Содержание
- 2. Bionics - the direction of the applied science of the application of technical devices and systems,
- 3. Bionic prostheses and implants - one of the areas in which research is being conducted relating
- 4. Bionic hands
- 5. i-LIMB project
- 6. Bebionic3
- 7. Development neurobiologist Andrew Schwartz of the University of Pittsburgh Closer to this project heralds become scientists
- 8. Bionic legs
- 9. Vanderbilt University Development
- 10. Tibion Bionic Leg
- 12. Скачать презентацию
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Bionics - the direction of the applied science of the application
Bionics - the direction of the applied science of the application
of technical devices and systems, principles of organization, properties, functions and structures of nature, that is, forms of living in nature, and their industrial counterparts
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Bionic prostheses and implants - one of the areas in which
Bionic prostheses and implants - one of the areas in which
research is being conducted relating to bionics; One of the most important.
The main feature of bionic prostheses - their ability to take on the function of the lost organs and limb
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Bionic hands
Bionic hands
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i-LIMB project
i-LIMB project
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Bebionic3
Bebionic3
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Development neurobiologist Andrew Schwartz of the University of Pittsburgh
Closer to this
Development neurobiologist Andrew Schwartz of the University of Pittsburgh
Closer to this
project heralds become scientists of the Technical University of Pittsburgh,
Employees of the university at the end of last year reported that they managed to create a prosthesis that works partly by mioelektriki and partly with the help of the nervous system: bioelectric signals coming from the brain are intercepted by implanted electrodes, which then forwards the received in the onboard computer. The system decodes them to the motor control command. The owner can control how all fingers at once, or separately.
The developers claim that their creation, the level of intuitive control exceeds available on the market of active prostheses. Naturally, the aerobatics are artificial arms, control of which will depend exclusively on the nerve signals.
Employees of the university at the end of last year reported that they managed to create a prosthesis that works partly by mioelektriki and partly with the help of the nervous system: bioelectric signals coming from the brain are intercepted by implanted electrodes, which then forwards the received in the onboard computer. The system decodes them to the motor control command. The owner can control how all fingers at once, or separately.
The developers claim that their creation, the level of intuitive control exceeds available on the market of active prostheses. Naturally, the aerobatics are artificial arms, control of which will depend exclusively on the nerve signals.
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Bionic legs
Bionic legs
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Vanderbilt University Development
Vanderbilt University Development
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Tibion Bionic Leg
Tibion Bionic Leg