Modeling RF Front End in Radar System Simulation In a radar system, the RF front end often plays an important role in defining the system performance. For example, because the RF front end is the first section i
This is geared towards scientists, engineers, and students who are working in the applications that employ radar or phased array technologies.In this webinar series, see how you can use MATLAB® and Simulink® to develop advanced radar signal processing algorithms and apply artificial intelligence...
Modeling Radar and Wireless Coexistence Congestion in the radio frequency (RF) spectrum and increasing demand for RF bandwidth has resulted in sharing the spectrum between different RF users, including radar systems and wireless communication systems. The coexistence between radar and communication systems...
Set up a radar system simulation consisting of a transmitter, a channel with a target, and a receiver.
This project is channeled towards using MATLAB/SIMULINK in modeling a high resolution radar system. Due to its vast importance over the past decade and recent time, this project work did not deny the fact that minimizing the inaccuracy involved during its operation over the past decade is needed...
Look at how recent developments in MATLAB and Simulink enable more effective design and development of radar system models through efficient simulation.
Model a radar altimeter and measure its performance by simulating two scenarios using a land surface and moving platform.
(L) or direct path. The line from the transmitter to the target is the rangeRTand the range from the receiver to the target is the rangeRR. The azimuth is the counterclockwise angle in the x-y plane measured in degrees from the positive x-axis. The origin is at the midpoint of the...
Radar Toolbox™ allows you to collect I/Q data from the TI mmWave radar sensor family. This example is designed to introduce you to the process of capturing and analyzing real-world I/Q data in MATLAB®. To illustrate a typical development workflow, we analyze the range, Doppler, and ...
Multi-function phased array design with frequency, PRF, waveform, and beam placement agility for radar, EW, and communication systems Electronic signal analysis of interference sources Machine learning for target and signal identification Closed-loop simulation between a radar model and a scheduler RF ...