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Mobility Rehabilitation - opis przedmiotu

Informacje ogólne
Nazwa przedmiotu Mobility Rehabilitation
Kod przedmiotu 06.9-WM-ER-IB-41_18
Wydział Wydział Nauk Inżynieryjno-Technicznych
Kierunek WM - oferta ERASMUS
Profil -
Rodzaj studiów Program Erasmus
Semestr rozpoczęcia semestr zimowy 2023/2024
Informacje o przedmiocie
Semestr 2
Liczba punktów ECTS do zdobycia 4
Typ przedmiotu obowiązkowy
Język nauczania angielski
Sylabus opracował
  • dr hab. inż. Tomasz Klekiel, prof. UZ
Formy zajęć
Forma zajęć Liczba godzin w semestrze (stacjonarne) Liczba godzin w tygodniu (stacjonarne) Liczba godzin w semestrze (niestacjonarne) Liczba godzin w tygodniu (niestacjonarne) Forma zaliczenia
Wykład 30 2 - - Egzamin
Projekt 30 2 - - Zaliczenie na ocenę

Cel przedmiotu

The aim of the course is introduction to the rehabilitation engineering a specially to the construction of medical equipment, rehabilitation equipment of basic rehabilitation methods.

Wymagania wstępne

Physics, Mechanics and Strength of Materials, Electronics and Electrical engineering, Fundamentals of Engineering Design, Biomechanics, Sensors and Measurements,  Electronic Medical Apparatus 

Zakres tematyczny

Lecture: Introduction to rehabilitation engineering, history of rehabilitation, basic definitions, ortotic supplies, phases of the rehabilitation process. The role of rehabilitation engineering, upper limb prostheses, hand prostheses, forearm prostheses, lower limb prostheses, kinematics of walking, locomotion, lower limb and feet prostheses, dynamic phenomena in foot prostheses, shank, thing and hip prostheses. Orthotic support of lower limbs and feet, functional electrical stimulation, orthotic support of upper limbs, upper limb ortosis, orthotic torso supply, spine orthoses, auxiliary equipment, vertically stabilizing and positioning device, verticalizer. Parapadium, sensors in devices for rehabilitation, rehabilitation devices, measurements of muscle activity, measurements of non-electrical quantities in medical diagnostics, sensors in modern prostheses and orthoses, modern solutions for intelligent rehabilitation devices.

 

Project: Introduction to rehabilitation engineering. Analysis of rehabilitation methods and techniques of selected diseases of motor organs. Principles of rehabilitation process planning, Medical consultations, Conceptual design of a mechatronic device supporting the rehabilitation process for a selected disease. Evaluation of the solution in terms of rehabilitation process effectiveness. Technical performance of the device. Conditions and provisions on the production of medical and rehabilitation equipment. Design of the device control system. Selection of actuators and sensors. Preparation of technical documentation. Assembly drawing of the device. Executive drawings, Control algorithms, Project evaluation.

The project is realized according to schedule:

Introduction to Project
Device concept - report 1
Initial calculations- report 2
Strength calculations- report 3
Control and Drive- report 4
Technical Documentation- report 5
Production and assembly technology- report 6
Presentation and passing the project

Metody kształcenia

Conventional lecture, project method, discussion, work with a source document, work in group

Efekty uczenia się i metody weryfikacji osiągania efektów uczenia się

Opis efektu Symbole efektów Metody weryfikacji Forma zajęć

Warunki zaliczenia

Lecture: The condition for passing the exam is to obtain a positive exam grade in written form. 

Project: The passing for the grade is based on:

1. Implementation of an individual project in groups of 1-2 people.
2. Submission a 6 reports according to the project schedule.
3. Project presentation.
4. Answer the questions about the project.

The final grade is calculated as the arithmetic average of the lecture and project .

Literatura podstawowa

  1. Powell, Wendy, Rehabilitation: Innovations and Challenges in the Use of Virtual Reality Technologies, New York : Nova Science Publishers, Inc. 2017
  2. Esposito, Salvatore M., Lagana, Raimondo, Rehabilitation : Practices, Psychology and Health, New York : Nova Science Publishers, Inc. 2012
  3. L.H.V. van der Woude, F. Hoekstra, S. de Groot, K.E. Bijker, R. Dekker, P.C.T. van Aanholt, F.J. Het, Rehabilitation: Mobility, Exercise and Sports, Amsterdam : IOS Press. 2010
  4. Chad A. Noggle, Raymond S. Dean,Mark T. Barisa, ABPPNeuropsychological Rehabilitation, New York : Springer Publishing Company. 2013
  5. Leisman Gerry, Merrick Joav, Neuroplasticity in Learning and Rehabilitation, New York : Nova Science Publishers, Inc. 2016

Literatura uzupełniająca

  1. R. Bartlet, Introduction to Sports Biomechanics - Analysing Human Movement Patterns, Routledge, 2007
  2. Susan B. O'Sullivan, Thomas J. Schmitz, George Fulk, Physical Rehabilitation, F.A. Davis Company, 2019
  3. Rory a Cooper, Douglas A. Hobson, Hisaichi Ohnabe, An Introduction to Rehabilitation Engineering, Taylor & Francis INC International Concepts, 2006
  4. Hoffman, Shirl J.; Knudson, Duane V., Introduction to Kinesiology 5th Edition With Web Study Guide, Human Kinetics Publishers, 2017

Uwagi


Zmodyfikowane przez dr hab. inż. Tomasz Klekiel, prof. UZ (ostatnia modyfikacja: 20-05-2024 09:00)