mechanical projects

Live Projects for Mechanical Engineering

Mechanical engineering is the application of the principles and problem solving techniques of physics and engineering from design to manufacturing to marketplace of any product. Mechanical engineers apply the principles of force, motion and energy to ensure the design is safe, reliable, functional and cost effective.


Every product or service in modern life has probably passed through the hands of a mechanical engineer to help mankind. This includes solving problems or creating future solutions ranging from macro to micro in healthcare, energy, transportation, space exploration, etc. Anything that needs to be manufactured, indeed anything with moving parts needs the expertise of a mechanical engineer.


Mechanical engineers have an enormous range of opportunity and their education mirrors the breadth of subjects. Students focus on one area while honing analytical and problem solving skills to handle any engineering problem that may surface during work or study. Disciplines within mechanical engineering include:

  • Aerospace
  • Automation
  • Automotive
  • Biotechnology
  • Computer aided design
  • Control systems
  • Energy
  • Ergonomics
  • Manufacturing
  • Mechanics
  • Nanotechnology
  • Robotics
  • Structural analysis


Mechanical engineering Projects

Such is the vastness of this field that students can take up any number of mechanical projects big or small not just in the final year but for every semester. The following are a few good reasons why you should pick and choose a mechanical engineering project.

  • Since it is the part of the curriculum, you can increase your score to 90 or 95 percent by working on a good project
  • An industry oriented project can add weight to your resume and help you secure appointment in the core mechanical field. While a technically good project can secure admission into finest universities that specialize in mechanical engineering in US, UK and Germany.
  • Allows one to get into the industry of one’s choice such as aerospace, automobile, oil and gas, turbo machines, machine tools, appliances, etc.
  • Good projects, especially in CAE and CFD open up job opportunities in India and abroad (US, Europe, Japan)


How to select a mechanical engineering project

Selecting a mechanical engineering project is daunting to say the least. Following are few pointers to help you in picking and finishing a project that you can be proud of:

  • Zero in on the project that interests you be it production, automobile, design or CAD/CAM/CIM based.
  • Write a project abstract
  • Seek out for journals that relate to the project
  • Design the model, finalize the dimensions
  • Fabricate the model
  • Prepare report

While most popular mechanical engineering projects are from automation, design, power and energy, robotics and automobile, a great project need not be complex. It should be the one you are knowledgeable about and the one you really care.

Wine Yard Technologies offers interesting live mechanical projects in Hyderabad, for engineering students to work on. It is an ISO certified organization with rich experience in embedded real time systems, RFID solutions, wireless factory automations and product design, training and custom designed projects.

major project for ece

Promoting the spirit of Innovation in Engineering Students

Promoting the spirit of Innovation in Engineering Students

Creativity is thinking new things. Innovation is doing new things.

Engineering education these days is an endless cascade of subjects one following the other. For students to get a decent understanding of all these subjects, it takes a lot of effort. Ideally, for students to achieve mastery, it is better for them to keep the textbooks aside and learn by doing. Taking the path of experimentation and innovation is the need of the hour for students to excel and carve a name for them.

These days, engineering graduates are not looking for comfortable jobs in MNC companies. This is the age of startups, entrepreneurship, and innovation. When many developed countries have started numerous incubation centers for innovation and new product development, our colleges are busy churning out pure academicians.

This is changing though. More and more engineering colleges are sending their students for contests of innovation. They are preparing the students for the demands of tomorrow. Many Indian engineering students are taking part in international innovation contests and are winning top positions.

Innovation is not only essentially an irreplaceable aspect of engineering, it is also very important for the country to develop economically and achieve technological self sufficiency. We as a country import technology to a large extent and spend a lot on that.

As a contradiction, many Indian students who have moved away from the country for further studies and jobs have become top innovators and entrepreneurs there. This is a wakeup call for us to understand the systemic inadequacies that prompt such a drain.

