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Catalog of ATI courses on Space, Satellite, Radar, Missile, Defense & Systems Engineering with courses from January 2012 to June 2012

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Information about Catalog of ATI courses on Space, Satellite, Radar, Missile, Defense &...
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Published on February 1, 2012

Author: aticourses

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Catalog of ATI courses on Space, Satellite, Radar, Missile, Defense & Systems Engineering with courses from January 2012 to June 2012
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APPLIED TECHNOLOGY INSTITUTE, LLC Training Rocket Scientists Since 1984 Volume 111 Valid through July 2012 AL HNIC G TEC ININ TE TRA & ONSI 4 IC PUBL 98 SIN CE 1 Sign Up to Access Course Samplers Acoustics & Sonar Engineering Radar, Missiles & DefenseSystems Engineering & Project Management Engineering & Communications

Applied Technology Institute, LLC 349 Berkshire Drive Riva, Maryland 21140-1433 Tel 410-956-8805 • Fax 410-956-5785 Toll Free 1-888-501-2100 www.ATIcourses.com Technical and Training Professionals, Now is the time to think about bringing an ATI course to your site! If there are 8 or more people who are interested in a course, you save money if we bring the course to you. If you have 15 or more students, you save over 50% compared to a public course. This catalog includes upcoming open enrollment dates for many courses. We can teach any of them at your location. Our website, www.ATIcourses.com, lists over 50 additional courses that we offer. For 26 years, the Applied Technology Institute (ATI) has earned the TRUST of training departments nationwide. We have presented “on-site” training at all major DoD facilities and NASA centers, and for a large number of their contractors. Since 1984, we have emphasized the big picture systems engineering perspective in: - Defense Topics - Engineering & Data Analysis - Sonar & Acoustic Engineering - Space & Satellite Systems - Systems Engineering with instructors who love to teach! We are constantly adding new topics to our list of courses - please call if you have a scientific or engineering training requirement that is not listed. We would love to send you a quote for an onsite course! For “on-site” presentations, we can tailor the course, combine course topics for audience relevance, and develop new or specialized courses to meet your objectives. Regards, P.S. We can help you arrange “on-site” courses with your training department. Give us a call.2 – Vol. 111 Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805

Table of Contents Defense, Missiles, & Radar Systems Engineering & Project ManagementCombat Systems Engineering UPDATED! Agile Boot Camp Practitioners Real-World Solutions NEW!Feb 28-Mar 1, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . 4 Feb - Jun 2012 • (Please See Page 36 For Available Dates) . . . . . . . 36Cyber Warfare - Theory & Fundamentals NEW! Agile Project Management Certification Workshop NEW!Apr 3-4, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Feb - May 2012 • (Please See Page 37 For Available Dates) . . . . . . 37Explosives Technology and Modeling Applied Systems EngineeringJun 25-28, 2012 • Albuquerque, New Mexico . . . . . . . . . . . . . . . . . . . . 6 Apr 16-19, 2012 • Orlando, Florida. . . . . . . . . . . . . . . . . . . . . . . . . . . . 38Fundamentals of Rockets & MissilesJan 31-Feb 2, 2012 • Albuquerque, New Mexico . . . . . . . . . . . . . . . . . 7 Architecting with DODAFMar 6-8, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Mar 15-16, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 39GPS and Other Radionavigation Satellites Jun 4-5, 2012 • Denver, Colorado . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Jan 30-Feb 2, 2012 • Cape Canaveral, Florida . . . . . . . . . . . . . . . . . . . 8 Cost Estimating NEW!Mar 12-15, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . 8 Feb 22-23, 2012 • Albuquerque, New Mexico . . . . . . . . . . . . . . . . . . . 40Apr 16-19, 2012 • Colorado Springs, Colorado . . . . . . . . . . . . . . . . . . . 8 Jul 17-18, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . 40Link 16 / JTIDS / MIDS - Intermediate / Joint Range Extension CSEP PreparationApr 2-4, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Mar 20-21, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . 41Jun 25-27, 2012 • Chantilly, Virginia. . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Apr 20-21, 2012 • Orlando, Florida . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Missile System Design Fundamentals of COTS-Based Systems Engineering NEW!Mar 26-28, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . 10 May 8-10, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . 42May 1-3, 2012 • Laurel, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Fundamentals of Systems EngineeringModern Missile AnalysisMar 19-22, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 11 Feb 14-15, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . 43Multi-Target Tracking & Multi-Sensor Data Fusion Jun 6-7, 2012 • Denver, Colorado . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Jan 31 - Feb 2, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . 