Add to ORKGAbstractWireless sensors are small-capacity devices with low consumption. Their capabilities already exceed the limit required for telephone-quality audio recording and processing, which calls for porting a number of speech processing applications. To do it, however, dynamically adjusting the sensitivity of their microphone is vital, which is called Automatic Gain Control (AGC). In this study we employed two simple algorithms for this task and will show that they can indeed be very effective in distant recording conditions, especially as it requires techniques which have low computational requirements. I
Automatic gain control (AGC) in audio conferencing aims to produce an even speech output level, e.g....
In speech processing applications, e.g., speech recognition, hearing aids (HAs), video conferencing,...
In single-channel non-stationary noise reduction it is paramount that a good noise reference is avai...
The Internet of Things is one of the most promising fields of technological advancements. Through ne...
Wireless microphone networks or so-called wireless acoustic sensor networks (WASNs) are a next-gener...
Advances in hardware technology pave the way to small, low power wireless sensor devices, such as wi...
The emergence of wireless microphones in everyday life creates opportunities to exploit spatial dive...
We previously proposed a directional automatic gain controller (AGC) using a microphone array to adj...
Local active sound control can potentially attenuate higher frequency noise, above about 300 Hz, at ...
Automatic gain control provides controlled signal amplitude at its output, despite variation of the ...
© Australian Acoustical SocietyTraditional active noise control systems achieve the greatest noise r...
This thesis describes the investigation of an adaptive method of attenuation control for digital spe...
Abstract-In this paper, we discuss the use of spectrum sensing as a contingency for future wireless ...
This paper describes a robust detection algorithm implemented on a network of acoustic sensors. The ...
RFID systems are growing in use also for sensing purposes. In the last years, there has been quite a...
Automatic gain control (AGC) in audio conferencing aims to produce an even speech output level, e.g....
In speech processing applications, e.g., speech recognition, hearing aids (HAs), video conferencing,...
In single-channel non-stationary noise reduction it is paramount that a good noise reference is avai...
The Internet of Things is one of the most promising fields of technological advancements. Through ne...
Wireless microphone networks or so-called wireless acoustic sensor networks (WASNs) are a next-gener...
Advances in hardware technology pave the way to small, low power wireless sensor devices, such as wi...
The emergence of wireless microphones in everyday life creates opportunities to exploit spatial dive...
We previously proposed a directional automatic gain controller (AGC) using a microphone array to adj...
Local active sound control can potentially attenuate higher frequency noise, above about 300 Hz, at ...
Automatic gain control provides controlled signal amplitude at its output, despite variation of the ...
© Australian Acoustical SocietyTraditional active noise control systems achieve the greatest noise r...
This thesis describes the investigation of an adaptive method of attenuation control for digital spe...
Abstract-In this paper, we discuss the use of spectrum sensing as a contingency for future wireless ...
This paper describes a robust detection algorithm implemented on a network of acoustic sensors. The ...
RFID systems are growing in use also for sensing purposes. In the last years, there has been quite a...
Automatic gain control (AGC) in audio conferencing aims to produce an even speech output level, e.g....
In speech processing applications, e.g., speech recognition, hearing aids (HAs), video conferencing,...
In single-channel non-stationary noise reduction it is paramount that a good noise reference is avai...