The Electronic Warfare Training Crash Course is a 4-day training program that provides an introduction to key concepts in electronic warfare (EW) including EW principles, capabilities, functions, technology and modeling/simulation. The training is intended for technical personnel, engineers, analysts and managers involved in EW, radar and electronic systems. The course covers topics such as EW architecture, signals intelligence, radar fundamentals, electronic attack/protection capabilities and EW systems engineering. Participants will learn how EW concepts are applied to counter threats and control the electromagnetic spectrum.
5. Basic introduction:
Electronic Warfare Training Crash Course sets up Electronic Warfare (EW) establishment intended
for investigators, engineers, electrical specialists, venture administrators, electronic warfare
specialized experts who outline or work radar frameworks and electronic warfare frameworks;
and anybody engaged with arranging, plan, examination, recreation, prerequisites definition,
execution determination, acquirement, test, security and assessment of electronic assault
hardware.
Electronic Warfare Training Crash Course depicts military activity including the utilization of
electromagnetic (EM) and coordinated vitality (DE) to control the EMS or to assault the adversary.
TONEX has been a pioneer in electronic warfare preparing administrations since 1992.
TONEX has created instructional classes in ISR, Microwave, Radar, EW, Tactical Data Link, Link 11,
Link 16, Link 22, strategic lasers electrical frameworks and other imaginative preparing programs.
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
6. Learning Objectives :
Endless supply of Electronic Warfare Training Crash Course, the participants can:
•Rundown premise of Electronic Warfare (EW) ideas, engineering and procedures
•Investigate the utilization of electronic warfare ideas to ground, airborne and maritime surface
warfare
•Depict the key ideas of electromagnetic field hypothesis
•Portray prorogation models, correspondence catch and sticking execution expectation
•Delineate viewable pathway (LOS), two-beam, and blade edge diffraction spread models
•Comprehend the fundamentals of radars and radar cross segment
•Portray EW and observation recipient framework configuration exchange off
•Give cases of Directed vitality weapons and stealth
•Depict how pursuit and following radars work
•Rundown the useful and operational susceptibilities of weapon frameworks to electronic warfare
•Comprehend Electronic Warfare Systems Engineering and System of Systems Engineering (SoSE)
standards
•Comprehend the application demonstrating, recreation and net-driven engineering to electronic
warfare.
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
7. Course Agenda:
What is Electronic Warfare (EW)?
•Electronic Warfare principles
•Overview of signals such as radio, infrared or radar
•Electronic Warfare architecture
•Naval EW
•Ground EW
•Airborne EW
•Cyber EW
•RF electronic warfare
•Infrared Countermeasures
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
8. Overview of Electronic Warfare (EW) Key Concepts:
•Electromagnetic Environment (EME)
•Electronic Order of Battle (EOB)
•EW subdivisions:
•Electronic Attack (EA)
•Electronic Protection (EP)
•Electronic Warfare Support (ES)
•EM energy or anti-radiation weapons
•Electronic Counter Measures (ECM)
•Jamming and chaff
•Defensive ECM (DECM)
•Electronic counter-counter measures (ECCM)
•Radar Warning Receiver (RWR)
•Jammers and EW transmitters
•Signal Intelligence (SIGINT)
•Electronic Intelligence (ELINT)
•Communications Intelligence (COMINT)
•Electronic Warfare Support Measures (ESM)
•Radar EW Simulation and Analysis
•Antenna Pattern Properties and Definitions
•Bore-Sight / Bearing Angle/ Beam width
•Side Lobe Level
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
9. Principles of Net-Centric Electronic Warfare:
•Electromagnetic review
•Radio waves, Infrared and Laser light
•Integrated electronic warfare
•Principles of Confusing or disabling an enemy’s electronics
•Basic strategies in modern warfare
•Radio propagation models
•Radar threat
•Phased array radars
•SAR & ISAR
•Low probability of intercept signals
•Modern EA architectures
•Directed Energy Weapons
•EW vs. stealth
