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Home >
Electronic & Computer > Student Projects |
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| Student
Projects |
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| Level
4 Projects |
B.Sc (Hons.) Level
4 Project Proposals:
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| Variable bit rate progressive encoding of
digital images using Discrete wavelet transform ( DWT). |
Variable bit
rate progressive encoding of digital images using Discrete
wavelet transform ( DWT). Project includes: design,
development, simulation, testing, implementation and
computer based analysis
Learning Outcomes:
Learning Digital image processing, DWT and its applications
for image processing. Implementation of progressive
coding of digital image using DWT. Hands on experience
on integrated development environment such as MATLAB.
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Simulation and analysis of real time multimedia traffic.
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Project includes: Design
, development, simulation and computer based performance
analysis
Learning Outcomes:
Designing and developing simple computer networks for
multimedia traffic using software simulation. Simulation
and analysis of QOS parameters. Hands on experience
in OPNET software. |
| Development of a Data Management Module for Decision
Support System |
Project includes: Feasibility
study on a selected manufacturing plant, Development
of design, Experimental investigation and computer based
study of current practice
Learning Outcomes:
Feasibility study on a selected manufacturing plant,
Development of data base design, Experimental investigation
and computer based study of current practice. Developing
user friendly GUI for the module. |
| Email Security. |
Project includes: Design
feasibility, development of design, experimental investigation,
system integration, and implementation.
Learning Outcomes:
Understanding email security, password cracking, Identify
a novel method to provide high security to emails. Designing
and developing a software package for securing emails. |
| Performance evaluation of Routing Algorithms. |
Project includes:
Design , development, simulation and computer based
performance analysis
Learning Outcomes:
Understanding the performance of various routing protocols.
Expertise in designing, simulating and evaluating network
protocols.
Hands on experience on OPNET simulation software. |
| Development of a Battery health Monitoring System |
Project includes: design
feasibility, development of design, software testing,
and implementation
Learning Outcomes:
Understanding of existing battery health monitoring
problems in PDO,Oman and familiarization with related
components, development of database, hands on experience
with Visual Basic, coding techniques and testing procedures |
| A Study and Analysis of how to improve the operation
of Bluetooth Network |
Project includes: a critical
dissertation of the literature, computer based study
of current practice, development of design, experimental
investigation.
Learning Outcomes:
Understanding of the Bluetooth technology, Networking,
Protocols, embedded internet, hands on experience with
implementation aspects of Bluetooth technology |
Design and development of Adaptive wireless networks
and performance evaluation
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Project includes a critical dissertation of the literature,
Computer based study of current practice, Experimental
investigation.
Learning Outcomes:
Understanding of wireless networks, protocols, adaptive
algorithms, hands on experience in development of wireless
networks. |
B.Sc (Hons.) Level
4 Project Proposals:
Electronic Engineering stream |
| Project Title |
Objectives |
| Automated controller for treatment of waste water . |
Understand the concept of On-line Instrumentation,
Understand the various sensors and modules used for
the treatment of waste water.
Implement an online controller for the treatment of
waste water using PLC.
Experiment on the alternate controller design procedures
using MATLAB, Labview etc |
| Design of a suitable PID controller for an airborne
vehicle. |
Study and analyse the control system requirements
for an aircraft.
Develop simplified model of an aircraft and its simulation
using MATLAB.
Design a suitable PID controller for an airborne vehicle
and simulate the aircraft with designed controller.
Implement the controller using hardware. |
| Modified Infrastructure for Bluetooth. |
Project includes: a critical
dissertation of the literature, Design, development
and computer based analytical study.
Learning Outcomes:
Understanding wireless and Bluetooth technology, Designing
and implementing systems which uses Bluetooth technology.
Performance analysis |
| Intelligent Lamp Design Based on Microcontroller |
Project includes: design
feasibility, development of design, experimental investigation
and hardware implementation.
Learning Outcomes:
Understanding and usage of microcontrollers, LCD displays,
passive IR detectors, development of intelligent algorithms
and related software in C |
| Extraction of Edges in contrast enhanced images using
wavelet transform |
Project includes: design
, development of design, a critical dissertation of
the literature, experimental investigation.
Learning Outcomes:
Understanding of various extraction techniques, wavelet
transforms and their application to images, hands on
experience with Matlab and image processing tool box. |
| ECG’s QRS Detection using Wavelet Transform |
Project includes: design,
development, testing, and implementation
Learning Outcomes:
Understanding of a biomedical engineering problem with
reference to ECG and database, familiarization with
wavelet transforms, hands on experience with Matlab
software and its tool boxes. |
| Development of a sonar system based on a PIC processor
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Project includes: Design,
development, experimental verification and implementation
.
