Difference between revisions of ""Bionic hand prosthesis""

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File:KovalevHand4.png
 
File:KovalevHand4.png
 
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==Результаты==
 
 
В результате работы разработан прототип электромеханического протеза для девочки в возрасте 15-ти лет, у которой при рождении атрофирована правая рука ниже локтя (протезированию подлежит ладонь и 2/3 предплечья). Предложена система управления на основе регистрации ориентации и динамики протеза в пространстве. Собрана электромеханическая схема регистрации мышечной активности. Проведено медицинское обследование руки девочки (институт нейрохирургии имени Поленова), по результатам которого представляется возможным управление протезом посредствам регистрации мышечной активности сохранившихся мышц (отвечающих за сгибание/разгибание и вращение кисти).
 
  
 
==Results==
 
==Results==
  
Result is a electromechanical prostetis prototype for 15 y.o. girl with inborn atrophy of right arm below the elbow (palm and 2/3 of forearm are replaced by the prosthesis). Arm position- and dynamics-based control system has been proposed. Electromechanical scheme for registration of muscle activity was designed. Medical examination of girl's hand was carried out in A.L. Polenov RNSI which resulted in possibility of using electrical impedance myography of wrist flexion and rotation muscle for prosthesis comtrol system.
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The result is an electromechanical prostetis prototype for a 15 y.o. girl with inborn atrophy of right arm below the elbow (palm and 2/3 of forearm are replaced by the prosthesis). Arm positioning and dynamics-based control system has been proposed. Electromechanical scheme for registration of muscle activity was designed. Medical examination of girl's hand was carried out in A.L. Polenov RNSI, which resulted into the possibility of using electrical impedance myography of wrist flexion and rotation muscle for prosthesis control system.
  
 
{{#widget:YouTube|id=yleJMydAaYE}}
 
{{#widget:YouTube|id=yleJMydAaYE}}
  
==Научное продвижение проекта==
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==Scientific progress==
==Scientific advancement==
 
 
 
'''Конкурсы:'''
 
*Золотая медаль на Петербургской Технической ярмарке-2016. Проект “Функциональное протезирование верхних конечностей электромеханическими протезами, обладающими адаптивной нейрофизиологической системой управления”.
 
*Диплом 1 степени на международной конференции “Неделя науки 2015”, секция “Биомеханика”, доклад “Разработка бионического протеза руки”.
 
*Первое место в конкурсе “IT прорыв” (номинация “IT в медицине”). Проект “Разработка бионического протеза руки”. 2015 год.
 
*Серебряная медаль на Петербургской Технической ярмарке-2014. Проект “Роботизированная рука”.
 
  
 
'''Competitions'''
 
'''Competitions'''
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* First prize at "IT breakthrough" 2015 ("IT in medicine" nomination). Project "Development of a bionic arm prosthesis".
 
* First prize at "IT breakthrough" 2015 ("IT in medicine" nomination). Project "Development of a bionic arm prosthesis".
 
* Silver medal at St.Petersburg technical fair 2014. Project "Robotic arm".
 
* Silver medal at St.Petersburg technical fair 2014. Project "Robotic arm".
 
 
'''Патенты (подающиеся)''':
 
*Система управления функциональным протезом.
 
*Электронейрографическая система управления функциональным протезом.
 
*Функциональный протез предплечья.
 
  
 
'''Patents (in progress)'''
 
'''Patents (in progress)'''
 
* Control system for functional prosthesis
 
* Control system for functional prosthesis
* Functional prosthesis elektroneurografical control system (такого слова в англ нет, а какой аналог взять - не знаю)
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* Functional prosthesis electroneurographycal control system
 
* Functional forearm prosthesis
 
* Functional forearm prosthesis
 
'''Гранты:'''
 
*Победитель программы УМНИК, проект “Разработка миографического браслета”. 2015 год.
 
  
 
'''Grants'''
 
'''Grants'''
 
* Winner of У.М.Н.И.К. program. Project "Development of myographic bracelet". 2015.
 
* Winner of У.М.Н.И.К. program. Project "Development of myographic bracelet". 2015.
 
'''Участие в конференциях и выставках:'''
 
*Выставка на заседании Научно-технического совета Санкт-Петербурга. [http://www.spbstu.ru/media/news/nauka_i_innovatsii/rector-spbpu-meeting-scientific-technical-councul/ Новость на сайте СПбПУ].
 
*Выставка Петербургская Техническая ярмарка-2016. Проект “Функциональное протезирование верхних конечностей электромеханическими протезами, обладающими адаптивной нейрофизиологической системой управления”.
 
*Пленум Президиума "Северо-Западного отделения медицинских наук", доклад "Функциональное протезирование верхних конечностей электромеханическими протезами".
 
*Международная конференция “Неделя науки 2015”, секция “Биомеханика”, доклад “Разработка бионического протеза руки”.
 
*Международная конференция “Экстремальная робототехника”, доклад “Разработка бионического протеза руки”. 2015 год.
 
