Radar Homing Guidance System
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Prepared by Textore, Inc. Peter Wood, David Yang, and Roger Cliff November 2020
AIR-TO-AIR MISSILES CAPABILITIES AND DEVELOPMENT IN CHINA Prepared by TextOre, Inc. Peter Wood, David Yang, and Roger Cliff November 2020 Printed in the United States of America by the China Aerospace Studies Institute ISBN 9798574996270 To request additional copies, please direct inquiries to Director, China Aerospace Studies Institute, Air University, 55 Lemay Plaza, Montgomery, AL 36112 All photos licensed under the Creative Commons Attribution-Share Alike 4.0 International license, or under the Fair Use Doctrine under Section 107 of the Copyright Act for nonprofit educational and noncommercial use. All other graphics created by or for China Aerospace Studies Institute Cover art is "J-10 fighter jet takes off for patrol mission," China Military Online 9 October 2018. http://eng.chinamil.com.cn/view/2018-10/09/content_9305984_3.htm E-mail: [email protected] Web: http://www.airuniversity.af.mil/CASI https://twitter.com/CASI_Research @CASI_Research https://www.facebook.com/CASI.Research.Org https://www.linkedin.com/company/11049011 Disclaimer The views expressed in this academic research paper are those of the authors and do not necessarily reflect the official policy or position of the U.S. Government or the Department of Defense. In accordance with Air Force Instruction 51-303, Intellectual Property, Patents, Patent Related Matters, Trademarks and Copyrights; this work is the property of the U.S. Government. Limited Print and Electronic Distribution Rights Reproduction and printing is subject to the Copyright Act of 1976 and applicable treaties of the United States. This document and trademark(s) contained herein are protected by law. This publication is provided for noncommercial use only. -
Winning the Salvo Competition Rebalancing America’S Air and Missile Defenses
WINNING THE SALVO COMPETITION REBALANCING AMERICA’S AIR AND MISSILE DEFENSES MARK GUNZINGER BRYAN CLARK WINNING THE SALVO COMPETITION REBALANCING AMERICA’S AIR AND MISSILE DEFENSES MARK GUNZINGER BRYAN CLARK 2016 ABOUT THE CENTER FOR STRATEGIC AND BUDGETARY ASSESSMENTS (CSBA) The Center for Strategic and Budgetary Assessments is an independent, nonpartisan policy research institute established to promote innovative thinking and debate about national security strategy and investment options. CSBA’s analysis focuses on key questions related to existing and emerging threats to U.S. national security, and its goal is to enable policymakers to make informed decisions on matters of strategy, security policy, and resource allocation. ©2016 Center for Strategic and Budgetary Assessments. All rights reserved. ABOUT THE AUTHORS Mark Gunzinger is a Senior Fellow at the Center for Strategic and Budgetary Assessments. Mr. Gunzinger has served as the Deputy Assistant Secretary of Defense for Forces Transformation and Resources. A retired Air Force Colonel and Command Pilot, he joined the Office of the Secretary of Defense in 2004. Mark was appointed to the Senior Executive Service and served as Principal Director of the Department’s central staff for the 2005–2006 Quadrennial Defense Review. Following the QDR, he served as Director for Defense Transformation, Force Planning and Resources on the National Security Council staff. Mr. Gunzinger holds an M.S. in National Security Strategy from the National War College, a Master of Airpower Art and Science degree from the School of Advanced Air and Space Studies, a Master of Public Administration from Central Michigan University, and a B.S. in chemistry from the United States Air Force Academy. -
Lasers in Defence