Now, engineering colleges have recognized this fact and are actively promoting innovation. However, it is to be said that there is little guidance and visionary thought leadership for these students who want to pursue the path of innovation. There is need for experienced and avant garde professionals to help out these students and stand as beacons to lead the students in the path of technology.

Wine Yard Technologies has been doing exactly that. Over the years, not only have we been helping out students with their engineering projects, but we have successfully infused a spirit of enquiry, experimentation and innovation. With a whole range of projects in various streams of engineering, we provide guidance, assistance, and the technological knowhow to understand the key elements of doing a project.

With the focused thought we provide to our participants, they would be equipped to take up their own projects for innovation. Many students have excelled in their projects and have achieved great understanding in their specializations leading to better jobs and entrepreneurial opportunities.

We invite all engineering students to explore possibilities of their path of innovation with the guidance and assistance we provide. For further details, please visit our site at


M.Tech IEEE projects

Industry relevant MTech Projects

The engineering grads need domain proficiency and industry readiness to force open corporate doors to get hired. That is a tall order considering the present academics and projects offered to the engineering students. An average engineering grad has gaping holes in his/her domain expertise and is even ill equipped to handle mediocre projects. Whereas real time industry projects require cross domain problem solving getting the job done.

Working on such projects prepares the engineering grad to tackle head on any work related challenge he/she encounters on job. Additionally these build soft skills, good work ethic, team work that comes in handy at the work place.

Current trends in cloud computing, big data analytics, mission critical applications, in health, aerospace and automated systems has thrown the door wide open for knowledgeable, highly skilled technical talent. Technologies such as Internet of Things, predictive business analytics, self driving car engineering and virtual reality is revolutionary and require inter disciplinary approach to science and engineering.

An industry relevant MTech project includes:

  • Drilling in domain fundamentals
  • Industry facilitation
  • Project run in an industry setting
  • Feedback & identifying and filling knowledge gaps
  • Problem solving skills
  • Cross disciplinary in approach


Here is a hot list of MTech projects

  • Cloud computing
  • Android development
  • VLSI & DSP design
  • Embedded Systems
  • Web applications
  • Data Science technologies
  • Data storage technologies
  • Power & energy systems
  • Robotics & Artificial Intelligence
  • Aerospace
  • Mechatronics
  • Mobile communications
  • Nano technology
  • Material science
  • Security systems
  • Machine learning

The process of living through a project is transformational for the candidate. Transformational because what he/she is post project is a great leap from being an engineering student to becoming an engineer. One who is capable of designing and building systems that solve day to day problems and making life easy and happy for one and many.

Today there are many organizations and institutions that are offering MTech projects. But, sifting through the run of the mill stuff is difficult even for technically knowledgeable. That is why Wine Yard Technologies desires to create a learning community to help build national capabilities in science, technology, humanities and management where knowledge is acquired and applied with due consideration for ethical, ecological and economic issues. If, the evidence is in numbers then more than 100,000 students and over 400 professionals from industry and teaching have benefitted from the talent transformation programs ran by Wine Yard Technologies.





M.Tech projects on VLSI

How to Choose an M.Tech Project

You are nearing the end of your course studies and the question foremost in the mind is how to choose a topic for your M Tech project.

Here are some tips to zero in on the same:

  • Keep abreast with the latest technological trends and choose a topic accordingly.
  • Choose the technology and domain for your project on which you intend to work during your employment tenure in the future.
  • Keep it simple, steer clear from complicated stuff which you might find hard to assimilate.
  • Take guidance from people already employed in the similar industry.
  • Choose a practical problem faced by the user in general and devise a project to solve it. Don’t stick to the same run-of-the-mill topics like “student attendance system.”  Choose a topic reflecting the need of the hour.

You may need guidance now and then; there is no harm in turning to agencies that specialize in providing expert projects.  But, don’t attempt the often tempting copy/paste method from the net.  It will show you in poor light eventually.

