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1. Embedded project:
The development of embedded software used for controlling consumer products, requires the development process
to be integrated with the development of the controlled physical product. An embedded is specialized computer
system that is part of a larger system or machine. Typically, an embedded system is held on a single microcontroller
board. All appliances that have digital interfaces, watches, microwaves, VCRs, cars -- utilize embedded systems.
Some embedded systems include an operating system, but many are so specialized that the entire logic can be
implemented as a single program. In embedded you can do any number of control applications projects, design and
define new ideas to the society, simulate present controls systems to advanced one and can do many more projects
for your academic completion. The only thing you need to do on an embedded based project is to demodulate current
industry standard and provide different experience of engineering to the society. You can bring your own topic or else
you can select a list of topics from our titles, our titles includes IEEE projects, own topics and based on current
industrial acceptance factors.
Electrical projects:
We offers variety of Electrical projects which are all 100% output guaranteed for engineering students of final year.
Core electrical and embedded electrical based projects in DC & AC MACHINES, TRANSMISSION LINES, High
Voltage, covering PF correction, cable fault detectors, home automation, wireless power transfer, PID, PLC, Islanding
of grid, energy management etc. in single phase and 3 phase applicable to industry and domestic areas. Many IEEE
origin papers solved to maximum extent that a student can understand is supported by detailed audio visual
explanations.
APFC to MINIMIZE PENALTY IN INDUSTRIAL POWER CONSUMPTION: Automatic Power Factor Compensation
(APFC) is achieved by engaging number of shunt capacitor in parallel to inductive loads. The time lag between zero
voltage and zero current is fed to a microcontroller that drives relays from its output for bringing shunt capacitors
across the load till the power factor reaches 0.9.
HIGH VOLTAGE DC CONVERSION IN VOLTAGE MULTIPLIER CIRCUIT: 1000 PIV diodes in combination with
100uF electrolytic capacitors forming a ladder network multiply the input AC to develop DC output several times the
input.
AUTOMATIC STAR DELTA STARTER WITH TIMER: It is to start a 3 phase motor at 440 volt AC mains supply 50
Hz with a set of relays in star mode and then to delta mode by an electronically adjustable delay timer.
ELECTRICAL ENERGY AUDIT: It is designed to automatically calculate energy details within a minute using
programmable micro controller with indications on an LCD display, the load consumption in units and cost in rupees
for any load required to be used for a specific number of hours.
THREE PHASE FAULT ANALYSIS WITH AUTO RESET: Six numbers of Step-down transformers are used for
forming star and delta secondary at low voltage output with fault condition created by a set of switches for LL, LG,
and 3L fault to the circuit. This is done by triggering a 555 timer in monostable to reset automatically after a
temporary fault clearance or permanently trip the output in case of prolonged fault.
DETECTING FAILED GRID SYNCHRONIZATION: Synchronization failure of an alternate supply source connected
to the grid is detected either for under/over voltage or under/over frequency by a micro controller to perform this
operation. This mechanism is popularly known as Islanding of grid connected source.

2. Bio medical projects:
As their title suggests, biomedical engineers work at the intersection of engineering, the life sciences and healthcare.
These engineers take principles from applied science (including mechanical, electrical, chemical and computer
engineering) and physical sciences (including physics, chemistry and mathematics) and apply them to biology and
medicine. Although the human body is a more complex system than even the most sophisticated machine, many of
the same concepts that go into building and programming a machine can be applied to biological structures and
diagnostic and therapeutic tools.
The goal is to better understand, replace or fix a target system to ultimately improve the quality of healthcare.
Biomedical engineering is the fastest-growing career and this trend is expected to continue over the next decade. To
learn more about the career of biomedical engineering, check out our student site.
VLSI projects:
At one time, there was an effort to name and calibrate various levels of large-scale integration above VLSI. Terms like
Ultra-large-scale Integration (ULSI) were used. But the huge number of gates and transistors available on common
devices has rendered such fine distinctions moot. Terms suggesting more-than-VLSI levels of integration are no
longer in widespread use. Even VLSI is now somewhat quaint, given the common assumption that all
microprocessors are VLSI.
Ns2 projects:
Networks have always been the hot cake of research for several years. From wired networks to wireless networks,
several researches continue to be published in IEEE Journals and Conferences every year. Surprisingly, very few
advanced tools are available for networks related simulations. When it comes to networks, NS2 has always topped
the simulation chart. It comes pre-packaged with several protocol implementations like AODV,AOMDV etc. , so that a
researcher could spend more time on what he is planning to implement.
Web application projects:
The goal of Web application projects is to address some of the business development applications. Some developers
find migrating web service applications to the new Web site model in some tool impractical, especially because
precompiling (publishing) a web tool Web site creates multiple assemblies.The new project type also provides a
model that will feel familiar to developers who do not want to change how they structure their Web projects from how
they use
Wireless projects:
Wireless communication is defined as the transfer of information over a distance without using any enhanced
electrical conductors or wires. The distance may be short or long depends on the requirements and
availabilities.These projects are mainly helpful for final year engineering students. These project ideas include
projects based on various categories like DTMF, GSM, RF, RFID, Smartcard, etc.

