2. Contents:
Telecommunication Graduation Projects……………………………………………………………………………………………..3
VoIP Simulator…………………………………………………………………………………………………………………………………….4
2G & 2.5G Planning Tool………………………………………………………………………………………………………………………6
3G & 3.5G Planning Tool……………………………………………………………………………………………………………..……….8
IP Phone…………………………………………………………………………………………………………………………………………..….10
IP Ph 10
Desktop Optimization Tool………………………………………………………………………………………………………………..…12
VoIP Gateway…………………………………………………………………………………………………………………………………..….14
UMTS Physical Layer…………………………………………………………………………………………………………………………….16
HSDPA Physical Layer…………………………………………………………………………………………………………………………..18
LTE Physical Layer……………………………………………………………………………………………………………………………..…20
WI‐MAX Physical Layer……………………………………………………………………………………………………………………..…22
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IMS Clients………………………………………………………………………………………………………………………..………………..24
Prima Cell…………………………………………………………………………………………………………………………………………….26
Air interface Test Tool – Desktop…………………………………………………………………………………………………………28
Air interface Test Tool – Mobile Version………………………………………………………………………………………………30
Mobile Dimensioning Tool…………………………………………………………………………………………………………………..32
Automation and PLC Graduation Projects………………………………………………………………………………………….…34
Elevators Controller using PLCs………………………………………………………………………………………..………………….35
Pumps application using SCADA Systems and PLCs………………………………………………………………………………36
SCADA System for Natural Gas Distribution…………………………………………………………………………..…………….37
Mixing Process and Tank Control using PLCs……………………………………………………………………………..…………38
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Mixing Process and Tank Control using PLCs………………………………………………………………………………………..39
Building automation……………………………………………………………………………………………………………..…………….40
Electrical Power Distribution and Substation Automation Systems…………………………………………………..…42
Smart Card Power meter using Microcontroller or DSP……………………………………………………………………….44
Design of 3‐Phase AC Induction Motor Vector Control………………………………………………………………………..45
Design of Uninterruptible Power Supply (UPS)………………………………………………………..………………………….47
Design of Induction Heating Controller………………………………………………………………………………………………49
Design of Induction Heating Controller………………………………………………………………………………………………49
Multi function Protective Relay using Microcontroller or DSP…………………………………………………………….50
Temperature Controller using Digital PID………………………………………………………………………………..…………51
1‐ECG Diagnostic Battery Powered or Line Powered………………..………………………………………………………..52
2‐Blood Pressure Meter……………………………………………………………………………………………………………..……..54
3‐Intelligent Hospitals………………………………………………………………………………………………………………..……..56
•Engine Control and Management Interfaces………………………………………………………………………….………..58
•Engine Control and Management Interfaces 58
•Tire Pressure Monitoring System and Safety………………………………………………………………………….………..59
•Automotive Networking………………………………………………………………………………………………………………….61
GPS Sponsoring Rules…………………………………………………………………………………………………………………..……63
4. Graduation Project Support
VoIP Simulator
• Description:
• A tool used by VoIP network administrator to monitor
all packets transmitted over the network including
(RTP, RTCP, RTSP, SIP….etc) packets.
• P
Prerequisites:
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• Network essentials
• VoIP
• JAVA or C #
6. Graduation Project Support
2G & 2.5G Planning Tool
G & 2
• Description:
• Use the power of an open, scalable and flexible planning tool
supports wireless telecom operator from initial planning till
supports wireless telecom operator from initial planning till
densification and optimization to get:
• Support of hierarchal cell structure and concentric cell
• Service planning
• Traffic planning and analysis
• Neighbors planning
• Automatic frequency planning
8. Graduation Project Support
3G & 3.5G Planning Tool
G & 3
Description:
• Use the power of an open, scalable and flexible planning tool
supports wireless telecom operator from initial planning till
supports wireless telecom operator from initial planning till
densification and optimization to get:
• UMTS network Data base
• Traffic Modeling
• Simulation and Analysis
• Neighbor and Code planning
• GSM/UMTS Co‐planning
10. Graduation Project Support
IP Phone
Objectives:
• IP Phone implementation to get IP phones are used world
IP Phone implementation to get IP phones are used world
wide as a fast and reliable solution for intra corporate
communications using internet. Learning how to get Detailed
Design using VHDL and system on chip technologies
Design using VHDL and system on chip technologies
12. Graduation Project Support
Desktop Optimization Tool
Description:
• Using JAVA programming tools to develop an analysis
tool used to optimize, trace and troubleshoot all RF
tool used to optimize trace and troubleshoot all RF
measurements taken from the drive test in 2G and 3G.