Some of the M tech project topics that you can consider:


Very Large Scale Integrated Integration (VLSI) circuits accommodate about a million transistors in a single circuit, bringing in many advantages like:

  • Increased operating speed and reliability of circuits.
  • Low-cost devices.
  • Reduction in overall size of circuits.
  • Less power required than before and less heat dissipated.
  • More functionalities in a never-before size.


Embedded Systems

Embedded systems, in contrast to computer systems, are designed to do a specific task.   Embedded systems comprise part of a larger device providing general-purpose functionalities.  Some of the advantages of embedded systems are:

  • Small size and hence portable.
  • Reduced cost.
  • Low power required to operate.
  • Less hardware changes required.
  • No specific operating system requirements.


Digital Image Processing (DIP) uses computer algorithms to process digital images.  It offers many advantages of analog image processing. It is a variant of digital signal processing.  One of the common applications used for digital image processing is Adobe Photoshop.


Digital signal processing (DSP), part of a wider area of study called Signal and Systems, mathematically manipulates digitized real-world signals like audio, video, pressure, temperature or position by use of computers.  DSP displays and analyzes the information contained in the signal.  Some of the advantages of digital signal processing are error detection and correction.  Also data can be compressed or the signal can be converted from one form to another.


EEE Power Electronics

Power electronics deals with the area of study where power of the order of a few watts to thousands of watts can be controlled by solid-state electronics consuming only little power in the process. Conversion of electric power is also possible through power electronics.  Some of the advantages are:

  • High reliability and efficiency of the system.
  • No moving parts present, so less maintenance and consequently longer life.
  • Small size.
  • Improved stability and response characteristics.


NS2 and WMC

Research on Real network simulator began in 1989. NS2 (Network simulator 2) aids in real network simulation by supporting stimulation of TCP, multicast protocols, routing over  wired and wireless networks alike.  Network simulation involves modeling or simulating the behavior of a network by use of computer software.  These simulators help in deeper understanding of the behavior and operating standards of a computer network under different conditions.

Wireless Mobile Communication (WMC) involves the transmission of audio, video and data to mobile devices over wireless networks.

Some of the advantages of WMC are:

  • No extensive physical infrastructure required leading to cost-effective solutions.
  • No constraints of physical distance given wireless transmission, so enhanced flexibility provided.

Easier to install and maintain than wired communication networks.

m tech vlsi projects

Industry Ready M tech Projects

Those sunny days of landing a plum job right after graduating from an engineering course, even from a premium educational institution are long and truly over. Today, the demands of the job market are not on even keel with the supply. Hence, the immediate task for an engineering grad is twofold: gain domain expertise and be industry ready. This is tight rope walking at its worst as many who graduate have gaping holes in their domain knowledge and most M tech projects are just a regurgitation leaving the engineering student in a dilemma.

Drilling in the fundamentals of domain knowledge has never been as necessary as it is now. And, designing the academic research projects for M tech students by including the domain basics in the project curriculum is quintessential as they can readily use the reinforced knowledge to the project at hand rather than fumbling for the missing domain stuff.

Also, M tech projects that equip you to handle and excel in real time in an industry are the need of the hour. These build confidence with other soft skills into the student to face any scenarios he/she encounters at work. Valuable skills such as team work, commitment to the entrusted project task within the project will hone the engineering grad that is a rough coal into a precious sparkling diamond much coveted by the market place.

The mastery of domain expertise with the application of it to an industry pertinent project will then be a royal gateway for the engineering grad into the corporate world while he/she is yet at campus. With such an accomplishment tucked under the belt, the engineering grad already has got one step in the door and will be miles ahead of others who are only just hoping to get in.

The projects are broadly divided into software or hardware with embedded systems sitting on the thinly divided line. Bulk of what we see today is driven by embedded code onto the chip. This requires sound knowledge of two domains Computer Science and ECE disciplines. There is also an overlap in mechanical and electrical, control, energy and power system engineering. To be fully workplace functional, the engineering grad needs to be cross domain expert.

Moving from the hardware to software end, there are M tech projects in control power and energy systems, communication and networking, embedded systems, digital image processing or DSP for short, Image processing, VLSI design to software engineering, cloud computing, web technologies to information security.

Working on industry-relevant projects among a talented pool of individuals is the apex of what an engineering grad can look forward to. Looking for such providers need not be the proverbial needle in the hay stack as a diligent search online will yield a respected few.






ece final year projects

How to Plan and Execute Engineering Projects

After gliding more or less successfully through the maze of subject matter in the tenure of the engineering, it’s at last time to work on the project. This is the time when the knowledge acquired by the students during the monotonous classroom hours of teaching is put into practical application.

As part of their curriculum, engineering students need to work on a project in line with their course. It is commonly noted that designing a project on their own goes a long way in assimilating the concepts more profoundly than simply cramming up subject matter in the brain and clearing the papers.

Let us look at some of the guidelines to be followed for successful completion of a project starting from scratch -:

Why do we need to design a project in the first place?

Engineering projects or any project for that matter is devised for a particular need.  This may be to improvise on an already existing situation or model or as a solution to a problem.

How to zero in on your project topic?

This should be the least of your concerns.  There is no dearth of topics out there.  The key is to be well informed of the advances in science and technology in everyday life.  You must be already aware of the 3D hologram technology that has arrived with a bang of late.  You always have mentors in the form of teachers and online resources to bank on.

Get your ideas straight and clear

What purpose is this project going to serve? Who is going to be the end user?  Use simple sentences.  Note down any pertinent point that comes to your mind.  In what way would your project be feasible over an existing model, financially, technologically? Once you have answers to these questions and more, you are good to go.

Plan your project in the right fashion

Always remember a project well planned is half accomplished.  Every detail however minute it might be should be recorded in a sequential method.  Most of the processes these days follow an iterative cycle.  You go on adding the requirements, changing the design, retesting the product until the product reaches its desired shape.

Project design

What are the functional requirements and physical requirements of the project? In simple terms, what function or functions is it slated to perform and what are the physical specifications of the product to be developed?  To bring out that one project that clicks, project design should be effective enough for development of a product performing all the functions required within the constraints like time, cost, raw materials used etc.

Can you improve on an existing design?

Consider a project on the similar lines has been already done some years ago.  Consider how best this can be improved.  Science is taking rapid strides.  Using available technology, you can improvise on the already existing solutions or create new ones altogether.

Build a prototype

Your prototype is the first working model of your application.  There may be minor bugs or issues with it.  Be open to any criticism and suggestions.  Evaluate your prototype developed against the requirements and see how well it performs within the constraints. The prototype must be tested in an environment similar to the actual operating conditions.

Document the test results

Whether you like it or not, even the best product developed initially would have some issues, so test appropriately under all conditions and meticulously document the test results as you would for other steps.  Make sure to document the test results neatly for easy reference at a later stage.

Iterative process

Many a times, it happens that the product developed does not quite match up with the requirements.  In that case, review all the steps performed, make the necessary changes, and retest until the outcome is satisfactory.


Mini Projects for ECE

Making the Best of your Engineering Studies

Those four years in the engineering college are the most memorable times in your life. You make a lot of friends and discover many things together. It is one time that you would remember for the rest of your life, but are you forgetting the main purpose of doing this course?

After intermediate, it is a tough journey to get into a good engineering college. It is both a strain to you and your parents. Counseling, selecting the group and admissions take a huge toll on you. As you get into the college, you heave a sigh of relief that you are finally there. This might be wrong.

I am not trying to be yet another parent or uncle trying to lecture you on the importance of life and the importance of a good career. What I am about to say is even better!

For me, career is something that comes as a consequence, but not as an attempt. When you have chosen engineering, you have chosen a stream that is dynamic and that has altered humanity for the better. It is your passion for engineering that is about to give you a great career.