National Conference in Applied Sciences and Humanities: NCASH-2017, 24th – 25th February 2017 Thakur College of Engineering & Technology (TCET), Kandivali (E), Mumbai, India http://www.tcethns.cf LASERS IN DEFENCE Nitin Vishwakarma, Harshal Tanwade, Aditya More, Priyanshu Tiwari, Yash Shah, Krishnakant Mishra Department Of Humanities & Sciences Thakur College of Engineering & Technology Kandivali (East), Mumbai-400101, India. [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] Abstract: In today’s world, there is rarely any scientific field which is not influenced by laser technology. In our paper, we will be particularly focusing on the applications of laser in defense & military. After 60 years of regressive research & experimentation on lasers, it has finally found its place in the field of defense & military. It is used in various defense applications like Mid-Infrared Advance Chemical laser (MIRACL), Air Borne Laser (ABL), Tactical High Energy Laser (THEL), Laser Guided Weapons, LiDAR, etc. It has conclude to be very useful where safety & Security are top priorities. Although there are quite many limitations for using Laser Technology in the area of Military & Defense, still there is high scope of future development in this field. So, the scientists are developing new Defense System, which will increase the security of nations against foreign threat. Keywords: LASER, MIRACL (Mid-Infrared Advance Chemical Laser), PHaSR (Personal Halting & Stimulation Response) THEL (Tactical High Energy Laser), LiDAR (Light Detection & Ranging), LOC (Line of Control), De-STAR (Directed Energy System for Targeting of Asteroids & exploration system) 1. Introduction Light Amplification by Stimulated Emission of Radiations which is also written in short as “LASER”, was theoretically discovered in 1957, but the first laser was built in 1960 by Theodore H. -
Missiles OUTLOOK
SPECIFICATIONS Missiles OUTLOOK/ GENERAL DATA AIRFRAME GUIDANCE OUTLOOK/ POWERPLANT SPECIFICATIONS MAX. MAX. SPAN, BODY LAUNCH MAX. RANGE STATUS/OUTLOOK/REMARKS DESIGNATION/NAME LENGTH WINGS OR DIAMETER WEIGHT CONTRACTOR TYPE NO. MAKE & MODEL (FT.) FINS (FT.) (FT.) (LB.) (NAUT. MI.) AIR-TO-AIR CHUNG-SHAN INSTITUTE OF SCIENCE AND TECHNOLOGY (CSIST), Taoyuan, Taiwan Skysword 1 (Tien Chien 1) 9.8 2.1 0.42 196.4 — IR 1 X solid propellant 9.7 In service with Taiwan air force since 1993. Skysword 2 (Tien Chien 2) 11.8 2 0.62 396.8 — Active radar 1 X solid propellant 32.4 In service with Taiwan air force since 1996. DENEL (PTY.) LTD., Pretoria, South Africa OPERATORS SATELLITE A-Darter 9.8 1.6 0.54 195.8 Denel IIR 1 X solid propellant — Fifth-generation technology demonstrator. Likely co-development with Brazil. COMMERCIAL R-Darter 11.9 2.1 0.53 264 Denel Radar 1 X solid propellant — Development completed 2000. For South African Air Force Cheetah and Gripen aircraft. U-Darter 9.6 1.67 0.42 210 Denel Two-color, IR 1 X solid propellant — First revealed in 1988; similar to Magic. Entered production in 1994. In use on South African Air Force Cheetah and Impala aircraft. DIEHL BGT DEFENSE, Uberlingen, Germany COMMERCIAL AIM-9L/I-1 Sidewinder 9.4 2.1 0.4 189 Diehl BGT Defense IR 1 X solid propellant — Upgraded and refurbished. IRIS-T 9.7 — 0.4 196 Diehl BGT Defense IIR 1 X solid propellant — In production. SATELLITE OPERATORS SATELLITE MBDA MISSILE SYSTEMS (BAE Systems, EADS, Finmeccanica), London, UK; Vélizy, France; Rome, Italy Aspide 12.1 3.4 0.67 479 Alenia Semiactive radar, homing 1 X solid propellant 43 In service. -
SIPRI Yearbook 2018: Armaments, Disarmament and International
world nuclear forces 267 VI. Indian nuclear forces shannon n. kile and hans m. kristensen India is estimated to have a growing arsenal of 130–40 nuclear weapons (see table 6.7). This figure is based on calculations of India’s inventory of weapon-grade plutonium and the number of operational nuclear-capable delivery systems. India is widely believed to be gradually expanding the size of its nuclear weapon stockpile as well as its infrastructure for producing nuclear warheads. Military fissile material production India’s nuclear weapons are believed to be plutonium-based. The plutonium was produced at the Bhabha Atomic Research Centre (BARC) in Trombay, Mumbai, by the 40-megawatt-thermal (MW(t)) heavy water CIRUS reactor, which was shut down at the end of 2010, and the 100-MW(t) Dhruva heavy water reactor. India operates a plutonium reprocessing plant for military purposes at the BARC.1 India plans to build six fast breeder reactors by the 2030s, which will significantly increase its capacity to produce plutonium that could be used for building weapons.2 An unsafeguarded 500-megawatt-electric (MW(e)) prototype fast breeder reactor (PFBR) is being built at the Indira Gandhi Centre for Atomic Research (IGCAR) complex at Kalpakkam, Tamil Nadu. The PFBR is expected to be commissioned in mid-2018 following a series of technical delays.3 The IGCAR has announced that a fast reactor fuel cycle facility will be built at Kalpakkam to reprocess spent fuel from the PFBR and future fast breeder reactors. The plant is scheduled to be commissioned by 2022.4 India is currently expanding its uranium enrichment capabilities. -
