لولأا لصفلل جرختلا عيراشم تاحرتقم لودج يلي اميف
جرخت عورشم ةبعش لك يف بلاط
ثلاث وأ نيبلاط
نوكي نأ بجي
عورشملا ليجست بلط ميدقتل ةرئادلا ةريتركس ةعجارم ىجري
Wind Generators and
The objective of this project is to study and design
a prototype power
system utilizing Wind energy, the projects includes
Design of the induction generator and Wind
(or use available wind
Controlling the output power in either DC/AC storage or inverter
PSpice/Matlab simulation of the overall system.
controller may be used for controlling the whole system.
Design of the necessary se
nsors; including feedback control of the output
voltage, current and speed.
Protection of the generator and system
hardware Implementing the overall system
Design and Control of
a Training CNC
The project aims to design a small CNC machine with two or three degrees of
freedom and the electronic control circuits of the driving unit. The purpose of
the machine is to be the base station for different control schemes using PC, PIC
controllers and PL
C’s. The control is developed for wood processing actions
such as excavating phrases on wood.
Design and Control of
a bottle closing
The project aims to design and control a small machine that closes a defined
type of bottles wi
th screw closure style. The work includes the implementation
of the machine and the relative driving circuits. The machine operation is going
to be controlled using programmable controllers.
The aim of
this project is to let the students employ digital signal processing
techniques to build computationally efficient multitone detection. The project
addresses the issue of detection of incoming dial tones, validity checking to
differentiate valid tones fro
m noise, and to efficiently implement the detection
system. While the project may focus on dual tone mulifrequency telephone dial
tone detection, the approach has to be general and may be employed in other
multitone detection systems. I hope that the stude
nts will be able to build this
project or at least demonstrate its validity through simulation techniques.
Turbo code is a new class of channel encoding techniques besides the well
known block codes and convolutional codes. A distinctive feature of turbo code
is that it can achieve a channel capacity close to the Shannon limit. The aim of
this project is three
The students will explore the structure of this encoding scheme.
The student will explore the algorithms used for decoding.
The important part of the project is for the students to examine, through
simulation, the probability of error performance of
this code as a
function of the signal to noise ratio assuming additive white Gaussian
noise. The performance is to be compared to that for the un
Here comes the importance of an efficient decoding scheme to handle this
type of coding. For comp
leteness, the probability of error is to be
compared, with say, either the block code or the convolutional code or
Mr. Nasser Ismail
The project aim is to design a motorized electric children scooter.
The scooter must be powered from a battery and driven by a dc motor and
box. A power electronic converter must be designed and used to
control the motor and to guarantee that the motor
drive will operate the scooter
in the required modes such a
s : soft start, acceleration, deceleration and
The battery must have proper recharging mechanism to recover regenerative
The practical implementation will be based on an existing non
Modeling and Analysis
Power Supplies with
verification of the
The project aims to build small signal models of switch mode dc/dc converters
(buck, boost and buck
boost) which will be used to study
Both current mode control and voltage mode control must be addressed in these
models. Based on these models, detailed dynamic performance can be assessed
including system stability, audio
susceptibility, input and output impedance can
The validity of these models must be verified comparing data from prototype(s)
and from simulation.
The use of mathematical calculation software such as Mathcad and simulation
software such as Pspice is a basic requirement
Dr. Wasfi AlKafri
dar Systems ,
The project aims to explore the algorithms of detection and tracking of targets
by radar systems.
Steps that astudent needs are:
1. Studying and learning an introduction of types radar systems
2. Learning the basic co
mponents and operation of radar
3. algorithms of tracking
4. Simulation results
3G Radio Network
In this project, we aim to study the 3G mobile system, its characteristics and
challenges. In this project students are expected to do the
Revise the 2G mobile system (previous project, 2009/2010).
Study the 3G mobile system.
Study the equipment required by the 3G system.
Study the requirements for upgrading from 2G to 3G
Search for a possible tool that may be used for a simulation of the 3G system.
Learn the parameters of the planning tool and the reports that may be
Chose a city or a specific region as a case study.