12 Model Based Systems Engineering NEW!May 29-31, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 12 May 22-24, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 44Network Centric Warfare - An Introduction NEW! Principles of Test & EvaluationMar 6-8, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Mar 13-14, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 45Radar 101 / Radar 201 Requirements Engineering with DEVSME NEW!Apr 16-17, 2012 • Laurel, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Apr 24-26, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 46Radar Systems Design & Engineering Technical CONOPS & Concepts Masters Course NEW!Feb 28 - Mar 2, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . 15 Mar 13-15, 2012 • Virginia Beach, Virginia . . . . . . . . . . . . . . . . . . . . . 47Space-Based Radar Apr 3-5, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 47Mar 5-8, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . . . 16 Apr 10-12, 2012 • Virginia Beach, Virginia . . . . . . . . . . . . . . . . . . . . . 47Strapdown & Integrated Navigation SystemsFeb 27-Mar 1, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . 17 May 8-10, 2012 • Virginia Beach, Virginia . . . . . . . . . . . . . . . . . . . . . . 47Synthetic Aperture Radar - Fundamentals Acoustic & Sonar EngineeringMay 7-8, 2012 • Albuquerque, New Mexico . . . . . . . . . . . . . . . . . . . . . 18Jun 4-5, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Acoustics Fundamentals, Measurements & ApplicationsSynthetic Aperture Radar - Advanced Apr 10-12, 2012 • Silver Spring, Maryland . . . . . . . . . . . . . . . . . . . . . 48May 9-10, 2012 • Albuquerque, New Mexico . . . . . . . . . . . . . . . . . . . . 18 Jul 17-19, 2012 • Bremmerton, Washington . . . . . . . . . . . . . . . . . . . . 48Tactical Intelligence, Surveillance & Reconnaissance (ISR) NEW! Advanced Undersea WarfareMar 19-21, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . 19 May 1-3, 2012 • Newport, Rhode Island. . . . . . . . . . . . . . . . . . . . . . . 49Unmanned Aircraft Systems Overview Applied Physical Oceanography Modeling and AcousticsMar 19, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Jun 5-7, 2012 • Slidell, Louisiana . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50Unmanned Aircraft System Fundamentals NEW! Fundamentals of Passive & Active Sonar NEW!Mar 20-22, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . . . 21 Jul 16-19, 2012 • Newport, Rhode Island. . . . . . . . . . . . . . . . . . . . . . . 51 Engineering & Communications Fundamentals of Random Vibration & Shock TestingAntenna & Array Fundamentals Mar 20-22, 2012 • College Park, Maryland . . . . . . . . . . . . . . . . . . . . . 52Feb 28-Mar 1, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . 22 May 8-10, 2012 • Boxborough, Massachusetts . . . . . . . . . . . . . . . . . . 52Computational Electromagnetics NEW! Jul 9-11, 2012 • Boulder, Colorado. . . . . . . . . . . . . . . . . . . . . . . . . . . . 52May 16-18, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 23 Fundamentals of Sonar Transducers DesignDesigning Wireless Systems for EMC NEW! Apr 10-12, 2012 • Newport, Rhode Island . . . . . . . . . . . . . . . . . . . . . . 53Mar 6-8, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Mechanics of Underwater NoiseDigital Signal Processing System Design May 1-3 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 54May 21-24, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 25 Military Standard 810G Testing NEW!Fundamentals of Engineering Probability: Visualization NEW! Mar 19-22, 2012 • Boxborough, Massachusetts . . . . . . . . . . . . . . . . . 55Apr 9-12, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . 26 Apr 2-5, 2012 • Jupiter, Florida . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55Fundamentals of RF Technology Jun 18-21, 2012 • Detroit, Michigan . . . . . . . . . . . . . . . . . . . . . . . . . . 55Mar 20-21, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 27Grounding & Shielding for EMC Ocean Optics: Fundamentals & Naval Applications NEW!Jan 31-Feb 2, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . . 28 Jun 12-13, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 56May 1-3, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . 28 Sonar Principles & ASW AnalysisInstrumentation for Test & Measurement NEW! Jun 11-14, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 57Mar 27-29, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 29 Sonar Signal ProcessingIntroduction to EMI/EMC May 15-17, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . 58Feb 28 - Mar 1, 2012 • Columbia, Maryland. . . . . . . . . . . . . . . . . . . . . 30 Underwater Acoustics 201Kalman, H-Infinity, & Nonlinear Estimation Apr 24-25, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 59Jun 12-14, 2012 • Laurel, Maryland . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Underwater Acoustics for Biologists and Conservation Managers NEW!Practical Design of Experiments Apr 17-19, 2012 • Silver Spring, Maryland . . . . . . . . . . . . . . . . . . . . . 60Mar 20-21, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 32 Underwater Acoustics, Modeling and SimulationSignal & Image Processing & Analysis for Scientists & EngMay 22-24, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 33 Jun 11-14, 2012 • Bay St. Louis, Mississippi. . . . . . . . . . . . . . . . . . . . 61Wavelets: A Conceptual, Practical Approach Vibration & Noise ControlFeb 28-Mar 1, 2012 • San Diego, California. . . . . . . . . . . . . . . . . . . . . 34 Apr 30 - May 3, 2012 • Newport, Rhode Island . . . . . . . . . . . . . . . . . . 62Jun 12-14, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 34 Jun 11-14, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 62Wireless Sensor Networking NEW! Topics for On-site Courses . . . . . . . . . . . . . . . . . . . . . . . . . 63Jun 11-14, 2012 • Columbia, Maryland . . . . . . . . . . . . . . . . . . . . . . . . 35 Popular “On-site” Topics & Ways to Register. . . . . . . . . . 64Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805 Vol. 111 – 3

