A Human machine interface (HMI) acts like a bridge between motor function and the brain. Bypassing these natural pathways allows disabled individuals to perform actions that might otherwise be too difficult or impossible. The loss or impairment of voluntary muscle control can have a detrimental effect on an individual’s quality of life. By utilising natural physiological motion with sensor fusion techniques, grasp intention can be predicted, leading to an assistive HMI concept that can reduce the cognitive load that traditional HMIs impose on the user. This thesis investigates a novel design concept for a heterogeneous sensor suite, by fusing mechanomyogram (MMG) sensors for muscle activation, computer vision for object recognition,...
This thesis describes contributions towards the implementation of Human-in-the-Loop (HitL) grasping ...
Assistive robotic technology aims at providing help to disabled individuals in order for them to per...
Myocontrol is the use of a human machine interface based on muscle signals in order to control a rob...
Neurorobotic augmentation (e.g., robotic assist) is now in regular use to support individuals suffer...
We were curious to unveil the potential in gesture recognition of a commercial product: an upper bod...
The complexity and dexterity of the human hand make the development of natural and robust control of...
Objective. Dexterous control of myoelectric upper limb prosthesis is still limited by the capabiliti...
The complexity and dexterity of the human hand make the development of natural and robust control of...
Human-Machine Interfaces (HMI) are the technology through which we interact with the ever-increasing...
Stroke and related complications such as hemiplegia and disability create huge burdens for human soc...
Background: Assistive robotic hand orthoses can support people with sensorimotor hand impairment in ...
Smart Assistive devices developed to support the disabled people suffered with Monoplegia. The Monop...
Developing natural control strategies represents an intriguing challenge in the design of human-robo...
Fully autonomous applications of modern robotic systems are still constrained by limitations in sens...
To assist people with disabilities, exoskeletons must be provided with human-machine interfaces (HMI...
This thesis describes contributions towards the implementation of Human-in-the-Loop (HitL) grasping ...
Assistive robotic technology aims at providing help to disabled individuals in order for them to per...
Myocontrol is the use of a human machine interface based on muscle signals in order to control a rob...
Neurorobotic augmentation (e.g., robotic assist) is now in regular use to support individuals suffer...
We were curious to unveil the potential in gesture recognition of a commercial product: an upper bod...
The complexity and dexterity of the human hand make the development of natural and robust control of...
Objective. Dexterous control of myoelectric upper limb prosthesis is still limited by the capabiliti...
The complexity and dexterity of the human hand make the development of natural and robust control of...
Human-Machine Interfaces (HMI) are the technology through which we interact with the ever-increasing...
Stroke and related complications such as hemiplegia and disability create huge burdens for human soc...
Background: Assistive robotic hand orthoses can support people with sensorimotor hand impairment in ...
Smart Assistive devices developed to support the disabled people suffered with Monoplegia. The Monop...
Developing natural control strategies represents an intriguing challenge in the design of human-robo...
Fully autonomous applications of modern robotic systems are still constrained by limitations in sens...
To assist people with disabilities, exoskeletons must be provided with human-machine interfaces (HMI...
This thesis describes contributions towards the implementation of Human-in-the-Loop (HitL) grasping ...
Assistive robotic technology aims at providing help to disabled individuals in order for them to per...
Myocontrol is the use of a human machine interface based on muscle signals in order to control a rob...