We present a novel architecture for arm movement classification based on kinematic properties (joint angle and position), computed from MARG sensors, using a quaternion-based gradient-descent method and a 2-link model of the upper limb. The design based on Coordinate Rotation Digital Computer framework was validated on stroke survivors and healthy subjects performing three elementary arm movements (reach and retrieve, lift arm, rotate arm), involved in 'making-a-cup-of-tea' an archetypal daily activity, achieved an overall accuracy of 78% and 85% respectively. The design coded in System Verilog, was synthesized using STMicroelectronics 130 nm technology, occupies 340K NAND2 equivalent area and consumes 292 nW @ 150 Hz, besides being functio...
Brain computer interface (BCI) systems have ushered a new era of neural engineering research. At the...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
Measurement of human body motion has a myriad of applications ranging from gaming, rehabilitation, a...
We present a novel architecture for arm movement classification based on kinematic properties (joint...
In this paper, we present a new factorized quaternion approach for determining the arm limbs' orient...
This paper reports an algorithm for the detection of three elementary upper limb movements, i.e., re...
This paper reports an algorithm for the detection of three elementary upper limb movements, i.e., re...
In this paper, we present a deep learning framework ‘Rehab-Net’ for effectively classifying three up...
In this paper, we present a deep learning framework 'Rehab-Net' for effectively classifying three up...
We present a low-complexity framework for classifying elementary arm-movements (reach-retrieve, lift...
We present a low-complexity framework for classifying elementary arm movements (reach retrieve, lift...
We investigate magnetic, angular rate, and gravity (MARG) sensor modules for deriving shoulder, elbo...
Up to now, with the increasing of the elderly population, more and more patients are suffering from ...
In this paper, we evaluate a factorized quaternion approach for determining the arm orientation expe...
In this paper we present a method for recognising three fundamental movements of the human arm (reac...
Brain computer interface (BCI) systems have ushered a new era of neural engineering research. At the...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
Measurement of human body motion has a myriad of applications ranging from gaming, rehabilitation, a...
We present a novel architecture for arm movement classification based on kinematic properties (joint...
In this paper, we present a new factorized quaternion approach for determining the arm limbs' orient...
This paper reports an algorithm for the detection of three elementary upper limb movements, i.e., re...
This paper reports an algorithm for the detection of three elementary upper limb movements, i.e., re...
In this paper, we present a deep learning framework ‘Rehab-Net’ for effectively classifying three up...
In this paper, we present a deep learning framework 'Rehab-Net' for effectively classifying three up...
We present a low-complexity framework for classifying elementary arm-movements (reach-retrieve, lift...
We present a low-complexity framework for classifying elementary arm movements (reach retrieve, lift...
We investigate magnetic, angular rate, and gravity (MARG) sensor modules for deriving shoulder, elbo...
Up to now, with the increasing of the elderly population, more and more patients are suffering from ...
In this paper, we evaluate a factorized quaternion approach for determining the arm orientation expe...
In this paper we present a method for recognising three fundamental movements of the human arm (reac...
Brain computer interface (BCI) systems have ushered a new era of neural engineering research. At the...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
Measurement of human body motion has a myriad of applications ranging from gaming, rehabilitation, a...