Engineering is a stream that allows you to study the mechanics of the world. You study about the intricate mechanisms that run the world of computers, electronics, machines, and in fact everything in this world. And, the best part of it is that you get a chance to create a difference to this world.

While enjoying with friends is necessary to have a balanced life, it is also very important that you enjoy this great adventure called engineering. Semester after semester, you learn new things and it is in the application of this knowledge that you develop your engineering acumen.

Let us start an adventure of innovation, discovery, and the art of doing engineering. I call it the art of doing engineering as engineering is only about doing. Whereas the physicists and theorists postulate concepts, it is you engineers that can test these concepts and come with great innovations.

Whether you come from an ECE, Mechanical, or Computer Science engineering, there are a lot of projects that you can do and increase your knowledge. Gone are the days where you get jobs as soon as you complete engineering. You need to really understand the depths of your subjects to have good careers.

The best way to go about is to do. Wine Yard Technologies offers numerous innovative projects for engineering students. These projects are highly practical and applicable in the field immediately.  From renewable energy to drones whatever your interest is, you can take up a project in that with us.

You have a chance to create a difference with your engineering acumen and we provide the opportunities for doing that! So, get your group of friends and visit Wine Yard.

Why do a Course on Raspberry Pi?

Though developed as a credit card sized single board computer, Raspberry Pi is a legend in its own. It was launched on February 29, 2012.  It is a micro PC that is born from innovative ideas to bring a new age of computing. Let us examine the need for such an invention when the whole world is moving toward quantum computing.

Raspberry Foundation, based in the UK, is a charitable organization that was trying newer methods of teaching basic computer science in developing countries. In this attempt, they have released their first commercial product in 2012. Later, several generations of Raspberry Pi were released.

All the Raspberry Pis have a Broadcom system on their chips and includes an ARM compatible CPU. It has a graphic processing unit and the models have a memory ranging from 256 MB to 1 GB RAM. Digital SD cards are used to store the operating system and the program memories. It has accessories like camera, HAT, and Gertboard.

In February 2016, the foundation has announced that it has sold over 8 million devices till now! This is quite an astounding number considering the fact that many customers have preferences for laptops, smartphones, and PCs.

A major part of the success of this amazing device is attributed to the fact that it is low powered and relatively easy to use. Its applications range from a basic web server to a spaceship! Engineers who want to experiment find this device fascinating and wonderful.

It was designed for the purpose of providing a low cost and high performance device that can be used in education sector to impart basic computer science. This proved to be very effective. Yet, this device caught the imagination of engineers who wanted to get creative with computing.

From connecting it to a living room TV to entire home automation, Raspberry Pi has numerous uses, and young engineering students can explore more!

Some interesting uses of Raspberry Pi:

  • Entire Home Automation.
  • Home Security.
  • Temperature Monitoring.
  • Security Cameras.
  • Space industry applications.
  • Robot Controller.
  • 3d scanning.

It’s finding a host of other industrial applications that are highly innovative and solve vital problems.

This is the age where smart inventions and innovations for solving problems are given more precedence. Young engineering students in India have a lot to gain by learning Raspberry Pi as they can explore and implement their creative ideas to the benefit of the industry.

Wine Yard Technologies imparts excellent coaching in Raspberry Pi and provides great project ideas for it. We invite final year engineering students and engineering graduates to come and take up our projects.



final year ieee projects

How to Tap into India’s Vast Engineering Talent

A vast pool of English speaking young population coupled with sound technical education as a passport to good life has turned India into an engineering power house.

The challenge now will be in equipping this young talent pool adequately to develop competency and shrink the experience curve in acquiring the domain expertise. The real engineering where you design, build and test things which you can touch, feel and experience.

India’s Engineering Potential

 India’s ability to generate a large pool of engineering talent has resulted in Indian companies with global aspirations to set up product and development centers in India.