Combat Systems Engineering February 28 - March 1, 2012 Update Columbia, Maryland d! $1690 (8:30am - 4:30pm) Register 3 or More & Receive $10000 Each Off The Course Tuition. Video! Course Outline www.aticourses.com/combat_systems_engineering.html 1. Combat System Overview. Combat system characteristics. Functional description for the combat system in terms of the sensor and weapons control, communications, and command and control. Anti-air Warfare. Anti- surface Warfare. Anti-submarine Warfare. Summary The increasing level of combat system integration 2. Combat System Functional and communications requirements, coupled with Organization. Combat system layers and shrinking defense budgets and shorter product life operation. cycles, offers many challenges and opportunities in the 3. Sensors. Review of the variety of multi- design and acquisition of new combat systems. This warfare sensor systems, their capability, three-day course teaches the systems engineering operation, management, and limitations. discipline that has built some of the modern military’s greatest combat and communications systems, using 4. Weaponry. Weapon system suites state-of-the-art systems engineering techniques. It employed by the AEGIS combat system and their details the decomposition and mapping of war-fighting capability, operation, management, and requirements into combat system functional designs. A limitations.  Basics of missile design and step-by-step description of the combat system design operation. process is presented emphasizing the trades made 5. Fire Control Loops. What the fire control necessary because of growing performance, operational, cost, constraints and ever increasing loop is and how it works, its vulnerabilities, system complexities. limitations, and system battlespace. Topics include the fire control loop and its closure by 6. Engagement Control. Weapon control, the combat system, human-system interfaces, planning, and coordination. command and communication systems architectures, 7. Tactical Command and Contro. Human- autonomous and net-centric operation, induced in-the-loop, system latencies, and coordinated information exchange requirements, role of planning and response. communications systems, and multi-mission capabilities. 8. Communications. Current and future Engineers, scientists, program managers, and communications systems employed with combat graduate students will find the lessons learned in this systems and their relationship to combat system course valuable for architecting, integration, and functions and interoperability. modeling of combat system. Emphasis is given to 9. Combat System Development. Overview sound system engineering principles realized through of the combat system engineering and acquisition the application of strict processes and controls, thereby processes. avoiding common mistakes. Each attendee will receive a complete set of detailed notes for the class. 10. Current AEGIS Missions and Directions. Performance in low-intensity conflicts. Changing Navy missions, threat trends, shifts in the Instructor defense budget, and technology growth. Robert Fry works at The Johns Hopkins University 11. Network-Centric Operation and Warfare. Applied Physics Laboratory where he is Net-centric gain in warfare, network layers and a member of the Principal Professional Staff.  Throughout his career he has coordination, and future directions. been involved in the development of new combat weapon system concepts, What You Will Learn development of system requirements, and balancing allocations within the fire • The trade-offs and issues for modern combat system design. control loop between sensing and weapon kinematic capabilities. He has worked on many aspects of the • The role of subsystem in combat system operation. AEGIS combat system including AAW, BMD, AN/SPY- • How automation and technology impact combat 1, and multi-mission requirements development. system design. Missile system development experience includes SM- • Understanding requirements for joint warfare, net- 2, SM-3, SM-6, Patriot, THAAD, HARPOON, centric warfare, and open architectures. AMRAAM, TOMAHAWK, and other missile systems. • Lessons learned from AEGIS development.4 – Vol. 111 Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805

Cyber Warfare – Theory & Fundamentals NEW! April 3-4, 2012 Columbia, Maryland $1090 (8:30am - 4:00pm) Register 3 or More & Receive $10000 Each Off The Course Tuition. Summary This two-day course is intended for technical and programmatic staff involved in the development, analysis, or testing of Information Assurance, Network Warfare, Network-Centric, and NetOPs systems. The course will provide perspective on emerging Course Outline policy, doctrine, strategy, and operational 1. Cyberspace as a Warfare Domain. Domain constraints affecting the development of terms of reference. Comparison of operational cyber warfare systems. This knowledge will missions conducted through cyberspace. greatly enhance participants’ ability to Operational history of cyber warfare. develop operational systems and concepts 2. Stack Positioning as a Maneuver Analog. that will produce integrated, controlled, and Exploring the space where tangible cyber warfare maneuver really happens. Extend the network stack effective cyber effects at each warfare level. concept to other elements of cyberspace. Understand the advantage gained