This presentation will help you to understand what is applied in real life numerical analysis.in this slide, i tried to show what is biomedical science and what is application it.
HARDNESS, FRACTURE TOUGHNESS AND STRENGTH OF CERAMICS
Numerical analysis boimedical enginneering
1. Welcome to my presentation
Topic : Application of numerical methods in
Medical science and
Biomedical Engineering.
Name:Nazmul Hoque
Id: 161-15-7605
Teacher :M.G.M. AL FARUQUE
Lecturer in Mathematics; GED
Daffodil International University
2. Medical devices
› Medical devices can be grouped according to the three areas of
medicine:
› Diagnosis
– diagnostic devices
› Therapy
– therapeutic devices
– application of energy
› Rehabilitation
– Application of Assisting orthotic-prosthetic devices
3. Diagnostic devices
› Types of diagnostic devices
– recording and monitoring devices
– measurement and analysis devices
– imaging devices
› importance of diagnostic devices
– enhance and extend the five human senses to improve to collect data from
the patient for diagnosis
– the perception of the physician can be improved by diagnostic
instrumentation in many ways:
› amplify human senses
› place the observer's senses in inaccessible environments •
provide new senses
4. Therapeutic devices
› Physical substances:
– Voltage, current
– Pressure
– Flow
– Force
– Ultrasound
– Electromagnetic radiation
– Heat
› Therapeutic device
categories:
– devices used to treat
disorders
– devices to assist or control
the physiological functions
5. Biomedical Engineering (BME)
› Definition 1:
› “Biomedical engineering is a discipline that
› – advances knowledge in engineering, biology and medicine,
and improves human health through crossdisciplinary
activities that integrate the engineering sciences with the
biomedical sciences and clinical practice.”
6. Biomedical engineers
› – electrical and electronics
› instrumentation, bioamplifiers
› mechanical,
– artificial limbs, prostheses
› physical
› apply different engineering principles
– diagnostic imaging and therapeutic devices
› chemical,
– biosensors, chemical analysers
7. Biomedical engineers
– to understand, modify, or control engineers biologic systems
– Application of
› engineering system analysis
› physiologic modeling,
› simulation, and
› control
8. Biomedical Engineering (BME)
– Biomedical engineers:
› design and manufacture products that can
– monitor physiologic functions or
– display anatomic detail
› Detection, measurement, and monitoring of physiologic signals
– biosensors
– biomedical instrumentation
– Medical imaging
9. Biomedical Engineering (BME)
› Biomedical engineers: CONTD…
› investigate medical equipment failure,
› advise hospitals about purchasing and installing new
equipment