Identifying state transition and determining the critical value of the Duffing oscillator are crucial to indicating external signal existence and have a great influence on detection accuracy in weak signal detection.A circular zone counting(CZC) method is proposed in this paper,by combining the Duffing oscillator’s phase trajectory feature and numerical calculation for quickly and accurately identifying state transition and determining the critical value,to realize a highefficiency weak signal detection.Detailed model analysis and method construction of the CZC method are introduced.Numerical experiments into the reliability of the proposed CZC method compared with the maximum Lyapunov exponent(MLE) method are carried out.The CZC method is demonstrated to have better detecting ability than the MLE method,and furthermore it is simpler and clearer in calculation to extend to engineering application. Identifying state transition and determining the critical value of the Duffing oscillator are crucial to indicating external signal existence and have a great influence on detection accuracy in weak signal detection. A circular zone counting (CZC) method is proposed in this paper, by combining the Duffing oscillator’s phase trajectory feature and numerical calculation for quickly and accurately determining transition critical and determining the critical value, to realize a highefficiency weak signal detection. Detailed model analysis and method construction of the CZC method are presented. Numerical experiments into the reliability of the proposed CZC method compared with the maximum Lyapunov exponent (MLE) method are carried out. The CZC method is demonstrated to have better detection ability than the MLE method, and further it is simpler and clearer in calculation extend to engineering application.