Learning Outcomes:
Understanding of a sonar system vis a vis distance measurement,
hands on experience with PIC processors and interfacing,
software tools |
| Study of Finite Impulse Response Filters |
Project includes: a critical
dissertation of the literature, simulation /analysis,
development of a design.
Learning Outcomes:
Understanding of digital filtering techniques, hands
on experience with Matlab software, familiarization
with window techniques |
| Techniques for reduction of peak-to- average power ratio
in OFDM systems. |
Project includes: a critical
dissertation of the literature, development of a design
and its analysis, computer based study
Learning Outcomes:
Understanding of multi-carrier modulation techniques,
peak power problems, skills to develop techniques to
reduce the associated problems, hand on experience with
Matlab and Simulink softwares w.r.t any communication
system. |
| PC based multi channel Patient Monitoring system and
Analysis |
Project includes: design
and production, experimental investigation, a critical
dissertation of the literature
Learning Outcomes:
Understanding of biomedical engineering problem / requirements,
and hands on experience on system interface, data analysis |
B.Sc (Hons.) Level
4 Project Proposals:
Telecom engineering stream |
| Project Title |
Objectives |
| Automated controller for treatment of waste water . |
Understand the concept of On-line Instrumentation,
Understand the various sensors and modules used for
the treatment of waste water.
Implement an online controller for the treatment of
waste water using PLC.
Experiment on the alternate controller design procedures
using MATLAB, Labview etc |
| Design of a suitable PID controller for an airborne
vehicle. |
Study and analyse the control system requirements
for an aircraft.
Develop simplified model of an aircraft and its simulation
using MATLAB.
Design a suitable PID controller for an airborne vehicle
and simulate the aircraft with designed controller.
Implement the controller using hardware. |
| Modified Infrastructure for Bluetooth. |
Project includes: a critical dissertation of the
literature, Design, development and computer based analytical
study.
Learning Outcomes:
Understanding wireless and Bluetooth technology, Designing
and implementing systems which uses Bluetooth technology.
Performance analysis |
| Intelligent Lamp Design Based on Microcontroller |
Project includes: design feasibility, development
of design, experimental investigation and hardware implementation.
Learning Outcomes:
Understanding and usage of microcontrollers, LCD displays,
passive IR detectors, development of intelligent algorithms
and related software in C |
| Extraction of Edges in contrast enhanced images using
wavelet transform |
Project includes: design , development of design,
a critical dissertation of the literature, experimental
investigation.
Learning Outcomes:
Understanding of various extraction techniques, wavelet
transforms and their application to images, hands on
experience with Matlab and image processing tool box. |
| ECG’s QRS Detection using Wavelet Transform |
Project includes: design, development, testing, and
implementation
Learning Outcomes:
Understanding of a biomedical engineering problem with
reference to ECG and database, familiarization with
wavelet transforms, hands on experience with Matlab
software and its tool boxes. |
| Development of a sonar system based on a PIC processor
|
Project includes: Design, development, experimental
verification and implementation .
Learning Outcomes:
Understanding of a sonar system vis a vis distance measurement,
hands on experience with PIC processors and interfacing,
software tools |
| Study of Finite Impulse Response Filters |
Project includes: a critical dissertation of the
literature, simulation /analysis, development of a design.
Learning Outcomes:
Understanding of digital filtering techniques, hands
on experience with Matlab software, familiarization
with window techniques |
| Techniques for reduction of peak-to- average power ratio
in OFDM systems. |
Project includes: a critical dissertation of the
literature, development of a design and its analysis,
computer based study
Learning Outcomes:
Understanding of multi-carrier modulation techniques,
peak power problems, skills to develop techniques to
reduce the associated problems, hand on experience with
Matlab and Simulink softwares w.r.t any communication
system. |
| PC based multi channel Patient Monitoring system and
Analysis |
Project includes: design and production, experimental
investigation, a critical dissertation of the literature
Learning Outcomes:
Understanding of biomedical engineering problem / requirements,
and hands on experience on system interface, data analysis |
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| Level
3 Projects |
X TECH WRISTER
(Extreme Technology Wrist band)
|
 The
X-Tech Wrister (XTW) is a hypothetical model with multiple
features. As the slogan of the product, take the whole world
in your hands; the XTW eliminates carrying multiple gadgets
such as mobiles, PDA, camera, USB, multipurpose remote controls,
Internet, mp3 and radio. Although there are devices available
in the market, which do combine most of the above mentioned
features, there is no device so far manufactured which can
incorporate these multiple features into a watch.
