We’ll examine the solutions and techniques used to verify individual pulse pattern quality, such as emitter identification and qualifications.
Lesson 1 - Introduction - Pulse Analysis Across Radar Domains
Learn how to create a custom art PCB using open source CAD tools. The host, Daniel Bogdanoff, walks through the process of designing and creating a custom, golden front panel label for an oscilloscope out of FR4. He uses the open source tools KiCad and Inkscape to create the design, and OshPark to order the PCB.
Lesson 2 - Common Analysis Problems
Introduces some of the common problems that can occur when analyzing radar pulse patterns. These problems include pulse width distortion, amplitude distortion, and timing jitter. The lesson also discusses how to identify and troubleshoot these problems.
Lesson 3 - Pulse Analysis Approaches
Discusses the different approaches that can be used to analyze radar pulse patterns. These approaches include time domain analysis, frequency domain analysis, and statistical analysis. The lesson also discusses the advantages and disadvantages of each approach.
Lesson 4 - Pulse Metric Tables
Introduces pulse metric tables, which are used to quantify the quality of radar pulse patterns. The lesson discusses the different metrics that are used in pulse metric tables, and how to interpret the results of a pulse metric table.
Lesson 5 - Identification & Scoring
Explains how to identify and score radar pulse patterns. The lesson discusses the different methods that can be used to identify pulse patterns, and how to score pulse patterns based on their quality.