function [gamma] = gamma_armijo(f, grad_f, dk, xk) % Calculates the best step based on amijo method % % f(xk​+ γk*dk) ≤ f(xk) + σ * γk * dk^T * ∇f(xk) % γk = β*γk_0 % % f: Objective function % grad_fun: Gradient function of f % dk: Current value of selected direction -∇f or -inv{H}*∇f or -inv{H + lI}*∇f % xk: Current point (x,y) % beta: beta factor in [0.1, 0.5] % signam: sigma factor in (0, 0.1] global amijo_beta global amijo_sigma gf = grad_f(xk); gamma = 1; % Start with a step size of 1 % Perform Armijo line search while f(xk + gamma * dk) > f(xk) + amijo_sigma * gamma * dk * gf %while f(xk(1) + gamma * dk(1), xk(2) + gamma * dk(2)) > ... % f(xk(1), xk(2)) + amijo_sigma * gamma * norm(dk)^2 gamma = amijo_beta * gamma; % Reduce step size if gamma < 1e-12 % Safeguard to prevent infinite reduction warning('Armijo step size became too small.'); break; end end end