through Instructor proficient cyberscape navigation. Al Kinney is a retired Naval Officer and 3. Organizational Constructs in Cyber Warfare. Inter-relationships between traditional and holds a Masters Degree in electrical emerging warfare, intelligence, and systems policy engineering. His professional experience authorities. includes more than 20 years of experience in 4. Cyberspace Doctrine and Strategy. National research and operational cyberspace Military Strategy for Cyberspace Operations. mission areas including the initial Comprehensive National Cybersecurity Initiative development and first operational (CNCI). Developing a framework for a full spectrum employment of the Naval Cyber Attack cyberspace capabilities. Team. 5. Legal Considerations for Cyber Warfare. Overview of pertinent US Code for cyberspace. What You Will Learn Adapting the international Law of Armed Conflict to cyber warfare. Decision frameworks and metaphors• What are the relationships between cyber warfare, for making legal choices in uncharted territory. information assurance, information operations, and network-centric warfare? 6. Operational Theory of Cyber Warfare.• How can a cyber warfare capability enable freedom Planning and achieving cyber effects. of action in cyberspace? Understanding policy implications and operational risks in cyber warfare. Developing a cyber• What are legal constraints on cyber warfare? deterrence strategy.• How can cyber capabilities meet standards for weaponization? 7. Cyber Warfare Training and Exercise Requirements. Understanding of the depth of• How should cyber capabilities be integrated with technical proficiency and operational savvy required military exercises? to develop, maintain, and exercise integrated cyber• How can military and civilian cyberspace warfare capabilities. organizations prepare and maintain their workforce to play effective roles in cyberspace? 8. Cyber Weaponization. Cyber weapons taxonomy. Weapon-target interplay. Test and• What is the Comprehensive National Evaluation Standards. Observable effects. Cybersecurity Initiative (CNCI)? From this course you will obtain in-depth 9. Command & Control for Cyber Warfare. knowledge and awareness of the cyberspace Joint Command & Control principles. Joint domain, its functional characteristics, and its Battlespace Awareness. Situational Awareness. organizational inter-relationships enabling your Decision Support. organization to make meaningful contributions in 10. Survey of International Cyber Warfare the domain of cyber warfare through technical Capabilities. Open source exploration of cyber consultation, systems development, and warfare trends in India, Pakistan, Russia, and operational test & evaluation. China.Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805 Vol. 111 – 5

Explosives Technology and Modeling June 25-28, 2012 Albuquerque, New Mexico $1995 (8:30am - 4:30pm) 4 Day Course! Register 3 or More & Receive $10000 Each Off The Course Tuition. Course Outline 1. Shock Waves. Fundamental Shock Wave Summary Hydrodynamics, Shock Hugoniots, Phase Change, This four-day course is designed for scientists, Oblique Shock Reflection, Regular and Mach Shock engineers and managers interested in the current state Reflection. of explosive and propellant technology. After an 2. Shock Equation of State Data Bases. Shock introduction to shock waves, the current explosive Hugoniot Data, Shock Wave Profile Data., technology is described.  Numerical  methods for Radiographic Data, Explosive Performance Data, evaluating explosive and propellant sensitivity to shock Aquarium Data,  Russian Shock and Explosive Data. waves are described and applied to vulnerability 3. Performance of Explosives and Propellants. problems such as projectile impact and  burning to Steady-State Explosives. Non-Ideal Explosives – detonation. Ammonium Salt-Explosive Mixtures, Ammonium Nitrate-Fuel Oil (ANFO) Explosives, Metal Loaded Instructor Explosives.  Non-Steady State Detonations – Build- Up in Plane, Diverging and Converging Geometry, Charles L. Mader, Ph.D.,is a retired Fellow of the Chemistry of Build-Up of Detonation.  Propellant Los Alamos National Laboratory and President of a Performance. consulting company. Dr. Mader authored the monograph Numerical Modeling of Detonation, and 4. Initiation of Detonation. Thermal Initiation, also wrote four dynamic material property data Explosive Hazard Calibration Tests.  Shock Initiation volumes published by the University of California of Homogeneous Explosives.  Shock Initiation of Press. His book and CD-ROM entitled Numerical Heterogeneous Explosives – Hydrodynamic Hot Spot Modeling of Explosives and Propellants, Third Edition, Model, Shock Sensitivity and Effects on Shock published in 2008 by CRC Press will be the text for the Sensitivity of Composition, Particle Size and course. He is the author of Numerical Modeling of Temperature.  The FOREST FIRE MODEL – Failure Water Waves, Second Edition, published in 2004 by Diameter, Corner Turning, Desensitization of CRC Press. He is listed in Whos Who in America and Explosives by Preshocking, Projectile Initiation of Whos Who in the World. He has consulted and guest Explosives, Burning to Detonation. lectured for public and private organizations in several 5. Modeling Hydodynamics on Personal countries. Computers. Numerical Solution of One-Dimensional and Two-Dimensional Lagrangian Reactive Flow, Who Should Attend Numerical Solution of Two-Dimensional and Three- This course is suited for scientists, engineers, and Dimensional Eulerian Reactive Flow. managers interested in the current state of explosive 6. Design and Interpretation of Experiments. and propellant technology, and in the use of numerical Plane-Wave Experiments, Explosions in Water, Plate modeling to evaluate the performance and vulnerability Dent Experiments, Cylinder Test, Jet Penetration of of explosives and propellants. Inerts and Explosives, Plane Wave Lens, Regular and Mach Reflection of Shock and Detonation Waves, Insensitive High Explosive Initiators, Colliding What You Will Learn Detonations, Shaped Charge Jet Formation and• What are Shock Waves and Detonation Waves? Target Penetration.