Obtain all needed digital maps for the city
to be considered for 3G
Use the planning tool to do the 3G radio network planning.
link budget calculations.
nominal plan and propagation models.
3G capacity planning
soft handover and internetworking.
Layout and Simulation.
Test the performance of the 3G radio layout through the generation and
analysis of specific metrics (use the planning tool to generate specific
If time permit
, 3G indo
or radio planning.
If time permit
, repeat all procedure done for 3G to be done for 4G system.
Requirements: a group of 3 students with communication concentration.
pressure and humidity
project, we aim to design a complete thermal, pressure and humidity
validation solution that meets the requirements of food and pharmaceutical
industry in the local market. Some of the applications of such a project are
thermal mapping and thermal validati
on inside autoclaves and ovens. The
purpose of thermal mapping is to ensure that a certain temperature is achieved or
reached at every point within the autoclave space. Online monitoring for the
temperature, pressure and humidity inside the ovens or stabil
ity champers is also
a possible applications of such project, especially during the sterilization of the
cooking processes. The project consists of the following parts:
Sensors and measuring equipment: the students are expected to survey for the
e measuring tools used and also available in the local market. We
don’t expect the students to be involved in designing such tools especially that
these tools are expected to work in a very high temperature up to 150
Networking of measuring equipment: the students are expected to design a
setup such that more than one sensor is to be used.
Interfacing and transmission: the students are expected to decide on the
transmission system (Bluetooth, Radio Frequency, transmis
sion over the
regular power lines, use the Ethernet technology …) and interface the
measuring equipment to the transmission system. On the other end of the
transmission system, they must also interface to the computer. The
transmission distance is a big fa
ctor and will be decided later.
Validation and monitoring software: a piece of software with various
components that is responsible for different functions:
Receive the measured value sent by the network (measuring devices)
Generate a graphical and tabulat
Maintain a log of the data.
Enable the user to set a threshold values. i.e. temperature or pressure.
An alert option should be available in case a threshold is exceeded. The
alert could be an email message or massage to a mobile or both.
A web i
nterface to enable supervision by directors or managers.
A privilege policy must be established for security purposes to restrict
access to the data on the local computer and the web.
Requirements: a group of 3 students.
Design of a smart
The objective of this project is to design a smart lighting system that turns the
light on or off and also it will be able to adjust the light intensity based on
whether the detected person is coming or leaving t
T he system is to be used in the hallway and inside the rooms
The light will remain on dim during night in the hallway
The system may consist of the following :
Design and Performance
Analysis of a Proposed
This Project is in two phases:
Analysis of the
of the west bank power distributing
Based on the analysis in phase 1, we will
ifferent scenarios for connecting the
different power distribution companies to generate an integrated electrical network
with standard voltages, low power losses, high quality electrical energy, high
reliability, good voltage level, and low transmission c
This well integrated network
allows for future connection to the
y grid, and eventually supplies
users with low cost electrical energy
Mr. Jaser Sa’ed
Small Model Three
Phase Power System
The aim of this project is to implement and design a small power system model with all
stages stating from three phase source, transmission, and distribution. This model must
have all equipments such as step up and step down transformers, current and volta
transformers, circuit breakers, fuses, relays, and loads. Online monitoring and control
for this model must also be implemented, this is to monitor faults and take an
Mr. Nofal Nofal
Recent advance in wir
eless communications and electronics have enabled the
developments of low
power, multifunctional sensor nodes that are small in
size and easily communicate in short distance. These small sensor nodes, which consist
of sensing, data processing, a
nd communicating components are the main aspects
behind sensor networks. Sensor networks have a wide range of applications in health,
industry, homes, and more.
In this project we need to study and understand the idea of sensor networks, protocols,
ithms, and how these nodes that form the clusters can enter and entra
communicate with each other.
Students need to
Understand the calculations the of different parameters that influence the design
Need to understand and suggest a transmission protocol that is best for error
detection and correction, without effecting the transmission rate
Build a good WSN system using a software tool such as NS2 or OMNET++
that shows their ability on tracking trans
mitted packets and also show the effect
of the presence of different types of noise on the information.
Find and support a method to overcome errors due to the transmission medium.