*Выставка Петербургская Техническая ярмарка-2015. Проект “Разработка бионического протеза руки”.
 
*Выставка Петербургская Техническая ярмарка-2014. Проект “Роботизированная рука”.
 
*Поданы тезисы на конференцию SICOT 2016.
 
  
 
'''Participation in conferences and fairs'''
 
'''Participation in conferences and fairs'''
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* St.Petersburg technical fair 2014. Project "Robotic arm"
 
* St.Petersburg technical fair 2014. Project "Robotic arm"
 
* Submitted abstracts for SICOT conference 2016
 
* Submitted abstracts for SICOT conference 2016
 
'''Открытие специализированных подразделений:'''
 
* Научно-исследовательская лаборатория “Бионические системы” СПбПУ.
 
* Научно-образовательный центр “Биомеханика и медицинская инженерия” СПбПУ.
 
* Научно-технический отдел “Биотехнологии” ФГБУ НИДОИ им. Г.И. Турнера.
 
* Открытие бакалавриата по направлению [[Биомеханика и медицинская инженерия |"Биомеханика и медицинская инженерия"]].
 
  
 
'''Foundation of specialized departments'''
 
'''Foundation of specialized departments'''
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* Educational and research center “Biomechanics and medical engineering” SPbSTU.
 
* Educational and research center “Biomechanics and medical engineering” SPbSTU.
 
* Scientific and technical department “Biotechnologies” federal state budgetary institution The Turner scientific research institute for children's orthopedics
 
* Scientific and technical department “Biotechnologies” federal state budgetary institution The Turner scientific research institute for children's orthopedics
* Foundation of bachelor program [[Биомеханика и медицинская инженерия |“Biomechanics and medical engineering”]].
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* Foundation of bachelor program [http://tm.spbstu.ru/%D0%91%D0%B8%D0%BE%D0%BC%D0%B5%D1%85%D0%B0%D0%BD%D0%B8%D0%BA%D0%B0_%D0%B8_%D0%BC%D0%B5%D0%B4%D0%B8%D1%86%D0%B8%D0%BD%D1%81%D0%BA%D0%B0%D1%8F_%D0%B8%D0%BD%D0%B6%D0%B5%D0%BD%D0%B5%D1%80%D0%B8%D1%8F "Biomechanics and Medical Engineering"].
  
==Команда==
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==Project team==
  
* Руководитель проекта:  [[Олег Ковалев]]
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* Project manager:  [http://tm.spbstu.ru/%D0%9A%D0%BE%D0%B2%D0%B0%D0%BB%D0%B5%D0%B2_%D0%9E%D0%BB%D0%B5%D0%B3 Oleg Kovalev]
  
* Научный руководитель проекта: [[А.М. Кривцов]], [[О.С. Лобода]]
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* Scientific director: [[A.M. Krivtsov]], [http://tm.spbstu.ru/%D0%9B%D0%BE%D0%B1%D0%BE%D0%B4%D0%B0_%D0%9E%D0%BB%D1%8C%D0%B3%D0%B0 О.S. Loboda]
  
* Специалист по НМСТ (нано-микросистемной технике): Акульшин Юрий Дмитриевич.
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* Nano-microsystems technology specialist: Akulshin Yurii Dmitrievitch.
  
* Специалист по 3D прототипированию: [[Дайнис Дзенушко]]
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* 3D prototyping specialist: [http://tm.spbstu.ru/Dzenushko_Dainis Dainis Dzenushko]
  
==Контактная информация==
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==Contacts==
  
 
'''E-mail:''' kovalev.oleg.o@gmail.com
 
'''E-mail:''' kovalev.oleg.o@gmail.com
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'''Phone:''' +7 951 656 82 88
 
'''Phone:''' +7 951 656 82 88
  
[[Category: Студенческие проекты]]
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[[Category: Student's projects]]

Latest revision as of 13:34, 27 December 2016

KovalevHand1.jpg

Motivation[edit]

The hands are the parts of the human body that allow us to interact with the environment. The loss of one limb leads to a great discomfort in everyday life. The loss of both limbs makes a person disabled. Therefore, the task of replacing a missing limb is of great importance. According to the modern science, the development of electromechanical prosthesis that have a strong resemblance to the appearance and functionality of natural limbs is the most likely option.

Aims of the project[edit]

The aims of this work are to develop bionic prosthesis able to compensate for the loss of limbs; to develop control system based on registration of muscle activity; to develop a control system based on determining the prosthesis orientation; to develop a tactile feedback. We use 3D printing and the latest researches in MEMS (microelectromechanical systems) technologies.