Prerequisite:
• Mobile Package
• Radio Network Optimization
• J2ME
14. Graduation Project Support
VoIP Gateway
VoIP Gateway
Objectives:
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• Design and implement VOIP Gateway to enable:
– VoIP calls between IP phones
– V IP GSM ll
VoIP to GSM calls
– VoIP to PSTN calls
Prerequisite:
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• VoIP
• SIP Protocol
• VHDL and Microcontroller
• OS
16. Graduation Project Support
UMTS Physical Layer
Description:
• Using VHDL or DSP to Implement Uplink and Downlink
Transceiver Channel with all its Blocks such as OVSF Codes
generator, Scrambling codes generators, Channel coding and
Modulation stages.
Modulation stages
Prerequisite:
• Mobile Packageg
• VHDL or DSP
18. Graduation Project Support
HSDPA Physical Layer
Description:
• Using VHDL or DSP to Implement Uplink and Downlink
Transceiver Channel with all its Blocks such as codes
generators, Channel coding and Modulation stages for one or
more high speed channel. Also design and check the
scheduling algorithm with the H/W design of the HSDPA
Transceiver
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Prerequisite:
• Mobile Package
• HSPA
• VHDL or DSP
20. Graduation Project Support
LTE Physical Layer
Description:
• Using VHDL or DSP to Implement Uplink and Downlink
Transceiver Channel with all its Blocks such as OFDMA,
Channel coding and Modulation stages for one or more LTE
channel. Also design and check the scheduling algorithm with
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the H/W design of the OFDMA LTE Transceiver.
Prerequisite:
• Mobile Package
• LTE
• VHDL or DSP
22. Graduation Project Support
WI‐MAX Physical Layer
WI‐
Description:
• Using VHDL or DSP to Implement Uplink and Downlink
Transceiver Channel with all its Blocks such as OFDMA,
Transceiver Channel with all its Blocks such as OFDMA
Channel coding and Modulation stages for one or more
WiMax PHY‐channel. Also design and check the
scheduling algorithm with the H/W design of the OFDMA
h d li l ith ith th H/W d i f th OFDMA
WiMax Transceiver.
Prerequisite:
• WiMax System Survey
• VHDL or DSP
VHDL or DSP
24. Graduation Project Support
IMS Clients
Objectives:
• Use the power of IMS to develop new band of services based
on IP convergence protocols to work with open all IP‐
on IP convergence protocols to work with open all IP‐
Networks both Fixed and Mobile networks to get the FMC
target.
Prerequisite:
• Mobile Package
• IMS
• J2SE or J2ME
26. Graduation Project Support
Prima Cell
• Converts fixed‐to‐mobile into mobile‐to‐mobile calls,
thereby terminating calls to mobile networks at lower rates
than possible via fixed‐net interconnection.
than possible via fixed‐net interconnection
Prerequisite:
• Mobile Package
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• VoIP
• Network essential
• VHDL with Microcontroller
28. Graduation Project Support
Air interface Test Tool –
Air interface Test Tool – Desktop
Description:
• Air interface test tool‐Desktop such as TEMS Rout analysis and
GENEX assistant used for Tracing all testing and RF
GENEX i t t df T i ll t ti d RF
measurements from field to extract network behavior and
ensure network services
Prerequisite:
• Mobile Package
• RAN Signaling
• JAVA
30. Graduation Project Support
Air interface Test Tool –
Air interface Test Tool – Mobile Version:
Description:
• Air interface test tool‐Mobile Version such as TEMS DT and
GENEX‐Probe used for record all Events and messages from
field using Drive Test to extract network behavior and ensure
network services.
network services
Prerequisite:
• Mobile Package g
• RAN Signaling
• JAVA
35. Graduation Project Support
Elevators Controller using PLCs.
