Visualize the magnetic field generated by a current-carrying loop using Python simulation. This video demonstrates how electric current creates magnetic field lines, making core electromagnetism ...

import radarsimpy as rs import numpy as np from scipy import constants print(f"RadarSimPy version: {rs.__version__}") # Define antenna gain antenna_gain = 20 # dBi ...

In this video, we build a Python simulation to compute the electric field produced by a uniformly charged ring. Using numerical integration, we visualize the field behavior and compare it with key ...

Compared to the conventional high-order staggered-grid finite-difference method (C-SFD), the time–space domain dispersion-relation-based high-order staggered-grid finite-difference method (TS-SFD) can ...

Abstract: To address the demand for high-precision radar detection in obstacle avoidance scenarios for mobile platforms, this study proposes a radar echo modeling and simulation method based on a ...

Abstract: This study introduces a simulation-based method for evaluating muscle condition through mm-Wave RADAR technology, aiming to enable real-time analysis of muscle characteristics for assessing ...

python .\main.py Validate: 0.02486440087288949 = 0.024864400872889467 ? Kp_omg=30, Ki_omg=0.08943749999999999 Kp_cur=20, Ki_cur=0.005 Simulation Run Time=15.0 s Simulation Costs Time=4.840036630630493 ...

Modern radar system analysis needs to account for both the performance of the electronic system as well as modeling the target in its environment. This AWR webinar will discuss/demonstrate how its ...

A quick examination of how guided-wave technologies compare against other time-of-flight technologies, such as through-air radar and ultrasonic —along with a discussion of application guidelines—can ...