A periodic input signal with a known frequency was applied to the circuit. Using the Runge-Kutta algorithm, the differential equations for RC and RL circuits were solved to determine the output ...

% @brief Solves the second-order differential equation for an RLC circuit using RK4. % @brief Parameters for the input square wave signal. A = rand(1) * 10; % @var A Amplitude of the square wave freq ...

常微分方程式の初期値問題の数値計算において、比較的実装ロジックが単純である割に高精度である4段4次精度陽的Runge-Kutta法(RK4)が使われるケースが多い。基礎的なEuler法から始め、2～4段の陽的Runnge-Kutta法について、一般的なパラメータの条件を導出までを ...

This is a preview. Log in through your library . Abstract No Runge–Kutta method can be energy preserving for all Hamiltonian systems. But for problems in which the Hamiltonian is a polynomial, the ...

Abstract: In response to the increasing errors in attitude, velocity, and position of the carrier in the strapdown inertial navigation system over time, which affect ...

Abstract: The global error estimation and control problem is studied in embedded Runge–Kutta methods applied to ordinary differential equations (ODEs). We consider ...