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
10. Principles of Intelligence, Surveillance, Reconnaissance (ISR) Applied in EW:
•Electronic Warfare ISR Processes
•Overview of Intelligence, Surveillance , and Reconnaissance
•Threat simulation
•Measurement and Signatures Intelligence (MASINT)
•Electronic Intelligence (ELINT)
•Human Intelligence (HUMINT)
•Imagery Intelligence (IMINT)
•Signals Intelligence (SIGINT)
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
11. Key Technology Enablers of Modern and Emerging RADAR Systems:
•Radar, EW and ELINT signal simulation Radar
•Threat Simulation
•Target Applications
•Radar systems
•EW systems
•IED defeat systems
•Pulse Timing Pattern Parameters Pulse Repetition Interval Patterns
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
12. Electronic Warfare Functions:
•Ability to use the electromagnetic spectrum
•Key concepts to sense, protect, and communicate
•Overview of Electronic Warfare major areas and function
•Electronic Attack
•Disrupting signals
•Electronic Protection
•Preventing a receiver from being jammed
•Electronic Support
•Producing the data necessary to disrupt the electromagnetic spectrum
Listening
•Collecting radio signals
•Sensing the radar of an incoming missile
•Weapon systems
•Radar systems
•Radar cross section
•Search radars
•Tracking radars
•Electronic support measures
•Electromagnetic countermeasures
•Off-board self protection electromagnetic countermeasures
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
13. Electronic Warfare Capabilities:
•Enemy air defense systems
•Suppressing threats in the air
•Art of deception
•Directed Energy
•High energy lasers
•Radar-directed artillery systems
•Radar warning receivers
•Missiles, mortars, swarming boat attacks
•High-speed anti-radiation missile
•Radar-guided missiles
•Radar Cross Section Reduction
•Infrared/Visible signature suppression
•Directed Infrared countermeasures
•Airborne jammers
•Protection, confusing adversaries, “ghost” entities
•Foiling sensors with focused radio energy
•Enemy airborne interceptors
•Surface-to-air missiles
•Anti-aircraft artillery weapon systems
•Off-board and on-board systems
•Rapid detection, identification & More
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
14. Electronic Warfare Technology:
•Electronic warfare missions
•Capabilities to counter current and emerging threats
•Electronic Attack (EA)
•Electronic Protection (EP)
•Electronic Support (ES)
•Mission effectiveness and war fighter survivability
•Integrated electronic warfare
•Digital Electronic Warfare System
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
15. Electronic Warfare Environment Modeling and Simulation :
•Mission planning support
•Modern threat environment
•Controlling the electromagnetic spectrum
•Seizing the Spectrum
•EW Environment
•Integrated EW
•Ground EW systems
•Airborne EW systems
•Counter-UAS systems
•EW-Enabled Cyber
•Jammers
•Directed Energy
•Airborne Decoys
•Anti-Radiation missiles
•Radar warning receivers
•Countermeasures
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
16. Electronic Warfare Systems Engineering and System of Systems Engineering :
•Electronic Warfare ConOps
•Using DoDAF to model Electronic Warfare
•Electronic Warfare DoDAF operation modeling: OV-1, OV-2, OV-3, OV-4 and OV-5
•Electronic Warfare DoDAF system and services modeling: SV-1, SV-2, SV-3, SV-4, SvcV-1, SvcV-
2, SvcV-3
•System concept development
•Modeling and simulation
•System design
•Implementation and Manufacturing
•Test and field support
•EW threat and systems data analysis
•Performance and reliability
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
17. Workshop Topics :
•Advanced RF Electronic Warfare Design
•EW Systems Test Evaluation
•EW System Integration
•Analysis of Threat Radar Systems
•Advanced Modeling and Simulation
•Software-Defined Radio (SDR) Applied
•Millimeter Signal Measurements:
•Photonics in EW Application
•EW Best Practices
DoDAF’s Operational View (OV-1) of Integrated EW (Source: SRC Inc. srcinc.com)
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )
18. Electronic Warfare ( EW )
Training Crash Course
Price: $3,999.00
Length: 4 Days
Call Us Today: +1-972-665-9786
https://www.tonex.com/training-courses/electronic-warfare-training-crash-course/
Electronic Warfare ( EW )