• What makes an Explosive Hazardous? 7. NOBEL Code and Proton Radiography. AMR Reactive Hydrodynamic code with models of both• Where Shock Wave and Explosive Data is available. Build-up TO and OF Detonation used to model• How to model Explosive and Propellant oblique initiation of Insensitive High Explosives, Performance. explosive cavity formation in water, meteorite and• How to model Explosive Hazards and Vulnerability. nuclear explosion generated cavities, Munroe jets,• How to use the furnished explosive performance and Failure Cones, Hydrovolcanic explosions. hydrodynamic computer codes.• The current state of explosive and propellant technology. Course Materials Participants will receive a copy of Numerical ModelingFrom this course you will obtain the knowledge to of Explosives and Propellants, Third Edition by Dr. Charlesevaluate explosive performance, hazards and Mader, 2008 CRC Press. In addition, participants willunderstand the literature. receive an updated CD-ROM.6 – Vol. 111 Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805

Fundamentals of Rockets and Missiles January 31 - February 2, 2012 Course Outline 1. Introduction to Rockets and Missiles. The Classifications Albuquerque, New Mexico of guided, and unguided, missile systems is introduced. The practical uses of rocket systems as weapons of war, commerce March 6-8, 2012 and the peaceful exploration of space are examined. 2. Rocket Propulsion made Simple. How rocket motors and Columbia, Maryland engines operate to achieve thrust. Including Nozzle Theory, are explained. The use of the rocket equation and related Mass $1690 (8:30am - 4:00pm) Properties metrics are introduced. The flight environments and conditions of rocket vehicles are presented. Staging theory for rockets and missiles are explained. Non-traditional propulsion is Register 3 or More & Receive $10000 Each addressed. Off The Course Tuition. 3. Introduction to Liquid Propellant Performance, Utility and Applications. Propellant performance issues of specific impulse, Bulk density and mixture ratio decisions are examined. Storable propellants for use in space are described. Other propellant Properties, like cryogenic properties, stability, toxicity, compatibility are explored. Mono-Propellants and single Summary propellant systems are introduced. This three-day course provides an overview of rockets and 4. Introducing Solid Rocket Motor Technology. The missiles for government and industry officials with limited advantages and disadvantages of solid rocket motors are technical experience in rockets and missiles. The course examined. Solid rocket motor materials, propellant grains and provides a practical foundation of knowledge in rocket and construction are described. Applications for solid rocket motors as missile issues and technologies. The seminar is designed for weapons and as cost-effective space transportation systems are engineers, technical personnel, military specialist, decision explored. Hybrid Rocket Systems are explored. makers and managers of current and future projects needing 5. Liquid Rocket System Technology. Rocket Engines, from a more complete understanding of the complex issues of pressure fed to the three main pump-fed cycles, are examined. rocket and missile technology The seminar provides a solid Engine cooling methods are explored. Other rocket engine and foundation in the issues that must be decided in the use, stage elements are described. Control of Liquid Rocket stage steering is presented. Propellant Tanks, Pressurization systems operation and development of rocket systems of the future. and Cryogenic propellant Management are explained. You will learn a wide spectrum of problems, solutions and choices in the technology of rockets and missile used for 6. Foreign vs. American Rocket Technology and Design. How the former Soviet aerospace system diverged from the military and civil purposes. American systems, where the Russians came out ahead, and Attendees will receive a complete set of printed notes. what we can learn from the differences. Contrasts between the These notes will be an excellent future reference for current Russian and American Design philosophy are observed to provide trends in the state-of-the-art in rocket and missile technology lessons for future design. Foreign competition from the end of the and decision making. Cold War to the foreseeable future is explored. 