Description:
• Two lifts working together in a building consists of
five floors, these lifts controlled by two PLCs & these
PLCs communicate with each other to perform the
desired operation.
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Needed Courses:
• PLC l l II & I
PLC level II & I.
36. Graduation Project Support
Pumps application using SCADA Systems
Description
and PLCs.
and PLCs
• Three pumps are used to provide cooling water for a manufacturing
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plant. For cooling to occur, at least one of the pumps must be on at
all times but if no cooling is required, all pumps are to be turned off.
For more cooling, a second pump is requested to turn on, followed
by a third pump if sufficient cooling is still not received To protect
by a third pump if sufficient cooling is still not received To protect
each from wearing out prematurely, a plan has been devised to
allow each pump to turn on and off by using logic to turn on the
next pump in sequence and turn off the pump that has been on the
longest. PLC & Scada control this system.
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Needed Courses
• PLC level II & I.
• SCADA level I
37. Graduation Project Support
SCADA System for Natural Gas
SCADA System for Natural Gas
Distribution
Description
• While pipeline automation solutions may account for but a tiny
fraction of the total value of a pipeline construction project, they
obviously can have a major impact on the amount of revenue that a
obviously can have a major impact on the amount of revenue that a
pipeline can generate.
•
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• The result was an integrated pipeline automation system using g
Ethernet TCP/IP as
• The communications network and having sufficient bandwidth for
control
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Information, the IP telephone system and the CCTV web server.
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Needed Courses
• PLC level I
PLC level I.
• SCADA level I & II
38. Graduation Project Support
Mixing Process and Tank Control using
PLCs
PLC
Description:
• Complex PLC control functions from the field of
p
process engineering, particularly for processes
involving metering and mixing. A pump delivers water
,
to three tanks, controlled via solenoid valves. The level
of water in the three tanks is monitored by capacitive
proximity switches with adjustable sensitivity. The fluid
from the three tanks can be mixed together in the
from the three tanks can be mixed together in the
downstream mixing tank..
Needed Courses
• PLC level II & I
PLC level II & I.
• SCADA level II & I.
40. Graduation Project Support
Building automation
Description
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• Building automation is a programmed,
computerized, intelligent network of electronic
computerized, intelligent network of electronic
devices that monitor and control the mechanical
and lighting systems in a building. The intent is to
create an intelligent building and reduce energy
create an intelligent building and reduce energy
and maintenance costs.
Needed Courses
• PLC level II & I.
• SCADA level II & I.
42. Graduation Project Support
Electrical Power Distribution and
Electrical Power Distribution and
Substation Automation Systems
Description
The Distribution Automation Function is to enhance the •
reliability of Power system service, power quality, and
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power system efficiency by automating the following
Three processes of distribution operation control: data
Three processes of distribution operation control: data •
preparation in near real time; optimal decision‐making;
and the control of distribution operations in coordination
with transmission and generation systems operations.
with transmission and generation systems operations
Needed Courses
• PLC level II & I.
• SCADA level II & I.
44. Graduation Project Support
Smart Card Power meter using
Smart Card Power meter using
Microcontroller or DSP
Description :
• The project briefly is to make the full design of
a residential power meter working with a
smart card. The smart card will be charged
and the house using this meter will have a
d th h i thi t ill h
power upon the value of the card. The house
takes a kw/h until the card credit finishes.
takes a kw/h until the card credit finishes
Needed Courses
• Microcontroller level II & I
Microcontroller level II & I.
45. Graduation Project Support
Design of 3
Design of 3‐Phase AC Induction Motor
Vector Control
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Description :
• In adjustable speed applications, AC motors are
powered by inverters. The inverter converts DC
power to AC power at the required frequency and
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amplitude.
Needed Courses
Needed Courses
• Microcontroller level II & I.
• Motion Control
Motion Control.