The XTW is a practical and reliable system in terms of both
feasibility and ease of use. It features wireless technologies,
multimedia, data storage and transfer, entertainment and high
security systems. The wireless features are its Internet and
phone call facility and the multipurpose remote control. The
multimedia features a high quality camera. An interesting
feature of the watch is an innovative entertainment facility
provided to the Bluetooth earphones. An optimum security is
provided using 2 levels of entry, which are the Face Recognition
and the password.
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| College
Clever Card (CCC) |
 The
College Clever Card (CCC) is a smart card that combines different
applications, for example, carrying an account, which the
pupil can use to purchase stationary from the bookstores or
for buying things from cafeteria, it also can be used to take
photocopies of his work.
In addition, the CCC holds the personal details for each
student and provides the students access to the college classes,
laboratories, library and others. Besides, each CCC is accompanied
with a unique pin code that is used for security issues when
using the college entrance gates. The CCC also has a tracing
facility that is used to locate the position of the card bearer
within the college campus. |
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| Octopus
Tech Mirror |
 Octopus
Tech Mirror is a conceptual of a multi-featured system. It
is a mirror that can act as server to provide a wide range
of internet and home networking that control home automation
functions such control the house hold appliances like air
conditioner control, lighting, gas valve control, Refrigerators
etc., .
This mirror can communicate with electronic and electrical
house hold appliances through the wireless technology, it
can also communicate with the house owners regrinding the
status of the home in there absence such as home security
of gas leak detection and automatic calling in case of emergency,
local and remote visitor management using video camera with
recording capability . This mirror also acts like an entertainment
device in which you can watch the television programs , listen
to mp3 music, playing video games etc.,. The house owners
can control home appliances from remotely through the Internet
using cell phone of PDA. This mirror will turn off the A.C’s
or lighting automatically by itself if there are no members
present in that particular room or hall or any other location
in the house. |
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| eye-POD |
 The
eye-POD is an intelligent web-enabled home management solution
which facilitates the user in being connected to his home
anytime, anywhere. The purpose of this project is to build
a conceptual e-device which can be used at home by people
of all ages to make their lives easier. This report provides
concise documentation on the objectives, architecture, features
and specifications of the eye-POD, its supporting home-network
and the communication technologies considered for connecting
eye-POD and the home network to the internet.
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| Intelli-Host |
 The
Intelli-HOST is a an intelligent system consisting of hand-held
wireless devices networked to a database and a standalone
system within a wireless Local Area Network allowing for quick
and efficient hotel and restaurant management. This system
will prove convenient to the user consisting of a waiter,
the customer, the chef as well as the cashier within a hotel
or restaurant as it will increase the efficiency in making
orders by eliminating the need for the waiter to make unnecessary
strides to the kitchen to place an order.
Its inclusion of a client-personalised website is an add-on
to this system as it gives those in offices with access to
the internet a chance to place food from the comfort of their
offices without the need to waste anytime in leaving an office,
walking to a restaurant and having to place an order.
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| Smart
Kitchen Device (SKD) |
 In
modern times, technology has made a significant impact on
human lives. In this project, we have attempted to design
a device that helps the user to simplify his/her work in the
kitchen. Keeping in view the demand for smart kitchen appliance,
an attempt has been made to design a model of microwave oven
named Smart Kitchen Device (SKD). SKD aims to integrate latest
technologies such as Touch Screen, Internet Connection, LCD
Screen, Bluetooth Technology, USB Port and the Microwave is
the main part of SKD device
SKD offers simple-to–use features that can be operated
by any user. The device offers advantage in that it can support
Internet, which is not available in existing kitchen microwaves.
Though there is a cost overhead, it is justified in terms
of superiority of device features.
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| FutureTech
Integrated System (FIS) |
 FutureTech
Integrated System (FIS) is a conceptual model of a multi-featured
system. We selected this project title as it suits our system
in terms of its futuristic technology and integrated components.
As we chose to select a highly mobile unit, a laptop design
was chosen for FIS. The system has an innovative design and
pertains to logical standards.
FIS portrays an image of a highly reliable system. This is
achieved by incorporating quality multimedia, long lasting
power supply, adequate software and hardware protection. The
prominent features of FIS are Active Protection system, Back-up
Charger, Fingerprint Recognition system, SoundVu Technology,
tracking system and Video with night vision. The Active Protection
System provides protection to the hardware part of the system.
Back-up charging uses methanol cell to provide long-lasting
uninterrupted power supply. Fingerprint Recognition system
uses biometrics to protect the data from unauthorized access.
SoundVu technology provides high quality sound effect for
the system. Tracking system uses Global Positioning Satellites
to track down an entity through the Internet. Inbuilt Camera
is used in FIS to offer image capturing to the user. Night
vision technology allows the user to capture images with superior
clarity at night. These features enhance the overall capability
of a laptop.
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