7. Rockets in Spacecraft Propulsion. The difference between launch vehicle booster systems, and that found on Instructor spacecraft, satellites and transfer stages, is examined The use of Edward L. Keith is a multi-discipline Launch Vehicle System storable and hypergolic propellants in space vehicles is explained. Engineer, specializing in integration of launch Operation of rocket systems in micro-gravity is studied. vehicle technology, design, modeling and 8. Rockets Launch Sites and Operations. Launch Locations business strategies. He is currently an in the USA and Russia are examined for the reason the locations independent consultant, writer and teacher of have been chosen. The considerations taken in the selection of launch sites are explored. The operations of launch sites in a more rocket system technology. He is experienced efficient manner, is examined for future systems. in launch vehicle operations, design, testing, 9. Rockets as Commercial Ventures. Launch Vehicles as business analysis, risk reduction, modeling, American commercial ventures are examined, including the safety and reliability. He also has 13-years of government motivation for commercialization. The Commercial Launch Vehicle experience including five years working launch operations at market is explored. Vandenberg AFB. Mr. Keith has written over 20 technical 10. Useful Orbits and Trajectories Made Simple. The papers on various aspects of low cost space transportation student is introduced to simplified and abbreviated orbital over the last two decades. mechanics. Orbital changes using Delta-V to alter an orbit, and the use of transfer orbits, are explored. Special orbits like geostationary, sun synchronous and Molnya are presented. Who Should Attend Ballistic Missile trajectories and re-entry penetration is examined. • Aerospace Industry Managers. 11. Reliability and Safety of Rocket Systems. Introduction • Government Regulators, Administrators and to the issues of safety and reliability of rocket and missile systems is presented. The hazards of rocket operations, and mitigation of sponsors of rocket or missile projects. the problems, are explored. The theories and realistic practices of • Engineers of all disciplines supporting rocket and understanding failures within rocket systems, and strategies to missile projects. improve reliability, is discussed. • Contractors or investors involved in missile 12. Expendable Launch Vehicle Theory, Performance and development. Uses. The theory of Expendable Launch Vehicle (ELV) dominance over alternative Reusable Launch Vehicles (RLV) is • Military Professionals. explored. The controversy over simplification of liquid systems as a cost effective strategy is addressed. What You Will Learn 13. Reusable Launch Vehicle Theory and Performance. The student is provided with an appreciation and understanding of • Fundamentals of rocket and missile systems. why Reusable Launch Vehicles have had difficulty replacing • The spectrum of rocket uses and technologies. expendable launch vehicles. Classification of reusable launch • Differences in technology between foreign and vehicle stages is introduced. The extra elements required to bring stages safely back to the starting line is explored. Strategies to domestic rocket systems. make better RLV systems are presented. • Fundamentals and uses of solid and liquid rocket 14. The Direction of Technology. A final open discussion systems. regarding the direction of rocket technology, science, usage and • Differences between systems built as weapons and regulations of rockets and missiles is conducted to close out the those built for commerce. class study.Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805 Vol. 111 – 7

GPS and Other Radionavigation Satellites International Navigation Solutions for Military, Civilian, and Aerospace Applications January 30 - February 2, 2012 Cape Canaveral, Florida March 12-15, 2012 Each Stu receiv dent will Columbia, Maryland receiver e a free GPS with co displays lor map ! April 16-19, 2012 Colorado Springs, Colorado $1995 (8:30am - 4:30pm) Register 3 or More & Receive $10000 Each Summary Off The Course Tuition. If present plans materialize, 128 radionavigation Video! satellites will soon be installed along the space frontier. www.aticourses.com/gps_technology.htm They will be owned and operated by six different countries hoping to capitalize on the financial success of the GPS constellation. In this popular four-day short course Tom Logsdon Course Outline describes in detail how these various radionavigation 1. Radionavigation Concepts. Active and passive systems work and reviews the many practical benefits radionavigation systems. Position and velocity solutions. they are slated to provide to military and civilian users Nanosecond timing accuracies. Today’s spaceborne around the globe. Logsdon will explain how each atomic clocks. Websites and other sources of information. radionavigation system works and how to use it in Building a flourishing $200 billion radionavigation empire in space. various practical situations. 2. The Three Major Segments of the GPS. Signal structure and pseudorandom codes. Modulation Instructor techniques. Practical performance-enhancements. Tom Logsdon has worked on the GPS Relativistic time dilations. Inverted navigation solutions. radionavigation satellites and their 3. Navigation Solutions and Kalman Filtering constellation for more than 20 years. He Techniques. Taylor series expansions. Numerical helped design the Transit Navigation iteration. Doppler shift solutions. Kalman filtering algorithms. System and the GPS and he acted as a 4. Designing Effective GPS Receivers. The functions consultant to the European Galileo of a modern receiver. Antenna design techniques. Code Spaceborne Navigation System. His key tracking and carrier tracking loops. Commercial chipsets. assignment have included constellation Military receivers. Navigation solutions for orbiting selection trades, military and civilian applications, force satellites. multiplier effects, survivability enhancements and 5. Military Applications. Military test ranges. Tactical spacecraft autonomy studies. and strategic applications. Autonomy and survivability Over the past 30 years Logsdon has taught more enhancements. Smart bombs and artillery projectiles.. than 300 short courses. He has also made two dozen 6. Integrated Navigation Systems. Mechanical and strapdown implementations. Ring lasers and fiber-optic television appearances, helped design an exhibit for gyros. Integrated navigation systems. Military the Smithsonian Institution, and written and published applications. 