Radars for the Detection and Tracking of Cruise Missiles Radars for the Detection and Tracking of Cruise Missiles
• UPTON AND THURMAN Radars for the Detection and Tracking of Cruise Missiles Radars for the Detection and Tracking of Cruise Missiles Lee O. Upton and Lewis A. Thurman I The advent of the modern cruise missile, with reduced radar observables and the capability to fly at low altitudes with accurate navigation, placed an enormous burden on all defense weapon systems. Every element of the engagement process, referred to as the kill chain, from detection to target kill assessment, was affected. While the United States held the low-observable- technology advantage in the late 1970s, that early lead was quickly challenged by advancements in foreign technology and proliferation of cruise missiles to unfriendly nations. Lincoln Laboratory’s response to the various offense/defense trade-offs has taken the form of two programs, the Air Vehicle Survivability Evaluation program and the Radar Surveillance Technology program. The radar developments produced by these two programs, which became national assets with many notable firsts, is the subject of this article. , Defense Advance Research Projects Systems Command and the Office of Naval Research) Agency (DARPA) requested that Lincoln Labo- began sponsorship of a Lincoln Laboratory program, I ratory develop and lead a new program in air de- complementary to the AVSE program, which was fense against cruise missiles. The initial focus of the originally focused on the U.S. ship-based defense work at Lincoln Laboratory was to quantitatively as- against foreign antiship cruise missiles. The major de- sess and verify the capability of U.S. cruise missiles to velopment of this program, called Radar Surveillance penetrate Soviet air defenses. -
India's Prospects in the Area of Ballistic Missile Defense
РАБОЧИЕ МАТЕРИАЛЫ WORKING PAPERS МОСКОВСКИЙ ЦЕНТР КАРНЕГИ CARNEGIE MOSCOW CENTER Petr toPychkanov IndIa’s ProsPects In the area of BallIstIc MIssIle defense: a regIonal securIty PersPectIve 32012 WORKING PAPERS № 3 • 2012 PETR TOPYCHKANOV INDIA’S PROSPECTS IN THE AREA OF BALLISTIC MISSILE DEFENSE: A REGIONAL SECURITY PERSPECTIVE МОСКОВСКИЙ ЦЕНТР КАРНЕГИ CARNEGIE MOSCOW CENTER The Working Papers series was founded in 1999. No part of this publication may be reproduced or transmitted in any form or by any means without permission in writing from the Carnegie Endowment or the Carnegie Moscow Center. Carnegie Moscow Center Russia, 125009 Moscow, Tverskaya ul., 16/2. Tel: +7 (495) 935-8904 Fax: +7 (495) 935-8906 E-mail: [email protected] Internet: http://www.carnegie.ru Electronic versions of all Carnegie Moscow Center publications may be found at: http://www.carnegie.ru The Carnegie Moscow Center is an independent public policy research institution that promotes intellectual collaboration among Russian and international scholars and policy experts and provides analysis on a wide range of political, economic, and social issues. The main vehicles for its work are its publications and seminars. Working Papers provide readers with access to the main current research on Russian and Eurasian domestic and foreign policy. The series includes intermediate results of research and articles for immediate release. You may send your comments to the email address above. The views expressed in this publication are those of the author and do not necessarily represent the views of the Carnegie Endowment for International Peace or the Carnegie Moscow Center. The publication is distributed freeofcharge. -
Defense Number 14
