A realistic model of a dynamic testing laboratory for structures is present
ed, which includes the controller and the hydraulic loading equipment as we
ll as the test specimen. The model provides a safe and easily controllable
way of experimenting with a complex dynamic testing system, enabling the li
mits of the system to be explored prior to performing a physical test. The
paper describes the representation of the proportional, integral, derivativ
e, lag controller and the development of a detailed nonlinear model of the
servovalve actuator system, together with their numerical implementation us
ing the Matlab system-modeling package Simulink. Output from the model is c
ompared with experimental results of both open-loop tests and real-time sub
structure tests, in which a physical test of part of a structure is coupled
in real time to a numerical model of the remainder of the structure.