Hand mechanics[edit]

Hand mechanics[edit]

The main conditions imposed on the prosthesis mechanics are: independent finger movement (flexion/extension); the possibility of taking an oversized (cup) and small items (plastic card/coin); the possibility of making a rotary hand movement. The operating period without recharging should be at least twelve hours, a hand should have a very natural form. We developed a prototype that has 6 degrees of freedom: each finger flexes/unbends independently from the others Fingers are driven by servo Impact IS45MGD (shaft torque is 10 kN/cm, the speed of shaft rotation at 60 degrees is equal to 0.08 m/sec). The power is transmiting from a servomotor to the fingers by pulling the threads attached at to the tip of the finger at one end, and to the motor shaft at the other end.

A supporting frame with fixed engines is made of 2mm aluminum sheets. The motor is handled by microcontroller Arduino Nano 3.0. We developed a manual control mode to minimize the energy consumption: when a movement ends, the engine completely turns off. Picking up objects is made possible because of the friction forces inside the small-sized reduction gear. The value of friction forces is enough to carry light weighted objects (like a phone). The power is supplied by external Li-Pol battery 2.2 mA/h (7.4V, 30C).

Accelerometer and gyroscope control system of the prosthesis[edit]

The prosthesis control is handled by a 6-axis sensor (3-axis gyroscope and 3-axis accelerometer) built into the prosthesis body. Here is how it works: the DCM algorithm calculates pitch and roll axis angles. The angles are measured relative to an initial position of ‘the hand’. If the pitch angle value is positive then ‘the hand’ performs a grasping action.

If the pitch angle is negative then the hand relaxes. The roll angle can trigger a rotating movement. For example, if the elbow moves right (or left), the hand rotates clockwise (or counter-clockwise). It is also possible to independently use an accelerometer for the hand control. For example, when one makes a fast and short downward movement, the hand performs a grasping action, and when one make upward movements, the hand relaxes.

Only the first method was tested (pitch angle control). The result was positive: the patient was able to manipulate light objects (to use the prosthesis for carrying objects).

Control system based on EMG sensor[edit]

The prosthesis should be handled intuitively, without making any special movements, as it is necessary for its proper and normal use. The most perspective non-invasive way to achieve it is to use a control system based on the activity of the muscles left on the hand.

To register the muscle activity we use electric potential sensors. Some of its characteristics are as follows: electrodes are made of AgCl, its area is 1 cm2; to obtain a signal they need to be in a dry contact with the skin. The signal amplifier is located closely to the electrodes to improve noise immunity of the system.

The schematic diagram of the sensors is shown in Figure 2.

Results[edit]

The result is an electromechanical prostetis prototype for a 15 y.o. girl with inborn atrophy of right arm below the elbow (palm and 2/3 of forearm are replaced by the prosthesis). Arm positioning and dynamics-based control system has been proposed. Electromechanical scheme for registration of muscle activity was designed. Medical examination of girl's hand was carried out in A.L. Polenov RNSI, which resulted into the possibility of using electrical impedance myography of wrist flexion and rotation muscle for prosthesis control system.

Scientific progress[edit]

Competitions

  • Golden medal at St.Petersburg technical fair 2016. Project "Functional electromechanical upper limb prostheses with adaptive neurophysiological control system".
  • Diploma of the first degree at international conference "Science week 2015", biomechanics section, report "Development of a bionic arm prosthesis".
  • First prize at "IT breakthrough" 2015 ("IT in medicine" nomination). Project "Development of a bionic arm prosthesis".
  • Silver medal at St.Petersburg technical fair 2014. Project "Robotic arm".

Patents (in progress)

  • Control system for functional prosthesis
  • Functional prosthesis electroneurographycal control system
  • Functional forearm prosthesis

Grants

  • Winner of У.М.Н.И.К. program. Project "Development of myographic bracelet". 2015.

Participation in conferences and fairs

  • Exhibition at the session of the Scientific and Technical Council of St. Petersburg News at SPbSTU web page.
  • St.Petersburg technical fair 2016. Project "Functional electromechanical upper limb prostheses with adaptive neurophysiological control system"
  • Plenum of the Presidium of the "North-West branch of the medical sciences," the report "Functional replacement of upper limbs with electromechanical prostheses".
  • International conference "Science week 2015", biomechanics section, report "Development of a bionic arm prosthesis".
  • International conference "Extreme Robotics", project "Development of a bionic arm prosthesis". 2015
  • St.Petersburg technical fair 2015. Project "Development of a bionic arm prosthesis"
  • St.Petersburg technical fair 2014. Project "Robotic arm"
  • Submitted abstracts for SICOT conference 2016

Foundation of specialized departments

  • Research laboratory “Bionic systems” SPbSTU.
  • Educational and research center “Biomechanics and medical engineering” SPbSTU.
  • Scientific and technical department “Biotechnologies” federal state budgetary institution The Turner scientific research institute for children's orthopedics
  • Foundation of bachelor program "Biomechanics and Medical Engineering".

Project team[edit]

  • Nano-microsystems technology specialist: Akulshin Yurii Dmitrievitch.

Contacts[edit]

E-mail: kovalev.oleg.o@gmail.com

Phone: +7 951 656 82 88