About the professor
CONTACT
syllabus
What are we going to do?
Biomedical Systems Design
bibliography
Student outcomes
How are we going to learn?
What are we going to need?
How will we be evaluated?
What are we going to need?
During the course you will need different tools
Hardware:
- Signal generators.
- Oscilloscope
- Multimeter
- Electrical components
Software:
- Multisim.
- Proteus
- Mplab X
- LabVIEW
How arewe going to learn?
- This course is intended to be practical, so you must actively participate.
- Your attendance is very important since there will be different evaluation activities during the course, such as:
- Design and simulate different circuits.
- Evaluate the performance of different systems
Who am I?
BSc Bionic Engineering MSc Biomedical Engineering and Physics PhD Biomedical Engineering and Physics National researcher Level I (SNI I) Research interests. Pattern recognition, biomedical signal processing, BCI applications
student outcomes
During this course you will reinforce the following skills:
- identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
- ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
- ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering to draw conclusions
bibliography
- Ogrodnik, Peter J.. Medical Device Design : Innovation from Concept to Market, Elsevier Science & Technology, 2019. ProQuest Ebook Central, https://ebookcentral.proquest.com/lib/udlapmx/detail.action?docID=5970515.
- Shalinee Naidoo. (2019). Understanding Medical Devices : An Introduction to the Medical Device Industry. Arcler Press. https://udlap.idm.oclc.org/login?url=https://search.ebscohost.com/login.aspx?direct=true&db=e000xww&AN=2324410&lang=es&site=eds-live&ebv=EB&ppid=pp_Cover
Syllabus
1. Introduction to biomedical engineering design.2. Product definition. 3. Realization of the design 4. Software development methods and tools. 5. Design evaluation
You can download the complete document from the following link:
CONTACT
rocio.salazarv@udlap.mx
Office IA 250N
Advice:Monday and Friday 15:00 - 16:00
How will we be evaluated?
* The final report must be delivered individually ** To submit the activity you must attend class.
What are we going to do?
In this course you will gain knowledge about engineering design, such as how to document and manage your project. In addition, you will apply your theoretical knowledge of biomedical engineering to design a system or device that:
- Solve an identified need.
- Comply with established technical specifications.
- Consider non-technical aspects (e.g. ethical and social)
BIOMEDICAL SYSTEMS DESIGN
Rocio Salazar
Created on January 8, 2024
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Transcript
About the professor
CONTACT
syllabus
What are we going to do?
Biomedical Systems Design
bibliography
Student outcomes
How are we going to learn?
What are we going to need?
How will we be evaluated?
What are we going to need?
During the course you will need different tools
Hardware:
Software:
How arewe going to learn?
Who am I?
BSc Bionic Engineering MSc Biomedical Engineering and Physics PhD Biomedical Engineering and Physics National researcher Level I (SNI I) Research interests. Pattern recognition, biomedical signal processing, BCI applications
student outcomes
During this course you will reinforce the following skills:
bibliography
Syllabus
1. Introduction to biomedical engineering design.2. Product definition. 3. Realization of the design 4. Software development methods and tools. 5. Design evaluation
You can download the complete document from the following link:
CONTACT
rocio.salazarv@udlap.mx
Office IA 250N
Advice:Monday and Friday 15:00 - 16:00
How will we be evaluated?
* The final report must be delivered individually ** To submit the activity you must attend class.
What are we going to do?
In this course you will gain knowledge about engineering design, such as how to document and manage your project. In addition, you will apply your theoretical knowledge of biomedical engineering to design a system or device that: