radar systems engineering -凯发k8网页登录

radar equations, environment and system losses, detection and tracking statistics, synthetic aperture radar (sar), performance metrics

the functions in this section give you the tools needed to evaluate the performance of a radar system. you can use the radar equation to evaluate the radar received signal-to-noise ratio as a function of transmitted power. the toolbox lets you determine the minimal detectable signal and the accuracy of measurable target properties such as position and velocity. the radar equation lets you determine important radar metrics such as the receiver operating characteristic. the toolbox also lets you measure the performance of search-and-track radar systems as well as synthetic aperture radars. you can also account for radar losses due to environmental factors such as weather and clutter. tools such as the help you perform link-budget analyses.

featured examples

radar link budget analysis

use the radar designer app to perform a link budget analysis when designing a radar system. set the radar performance requirements, compute radar metrics, configure the environment, and compare several alternative designs.

mti improvement factor for land-based radar

show the moving target indication (mti) improvement factor and investigate the effects of the following on mti performance.

radar architecture: system components and requirements allocation (part 1)

starting from a set of performance requirements, design, implement, and test a radar system in simulink^®.

radar architecture: test automation and requirements traceability (part 2)

design and test a radar system in simulink based on a set of performance requirements - part 2.