3. Android projects:
Nowadays, Android is the buzz word everywhere. Techies or not, everyone is seems to be infected with this Android
mania. Well, whats so special about it that makes people go crazy. Android is a Linux based operating system for
mobile devices. It contains cool features that redefine the mobile usage experience. Eye candy stuffs that challenge
the popular iOS. Apps that can even make you breathe. What not! Its raining Android everywhere.
We, at Uniq, have understood the growing interest of the student community towards Android, so few years back we
formed a team of Java developers to train themselves up in developing Apps for Java. Now, there is an experienced
team of developers, who know the nitty-gritty of developing Android apps. Feel free to come join us in exploring the
Android world and make your projects stun your friends with the spice of Android.
Dot net projects:
The developer community is moving towards solutions based on web applications. There will soon be a day when
you will be operating your OS online. Microsoft, being the market leader in Operating Systems sale, had set for yet
another revolution on the web through its .NET framework. Using .NET, you can develop stunning web applications
using C#, C++,VB and lots more are being added to the .NET kitty.
We suggest the best ieee 2013 dot net projects for engineering final year cse students. We do not stop guiding only
ieee 2013 dot net projects, we train students in .net technologies.We are not copy-paste code from the net. We are
innovators. Our projects speak for themselves. We, along with the students, shape each and every aspect of their
.NET project. We have many experienced developers in C#,VB,C++. Their expertise when combined with the power
of .NET framework, that satisfy the students expectations.
Robotics projects:
As we are very well know that many people show special interest on robotics projects. Especially, engineering
students have good interest in building robotics projects. Robotics based projects with all mechanical items in SKD
condition including all nylon gear box & wheels with complete assembling instructions supplied with embedded
electronics driving, DC / STEPPER /SERVO motors along with sensors working on intelligent program covering pick
and place, bomb displacement, auto train, line following, maze solving, obstacle avoiding, firefighting etc operated by
IR, RF and touch screen based remote control.
INTELLIGENT PICK & PLACE ROBOT: It is designed to develop a pick and place RF controlled robotic vehicle with
a soft catching gripper to safely handle a bomb very carefully to avoid explosion while catching.
AUTO METRO SHUTTLE TRAIN: An autonomous vehicle designed to work as a train with sensors for shuttling
between two stations automatically having provisions for limiting the number of passengers entering the train by auto
door management system including auto start and stop feature from origin to the destination and back.
METAL DETECTOR ROBOTIC VEHICLE: It is a robotic vehicle that can sense land mines ahead of it which is
controlled by RF remote. It consists of a metal detector circuit interfaced to the control unit that alarms the user
behind it about a suspected land mine ahead.
CELL PHONE CONTROLLED ROBOTIC VEHICLE: It is a robotic vehicle that is controlled by any phone through
DTMF commands to a cell phone mounted controller on the robot for the vehicle movement through motor driver IC
interface.
LINE FOLLOWING ROBOTIC VEHICLE: It is a robotic vehicle that follows a specific path by using a pair of photo
sensors comprising IR transmitter and photo diode to detect the specified path for its movement.
SPYING ROBOT WITH NIGHT VISION WIRELESS CAMERA: It is a robotic vehicle using RF technology for remote
operation attached with wireless camera for monitoring purpose in war field that wirelessly transmits real time video
with night vision capabilities.

4. Matlab projects:
MATLAB is a programming language for technical computing environment. MATLAB is used for a range of
applications, including signal processing and communications, image and video processing, control systems, test and
measurement, computational finance, and computational biology. More than a million engineers and scientists in
industry and academia use MATLAB, the language of technical computing. If you want to do a project comprising of
mathematical computing, involve algorithms and signal processing, you can do your academics project in MATLAB,
its an simulation based project and no need for higher hardware architectures. If you are a student of bio-medical,
electrical engineering, electronics engineering, instrumentation engineering or doing M.Tech programs you can select
your academic project in MATLAB.
Java projects:
Java is a programming language and computing platform. There are lots of applications and websites that will not
work unless you have Java installed, and more are created every day. Java is most popular than any other
programming languages because it is fast, secure, and reliable. From laptops to datacenters, game consoles to
scientific supercomputers, cell phones to the Internet, Java is everywhere. Doing your academic projects in JAVA
platform will create more opportunity in software industry because many development and technologies involve Java.
Java also capability for mobile devices is generally integrated by the device manufacturers. So that you can easily
build a project in java for mobile devices and can compute it easily. Your opportunity in software industry as well as in
mobile industry will get increased if you are a java developer. Start developing java and do your projects in java for
bright career. We have a list of title for java projects, covering many domains and industrial applications.
Contact details:
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Chennai-600024
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Email:shpinetechnologies@gmail.com
Website:www.shpine.com
Contact us: 24/1, Vellalar street, Kodambakkam, Chennai - 600024.
Phone: 044-43548566, 8110081181.
Email id: shpinetechnologies@gmail.com, Web site: www.shpine.com