The effort to develop an electronic skin is highly motivated by many application domains namely robotics, biomedical instrumentations, and replacement prosthetic devices. Several e-skin systems have been proposed recently and have demonstrated the need of an embedded electronic system for tactile data processing either to mimic the human skin or to respond to the application demands. Processing tactile data requires efficient methods to extract meaningful information from raw sensors data. In this framework, our goal is the development of a dedicated embedded electronic system for electronic skin. The embedded electronic system has to acquire the tactile data, process and extract structured information. Machine Learning (ML) represents a...
The development of embedded electronic systems for tactile data processing is increasingly demanded ...
In most robotic and biomedical applications, the interest for real-time embedded systems with tactil...
Materials integrated tactile sensing systems are still far from relying on well assessed and mature ...
AbstractThe effort to develop an electronic skin is highly motivated by many application domains nam...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Endowing appliances with the capability of sensing and processing touch enables tactile interaction ...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
Due to its very peculiar features, the development of e-skin can be effectively tackled using a holi...
This chapter presents a survey of the existing algorithms and tasks applied for tactile data process...
Touch is a complex sensing modality owing to large number of receptors (mechano, thermal, pain) nonu...
Skin is the largest organ with the functionalities of protection, regulation and sensation. The emul...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
The skin is one of the main organs of the human body and as such it implements many different and re...
The development of embedded electronic systems for tactile data processing is increasingly demanded ...
In most robotic and biomedical applications, the interest for real-time embedded systems with tactil...
Materials integrated tactile sensing systems are still far from relying on well assessed and mature ...
AbstractThe effort to develop an electronic skin is highly motivated by many application domains nam...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Endowing appliances with the capability of sensing and processing touch enables tactile interaction ...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
Due to its very peculiar features, the development of e-skin can be effectively tackled using a holi...
This chapter presents a survey of the existing algorithms and tasks applied for tactile data process...
Touch is a complex sensing modality owing to large number of receptors (mechano, thermal, pain) nonu...
Skin is the largest organ with the functionalities of protection, regulation and sensation. The emul...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
The skin is one of the main organs of the human body and as such it implements many different and re...
The development of embedded electronic systems for tactile data processing is increasingly demanded ...
In most robotic and biomedical applications, the interest for real-time embedded systems with tactil...
Materials integrated tactile sensing systems are still far from relying on well assessed and mature ...