Radar Systems Training Fundamentals:
Radar Systems Training Fundamentals Course – Hands-on (Online, Onsite, and Classroom Live!)
This three-day Radar Systems Training Fundamentals course introduces the student to the fundamentals of radar systems engineering. The Radar Systems Fundamentals course begins by describing how radar sensors perform critical measurements and the limitation of those measurements. The radar range equation in its many forms is derived, and examples of its applications to different situations are demonstrated. The generation and reception of radar signals are explained through a holistic rather than piecemeal discussion of the radar transmitter, antenna, receiver, and signal processing.
The Radar Systems Fundamentals course wraps up with an explanation of radar detection and tracking of targets in noise and clutter. The Radar Systems Fundamentals course is valuable to engineers and scientists who are entering the field or as a review for employees who want a system-level overview. A comprehensive set of notes and references will be provided to all attendees. Students will also receive Matlab scripts that they can use to perform radar system performance assessments.
Radar Systems Training Fundamentals covers the following topics:
- Radar Systems Fundamentals: Radar Measurements
- Radar Systems Fundamentals: Radar Range Equation
- Radar Systems Fundamentals: Target and Clutter Reflectivity
- Radar Systems Fundamentals: Propagation of RF Signals
- Radar Systems Fundamentals: Radar Transmitter/Antenna/Receiver
- And More…
- 3 days of Radar Systems Training Fundamentals with an expert instructor
- Radar Systems Fundamentals Guide
- Certificate of Completion
- 100% Satisfaction Guarantee
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- We can adapt this Radar Systems fundamentals course to your group’s background and work requirements at little to no added cost.
- If you are familiar with some aspects of this Radar Systems Training course, we can omit or shorten their discussion.
- We can adjust the emphasis placed on the various topics or build the Radar Systems Fundamentals around the mix of technologies of interest to you (including technologies other than those included in this outline).
- If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Radar Systems Training course in a manner understandable to lay audiences.
Audience / Target Group:
The target audience for this Radar Systems Fundamentals course:
- Technical managers
- Logistics and support
Upon completing this Radar Systems Training course, learners will be able to meet these objectives:
- How radars measure target range, bearing, and velocity.
- How the radar range equation is used to estimate radar system performance including received power, target SNR, and maximum detection range.
- System design and external factors driving radar system performance including transmitter power, antenna gain, pulse duration, system bandwidth, target RCS, and RF propagation.
Radar Systems Training Fundamentals – Course Syllabus:
- Radar Measurements. Target ranging, target bearing, target size estimation, radar range resolution, range rate, Doppler velocity, and radar line-of-sight horizon.
- Radar Range Equation. Description of factors affecting radar detection performance; system design choices such as transmit power, antenna, signal frequency, and system bandwidth; external factors including target reflectivity, clutter, atmospheric attenuation, and RF signal propagation; use of radar range equation for estimating receive power, target signal-to-noise ratio (SNR), and maximum detection range.
- Target and Clutter Reflectivity. Target radar cross section (RCS), Swerling model for fluctuating targets, volume and surface clutter, and ground and ocean clutter models.
- Propagation of RF Signals. Free space propagation, atmospheric attenuation, ducting, and significance of RF transmit frequency.
- Radar Transmitter/Antenna/Receiver. Antenna concepts, phased array antennas, radar signal generation, RF signal heterodyning (upconversion and downconversion), signal amplification, RF receiver components, dynamic range, and system (cascade) noise figure.
- Radar Detection. Probability Density Functions (PDFs), Target and Noise PDFs, Probability of Detection, False Alarm Rate (FAR), constant FAR (CFAR) threshold, receiver operating characteristic (ROC) curves.
- Radar Tracking. Range and angle measurement errors, tracking, Alpha-Beta trackers, Kalman Filters, and track formation and gating.
Radar Systems Training Fundamentals Course Wrap-up
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