Add to ORKGBackgroundGait training for individuals with neurological disorders is challenging in providing the suitable assistance and more adaptive behaviour towards user needs. The user specific adaptation can be defined based on the user interaction with the orthosis and by monitoring the user intentions. In this paper, an adaptive control model, commanded by the user intention, is evaluated using a lower limb exoskeleton with incomplete spinal cord injury individuals (SCI).MethodsA user intention based adaptive control model has been developed and evaluated with 4 incomplete SCI individuals across 3 sessions of training per individual. The adaptive control model modifies the joint impedance properties of the exoskeleton as a function of the human-...
The paper describes the implementation and testing of two adaptive controllers developed for a weara...
Robotic exoskeletons see much potential in the field of assisted gait rehabilitation. Particularly w...
In this dissertation, iterative learning control methods for a hybrid exoskeleton to produce sitting...
Background Gait training for individuals with neurological disorders is challenging in providing the...
Abstract Background Gait training for individuals with neurological disorders is challenging in prov...
Background: Gait training for individuals with neurological disorders is challenging in providing th...
A user intention based rehabilitation strategy for a lower-limb wearable robot is proposed and evalu...
A user intention based rehabilitation strategy for a lower-limb wearable robot is proposed and evalu...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
The gait of every adult is unique and expected to be ingrained within the neuromuscular system. The ...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
An assistive rehabilitation strategy for a lower-limb wearable robot is proposed and evaluated. The ...
The paper describes the implementation and testing of two adaptive controllers developed for a weara...
Robotic exoskeletons see much potential in the field of assisted gait rehabilitation. Particularly w...
In this dissertation, iterative learning control methods for a hybrid exoskeleton to produce sitting...
Background Gait training for individuals with neurological disorders is challenging in providing the...
Abstract Background Gait training for individuals with neurological disorders is challenging in prov...
Background: Gait training for individuals with neurological disorders is challenging in providing th...
A user intention based rehabilitation strategy for a lower-limb wearable robot is proposed and evalu...
A user intention based rehabilitation strategy for a lower-limb wearable robot is proposed and evalu...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
The gait of every adult is unique and expected to be ingrained within the neuromuscular system. The ...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
Versatility is important for a wearable exoskeleton controller to be responsive to both the user and...
An assistive rehabilitation strategy for a lower-limb wearable robot is proposed and evaluated. The ...
The paper describes the implementation and testing of two adaptive controllers developed for a weara...
Robotic exoskeletons see much potential in the field of assisted gait rehabilitation. Particularly w...
In this dissertation, iterative learning control methods for a hybrid exoskeleton to produce sitting...