Abstract
Car body parts are sometimes responsible for irritating noise caused by assembly defects. Typically, various types of noise are known to originate from within the interior trim panels of car doors. This noise is considered to be an important factor that degrades the emotional satisfaction of the driver of the car. This research suggests an in-process inspection system consisting of an inspection workstation and a noise detection method. The inspection workstation presses down the car door trim panel by using a pneumatic pusher while microphones record the acoustic signals directly above the door trim panel and on the four sides of the workstation. The collected signals are analyzed by the proposed noise detection method after applying noise reduction. The noise detection method determines the presence of irritating noise by using noise source localization in combination with the time difference of arrival method and the relative signal strengths. The performance of the in-process noise detection system was evaluated by conducting experiments on faulty and healthy car door trim panels.
Highlights
The powertrain, drivetrain, tire contact with the road surface, and climate-control system are considered to be major sources of annoying noise audible in the interior of a car
This paper presents an in-process BSR noise detection system for car door trim panels
This study presented an in-process BSR noise detection system for car door trims
Summary
The powertrain, drivetrain, tire contact with the road surface, and climate-control system are considered to be major sources of annoying noise audible in the interior of a car. This noise can adversely affect the driver’s ability to concentrate [1]. Recent advances in noise control technology regarding these systems have successfully reduced the overall level of persistent interior noise [2,3]. The decreased noise level paradoxically draws the driver’s attention to weakly audible and occasional interior types of noise known as buzzing, squeaking, and rattling (BSR) noise.
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