Used LING DYNAMIC SYSTEMS B-395 #9090442 for sale

LING DYNAMIC SYSTEMS B-395 is a lab equipment and accessory for experiments involving dynamic systems. It is a state-of-the-art data acquisition hardware and software integrated with three-axis translational and rotational motion simulators to facilitate the study of the behavior of non-linear dynamic systems. The equipment allows the researchers to measure, analyze and predict the behavior of translational and rotational motion of dynamic systems in both angular and linear coordinates. The system provides high accuracy through a robust, self-contained control and data acquisition unit. The data acquisition machine uses low noise, high accuracy sensors with high resolution sampling to produce accurate results. It also features advanced imaging and signal processing for recording and analyzing dynamic motion at very high speeds. The tool has an intuitive user interface, enabling users to easily define the parameters for experiments, set the motion limits for the actuators, and set the control parameters for the control asset. Furthermore, the model provides a detailed graphical display of the results in real time. B-395 facilitates teaching, research and industrial testing in fields such as robotics, automation, vibration/mechanical engineering, biometric systems, and medical robotics. In addition, the equipment can be interfaced with external mechanical systems to obtain accurate and real-time information on their behavior. The overall system is highly versatile and its features include multiple experiment types, synchronization of motion simulators, and the capability to autonomously execute complex experiments. In addition, the unit has a variety of algorithms for controlling the motion and optimizing the behavior of the dynamic machine under study. LING DYNAMIC SYSTEMS B-395 is designed to allow integration of mechanical systems with custom control systems and user-defined graphics, enabling accurate and reliable operation under various dynamic tool conditions. As such, the asset can easily be adapted for a wide range of applications. Moreover, it allows for controlled, reliable operation of complicated dynamic systems in a laboratory setting.