Abstract
To communicate efficiently with a prospective user, auditory interfaces are employed in mobile communication devices. Diverse sounds in different volumes are used to alert the user in various devices such as mobile phones, modern laptops and domestic appliances. These alert noises behave erroneously in dynamic noise environments, leading to major annoyances to the user. In noisy environments, as sounds can be played quietly, this leads to the improper masked rendering of the necessary information. To overcome these issues, a multi-model sensing technique is developed as a smartphone application to achieve automatic volume control in a smart phone. Based on the ambient environment, the volume is automatically controlled such that it is maintained at an appropriate level for the user. By identifying the average noise level of the ambient environment from dynamic microphone and together with the activity recognition data obtained from the inertial sensors, the automatic volume control is achieved. Experiments are conducted with five different mobile devices at various noise-level environments and different user activity states. Results demonstrate the effectiveness of the proposed application for active volume control in dynamic environments.
Highlights
In today’s world, smart phones have become integral of part of day-to-day life [1,2,3,4]
An automatic volume control application for a smartphone was developed in this study
The approach relies on built-in sensors to estimate the user state and the ambient noise level to automatically adjust the volume of the device
Summary
In today’s world, smart phones have become integral of part of day-to-day life [1,2,3,4]. Smartphones have applications that run only on a respective Mobile OS’s (like Android, iOS, Windows Fire Flower, etc.) with sensors for various functions [5,6]. To make the user aware of application functions, several notifications such as ringtones, message tones, app alerts, etc., are employed. These alerts are usually designed as sound notifications to be audible enough for the user to recognize the situation. Manual intervention by the user is required to adjust the volume by using the volume rocker buttons or by using touch user interface that may not be possible by the user in all Sensors 2020, 20, 4117; doi:10.3390/s20154117 www.mdpi.com/journal/sensors
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