Localization systems solve the problem of identifying the location of the agent or surrounding objects with the information gathered from various sensors. It enables a wide range of practical applications, such as autonomous navigation, self-driving cars, virtual reality, augmented reality, and enhanced surveillance. In recent years, deep neural networks have achieved great success in various computer vision and machine learning tasks, including more accurate localization systems with extensive computation complexity and power consumption. However, deploying such systems on energy-constrained mobile Internet-of-Things (IoT) platforms remains a big challenge due to the contradiction between system performance and power consumption. This thes...
The Internet of things (IoT) is the networked interconnection of every object to provide intelligent...
There is an urgent need for compact, fast, and power-efficient hardware implementations of state-of-...
Edge-AI uses Artificial Intelligence algorithms directly embedded on a device, contrary to a remote ...
189 pagesRecent developments in hardware systems, sensors, and wireless communications technologies ...
As the world evolves towards faster data transmission, there is an ever-increasing demand for better...
Deep neural networks achieve outstanding results for challenging image classification tasks. However...
Location-based services assume significant importance in the Internet of Things (IoT) based systems....
Nowadays, with the huge advance of sensor technology and the increase of the amount of data generate...
Voice-activated artificial intelligence (AI) technology has advanced rapidly and is being adopted in...
Over the last ten years, the rise of deep learning has redefined the state-of-the-art in many comput...
Precise and accurate localization in outdoor and indoor environments is a challenging problem that c...
Given a domotic installation based on the Internet of things paradigm, we would like to provide a Vo...
In this thesis, we designed and deployed an indoor high precision localization system for short dist...
Location-based services are witnessing a rise in popularity owing to their key features of deliverin...
Although state-of-the-art in many typical machine-learning tasks, deep learning algorithms are very ...
The Internet of things (IoT) is the networked interconnection of every object to provide intelligent...
There is an urgent need for compact, fast, and power-efficient hardware implementations of state-of-...
Edge-AI uses Artificial Intelligence algorithms directly embedded on a device, contrary to a remote ...
189 pagesRecent developments in hardware systems, sensors, and wireless communications technologies ...
As the world evolves towards faster data transmission, there is an ever-increasing demand for better...
Deep neural networks achieve outstanding results for challenging image classification tasks. However...
Location-based services assume significant importance in the Internet of Things (IoT) based systems....
Nowadays, with the huge advance of sensor technology and the increase of the amount of data generate...
Voice-activated artificial intelligence (AI) technology has advanced rapidly and is being adopted in...
Over the last ten years, the rise of deep learning has redefined the state-of-the-art in many comput...
Precise and accurate localization in outdoor and indoor environments is a challenging problem that c...
Given a domotic installation based on the Internet of things paradigm, we would like to provide a Vo...
In this thesis, we designed and deployed an indoor high precision localization system for short dist...
Location-based services are witnessing a rise in popularity owing to their key features of deliverin...
Although state-of-the-art in many typical machine-learning tasks, deep learning algorithms are very ...
The Internet of things (IoT) is the networked interconnection of every object to provide intelligent...
There is an urgent need for compact, fast, and power-efficient hardware implementations of state-of-...
Edge-AI uses Artificial Intelligence algorithms directly embedded on a device, contrary to a remote ...