Some embodiments of the disclosure disclose a method and apparatus for adjusting volume of an accepted session on a mobile communication terminal. The method includes: determining, by the mobile communication terminal transmitting a delivered session, a volume decibel value of the delivered session, and a volume decibel level corresponding thereto; and upon reception of an accepted session, adjusting the volume decibel value of the accepted session to a corresponding target volume decibel value according to a preset mapping relationship between the volume decibel level of the delivered session and the target volume decibel value of the accepted session.

According to various embodiments, there may be provided an electronic device comprising: a housing comprising a first space connected to the outside of the electronic device; a speaker device arranged inside the housing; a speaker housing comprising a second space formed to be spatially separated from the inner space of the electronic device by the speaker device inside the housing, the second space being arranged to be connected to the first space; a first atmospheric pressure sensor which is exposed to the first space and has a waterproofing function; a second atmospheric pressure sensor arranged in the inner space; and a processor, wherein the electronic device is configured to detect immersion of the electronic device in water or removal thereof from the immersion on the basis of the amount of atmospheric pressure change confirmed through the first atmospheric pressure sensor, and is configured to control the water-repellent operation through the speaker device on the basis of a difference value between first atmospheric pressure information acquired from the first atmospheric pressure sensor and second atmospheric pressure information acquired through the second atmospheric pressure sensor. Various other embodiments may be possible.

Example embodiments disclosed herein relate to user experience oriented audio signal processing. There is provided a method for user experience oriented audio signal processing. The method includes obtaining a first audio signal from an audio sensor of an electronic device; computing, based on the first audio signal, a compensation factor for an acoustic path from the electronic device to a listener and applying the compensation factor to a second audio signal outputted from the electronic device. Corresponding system and computer program products are disclosed.

A mobile communication device equipped for proximity detection may include a transmitter that emits a periodic ultrasound signal, a receiver that detects the periodic ultrasound signal, an intra-frame filter that filters the detected periodic ultrasound signal based on a frame length of the detected periodic ultrasound signal, and a detector that determines a power level of the filtered periodic ultrasound signal to detect if the receiver is located in an undesirable location.

Provided is an information-providing system whereby a variety of information can be provided using a sound to a portable terminal device used by a user. The information-providing system includes a sound output device outputting, as a sound wave, identifying information modulated into a sound signal, an identifying-information resolution server, connected to an information-communication network, for identifying, based on the identifying information, address information for accessing a content server connected to an information-communication network; and a portable terminal device including a sound receiving section for receiving the sound wave outputted by the sound-emitting device, a demodulating section for demodulating the identifying information from the received sound wave, a resolution section for sending the demodulated identifying information to the identifying-information resolution server and acquiring the address information, and an accessing section for accessing the content server using the acquired address information.

The present disclosure relates to a system for and method of stereophonic widening in loudspeakers. The method includes the steps of: monitoring an amplifier state and/or loudspeaker state; generating an effect control signal in response to monitoring the amplifier state and/or a loudspeaker state; applying the effect control signal to an effect processor. The effect processor controls an amount of stereophonic widening based on the effect control signal.

At least one processor can detect a volume of a sound input to an upper microphone. The at least one processor can determine whether or not at least one of a sound emission hole for a rear speaker and a sound collection hole for the upper microphone is clogged, based on the detected volume. The at least one processor can give a notification about a result of determination.

A system, method, and apparatus for monitoring ambient sound and vibration levels at the location of a user allows a determination as to whether the user is exceeding a maximum allowed exposure time as determined by an occupational standard. The sound and vibration level data can be evaluated locally at the mobile communication device, as well as transmitted to a backend system to allow supervision of personnel associated with the backend system as a further assurance that personnel comply with exposure limits. Further, the mobile communication device, in response to ambient conditions, adjusts the settings of its alerting sound and the vibration level of an associated vibration accessory to ensure perception of alerts by the mobile communication device for the user of the mobile communication device.

Providing navigation instructions in an automotive environment includes generating, at the portable device, a test audio signal. The test audio signal is provided to the head unit of the vehicle via a short-range communication link. The portable device then detects whether the test audio signal has been converted to sound by one or more speakers in the head unit of the vehicle. In response to detecting the audio signal at the portable device, a vocalized navigation instruction is directed to the head unit for announcement via the one or more speakers of the head unit. Otherwise, in response to not detecting the test audio signal at the portable device, the vocalized navigation instruction is provided via a speaker of the portable device.

Terminal and method for adjusting display brightness of terminal are provided. By disposing sensing unit and feature recognition area of display unit, when the terminal receives incoming call, as long as feature information of user is captured and compared with the feature information in brightness configuration information, if it matches, it adjusts the display brightness. Compared with the method of speech recognition, the user can adjust the screen brightness as long as the user approaches specific part to captures features without the need for the user to input additional speech, effectively improving the user's sensory experience. At the same time, the sensing unit of the present invention is directly disposed below the display unit, and no additional sensor (such as distance sensor) is needed to effectively reduce the overall thickness of the mobile device, so that the mobile device is thinner, and meets market demands.