Phased array radar systems engineering bootcamp

Phased-Array Radar Systems Engineering Bootcamp is a 3-day training program covering phased array radar standards, most recent technological improvements, software, framework examination, prerequisites, engineering, plan and task. Look at real subsystems and related innovations with masters in those zones.



Who Should Attend:
  • System Engineers and Designers 
  • Software, Hardware and Testing Engineers 
  • Technical Managers 
  • Technicians 
  • Logistics and Support 
  • Operations 
  • Procurement and Specifications Writing Practitioners 

Learning Objectives:
  • List terminology, principle, concepts, subsystems and components related to the systems engineering and design. 
  • Analyze and discuss applications and technologies behind multi-function phased-array radar. 
  • Review phased-array radar systems recent technological development, design, engineering and operation process and principles. 
  • Evaluate theory of operation of modern phased-array radars. 
  • Identify principles, procedures, design, engineering techniques and evolution of phased-array radar technology. 
  • Discuss Radar Concept of Operation (ConOps), functional architecture, system requirement, system design, architecture, performance, operation and maintenance, and troubleshooting 
  • Sketch a high-level architecture of a simple phased-array system covering functions, components and subsystems including transmitters, receivers, antennas, clutter and noise, detection, signal processing modules, operations, software. 
  • Determine basic acceptable phased-array radar system performance . 
  • Provide detection, identification, and classification of objects/targets using different phased-array radar systems. 
  • Understanding environmental and terrain effects on radar operations phased-array radar. 

Course Agenda and Topics:
  • Introduction to Radar Systems 
  • Phased Array Radar Fundamentals 
  • Phased-array Radar Design: Application of Radar Fundamentals 
  • Radar Antenna Architectures 
  • Target Detection 
  • Search and Acquisition Functions 
  • Estimation, Tracking, and Data Association 
  • Target Classification, Discrimination, and Identification 
  • Interference Suppression Techniques 
  • Phased-array Radar Architectures 
  • Fundamental Radar Design Trade-offs 
  • Performance-driven Radar Requirements 
  • Missile Defense Radar Design Considerations 
  • Early Warning Radar Design Considerations 
  • Air Defense Radar Design Considerations 
  • Predicted Performance of Phased-array Radars 

Participants will find out about standards and the innovation of the phased array radio wire and radar framework engineering, investigation, outline, execution and usage, check and approval, and task and support.

Call us today at +1-972-665-9786. 

Comments