47. Graduation Project Support
Design of Uninterruptible Power Supply
(UPS)
Description :
A full‐bridge inverter topology is used to
A full bridge inverter topology is used to •
convert the high‐voltage DC to pure sine AC output. This
design how digital‐power techniques when applied to
UPS applications Enable easy modifications through
UPS applications Enable easy modifications through
software, the use of smaller magnetic, Intelligent battery
charging, higher efficiency, compact designs, reduction in
Audible and electrical noise via a purer sine wave output
Audible and electrical noise via a purer sine wave output
and USB communication
Needed Courses
Needed Courses
• Microcontroller level II & I.
49. Graduation Project Support
Design of Induction Heating Controller
Description :
• Induction heating is a non‐contact heating
p
process. It uses high frequency electricity to
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heat materials that are electrically
conductive.
Needed Courses
• Microcontroller level II & I. Or PLC level II & I.
Microcontroller level II & I. Or PLC level II & I.
50. Graduation Project Support
Multi function Protective Relay using
Microcontroller or DSP
Microcontroller or DSP
Description :
• Th
The project is to make a full design of a protective
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relay for over current and under voltage.
• It measures the current voltage and power and
It measures the current, voltage and power and
according to the set points of the tripping value
p y p
and the trip curve chosen the relay trip.
Needed Courses
• Microcontroller level II & I.
51. Graduation Project Support
Temperature Controller using Digital PID
Description :
• The Project is to make the full design for PID
(Proportional, integral and derivative) temperature
(P i l i l dd i i )
controller .It receives the signal from thermocouple
and generate analog output signal to the heating
and generate analog output signal to the heating
system to keep the set point of the system
temperature.
Needed Courses
• Microcontroller level II & I.
Microcontroller level II & I
52. Graduation Project Support
1‐ECG Diagnostic Battery Powered or Line
Powered.
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Description
• Electrocardiography (ECG), electromyography
(EMG), and electroencephalography (EEG)
systems measure heart, muscle and brain activity
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(respectively) over time by measuring electric
potentials on the surface of living tissue.
potentials on the surface of living tissue
Needed Courses:
• Mi
Microcontroller Medical Applications level II & I.
t ll M di l A li ti l l II & I
54. Graduation Project Support
2‐Blood Pressure Meter
Description
• Sensor interface technologies enable highly
Sensor interface technologies enable highly
accurate yet cost‐sensitive
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Blood pressure monitoring designs.
it i d i
Needed Courses:
• Microcontroller Medical Applications level II
& I.
56. Graduation Project Support
3‐Intelligent Hospitals
Description
The connected hospital is the wave of the future with
the increasing acceptance of technology in the
th i i t ft h l i th
medical market; administrators are open to infusing
that technology into hospitals to help increase the
that technology into hospitals to help increase the
quality of service.
Needed Courses:
Needed Courses:
• Microcontroller Medical Applications level II & I.
58. Graduation Project Support
1‐ Engine Control and Management
Interfaces
Description
• The basic mechanical design principles of the four‐
stroke internal combustion engine have remained
essentially the same since patented in 1884. Modern
electronic control systems are designed to meet
l i l d i d
legislative mandated exhaust emission levels, provide
competitive fuel economy, meet customer quality
competitive fuel economy meet customer quality
expectations and enhance the “fun to drive” factor.
Needed Courses:
• Microcontroller Automotive Applications level II & I.
59. Graduation Project Support
2‐ Tire Pressure Monitoring System and
Safety
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Description
Tire Pressure Monitoring Systems (TPMS) are a new
standard for improved vehicle safety. They enable
a timely driver warning in case of improperly
inflated tires in cars, trucks and buses.
Needed Courses:
• Microcontroller Automotive Applications level II
& I.
61. Graduation Project Support
3‐ Automotive Networking
Description
D i ti
LIN/ SAE J2602 is a universal asynchronous receiver‐transmitter •
(
(UART)‐based, single‐master, multiple‐slave networking architecture
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originally developed for automotive sensor and actuator networking
applications. LIN provides a cost‐effective networking option for
connecting motors, switches, sensors and lamps in the vehicle.
The CAN protocol is being used beyond automotive applications as a •
generic embedded communication system for microcontrollers, as well
as a standardized communication network for industrial control
systems.
Needed Courses:
Microcontroller Automotive Applications level II & I.
Microcontroller Automotive Applications level II & I