Our Mission

Make some space for other species, on this planet !!!

Introducing technology to keep our home green. To safe guard the ecosystem. Stop pushing other species to the phase of extinction. Lets make our planet mother Earth a home for all species with a balanced ecosystem. Introducing technology to discard all fossil fuels and to embrace green power source and technology .


Career & Internship

We are offering mass internship program through colleges for all streams/levels/semester. Good stipend upto INR.9400/month for the candidates. Only colleges within 100 Km radius of Hyderabad,India can contact us.

Gyro Stabilized Motorcycle There are people who are afraid of riding motorcycle because they can’t balance the bik...

Gyro Stabilized Motorcycle

There are people who are afraid of riding motorcycle because they can’t balance the bike on two thin tires or they are afraid because it has no crash cage. It is a proposed fully-enclosed, two passenger, electric motorbike that uses electronically controlled gyroscopic stabilizer to keep the bike upright even when stopped or when struck from the side in an accident.

Incorporated inside Gyro allows the driver to move forward, backward, and sideways. This car responds to electronic sensors to keep vehicle in your desired position. This capability has been designed to accommodate transitions between urban and suburban or rural lifestyles. In the more confined space of the city, due to traffic and limited parking space, the Gyro is best used in the vertical position.

Gyro has been designed as two wheeled apparently it's quite tricky to get a bike to balance, since steering and such requires a degree of off-balance maneuvering but the team. The idea here is that the small form-factor of a motorcycle is very efficient and easily maneuverable. But the cage protecting the passenger from harm, and the canopy keeping the elements out give it some of the desirable traits of a car. 

An electric gyro attached to the front fork of the vehicle is driven at a variable speed to generate a compensating angular momentum equal to the difference between the optimal angular momentum and the angular momentum of the road wheel. ‘This allows for a whole host of car-like features like a bucket seat, a steering wheel, a dashboard, climate control, a sound system, seatbelts and multiple airbags. And the same is when you are looking for a place to park and spot that narrow space where you can’t fit your car.

Moreover, unlike similar vehicles, Gyroscooter moves through motor integrated in the wheels and powered by a small lithium ion battery. Globally, this innovation will help reduce the amount of carbon dioxide and other gases released into the atmosphere. At the same time, on the individual level Gyroscooter seems more healthy way to travel with no exhaust. This means, it gives you the advantages of a bike while also giving you the comfort, convenience and safety of a car.

 

Car companies have been testing this technology since 2004. At that time a self-driving car could not travel more than seven miles befor...

Car companies have been testing this technology since 2004. At that time a self-driving car could not travel more than seven miles before stopping. This was a huge set back to the auto industry, as it is believed that self-driving cars will be the most helpful to those traveling long distances.

Self-driving cars are on the way. No ifs, buts or maybes, and the way we travel is going to be changed forever.   Self-driving cars will require laser-based sensing tech, and these systems will need new types of high-speed transistors and chips that can beat out silicon. This will only be overcome by autonomous or part-autonomous cars.

You never forget your first ride in a self-driving car.  In the future, All vehicles on the road would be driverless in such a scenario, with each car communicating to form an intelligent network.Tech giants such as Google and car manufacturers such as Audi, BMW and Volvo are successfully proving that technology, code and computers can be infinitely more perceptive and react quicker than any human behind the wheel.

Several traditional manufacturers are considering how cars might look and work in the future based on the rapid development of driverless technologies. While silicon has dominated computing to date, it turns out that the massive amount of information that needs to be detected and processed on the fly by self-driving cars is a perfect early application for GaN transistors.  Nominally, you can do autonomous driving without high-definition maps.

The car is being developed to work in all-weather conditions and most importantly focuses on the safety of passengers. On the road where self-driving cars have to take on unprecedented conditions like a crazy truck driver wagering into the wrong lane. self-driving car is equipped with all the latest technology equipment like digital display screens with gesture controls, eye-tracking system for the passengers and stat-of-the-art dashboard. The exteriors of the car are as futuristic as it can get with ambient blue LED lights and futuristic wheels.  But if you get into challenging situations like rainy or snowy conditions, or can't see the curbs or lane markings, it's almost like putting a blind person behind the wheel." Therein lies the rub. For self-driving cars to gain real market acceptance, they need to have "anytime, anywhere capability.

These cars could be safer and more reliable than humans simply by gathering and processing data in real time from a battery of sensors, like lidar, radar, and video. They would "see" the world, and react.

Future Oled Screen for Car OLED technologies for a long time. Japanese electronics maker Sharp to create OLED displays for next-gener...