1.7 million words, including 29 non fiction books. 7. Differential Navigation and Pseudosatellites. These include Understanding the Navstar, Orbital Special committee 104’s data exchange protocols. Global Mechanics, and The Navstar Global Positioning data distribution. Wide-area differential navigation. System. Pseudosatellites. International geosynchronous overlay satellites. The American WAAS, the European EGNOS, and the Japanese QZSS.."The presenter was very energetic and truly 8. Carrier-Aided Solution Techniques. Attitude-passionate about the material" determination receivers. Spaceborne navigation for NASA’s Twin Grace satellites. Dynamic and kinematic orbit determination. Motorola’s spaceborne monarch" Tom Logsdon is the best teacher I have ever receiver. Relativistic time-dilation derivations. Relativistichad. His knowledge is excellent. He is a 10!" effects due to orbital eccentricity. 9. The Navstar Satellites. Subsystem descriptions."Mr. Logsdon did a bang-up job explaining On-orbit test results. Orbital perturbations and computer modeling techniques. Station-keeping maneuvers. Earth-and deriving the theories of special/general shadowing characteristics. The European Galileo, therelativity–and how they are associated with Chinese Biedou/Compass, the Indian IRNSS, and thethe GPS navigation solutions." Japanese QZSS. 10. Russia’s Glonass Constellation. Performance"I loved his one-page mathematical deriva- comparisons. Orbital mechanics considerations. The Glonass subsystems. Russia’s SL-12 Proton booster.tions and the important points they illus- Building dual-capability GPS/Glonass receivers. Glonasstrate." in the evening news.8 – Vol. 111 Register online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805

Link 16 / JTIDS / MIDS - Intermediate / Joint Range Extension Link 16 / JTIDS / MIDS Link 16 / JTIDS / MIDS - Intermediate Inter mediate (L16 / F Level-3) April 2-3, 2012 Instructor Columbia, Maryland Patrick Pierson is president of a training, consulting, and software development company with June 25-26, 2012 offices in the U.S. and U.K. Patrick has more than 23 Chantilly, Virginia years of operational experience, and is internationally recognized as a Tactical Data Link subject matter $1750 (8:30am - 4:30pm) expert. Patrick has designed more than 30 Tactical Data Link training courses and personally trains Joint Range Extension Applications Protocol hundreds of students around the globe every year. April 4, 2012 Summary Columbia, Maryland The Link 16 / JTIDS / MIDS Intermediate Course is a two-day training course that covers the most important topics effecting Link 16 / JTIDS / MIDS.  The course June 27, 2012 includes 22 instructional modules and is one of our most Chantilly, Virginia popular courses.  This course is instructional in nature and does not involve hands-on training. $500 (8:30am - 4:30pm) Link 16 / JTIDS / MIDS Course Outline Day 1 Introduction to Link 16 Link 16 / JTIDS / MIDS Documentation Link 16 Enhancements System Characteristics Joint Range Extension Time Division Multiple Access Applications Network Participation Groups J-Series Messages Protocol (JRE / A Level-1) JTIDS / MIDS Pulse Development JTIDS / MIDS Time Slot Components Summary The Joint Range Extension Applications Protocol JTIDS / MIDS Message Packing and Pulses (JREAP) Introduction course is a one-day training JTIDS / MIDS Networks / Nets course being offered to students that complete the Day 2 JTIDS / MIDS Intermediate course.  The course explains Access Modes the JREAP technology, message components, JREAP JTIDS / MIDS Terminal Synchronization protocols, operational procedures, as well as JTIDS / MIDS Network Time operational support and planning requirements. Link 16 JTIDS / MIDS Network Roles / JTIDS / MIDS is a prerequisite. JTIDS / MIDS Terminal Navigation JTIDS / MIDS Relays Course Outline Day 3 Communications Security Joint Range Extension Applications Protocol JTIDS / MIDS Pulse Deconfliction Topics Include: JTIDS / MIDS Terminal Restrictions JREAP History Time Slot Duty Factor JTIDS / MIDS Terminals JREAP Documentation JREAP Introduction What You Will Learn Common Message Elements • The course is designed to enable the student to be JREAP Full Stack able to speak confidently and with authority about all Transmission Block Headers of the subject matter on the right. Message Group Headers The course is suitable for: JREAP Application Block • Operators JREAP Receipt Compliance • Engineers JREAP Management Messages • Consultants MIL-STD 3011 Appendix-B • Sales staff MIL-STD 3011 Appendix-C • Software Developers General Forwarding Requirements • Business Development Managers JREAP Planning Considerations • Project / Program ManagersRegister online at www.ATIcourses.com or call ATI at 888.501.2100 or 410.956.8805 Vol. 111 – 9

