Machine condition monitoring has gained momentum over the years and becoming an essential component in the today’s industrial units. A cost-effective machine condition monitoring system is need of the hour for predictive maintenance. The paper presents the design and implementation using vibration sensor, and also this system operated through smart phones. Vibration analysis plays a major role in detecting machine defects and developing flaws before the equipment fails and potentially damages. The concept of this project was to detect faulty equipment in industry machine so that before damaging the whole machine faulty equipment can be replace and improve the durability of machine.

Mehrabi, Armin B., and Saman Farhangdoust, A laser-based noncontact vibration technique for health monitoring of structural cables: background, success, and new developments, Advances in Acoustics and Vibration (2018). [2] Rawat, Aseem Singh, and Nitin Kawade, Development of laser vibrometer, BARC Newsletter (2016) 16.

Goyal, Deepam, and B. S. Pabla, Development of non-contact structural health monitoring system for machine tools, Journal of Applied Research and Technology, 14 (4) (2016) 245-258.

Korkua, Suratsavadee, et al. Wireless health monitoring system for vibration detection of induction motors, 2010 IEEE Industrial and Commercial Power Systems Technical Conference-Conference Record, IEEE, (2010).

Gondal, Iqbal, Muhammad Farrukh Yaqub, and Xueliang Hua, Smart phone based machine condition monitoring system, International conference on neural information processing. Springer, Berlin, Heidelberg, (2012).

Yen, Wen-Huei P., Armin B. Mehrabi, and Habib Tabatabai. Evaluation of stay cable tension using a non-destructive vibration technique, Building to Last, ASCE, (1997).

Kulkarni, Rishikesh, and Pramod Rastogi, Simultaneous estimation of multiple phases in digital holographic interferometry using state space analysis, Optics and Lasers in Engineering, 104 (2018) 109-116.

Mehrabi, Armin B., In-service evaluation of cable-stayed bridges, overview of available methods and findings, Journal of Bridge Engineering 11 (6) (2006) 716-724.

Mohapatra, Badri Narayan, et al. Easy performance based learning of arduino and sensors through Tinkercad, International Journal of Open Information Technologies, 8 (10) (2020) 73-76.

Mohapatra, Badri Narayan, et al, Smart performance of virtual simulation experiments through Arduino Tinkercad Circuits. Perspectives in Communication, Embedded-systems and Signal-processing-PiCES 4 (7) (2020) 157-160.