Future Oled Screen for Car


OLED technologies for a long time. Japanese electronics maker Sharp to create OLED displays for next-generation with the ultimate outcome of the deal depending on Sharp's capacity to output a large amount of displays (via Bloomberg).  OLEDs are more flexible and can operate without a backlight (hence thinner) thereby paving the way for new cockpit applications. Yet the number of automakers using OLEDs is still rare and limited to the high-end of the market.

In 2012 installed AMOLED digital rear view "mirrors" in their R18 sports prototype cars. Audi is also interested in flexible OLED displays.  The favourite advancement on traditional designs this year was the emergence of the Organic LED or OLED screen. 

 As a result, OLED screens are much lighter and thinner than current displays, and when sandwiched between flexible materials, can even be made to curve.   The addition of a coloured filter to each OLED produced different coloured light, and lining up thousands of red, green and blue filtered OLEDs next to each other, just like the arrangement of pixels on a conventional screen, allows for the creation of crisp, bright and high resolution images.

Opportunity (WOO) is set to change the way people, especially children, react when asked to sit on the back seat. Developed by the researchers of Future Lab at Bezalel Academy of Art and Design in Israel for the General Motors
at least the company is "working on the integration of OLEDs" for the 2017 flagship model. 
Maybe the new A8 will also adopt a new OLED display for its interior.

With future trends pointing to the elimination of wing mirrors and the addition of screens, such black rectangles can dominate the look and feel a car's interior. 


What’s a Magic Mirror? Our magic mirror is basically a one-way mirror (like you might have seen in Hollywood depictions of interrogat...



What’s a Magic Mirror?

Our magic mirror is basically a one-way mirror (like you might have seen in Hollywood depictions of interrogation rooms), made “smart” by a simple LCD display which sits behind the mirror and displays white UI elements with a black background. When the display is on, you can see both your reflection and the white elements, allowing software to present relevant information while you get ready for the day.

It may be a while before you walk into a shop and pick up a smart mirror – but if you really can't wait, Microsoft has open-sourced its own build specifications so you can create one yourself. The company has posted instructions for its magic mirror project on GitHub, including a list of materials you'd need to turn a regular mirror into one with smarts.


What you need:

A computer screen (that you can take apart)
An observation mirror or glas and a mirrorfilm
A Raspberry Pi with casing + micro USB power cord
A SD-card (8GB)
A network adapter (for wifi, look at this link, not necessary for Raspberry Pi 3,)
Wood frame (boards, screw, glue, paint, drill)
HDMI-to-VGA-adapter (depending on if your screen has HDMI or not)
A mouse and a keyboard with USB

A second computer (for fixing OS and stuff)


Building the interface

We designed the mirror user interface (UI) to be as functional as possible, as both a mirror and an info hub. There are some practical implications to this.  The UI should be simple and easy to visually digest, so we kept adornment light and typography clear. The screen needs to be readable through the mirrored surface, so we used a high contrast ratio of pure white on pure black. Lastly and most importantly, the user needs to see their reflection, so we kept the central area of the mirror clear when the user is logged in.

The company is also looking at how to bring updates from third-party apps to magic mirror, meaning you'd eventually be able to view news feeds and social media updates.

"Lastly and most importantly, the user needs to see their reflection, so we kept the central area of the mirror clear when the user is logged in."

At the present time, the value of creating each and every volt is extremely significant, and technological innovation is dependent on und...

At the present time, the value of creating each and every volt is extremely significant, and technological innovation is dependent on undertaking fuel cells significantly less pricey.

Fuel cell vehicles use hydrogen gas to power an electric motor. Unlike conventional vehicles which run on gasoline or diesel, fuel cell cars and trucks combine hydrogen and oxygen to produce electricity, which runs a motor.

Hydro Cells are actually getting used as fuel merchandise intended for diesel-powered burning engines. Most of these fuel cells are generally economizing fuel, better vitality, decreasing air pollution amounts, automobile motor functioning cooler, together with reducing down schedule upkeep.

Refueling a fuel cell vehicle is comparable to refueling a conventional car or truck; pressurized hydrogen is sold at hydrogen refueling stations, taking less than 10 minutes to fill current models. Some leases may cover the cost of refueling entirely. Once filled, the driving ranges of a fuel cell vehicle vary, but are similar to the ranges of gasoline or diesel-only vehicles (200-300 miles). 

Many people are looking for ways to save on fuel costs and hydro cell is now being used to save on fuel, improve energy, reduce pollution, and cut down maintenance on vehicles.

Till date you only used to tailor made your clothes. Now tailor made your vehicle. A vehicle that can have features 5 times more than t...



Till date you only used to tailor made your clothes. Now tailor made your vehicle. A vehicle that can have features 5 times more than the normal traditional automobiles.
We design custom made electric vehicles.



These vehicles are integrated with softwares and internet. It brings you a whole new experience in driving.  All vehicles are highly customized and hand-crafted .