Defense Number 14 A publication of the Center for Technology and National HorizonsSecurity Policy JUNE 2002 National Defense University Toward Missile Defenses from the Sea by Hans Binnendijk and George Stewart Overview researchers made significant progress toward developing naval-based theater missile defenses during the Clinton administration, the basic Developments of the past 18 months have created new possibili- NMD architecture had no naval component because that administra- ties for the sea basing of national defenses against interconti- tion sought actual deployments by 2005–2006. nental ballistic missiles. Some conceivable designs would Once in office, the Bush administration was determined to enhance U.S. prospects for defeating a rogue state missile attack accelerate progress on missile defenses, expand research and devel- on the United States and its allies, but other deployments could opment efforts, accept a greater degree of technological risk, and undermine the Nation’s strategic stability with Russia and redesign NMD architecture. However, no new missile defense archi- China. The most efficacious architecture from both a technical tecture has been proposed. The clear line established in 1997 that and strategic perspective would include a U.S. Navy boost-phase delineated theater missile defenses and national missile defenses intercept program and some sea-based radar. Given the compli- became blurred. The strategy opened the door to a greater seaborne cations of using existing Aegis ships for the missile defense mis- contribution to defense against ICBMs, and the Navy began to ana- sion, the Navy should consider constructing a separate ship lyze the possibility of this new potential. The Federal Government designed solely for this purpose. -
2019 China Military Power Report
OFFICE OF THE SECRETARY OF DEFENSE Annual Report to Congress: Military and Security Developments Involving the People’s Republic of China ANNUAL REPORT TO CONGRESS Military and Security Developments Involving the People’s Republic of China 2019 Office of the Secretary of Defense Preparation of this report cost the Department of Defense a total of approximately $181,000 in Fiscal Years 2018-2019. This includes $12,000 in expenses and $169,000 in DoD labor. Generated on 2019May02 RefID: E-1F4B924 OFFICE OF THE SECRETARY OF DEFENSE Annual Report to Congress: Military and Security Developments Involving the People’s Republic of China OFFICE OF THE SECRETARY OF DEFENSE Annual Report to Congress: Military and Security Developments Involving the People’s Republic of China Annual Report to Congress: Military and Security Developments Involving the People’s Republic of China 2019 A Report to Congress Pursuant to the National Defense Authorization Act for Fiscal Year 2000, as Amended Section 1260, “Annual Report on Military and Security Developments Involving the People’s Republic of China,” of the National Defense Authorization Act for Fiscal Year 2019, Public Law 115-232, which amends the National Defense Authorization Act for Fiscal Year 2000, Section 1202, Public Law 106-65, provides that the Secretary of Defense shall submit a report “in both classified and unclassified form, on military and security developments involving the People’s Republic of China. The report shall address the current and probable future course of military-technological development of the People’s Liberation Army and the tenets and probable development of Chinese security strategy and military strategy, and of the military organizations and operational concepts supporting such development over the next 20 years. -
Indian Army Successfully Carries out Trials of Third Generation NAG Missiles
Sat, 20 July 2019 Indian Army successfully carries out trials of third generation NAG missiles The trials of the missiles, developed by the Defence Research and Development Organisation (DRDO), were conducted between July 7 to July 18, 2019 By Manjeet Singh Negi The Indian Army has successfully carried out its summer user trials of third Generation Anti-Tank Guided Missile NAG at Pokhran Field Firing Ranges. The trials of the missiles, developed by the Defence Research and Development Organisation (DRDO), were conducted between July 7 to July 18, 2019. Defence Minister Rajnath Singh congratulated the user-evaluation teams and the DRDO for the successful completion of the user trials. The NAG missile has been developed to engage highly fortified enemy tanks in all weather conditions with day and night capabilities and with a minimum range of 500m and maximum range of 4 km. It is a third-generation