Sensor-Integrated Real-Time Cam Mechanism Analysis Platform Using Python
DOI:
https://doi.org/10.63856/ijis/v2i5/00042Keywords:
Cam-Follower Dynamics, Data Acquisition (DAQ), Python GUI, LVDT Sensor, Kinematic Analysis, Signal Processing.Abstract
The dynamic kinematic analysis of cam and follower mechanisms is critical for optimizing internal combustion engines, automated manufacturing systems, and high-speed industrial robotics [1], [5], [7]. Traditionally, the experimental validation of these mechanisms relied heavily on analog measurement tools, such as static dial indicators. These legacy methods are susceptible to observational error, restricted to low-speed stationary testing, and fundamentally incapable of capturing high-frequency transient dynamic behaviors like follower jump, impact forces, and mechanical resonance [1], [11]. This study presents the architectural implementation and empirical validation of a low-cost, sensor-integrated digital platform that utilizes Python and Arduino-based Data Acquisition (DAQ) to dynamically analyze cam-follower kinematics in real time. Integrating high-precision Linear Variable Differential Transformer (LVDT) sensors alongside an optical rotary encoder, the system captures continuous linear displacement and instantaneous angular telemetry. This data is processed through a custom, multi-threaded Python Graphical User Interface (GUI). Digital signal processing techniques, specifically Savitzky-Golay polynomial smoothing and moving average filters, mitigate mechanical vibration and electrical noise. This signal conditioning enables highly accurate numerical differentiation, yielding high-fidelity velocity and acceleration profiles [6], [10] previously unattainable without prohibitive capital investment. Experimental validation demonstrates a 94.2% displacement correlation accuracy against theoretical Simple Harmonic Motion (SHM) models. The system successfully highlights operational nonlinearities introduced by tribological friction, base-circle runout, and mechanical misalignment. Ultimately, this research democratizes access to precision mechanical diagnostics, offering a robust, open-source alternative to proprietary DAQ systems, bridging the gap between theoretical kinematics and practical mechanical behavior.
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