Robophonics Club

First institute in Gadarpur for IIT, NEET , PANTNAGAR & FOUNDATION PREPATION..

Cliffesto, NIT Uttarakhand is organising event NACROV (National Challenge of Robotics of Vision) on 19-20 feb 2016 at its Campus. It is unique of its kind having Prizes worth Rs 25000 for winners and Rs 15000 for runner ups. Winners will also get a chance of getting internship (with stipend 7-10 thousand per month) in Cynrotix Pvt. Ltd. There is free entry for participants of NACROV in Seminar on MIND CONTROLLED ROBOTICS (first ever in India) delivered by Cynrotix team.

For registration contact :
Kumar Saurabh (Head, technical competitions)
Cliffesto, NIT Uttarakhand
+91-8449645151

So Register as soon as possible to grab the chance of being a part of brand new technologies introduced in the field of Robotics and Embedded Systems.

This Company is started by passionate NITians with the sole motive to provide a platform for future Engineers and technocrats which will boost the required skills in them so that they will meet Industry requirements and also become capable in transforming their innovative ideas into reality. This company has Advisory Committee which includes professors of IITs and NITs and experienced Technocrats of particular fields.
It is dedicated to provide the world with new technologies, ideas and challenges in the field of Cyber Security, Forensics Robotics, Embedded Systems and Artificial Intelligence.

Contact us:
Email: [email protected]
Website: www.cynrotix.com
Phone: +91-9718762611, 9536504447

CynRotix

Atmega 16

Atmega 16 - Robophonics Club Features • High-performance, Low-power Atmel® AVR® 8-bit Microcontroller • Advanced RISC Architecture – 131 Powerful Instructions – Most Single-clock Cycle Ex*****on – 32 x 8 General Purpose Working Registers – Fully Static Operation – Up to 16 MIPS…

LS3: Brother of BigDog is on the Way

LS3: Brother of BigDog is on the Way - Robophonics Club Boston Dynamics is again on the work to develop LS3, advanced version of BigDog which will be more stealthy and bullet proof than BigDog. Recently, DARPA Robotics Challenge has committed to investing an extra $10 million towards a more robust and ……

Wireless Remote Control Systems Using DTMF Technology

Wireless Remote Control Systems Using DTMF Technology - Robophonics Club Overview Hi friends this project is for all those aspirants who want to control any electrical or electronic appliance remotely and without any wired connection between controlling device at user end and controlled appliance. This report demonstrates a…

Introduction To Robotics

Introduction To Robotics - Robophonics Club Let’s start with the three fundamental Rules of Robotics Hi friends, a warm welcome to you all. Let us know about basic rules that our robot must follow. A robot may not injure a human being, or, through inaction, allow … Continue reading →

CONTROL ANY ELECTRICAL/ELECTRONIC DEVICE /CIRCUIT WIRELESSLY WITH UNLIMITED RANGE

TOTALLY DEVELOPED BY OUR CLUB

Helping Robots Become More Touchy-Feely, Literally: Paper-Thin E-Skin Responds to Touch by Lighting Up

A research team led by Ali Javey, UC Berkeley associate professor of electrical engineering and computer sciences, has created the first user-interactive sensor network on flexible plastic. The new electronic skin, or e-skin, responds to touch by instantly lighting up. The more intense the pressure, the brighter the light it emits.
"We are not just making devices; we are building systems," said Javey, who also has an appointment as a faculty scientist at the Lawrence Berkeley National Laboratory. "With the interactive e-skin, we have demonstrated an elegant system on plastic that can be wrapped around different objects to enable a new form of human-machine interfacing."
Shown is a 16-by-16 pixel interactive e-skin created by UC Berkeley engineers. Organic LEDs light up when touched. (Photo by Ali Javey and Chuan Wang)
This latest e-skin, described in a paper published online July 21 in the journal Nature Materials, builds on Javey's earlier work using semiconductor nanowire transistors layered on top of thin rubber sheets.
In addition to giving robots a finer sense of touch, the engineers believe the new e-skin technology could also be used to create things like wallpapers that double as touchscreen displays and dashboard laminates that allow drivers to adjust electronic controls with the wave of a hand.
"I could also imagine an e-skin bandage applied to an arm as a health monitor that continuously checks blood pressure and pulse rates," said study co-lead author Chuan Wang, who conducted the work as a post-doctoral researcher in Javey's lab at UC Berkeley.
The experimental samples of the latest e-skin measure 16-by-16 pixels. Within each pixel sits a transistor, an organic LED and a pressure sensor.
"Integrating sensors into a network is not new, but converting the data obtained into something interactive is the breakthrough," said Wang, who is now an assistant professor of electrical and computer engineering at Michigan State University. "And unlike the stiff touchscreens on iPhones, computer monitors and ATMs, the e-skin is flexible and can be easily laminated on any surface."
To create the pliable e-skin, the engineers cured a thin layer of polymer on top of a silicon wafer. Once the plastic hardened, they could run the material through fabrication tools already in use in the semiconductor industry to layer on the electronic components. After the electronics were stacked, they simply peeled off the plastic from the silicon base, leaving a freestanding film with a sensor network embedded in it.
"The electronic components are all vertically integrated, which is a fairly sophisticated system to put onto a relatively cheap piece of plastic," said Javey. "What makes this technology potentially easy to commercialize is that the process meshes well with existing semiconductor machinery."
Javey's lab is now in the process of engineering the e-skin sensors to respond to temperature and light as well as pressure.
UC Berkeley co-authors on this study are David Hwang, Zhibin Yu and Kuniharu Takei, all of whom have joint appointments at the Berkeley Lab. Additional study co-authors are Junwoo Park, Teresa Chen and Biwu Ma from the Berkeley Lab.
The Defense Advanced Research Projects Agency and the Department of Energy helped support this research.

CURRENT STATUS FUTURE TARGET

WE ARE BACK WITH LOTS OF NEW IDEAS .
So all robo fans wake up nd start inovating nd creating something eye catching.
If any one have such kind of ideas plz share to all................