Price: $3,999.00

Length: 4 Days
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Electronic Warfare Threat Modeling and Simulation Training


Electronic warfare threat modeling and simulation is invaluable in providing test and training opportunities without expense and danger.

Most electronic warfare threat modeling and simulation strategies use signal parameters such as radio frequency, pulse repetition interval and pulse width. This is necessary because electronic warfare systems have to operate in wideband for detecting radar signals and to obtain high Probability of Intercept (POI).

Legacy EW receivers use to operate at 4.0 GHz bandwidth covering 2 to 18 GHz frequency in four bands for receiving search/track radar radiations. Generally, the pulse window is of finite duration, whereas the bandwidth of the pulse envelope is typically not greater (e.g., 10 MHz) and is sparse in time.

Radar signals typically repeat (on the order of 10 kHz), but the gaps between the pulses is greater than the length of the pulses and is sparse in frequency.

The relevant features of a radar pulse for EW receiver are frequency, pulse width, time of arrival, angle of arrival, radar signal polarization and modulations on pulse (time, frequency, and phase), etc.

This electronic warfare threat modeling and simulation software allows EW systems engineers to anticipate adversary threats and generate countermeasures. Consequently, EW threat modeling and simulation must be able to replicate realistic RF environments to validate EW system capabilities and identify potential risks.

Managing electronic warfare data and organizing collected intelligence into a single repository supports the operational decision-maker, and is crucial for effective platform and weapon system operations.

Electronic warfare modeling and simulation software provides essential operational support and enhanced situational awareness, supporting a common approach across different environments.

EW modeling and simulation modalities have the capability to manage, process and store complex platform, sensor and weapon system data in a single hub, supporting your intercept analysis, EOB production and mission preparation.

Analysts contend that the ability to store, fuse, manage and conduct effective analysis of EW data and intelligence has a direct and critical operational impact. Without such information, many of today’s platforms cannot operate or are rendered ineffective.

Through the use of automation, EW threat modeling and simulation reduces operator workload and error-prone processes, as well as reducing mission data turnaround time through end-to-end data automation.

Electronic Warfare Threat Modeling and Simulation Training by Tonex

The Electronic Warfare Threat Modeling and Simulation Training Course provides modeling and simulation of classic and new threat environment applied to Electronic Warfare (EW) foundation. This course designed for military professionals, analysts, engineers, electrical engineers, project managers, electronic warfare technical professionals and anyone involved in planning, analysis, modeling and simulation of Electronic Warfare Threat in the new environment.

TONEX has developed training courses in ISR, Microwave, Radar, EW, Tactical Data Link, Link 11, Link 16, Link 22, tactical lasers electrical systems and other innovative training programs since 1993.

Learning Objectives

Upon completion of the Electronic Warfare Threat Modeling and Simulation Training , the attendees are able to:

  • List the basis of modern Electronic Warfare  (EW) concepts, architecture and techniques
  • Discuss the application of electronic warfare concepts to ground, airborne and naval surface warfare
  • List the functional and operational susceptibilities of weapon systems to electronic warfare
  • Understand the application modeling, simulation and net-centric architecture to electronic warfare
  • Discuss  Electronic Warfare Systems Engineering and System of Systems Engineering (SoSE) principles
  • Describe Threat Modeling and Simulation
  • Describe Electronic Warfare (EW) threat environments
  • Compare and contrast new and classic Electronic Warfare (EW) threat environments

Who Should Attend

  • Technical personnel
  • Electronic warfare or radar system planning, design, development, operations and maintenance
  • Electrical engineers
  • Software engineers
  • System engineers
  • System analysts
  • Cyber security professionals
  • Verification and validation personnel
  • Project managers
  • Program managers

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

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

Threats to Intelligence, Surveillance, Reconnaissance (ISR) Applied in New EW Environment

  • Electronic Warfare ISR Processes in traditional environment
  • Overview of  Intelligence, Surveillance , and Reconnaissance in new environment
  • ISR threat simulation and modeling
  • Measurement and Signatures Intelligence (MASINT)
  • Electronic Intelligence (ELINT)
  • Human Intelligence (HUMINT)
  • Imagery Intelligence (IMINT)
  • Signals Intelligence (SIGINT)

Threat 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

Overview of Threat to Electronic Warfare Functions in New Environment

  • 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
  • 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

Threat to 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, and tracking
  • Direction finding and geolocation
  • Passive targeting support
  • Missile warning
  • Electronic attack
  • Electronic protection
  • Countermeasures
  • Electronic support
  • Mission support
  • Threat analysis and response
  • Multispectral, RF/threat management systems
  • Off-board and on-board self-protection systems
  • Operational analysis
  • Mission planning tools and data file generators
  • Mission and battle management
  • Avionics test systems and maintenance aids

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

Workshop Topics

  • Advanced RF Electronic Warfare Threat Modeling
  • Basic threat principles
  • Principles on threat environment
  • Principles of simulation and modeling
  • Network and application reconnaissance
  • Tools to model and simulate EW threats
  • Tools to monitor attack traffic
  • Analysis of Threat Radar Systems
  • Analysis of Threat to Next Generation Weapons
  • Advanced Modeling and Simulation
  • Software-Defined Radio (SDR) Applied
  • Millimeter Signal Measurement
  • Photonics in EW Applications
  • New EW Approaches and Techniques Required
  • Digital Communication Theory
  • Legacy and New Generation Communications Threats and Countermeasures
  • ES, ELINT Threats and Countermeasures
  • EO/IR Threats and Countermeasures
  • EW Best Practices


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