Engineering summer training is the thirty working days internship period in which the engineering students are expected to apply their theoretical knowledge, which they acquired during their undergraduate studies, in a professional environment. Summer training can be performed at any institution which is involved in any of the Electrical and Electronic Engineering, Bioengineering or Medicine subdisiplines. During the training, the engineering students encounter with the professional life tasks, so that they have a better chance to prepare themselves for the industries’ needs and decide on their exact field of professional interests. At the end of the thirty days of training, which is performed after the third year of the bachelor studies, the students write their summer training reports which summarize their internship experience
This course aims to introduce the basics of digital
design and embedded control systems. Students will have a sound knowledge on:
design methods and the implementation of basic digital systems,
microcontrollers, microcontroller architecture, assembly programming, and
microcotroller peripherals. Student will have hands-on exercises in Lab.
Projects related to microcontroller programming and interfacing. Introduction
to computer systems, Boolean algebra, introduction to microcontroller,
programming microcontroller using C, using sensors and other peripherals in
microcontroler. MSP430 Instruction set, Addressing modes. Interrupt signals and
routines. Interface circuits. Analog and Digital Peripherals programming:
Digital I/Os, Timers, ADC and Communication Peripherals, Low power modes of
operation
The course will prepare the student to identify surgical instruments, distinguish
their category, know their use, and name them. This course will give emphasis
on the knowledge and recognition of medical instruments, as well as
instrumentation and how they will help physicians. The course will cover
topics, such as the identification of medical instruments, their categories,
use, and inspection. There will be emphasizes on testing their quality, how
they are set up, sealed, other instruments like the robotic and laser
instruments, endoscopes, other complex instruments, how they are regulated.
Learning outcomes
1. To identify basic surgical instruments by
category, name, and use;
2. To demonstrate the different methods used to
test and inspect various types of surgical instrumentation.
3. To describe the use of surgical
instrumentation.
4. To understand how instrument quality
assurance testing are done.
5. To demonstrate the proper procedures for
assembling instruments/procedure trays.
6. To differentiate between various categories
of special instrumentation utilized in operating rooms.
7. To demonstrate inspection and testing of
endoscopic and robotic instrumentation and how to select the appropriate
packaging material for instrumentation sets and medical equipment.
8. To demonstrate how to check packaging materials
for defects, cleanliness, and function.
9. To demonstrate how to sets in peel pouches,
sterile wraps, and rigid pans are packed.
The course has an overview of discrete time signals and systems. Sampling/Reconstruction
principles both in time and frequency domains. The Z-Transform and its
properties. Structure of discrete time systems; tapped delay or lattice etc.
Digital filter designs. Realization of digital filters (FIR and IIR). The
discrete Fourier and inverse Fourier transforms. The fast Fourier transform
(FFT) and its analysis. Image acquisition, sampling and quantization. Image
enhancement: Spatial and frequency domain techniques. Image restoration:
Inverse, Wiener and mean filtering. Image compression: Compression models.
- المعلم: Parvaneh EsmaIlI
- المعلم: Kamil Yurtkan
This course gives you an introduction to modeling methods and simulation
tools for a wide range for wide application in the medical industry. The different
methodologies that will be taught in the course are applied to wide
range of topics. This course does not intend to go deeply into any
numerical method or process and does not provide any recipe for the
resolution of a particular problem, rather we will discuss physical models and all that is required for making a model and simulating the model. The assignments of this course will be made as practical as possible in
order to allow the students actually create from scratch small models that
will solve simple problems. Although programming will be used
extensively in this course we do not require any advanced programming
experience in order to complete it.
- المعلم: Misbahu Lawal
- المعلم: Pwadubashiyi PwavodI
is
a branch of biomedical engineering, where
engineering principles
(mainly mechanical) are applied to biological systems.
selection of topics, ranging
from the mechanics of single cells to the dynamics of human movement.
is a multidisciplinary branch that examines the structure and functions of
living organisms with mechanical principles.
to
understand basic and
complex physiological
processes
alike,
to
improve human health via applied mechanical
problem
solving.
- المعلم: Pwadubashiyi PwavodI