Missile System Design March 26-28, 2012 Columbia, Maryland May 1-3, 2012 Video! Laurel, Maryland www.aticourses.com/tactical_missile_design.htm $1795 (8:30am - 4:00pm) Register 3 or More & Receive $10000 Each Course Outline Off The Course Tuition. 1. Introduction/Key Drivers in the Missile Design and System Engineering Process: Overview of missile design process. Examples of system-of-systems integration. Unique characteristics of missiles. Key aerodynamic configuration sizing Summary parameters. Missile conceptual design synthesis process. Examples This three-day short course covers the fundamentals of of processes to establish mission requirements. Projected capability missile design, development, and system engineering. The in command, control, communication, computers, intelligence, course provides a system-level, integrated method for missile surveillance, reconnaissance (C4ISR). Example of Pareto analysis. aerodynamic configuration/propulsion design and analysis. It Attendees vote on course emphasis. addresses the broad range of 2. Aerodynamic Considerations in Missile Design and alternatives in meeting cost, System Engineering: Optimizing missile aerodynamics. Shapes for performance and risk requirements. The low observables. Missile configuration layout (body, wing, tail) methods presented are generally options. Selecting flight control alternatives. Wing and tail sizing. Predicting normal force, drag, pitching moment, stability, control simple closed-form analytical effectiveness, lift-to-drag ratio, and hinge moment. Maneuver law expressions that are physics-based, to alternatives. provide insight into the primary driving 3. Propulsion Considerations in Missile Design and parameters. Configuration sizing System Engineering: Turbojet, ramjet, scramjet, ducted rocket, examples are presented for rocket- and rocket propulsion comparisons. Turbojet engine design powered, ramjet-powered, and turbo-jet considerations, prediction and sizing. Selecting ramjet engine, powered baseline missiles. Typical booster, and inlet alternatives. Ramjet performance prediction and values of missile parameters and the sizing. High density fuels. Solid propellant alternatives. Propellant characteristics of current operational missiles are discussed as grain cross section trade-offs. Effective thrust magnitude control. well as the enabling subsystems and technologies for missiles Reducing propellant observables. Rocket motor performance prediction and sizing. Motor case and nozzle materials. and the current/projected state-of-the-art. Sixty-six videos illustrate missile development activities and missile 4. Weight Considerations in Missile Design and System performance. Daily roundtable discussion. Attendees will vote Engineering: How to size subsystems to meet flight performance requirements. Structural design criteria factor of safety. Structure on the relative emphasis of the material to be presented. concepts and manufacturing processes. Selecting airframe Attendees receive course notes as well as the textbook, materials. Loads prediction. Weight prediction. Airframe and motor Tactical Missile Design, 2nd edition. case design. Aerodynamic heating prediction and insulation trades. Dome material alternatives and sizing. Power supply and actuator alternatives and sizing. Instructor 5. Flight Performance Considerations in Missile Design and System Engineering: Flight envelope limitations. Aerodynamic Eugene L. Fleeman has 47 years of government, sizing-equations of motion. Accuracy of simplified equations of industry, academia, and consulting motion. Maximizing flight performance. Benefits of flight trajectory experience in missile system and shaping. Flight performance prediction of boost, climb, cruise, coast, technology development. Formerly a steady descent, ballistic, maneuvering, and homing flight. manager of missile programs at Air Force 6. Measures of Merit and Launch Platform Integration / Research Laboratory, Rockwell System Engineering: Achieving robustness in adverse weather. International, Boeing, and Georgia Tech, Seeker, navigation, data link, and sensor alternatives. Seeker range prediction. Counter-countermeasures. Warhead alternatives and he is an international lecturer on missiles lethality prediction. Approaches to minimize collateral damage. and the author of over 100 publications, including the AIAA Fusing alternatives and requirements for fuze angle and time delay. textbook, Tactical Missile Design. 2nd Ed. Alternative guidance laws. Proportional guidance accuracy prediction. Time constant contributors and prediction. Maneuverability design criteria. Radar cross section and infrared What You Will Learn signature prediction. Survivability considerations. Insensitive • Key drivers in the missile design and system engineering munitions. Enhanced reliability. Cost drivers of schedule, weight, learning curve, and parts count. EMD and production cost process. prediction. Designing within launch platform constraints. Internal vs. • Critical tradeoffs, methods and technologies in subsystems, external carriage. Shipping, storage, carriage, launch, and aerodynamic, propulsion, and structure sizing. separation environment considerations. Launch platform interfaces. • Launch platform-missile integration. Cold and solar environment temperature prediction. • Robustness, lethality, guidance navigation & control, 7. Sizing Examples and Sizing Tools: Trade-offs for extended accuracy, observables, survivability, reliability, and cost range rocket. Sizing for enhanced maneuverability. Developing a considerations. harmonized missile. Lofted range prediction. Ramjet missile sizing for range robustness. Ramjet fuel alternatives. Ramjet velocity • Missile sizing examples. control. Correction of turbojet thrust and specific impulse. Turbojet • Missile development process. missile sizing for maximum range. Turbojet engine rotational speed. Computer aided sizing tools for conceptual design. Soda straw

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