synthetic Aperture Radars TSM TRADOC System Manager
I-Gnat Improved Gnat TSP Tactical SIGINT Payload
IHPTET Integrated High Performance Turbine Engine
Technology
TTP Tactics, Techniques, and Procedures
IMINT Imagery Intelligence TUAV Tactical Unmanned Aerial Vehicle
INEEL Idaho National Engineering and Environmental
Laboratory
TUGV Tactical Unmanned Ground Vehicle
INMARSAT International Marine/Maritime Satellite TUT Targets Under Trees
IOC Initial Operational Capability UA Unmanned Aircraft; Unit of Action
IP Internet Protocol UAB UAV Battlelab
IPL Integrated Priorities List; Image Product Library UAS Unmanned Aircraft System
IPT Integrated Product Team UAV Unmanned Aerial Vehicle
ISAR Inverse SAR UCAD Unmanned Combat Airborne Demonstrator
ISR Intelligence, Surveillance, and Reconnaissance UCAR Unmanned Combat Armed Rotorcraft
ISR&T Intelligence, Surveillance, Reconnaissance and
Targeting
UCAV Unmanned Combat Air Vehicle
ISS Integrated Sensor Suite UCS Unmanned Control System
ITU International Telecommunications Union UFO UHF Follow-On
JASA Joint Airborne SIGINT Architecture UGV Unmanned Ground Vehicle
JAUGS Joint Architecture For Unmanned Ground Systems UHF Ultra High Frequency
JAUS Joint Architecture Unmanned Systems UMV Unmanned Marine Vehicle
JCAD Joint Chemical Agent Detector US&P United States and Its Possessions
JCS Joint Chiefs of Staff USJFCOM U.S. Joint Forces Command
JDAM Joint Direct Attack Munition USSOCOM United States Special Operations Command
JEFX Joint Expeditionary Forces Experiment USV Unmanned Surface Vehicle
JETEC Joint Expendable Turbine Engine Concept UUV Unmanned Undersea Vehicle
JFC Joint Forces Commander UVGG Unmanned Vehicles Common Control
JFCOM Joint Forces Command UXO Unexploded Ordnance
JLENS Joint Land Attack Elevated Netted Sensor VAATE Versatile Affordable Advanced Turbine Engine
JMTOP Joint Multi-TADIL Operating Procedures VFR Visual Flight Rules
JOTBS Joint Operational Test Bed System VTOL Vertical Take-Off and Landing
JP Jet Petroleum VTUAV Vertical Take-Off and Landing Tactical UAV
JPO Joint Program Office WAN Wide Area Network
JROC Joint Requirements Oversight Council WATCH-IT Wide-Area All-Terrain Change Indication and
Tomography
JRP Joint Robotics Program WGS Wideband Gap filler System
JSF Joint Strike Fighter WMD Weapons of Mass Destruction
JSTARS Joint Surveillance, Targeting, and Attack Radar
System
WNW Wide Band Networking Waveform
JTA Joint Technology Architecture WSADS Wind Supported Air Delivery System
JTC Joint Technology Center WSUA Wing Store UA
JTIDS Joint Tactical Information Distribution System WWW World Wide Web
JTRS Joint Tactical Radio System XML Extensible Markup Language
JUAV-JTE Joint UAV Joint Test and Evaluation XUV Experimental Unmanned Vehicle
UAS ROADMAP 2005
ACRONYM LIST – Page x
UAS ROADMAP 2005
1.0 INTRODUCTION
1.1 PURPOSE
The purpose of this Roadmap is to stimulate the planning process for U.S. military UA development over
the period from 2005-2030. It is intended to assist DoD decision makers in developing a long-range
strategy for UA development and acquisition in future Quadrennial Defense Reviews (QDRs) and other
planning efforts, as well as to guide industry in developing UA-related technology. Additionally, this
document may help other U.S. Government organizations leverage DoD investments in UA technology to
fulfill their needs and capabilities. The Roadmap addresses the following key questions:
What requirements for military capabilities could potentially be filled by UA systems?
What processor, communication, platform, and sensor technologies are necessary to provide these
capabilities?
When could these technologies become available to enable the above capabilities?
中国航空网 www.aero.cn
航空翻译 www.aviation.cn
本文链接地址:
unmanned aircraft systems roadmap(8)
