Continuous audio analysis from embedded and mobile devices is an increasingly important application domain. More and more, appliances like the Amazon Echo, along with smartphones and watches, and even research prototypes seek to perform multiple discriminative tasks simultaneously from ambient audio; for example, monitoring background sound classes (e.g., music or conversation), recognizing certain keywords (‘Hey Siri’ or ‘Alexa’), or identifying the user and her emotion from speech. The use of deep learning algorithms typically provides state-of-the-art model performances for such general audio tasks. However, the large computational demands of deep learning models are at odds with the limited processing, energy and memory resources of mob...
Localization systems solve the problem of identifying the location of the agent or surrounding objec...
Wearables and mobile devices see the world through the lens of half a dozen low-power sensors, such ...
Wearables and mobile devices see the world through the lens of half a dozen low-power sensors, such ...
Continuous audio analysis from embedded and mobile devices is an increasingly important application ...
The rapidly growing adoption of sensor-enabled smartphones has greatly fueled the proliferation of a...
Outdoor acoustic event detection is an exciting research field but challenged by the need for comple...
The rapidly growing adoption of sensor-enabled smartphones has greatly fueled the proliferation of a...
Detecting and reacting to user behavior and ambient context are core elements of many emerging mobil...
Deep neural speech and audio processing systems have a large number of trainable parameters, a relat...
IEEEIn this paper, we present a new transportation mode recognition system for smartphones called De...
GPUs have recently enjoyed increased popularity as general purpose software accelerators in multiple...
Sound classification usually requires heavy resources in terms of computation, memory, and energy to...
The Internet of Things is one of the most promising fields of technological advancements. Through ne...
Distributed audio sensing is promising to bring full bloom of a variety of applications to improve h...
In most classification tasks, wide and deep neural networks perform and generalize better than their...
Localization systems solve the problem of identifying the location of the agent or surrounding objec...
Wearables and mobile devices see the world through the lens of half a dozen low-power sensors, such ...
Wearables and mobile devices see the world through the lens of half a dozen low-power sensors, such ...
Continuous audio analysis from embedded and mobile devices is an increasingly important application ...
The rapidly growing adoption of sensor-enabled smartphones has greatly fueled the proliferation of a...
Outdoor acoustic event detection is an exciting research field but challenged by the need for comple...
The rapidly growing adoption of sensor-enabled smartphones has greatly fueled the proliferation of a...
Detecting and reacting to user behavior and ambient context are core elements of many emerging mobil...
Deep neural speech and audio processing systems have a large number of trainable parameters, a relat...
IEEEIn this paper, we present a new transportation mode recognition system for smartphones called De...
GPUs have recently enjoyed increased popularity as general purpose software accelerators in multiple...
Sound classification usually requires heavy resources in terms of computation, memory, and energy to...
The Internet of Things is one of the most promising fields of technological advancements. Through ne...
Distributed audio sensing is promising to bring full bloom of a variety of applications to improve h...
In most classification tasks, wide and deep neural networks perform and generalize better than their...
Localization systems solve the problem of identifying the location of the agent or surrounding objec...
Wearables and mobile devices see the world through the lens of half a dozen low-power sensors, such ...
Wearables and mobile devices see the world through the lens of half a dozen low-power sensors, such ...