Can A Thousand Tiny Swarming Robots Outsmart Nature?

How does a group of animals -- or cells, for that matter -- work together when no one’s in charge? Tiny swarming robots--called Kilobots--work together to tackle tasks in the lab, but what can they teach us about the natural world?

About Kilobots

How do you simultaneously control a thousand robots in a swarm? The question may seem like science fiction, but it’s one that has challenged real robotics engineers for decades.

In 2010, the Kilobot entered the scene. Now, engineers are programming these tiny independent robots to cooperate on group tasks. This research could one day lead to robots that can assemble themselves into machines, or provide insights into how swarming behaviors emerge in nature.

In the future, this kind of research might lead to collaborative robots that could self-assemble into a composite structure. This larger robot could work in dangerous or contaminated areas, like cleaning up oil spills or conducting search-and-rescue activities.

What is Emergent Behavior?

The universe tends towards chaos, but sometimes patterns emerge, like a flock of birds in flight. Like termites building skyscrapers out of mud, or fish schooling to avoid predators.

It’s called emergent behavior. Complex behaviors that arise from interactions between simple things. And you don’t just see it in nature.

What’s so interesting about kilobots is that individually, they’re pretty dumb.

They’re designed to be simple. A single kilobot can do maybe... three things: Respond to light. Measure a distance, sense the presence of other kilobots. 

But these are swarm robots. They work together.

How do Kilobots work?

Kilobots were designed by Michael Rubenstein, a research scientist in the Self Organizing Systems Research Group at Harvard. Each robot consists of about $15 worth of parts: a microprocessor that is about as smart as a calculator, sensors for visible and infrared light, and two tiny cell-phone vibration units that allow it to move across a table. They are powered by a rechargeable lithium-ion battery, like those found in small electronics or watches.

The kilobots are programed all at once, as a group, using infrared light. Each kilobot gets the same set of instructions as the next. With just a few lines of programming, the kilobots, together, can act out complex natural processes.

The same kinds of simple instructions that kilobots use to self-assemble into shapes can make them mimic natural swarming behaviors, too. For example, kilobots can sync their flashing lights like a swarm of fireflies, differentiate similar to cells in an embryo and follow a scent trail like foraging ants.

Click link for video: http://youtu.be/TYuJ-aXZEjQ

- Robojentics (Robotics), Sweeya Virtu Hub, Rajahmundry.

Nao robots playing Soccer!!!

NAO robot from Aldebaran Robotics is a small humanoid robot with the ability to see, hear, speak, feel and communicate not only with people but also with other NAO robots. In this video, NAO shows off its soccer abilities at RoboCup 2010 in Singapore. Today over 1500 NAOs are utilized throughout the world as research and educational platforms in 35 countries.

Nao  is an autonomous, programmable humanoid robot developed by Aldebaran Robotics, a French robotics company headquartered in Paris. The robot's development began with the launch of Project Nao in 2004. On 15 August 2007, Nao replaced Sony's robot dog Aibo as the robot used in the RoboCup Standard Platform League (SPL), an international robot soccercompetition. The Nao was used in RoboCup 2008 and 2009, and the NaoV3R was chosen as the platform for the SPL at RoboCup 2010.

Several versions of the robot have been released since 2008. The Nao Academics Edition was developed for universities and laboratories for research and education purposes. It was released to institutions in 2008, and was made publicly available by 2011. More recent upgrades to the Nao platform include the 2011 Nao Next Gen and the 2014 Nao Evolution.

Nao robots have been used for research and education purposes in numerous academic institutions worldwide. As of 2015, over 5,000 Nao units are in use in 50+ countries.

 - Robojentics (Robotics), Sweeya Virtu Hub, Rajahmundry.

USA CHALLENGES JAPAN TO GIANT ROBOT DUEL!

Robotics has been a great interest of Man for many years. Actually, Man has always been fascinated by machines—which we understand to be “technology”—as the earliest Man developed higher cognitive function and began to understand the relevance and efficacy of tools.

In Japan, though, robots are probably loved more than in any other community. And in America we know this, which is probably why the United States has recently challenged Japan to a giant robot battle.

Of course, Japan recognizes the gauntlet has been thrown and is more than happy to take up the challenge.

And for this battle, it is going to be the US company known as MegaBots versus Japan’s Suidobashi Heavy Industry to a robot fight to the death, so to speak. The US firm issued the challenge through a YouTube video and the Japanese firm’s chief Kogoro Kurata also issued a video response via YouTube.

Of course, it would be very easy to argue that the call-and-response mechanism of this strategy could easily be seen as a viral marketing method meant to spur a call to action. The two videos have already, collectively, attracted more than 4.8 million views so maybe the strategy is working.

- Robojentics (Robotics), Sweeya Virtu Hub, Rajahmundry.

Wheeled Robotic 3D Printer

Small, light in weight, and movable with four wheels installed, this 3D printer robot holds no limitations in the size of the objects that can be printed.

- Robojentics (Robotics), Sweeya Virtu Hub, Rajahmundry.

LEGO Robot breaks the Rubik's Cube World Record

Solving the Rubik's Cube - Lego Robots

- Robojentics (Robotics), Sweeya Virtu Hub, Rajahmundry.

Wi-Fi-powered electronics make Nikola Tesla’s dream a reality

Ambient Backscatter transforms existing wireless signals into both a source of power and a communication medium. It enables two battery-free devices to communicate by backscattering existing wireless signals. Backscatter communication is orders of magnitude more power-efficient than traditional radio communication. Further, since it leverages the ambient RF signals that are already around us, it does not require a dedicated power infrastructure as in RFID.

- Robojentics (Robotics), Sweeya Virtu Hub, Rajahmundry.