4 Intention explanation
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Exoskeletons challenges about Reading Intention for exoskeletons motion estimation

I'm interesting oninterested in exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate/predict the entire motionintention of human body/part of body who wears exoskeletonmotion. I want to estimateprevent the exoskeleton from interfering with human movements. Intention reading is the process of predicting how the movement will take place and how it will happen at the beginning of action and discriminate different motionsany movement.

There is an exoskeleton example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action.

 And it will begins after the movement. Also EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This matlab webinar which is about "Signal Processing and Machine Learning Techniques for Sensor Data Analytics" shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know motion information at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

Exoskeletons challenges about motion estimation

I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. I want to estimate at the beginning of action and discriminate different motions.

There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action.

  EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This matlab webinar which is about "Signal Processing and Machine Learning Techniques for Sensor Data Analytics" shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know motion information at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

Reading Intention for exoskeletons motion estimation

I'm interested in exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate/predict the intention of human body/part motion. I want to prevent the exoskeleton from interfering with human movements. Intention reading is the process of predicting how the movement will take place and how it will happen at the beginning of any movement.

There is an exoskeleton example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action. And it will begins after the movement. Also EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This matlab webinar which is about "Signal Processing and Machine Learning Techniques for Sensor Data Analytics" shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know motion information at very first.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

    Post Reopened by Mark Booth
3 I try to explain more detail and what is deep question
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I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. I want to estimate at the beginning of action and discriminate different motions.

There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action.

EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This Matlab webinarThis matlab webinar which is about "Signal Processing and Machine Learning Techniques for Sensor Data Analytics" shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know motion information at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. I want to estimate at the beginning of action and discriminate different motions.

There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action.

EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This Matlab webinar shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. I want to estimate at the beginning of action and discriminate different motions.

There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action.

EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This matlab webinar which is about "Signal Processing and Machine Learning Techniques for Sensor Data Analytics" shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know motion information at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

2 I try to explain more detail and what is deep question
source | link

I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. I want to estimate at the beginning of action and discriminate different motions.

There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action and.

EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This Matlab webinar shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action and EMG has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

I'm interesting on exoskeletons and wearable rehabilitation robotics. I wonder how we can estimate the entire motion of human body/part of body who wears exoskeleton. I want to estimate at the beginning of action and discriminate different motions.

There is an example (https://www.youtube.com/watch?v=BdoblvmTixA) which detects muscle activation with EMG and generates artificial muscle attraction. But this is only a open and close action.

EMG system has a lot of disadvantage like sliding probes, affecting from other/crossing muscles. I want to estimate every motion like turn,twist, amount of contraction. I'm open to suggestions or issues (The troubles you have experienced.)

This Matlab webinar shows how to classify different actions. But this example predicts kind of motion after the motion completed. I need to know at very first because of do ot force/deny human movements with exoskeleton.

I want know how can I estimate different motions at the beginning of limb action. Which system (EMG,EEG,IMU,etc.) and processing technique will be better or which combination should I use.

    Post Closed as "Needs more focus" by 50k4, Mark Booth
1
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