MS Sinchhean Phea
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開始行:
CENTER:COLOR(#81111F){SIZE(40){''Design of a Neuromorphic Dexterous Prosthesis Hand''}}
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*Motivation and Background [#l83fb618]
Hands play an important role in human life. We use our hands to do day-to-day tasks as well as to work. Unfortunately, there are those who lose their hands or arms due to accidents or diseases. It is estimated that at least 1.5 million people are living with an absence of upper limbs. The progress of Prosthetic arms and human-like robot hands research and development have been improved incessantly. There are many approaches to realize a prosthetic hand. The most recent approaches have been using electromyographic (EMG) signals as a source to control the prosthetic hands. With the help of machine learning, the numbers of controls and movements have been increasing compared to only close and open movements in the past.
With EMG, biological data taken from the human body, as the input source, Spiking Neural Network (SNN) has become a favorable solution. When a movement command is sent from the brain to the nerve of the arm, muscle contraction will occur. Using that very moment of EMG signal, the prosthetic arm will move according to the signal inputs.
*Research Goal [#w8fcfe0e]
To develop a neuroprosthetic hand control based on Neural Network.
*Research Schedule [#p3241c94]
|Date|Task|
|☑️September 1~15 2022|Online Testing of SNN model on Raspberry Pi|
|☑️September 16~30, 2022|Improve SNN model (currently there is a limitation in online testing)|
|☑️October 1~31, 2022|start writing thesis|
|☑️November 1~30, 2022|Fix and optimize the SNN, thesis writing|
|☑️December 1~31, 2022|System integration, thesis writing|
CENTER:COLOR(green){Schedule last Updated on: Febuary/2/2023}
*Shared Google Folder [#jfa3f986]
*Reference [#ucccb299]
*Links [#f1b7aab8]
-[[My GT>https://adaptive.u-aizu.ac.jp/aslint/index.php?Sinchhean%20Phea]]
-[[My Shared Google Drive>https://drive.google.com/drive/folders/1aD5PMzSzYocNhVZzDBJUWOMDj5v9eg7G?usp=sharing]]
終了行:
CENTER:COLOR(#81111F){SIZE(40){''Design of a Neuromorphic Dexterous Prosthesis Hand''}}
----
*Motivation and Background [#l83fb618]
Hands play an important role in human life. We use our hands to do day-to-day tasks as well as to work. Unfortunately, there are those who lose their hands or arms due to accidents or diseases. It is estimated that at least 1.5 million people are living with an absence of upper limbs. The progress of Prosthetic arms and human-like robot hands research and development have been improved incessantly. There are many approaches to realize a prosthetic hand. The most recent approaches have been using electromyographic (EMG) signals as a source to control the prosthetic hands. With the help of machine learning, the numbers of controls and movements have been increasing compared to only close and open movements in the past.
With EMG, biological data taken from the human body, as the input source, Spiking Neural Network (SNN) has become a favorable solution. When a movement command is sent from the brain to the nerve of the arm, muscle contraction will occur. Using that very moment of EMG signal, the prosthetic arm will move according to the signal inputs.
*Research Goal [#w8fcfe0e]
To develop a neuroprosthetic hand control based on Neural Network.
*Research Schedule [#p3241c94]
|Date|Task|
|☑️September 1~15 2022|Online Testing of SNN model on Raspberry Pi|
|☑️September 16~30, 2022|Improve SNN model (currently there is a limitation in online testing)|
|☑️October 1~31, 2022|start writing thesis|
|☑️November 1~30, 2022|Fix and optimize the SNN, thesis writing|
|☑️December 1~31, 2022|System integration, thesis writing|
CENTER:COLOR(green){Schedule last Updated on: Febuary/2/2023}
*Shared Google Folder [#jfa3f986]
*Reference [#ucccb299]
*Links [#f1b7aab8]
-[[My GT>https://adaptive.u-aizu.ac.jp/aslint/index.php?Sinchhean%20Phea]]
-[[My Shared Google Drive>https://drive.google.com/drive/folders/1aD5PMzSzYocNhVZzDBJUWOMDj5v9eg7G?usp=sharing]]
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