Electronic Warfare- Introduction Training
Electronic Warfare- Introduction Training Course Description
This two-day Electronic Warfare- Introduction Training presents the depth and breadth of modern Electronic Warfare, covering Ground, Sea, Air and Space applications, with simple, easy-to-grasp intuitive principles. Complex mathematics will be eliminated, while the tradeoffs and complexities of current and advanced EW and ELINT systems will be explored. The fundamental principles will be established first and then the many varied applications will be discussed. The attendee will leave this course with an understanding of both the principles and the practical applications of current and evolving electronic warfare technology. This course is designed as an introduction for managers and engineers who need an understanding of the basics. It will provide you with the ability to understand and communicate with others working in the field.
With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.
Introduction to Electronic Combat. Radar-ESM-ECM-ECCM- LPI-Stealth (EC-ES-EA-EP). Overview of the Threat. Radar Technology Evolution. EW Technology Evolution. Radar Range Equation. RCS Reduction. Counter-Low Observable (CLO). The changing role of Decoys. The impact of Stealth.
Modern Threat Weapons and Sensors. Including Legacy systems which are being upgraded and still dangerous; New Russian and Chinese surface to air missiles and related radars; Upgraded radar controlled guns; and New infrared missile trackers.
Vulnerability of Radar Modes. Air Search Radar. Fire Control Radar. Ground Search Radar. Pulse Doppler, MTI, DPCA. Pulse Compression. Range Track. Angle Track. SAR.
Vulnerability/Susceptibility of Weapon Systems. Semi Active Missiles. Command Guided Missiles. Active Missiles. TVM. Surface-to-air, air-to-air, air-to-surface.
ESM (ES). ESM/ELINT/RWR. Typical ESM Systems. Probability of Intercept. ESM Range Equation. ESM Sensitivity. ESM Receivers. DOA/AOA Measurement. MUSIC / ESPRIT. Passive Ranging. Important detection and range calculations using simple dB math.
ECM Techniques (EA). Principals of Electronic Attack (EA). Noise Jamming vs. Deception. Repeater vs. Transponder. Sidelobe Jamming vs. Mainlobe Jamming. Synthetic Clutter. VGPO and RGPO. TB and Cross Pol. Chaff and Active Expendables. Decoys. Bistatic Jamming. Power Management, DRFM, high ERP. J/S and burn through calculations for self protection and remote jamming using simple dB math.
ECCM (EP). EP Techniques Overview. Offensive vs Defensive ECCM. Leading Edge Tracker. HOJ/AOJ. Adaptive Sidelobe Canceling and other techniques. EP techniques will be related to the numerical changes in EW effectiveness they enable.
EW Systems. Airborne Self Protect Jammer. Airborne Tactical Jamming System. Shipboard Self-Defense System.
EW Technology. EW Technology Evolution. Transmitters. Antennas. Receiver / Processing. . How these new technologies are driving what EW systems do and how they do it. Advanced EW. Electronic Warfare Overview.
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