Antenna Simulation Using Taylor Method for Current Distribution Analysis

In this article, we explore the application of Taylor's method for determining the current distribution across antenna array elements. We begin by introducing fundamental antenna principles and the operational mechanisms of antenna arrays. The discussion covers the significance of current distribution and its impact on antenna performance metrics. The core section provides a detailed, step-by-step explanation of Taylor's method implementation, including algorithmic considerations for code development. We demonstrate how to apply this mathematical approach to antenna elements through computational models that typically involve matrix operations and weighting coefficient calculations. The implementation typically requires solving linear equations system to obtain optimal current amplitudes for each array element. Finally, we evaluate the advantages and limitations of Taylor's method, comparing it with alternative solutions like Chebyshev or binomial distributions. Through this technical examination, you will learn to implement Taylor's method for current distribution optimization in antenna arrays, enhancing overall radiation pattern control and sidelobe reduction capabilities.