fire-and-forget-class missile and uses an imaging infrared seeker in lock-on- before-launch mode. The missile is launched from the NAG missile carrier (NAMICA) which is capable of carrying up to six combat missiles. The robust imaging algorithm has made the missile hit the target at a distance of 4 km even in severe summer desert conditions which is unique in its class. As part of the NAG summer user trials, six missions were conducted under extreme temperature conditions of the Pokhran Ranges. All the missiles have met the mission objectives including minimum range, maximum range, indirect attack as well as top attack modes and achieved a direct hit on the target. -
Spacecraft Guidance Techniques for Maximizing Mission Success
Utah State University DigitalCommons@USU All Graduate Theses and Dissertations Graduate Studies 5-2014 Spacecraft Guidance Techniques for Maximizing Mission Success Shane B. Robinson Utah State University Follow this and additional works at: https://digitalcommons.usu.edu/etd Part of the Mechanical Engineering Commons Recommended Citation Robinson, Shane B., "Spacecraft Guidance Techniques for Maximizing Mission Success" (2014). All Graduate Theses and Dissertations. 2175. https://digitalcommons.usu.edu/etd/2175 This Dissertation is brought to you for free and open access by the Graduate Studies at DigitalCommons@USU. It has been accepted for inclusion in All Graduate Theses and Dissertations by an authorized administrator of DigitalCommons@USU. For more information, please contact [email protected]. SPACECRAFT GUIDANCE TECHNIQUES FOR MAXIMIZING MISSION SUCCESS by Shane B. Robinson A dissertation submitted in partial fulfillment of the requirements for the degree of DOCTOR OF PHILOSOPHY in Mechanical Engineering Approved: Dr. David K. Geller Dr. Jacob H. Gunther Major Professor Committee Member Dr. Warren F. Phillips Dr. Charles M. Swenson Committee Member Committee Member Dr. Stephen A. Whitmore Dr. Mark R. McLellan Committee Member Vice President for Research and Dean of the School of Graduate Studies UTAH STATE UNIVERSITY Logan, Utah 2013 [This page intentionally left blank] iii Copyright c Shane B. Robinson 2013 All Rights Reserved [This page intentionally left blank] v Abstract Spacecraft Guidance Techniques for Maximizing Mission Success by Shane B. Robinson, Doctor of Philosophy Utah State University, 2013 Major Professor: Dr. David K. Geller Department: Mechanical and Aerospace Engineering Traditional spacecraft guidance techniques have the objective of deterministically min- imizing fuel consumption. -
Former Warsaw Pact Ammunition Handbook, Vol 3
NATO Explosive Ordnance Disposal Centre of Excellence FORMER WARSAW PACT AMMUNITION HANDBOOK VOLUME 3 Air Forces Ammunition Aerial projectiles, bombs, rockets and missiles TRENČÍN 2019 Slovak Republic For Official Use Only Explosive Ordnance Disposal Centre of Excellence FORMER WARSAW PACT AMMUNITION HANDBOOK VOLUME 3 Air Forces Ammunition Aerial projectiles, bombs, rockets and missiles For Official Use Only Explosive Ordnance Disposal Centre of Excellence The NATO Explosive Ordnance Centre of Excellence (NATO EOD COE) supports the efforts of the Alliance in the areas of training and education, information sharing, doctrine development and concepts validation. Published by NATO EOD Centre of Excellence Ivana Olbrachta 5, 911 01,Trenčín, Slovak Republic Tel. + 421 960 333 502, Fax + 421 960 333 504 www.eodcoe.org Former Warsaw Pact Ammunition Handbook VOL 3 – Edition II. ISBN 978-80-89261-81-9 © EOD Centre of Excellence. All rights reserved 2019 No part of this book may be used or reproduced in any manner without the written permission of the publisher, except in the case brief quotations embodied in articles and reviews. For Official Use Only Explosive Ordnance Disposal Centre of Excellence Foreword Even though in areas of current NATO operations the insurgency is vastly using the Home Made Explosive as the main charge for emplaced IEDs, our EOD troops have to cope with the use of the conventional munition in any form and size all around the world. To assist in saving EOD Operators’ lives and to improve their effectiveness at munition disposal, it is essential to possess the adequate level of experience and knowledge about the respective type of munition.