Design and Implementation of Active Noise Cancellation for Car Cabin on Sulaimania Roads Using Arduino Embedded System

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Aven R. Hamza
Mohammed Abdullah Hussein Shiekh

Abstract

Car drivers hear many kinds of noise inside their vehicles' cabins, and the most annoying ones are the noise generated by tires, engines, and outside winds. Noise affects the comfort of the passengers inside the cabin, and it’s sad to say that modern cars are noisier in many kinds of noise signals due to using a lot of plastic materials in new budget cars. For expensive and luxury cars, the problem is solved by using better sound insulation materials, but for the budget ones, the approach used here is effective. It is called Active Noise Cancellation and can be done using analog or digital electronics. An operational amplifier and filters are used for the analog one, and in the digital one, signal processor chips are used. In engineering, cost reduction is a significant goal, and it is here, by using low-cost signal processor chips to achieve this, and our nominee is the Arduino processor. It is a low-cost open-source processor used in many digital control fields but not for noise cancellation, which is the concern of this paper. Considering the moderate signal processing capabilities of Arduino processors, a decision is required on what type of cabin noise signals our nominee can remove, and our selection is road noise. To a great extent, road noise relates to its quality, and the metric of concern is road roughness. In this work, three types of roughness are considered, low, medium, and high, the noise obtained from each type is analyzed, and countermeasures were applied to reduce them. Max cancellation obtained per three types, low, medium, and high roughness are 10 to 12 dB.

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How to Cite

“Design and Implementation of Active Noise Cancellation for Car Cabin on Sulaimania Roads Using Arduino Embedded System” (2022) Journal of Engineering, 28(9), pp. 45–69. doi:10.31026/j.eng.2022.09.04.

References

AlDhahebi, A. . M., Junoh, J. K. and Ahmed, A., 2016. A review on the major sources of the interior sound vibration and riding comfort in vehicles, In AIP Conference Proceedings, October, 1775(1 030039).

Hansen, C. et al., 2012. Active Control of Noise and Vibration, Second edition ed, s.l.:Taylor & Francis Group, LLC.

Johansson, S., 1998. Active Noise Control in Aircraft: Algorithms and Applications, Doctoral dissertation, University of Karlskrona/Ronneby, Lund University.

Jung, W., Elliott, S. J. and Cheer, J., 2019. Local Active Control of Road Noise Inside a Vehicle, Mechanical Systems and Signal Processing 121, pp. 144-157.

Sun, G., Duan, J., Li, M. and Lim, T. C., 2015. Numerical Modeling and Active Noise Control of Impact Road Noise Inside a Vehicle Compartment, Noise Control Engineering Journal, 63(1), pp. 72-85.

Thilagam, S. and Karthigaikumar, P., 2019. Implementation of Interior Noise Control System Using Digital Adaptive Filter for On-Road Car Applications, Wireless Personal Communications, 104(1), pp. 339-356.

Tud ́on-Mart ́ınez, J. . C. et al., 2014. Online Road Profile Estimation in Automotive Vehicles, In 2014 European Control Conference (ECC).IEEE, June, pp. 2370-2375.

Cheer, J., 2018. Active and Adaptive Sound Control for Automotive Applications.

Kickstarter, 2017. Muzo - Your Personal Zone Creator with Noise Blocking Tech. [Online]

Available at: https://www.kickstarter.com/projects/1280803647/muzo-your-personal-zone-creator-with-noise-blockin#:~:text=Muzo%20is%20the%20first%20acoustic,to%20generate%20dynamic%20realistic%20sounds [Accessed 22 December 2021].

Protosupplies, 2021. [Online] Available at: https://protosupplies.com/product/dual-op-amp-lm358/[Accessed 18 January 2022].

Store.arduino, n.d. [Online] Available at: https://store.arduino.cc/products/arduino-due

[Accessed 18 January 2022].

Thilagam, S. and Karthigaikumar, P., 2019. Implementation of Interior Noise Control System Using Digital Adaptive Filter for On-Road Car Applications. Wireless Personal Communications, 104(1), pp. 339-356.

Vesilind, . P. A., Peirce, J. J. and Weiner, R. F., 2013. Environmental Pollution and Control. 3rd edition ed, s.l.:Elsevier.

Yee, O. S., Suratman, A., Mohd Zain, N. S. and Mire, M., n.d. Design of Car Cabin Noise Cancellation.