Electronic Warfare (EW) Threat Modeling and Simulation Training

Electronic Warfare (EW) Threat Modeling and Simulation Training
Electronic Warfare (EW) Threat Modeling and Simulation Training

Electronic warfare (EW) is the use of electromagnetic energy or directed energy and integrated network functions to perform military and intelligence missions.

An electronic warfare (EW) system is any configuration of EW technology designed and built to perform military or intelligence missions on one or more air, ground, sea or space platforms.

These configurations usually consist of multiple EW devices and coordinating scalable subsystems, including several subsystems that house multiple devices in a single unit.

The focus of EW is that the manipulation of the spectrum , which is that the entire distribution of electromagnetic wave consistent with frequency or wavelength.

Although all EW travel at the speed of sunshine in vacuum, they travel over a good range of frequencies, wavelengths, and photon energies.

The electromagnetic spectrum includes the range of all electromagnetic radiation, including:
  • Radio Waves
  • Microwaves
  • Infrared Rays
  • Ultraviolet Light
  • Visible Light
  • X-rays And Gamma Rays

EW are often wont to control the EM spectrum to detect, analyze and track potential threats, making things aware that a rustic and its allies got to prepare defensive measures before each level, diplomatic opinions and offensive plans conflict.

EW has enabled Joint Electromagnetic Spectrum Operations (JEMSO), which allows our forces to use, attack and protect the EM operational environment.

Electronic warfare can also intercept, identify and decode the opponent's data. It can even project directed energy to disrupt the enemy's actions.

This changes the battlefield and provides the ability to enhance mission success and survivability at each stage, prevent certain armed conflicts before they begin, and/or reduce the impact and scope of ongoing conflicts.

Electronic attacks, protection and support are important electronic warfare functions, including:
  • Field advantages, including land, air, sea, space, cyberspace
  • Advantage within the EW
  • Destroy a given EW related signal
  • Use radio waves, infrared or lasers to confuse or disable the enemy’s electronic devices
  • Prevent the receiver from getting stuck
  • Support and operations to reinforce detection and mitigation.
  • Create and generate the data needed to disrupt the EW
  • Radar that collects enemy radio signals or senses incoming missiles

Electronic Warfare Threat Modeling and Simulation Training by Tonex


Electronic warfare threat modeling and simulation training provides modeling and simulation of classic and new threat environments applied to the foundation of electronic warfare (EW).

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.

Why Tonex?
  • Since 1992, Tonex has been a leader in electronic warfare training services.
  • Tonex has developed training on ISR, microwave, radar, electronic warfare, tactical data link, link 11, link 16, link 22, tactical laser electrical system and other innovative training programs.
  • Teachers not only have very professional knowledge in the professional field, but also have real world experience.
  • More than 20,000 developers from more than 50 countries/regions can keep up to date with the latest information in the Tonex training category.

Learning Objectives:
  • List the basics of modern electronic warfare concepts, architecture and technology
  • Discuss the application of electronic warfare concepts in ground, air and naval surface warfare
  • List the function and operational sensitivity of weapon systems to EW
  • Understand EW application modeling, simulation and network-centric architecture
  • Describe threat modeling and simulation
  • Discuss EW system engineering and system engineering system (SoSE) principles
  • Describe the EW threat environment
  • Compare and contrast new and classic EW threat environments

Audience:
  • Technical personnel
  • Electrical engineers, Software engineers
  • System engineers, System analysts
  • Cyber security professionals
  • Verification and validation personnel
  • Project and Program managers
  • Anyone involved in planning, analysis, modeling and simulation of Electronic Warfare Threat in the new environment.

Course Outline:
  • What is electronic warfare
  • Overview of EW key concepts
  • Intelligence, surveillance, and reconnaissance (ISR) threats applied in the new EW environment
  • Threats of modern and emerging radar systems
  • Overview of threats to EW functions in the new environment
  • Threats to electronic warfare capabilities
  • EW Environment Modeling and Simulation

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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Electronic Warfare Threat Modeling and Simulation Training

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