With a number of engineering colleges offering quality education and churning out thousands of competent engineers, English being the medium of instruction for these to access and assimilate the latest happenings in engineering and technology, and the cultural affinity of Indians to master math, science and engineering create huge storehouse of highly literate engineering potential.

India is an extremely price sensitive market. This fact forces the localization of products to suit the local buying preferences. And this in turn creates the need to craft products for local needs.

Now bridging the gap between classroom learning and practical engineering experience has become the need of the hour. But, with the realization fast sinking in about the present lack of domain expertise, few if any, professional institutions are scrambling for solutions.

How Structured Internship Programs Help

 One of these is an internship program for those who are pursuing or have finished engineering.

Recently featured in news was the story of a ‘smart glove’ called MUDRA developed by four students at Amrita School of Engineering’s Amrita Robotics Research Lab (ARRL) at the Begaluru campus.

This lightweight ‘smart glove’ enables the speech-impaired to communicate with one another by converting hand gestures based on Indian sign language into spoken English.

There is more to this ‘smart glove’ than that meets the eye. According to its inventors this can be reprogrammed for a range of applications where motor-sensor technology plays an important role. Gaming stations, virtual reality, remote control of devices, robotics and medical industry.

But, the crowing achievement is its price compared to similar gesture-sensing products available today. The prototype was built in 16 weeks at a cost of INR 7500. So, here is a product filling in a burning need, locally designed, produced and tested for the local market. This is what any company desiring to tap into the Indian market should be ideally doing.

Want to come up with such path breaking innovation? Come to Wine Yard Technologies!

EEE Mini Projects

Will IOT robots takeover Mankind Soon?

A restaurant in Japan has successfully implemented robots to serve their customers right from first point of contact of reception to every need to guarantee a comfortable stay.  Humanoid robots which were the computational models built to resemble humans as closely as possible in terms of human body structure, behavior, were used in this instance.  These robots recognize human body language and voice and respond appropriately.   This is a comparatively low-level interaction which can be directed using a low-level computer.

To be frank, there must be very few amongst us who have not been in awe over robots by now.  They have been fascinating us in quite a number of ways.  The first thing about robots that catch our attention is that it imitates a human.  In many of top rated science fiction movies, robots have made their presence felt, not only delighting us with their on screen antics, but also opened quite a new door of possibilities of the applications of the robot.

The term “robot” itself may be difficult to define, as it depends on the sophistication of functions expected to be performed by it.  Most modern robots churned out by developed countries like Japan can be taught to simulate user actions in a limited way.  They can be taught to navigate their way around obstacles.  This information is stored by the robot and used when it encounters a similar situation.

Some of the predominant functionalities of a robot are sensing, movement, energy and intelligence. Robots can be also used to venture into areas of expertise that can be dangerous, or work involving heavy precision, responsibility.  Robots have also set their foot on the space!

The advent of IoT and Robotics are catapulting working of industries and services to the next level.   Mega car factories generously use highly-sophisticated array of sensors and robotics effortlessly sending and receiving data across the factory floor to fully automate vehicle assembly.

Internet of Robotic things can now store and analyze their data and convey it neatly to other connected devices.

The term conjoined with robots is Artificial Intelligence.  It has rapidly become the most talked about field in robotics.  The ultimate victory would be when Artificial intelligence can completely recreate the human thought process which is proving to be a highly improbable task right now.  The ability to recreate the simultaneous working of billions of neurons is still out the scope.

Some of the researchers imagine the day when humans will be integrated with machines. Research is going into feeding the contents of the brain into a supercomputer and adopting it into a robot. In this way humans intend to live thousands of years more having their own marked personality in a machine.  In any case, robots are geared to play a large part in our lives and may be completely integrated into our daily activities as seamlessly as computers have become presently.

Now, this is a great opportunity for young engineering students who want to break away from the often traversed path of becoming software engineers and become innovators. The industry would open up with huge job opportunities for those who have practical knowledge in these fields.

Wine Yard Technologies invites you to take up projects in this exciting field of engineering!