Friday 22 July 2016

Facebook's internet-broadcasting drone takes to the skies for the first time

21:54 Posted by Anonymous No comments

Connecting the entire world to the internet by way of solar-powered drones with fricking laser beams attached to their heads sounds more like an Austin Powers plotline than an actual business strategy, but for the folks at Facebook's Connectivity Lab it isn't so far-fetched. In its quest to provide remote regions with affordable internet access, the team recently conducted its first successful full-scale testing of a critical piece of the puzzle, an internet-broadcasting drone called Aquila that will eventually stay airborne for 90 days at a time.


Facebook first revealed a full-scale version of Aquila in July last year. The solar-powered drone has a wingspan of 42 m (138 ft), which is greater than that of a Boeing 737, yet it weighs around a third as much as an electric car, with around half of this accounted for by batteries. Built with a carbon fiber frame and wings coated in solar panels, Aquila is designed to draw all of its power from the sun and stay aloft for months at altitudes ranging from 60,000 to 90,000 ft.

The social media giant has been flying scale models of Aquila as far back as March last year, but hasn't been so forthcoming with details of these tests, other than to describe them as successful. Today the company has given a decent rundown of the initial testing of a full-scale Aquila, which launched into its first flight on June 28.

Because Aquila is designed to be as light as possible, it doesn't carry typical takeoff and landing gear. The flight gave the team the opportunity to test out an unconventional takeoff method, which sees Aquila strapped into a dolly structure that propels it along the runway until it hits takeoff speed. Once it has built up enough momentum, Aqula's autopilot takes over, cutting the straps with pyrotechnic cable cutters and releasing the craft into the air. This played out as the team hoped.

With Aquila in the air, the team were able to observe how their flight modeling stacked up against the real thing. They had built computer models designed to predict the amount of power the drone would need to fly in response to changing aerodynamics, at low altitudes, for example, where the air is warmer and thicker, compared to higher altitudes where it is colder and thinner. Facebook says Aquila's climb rate and battery usage were in line with its modeling.

At its nighttime cruising altitude of 60,000 ft, the drone will require 5,000 W of power, collected by its solar cells during the daytime. But the team is relying purely on batteries for its first tests as it learns about the drone's performance. Its debut saw Aquila float along at only 25 mph (40 km/h). This is a much slower speed than is typically possible with aircraft of the same size, but is made possible by the craft's unique weight-to-surface area ratio. The drone used less than 2,000 W during this first flight, which the team says is indicative of the propellor efficiency, motor efficiency and drag also lining up with the its predictions.

Aquila flew for a total of 96 minutes controlled by its autopilot software, which the team says also performed well. This flight time was more than three times longer than the planned mission length, which allowed the team to gather extra data on the drone's performance to pore over over the coming months. The next stages of testing will involve the Connectivity Lab team adding more Aquilas to the fleet that will be flown to higher altitudes to answer a few key questions Facebook sees as integral to the project's success.

How to gather enough energy from the sun during the day to power not just propulsion, but the drone's payloads, electronics and communications gear over dark stretches as long as 14 hours through the night is one. How to develop high density batteries to store this energy, all while keeping costs low and making Aquila an economically practical way of usurping current network infrastructure, such as expensive cables and cell towers, are a couple of others.

And then of course there is the ambitious idea of using flying lasers to wirelessly transmit information, a technique that promises very high bandwidth and data capacity but comes with more than a few challenges. Facebook imagines that fleets of Aquila's equipped with lasers will receive a ground-based internet signal and daisy-chain it amongst themselves to spread it far and wide, in turn beaming their own broadband coverage down to the ground across an area with a 60-mile (96.5 km) diameter.

This week the company made a promising advance in its pursuit of such a laser-based communication system by revealing a design for a lightbulb-shaped light collector made from fluorescent plastic fibers that could be used to receive the signals being carried by the lasers. This system achieved impressive speeds of up to 2 Gbps, but the team says that speeds of up to 10 Gbps may be possible with further development. So while the company is still a long way from its dream of drone-based internet, it is making some tangible progress towards this goal.


Source: FacebookGizmag

Geek Speak: Rohith

08:04 Posted by Anonymous No comments
When someone asks me what my favourite about Kidobotikz is, I usually nod and not answer it. That’s because there are some many things here to love. Call it a fountainhead of knowledge if you will, for things that are happening here are not easy to describe in mundane words. However, if there is one very amazing thing that I consider as a treat at Kidobotikz, it is the weekend interactions I get to have with the young and inspiring minds who come here on the weekends with a very common interest on mind- robotics. Every week I get to meet some of the brightest and well versed young minds in whose hands this country will definitely be a tech driven place to live. 

Most of these students don’t just wanna learn, they have a rather innate desire to contribute their knowledge and expertise and gain pleasure from the same. Today was no different either. I met a young chap conversing with whom just helped wipe away the rigours of my working day.

Rohith. C, as his Kidobotikz notebook reads, is a young guy with the dreams too mature than his age warrants. This Expert level Kidobotikz-ian, who is a 9th Grader at Devi Academy Senior Secondary School, has been obsessed with robotics even before the crossed the age of 10. From fiddling with small DC motors in his class 4 to working on interesting robots, he has come a long way. I ask him how he got to know Kidobotikz and he rather proudly admits that he was interested in learning robotics for a very long time and could not enroll in any related courses due to his age gap. And then one day he found the contact information for Kidobotikz on JustDial.com and immediately wasted no time in getting himself enrolled in Kidobotikz’s courses.

This robotics enthusiast, who has a rather composed and humble demeanour, has achieved quite a few laurels for his age. He has participated in quite a few robotics events. Currently, he’s working on a “Self Balancing Robot” for which he is taking guidance from a faculty at Kidobotikz. Ever since he caught the clip of Kamal Haasan riding a Segway on Dasavatharam, he says he’s been obsessed with the concept of a segway and wants to experiment more on this kind of a robot. He believes that applications where robotic servants that ride self balanced wheels to move around the rooms of a residence will change the way humans experience comfort in their living rooms. That’s quite a bit of futurism for a 9th Grader.

Happy Roboting ! !

DeepMind's AI helps slash cooling costs at Google's data centers

04:20 Posted by Anonymous No comments

Deep learning AI has been put to work in intelligent drones, sequencing genomes, learning the tactics of the ancient Chinese board game Go, and even keeping cats off the lawn. Now, Google has set its DeepMind system loose on its massive data centers, and drastically cut the cost of cooling these facilities in the process.

Running Gmail, YouTube, and the all-knowing Google Search guzzles a tremendous amount of power, and while Google has invested heavily in making its servers, cooling systems and energy sources as efficient and green as possible, there's always room for improvement. Especially when the industrial-scale cooling systems are difficult to run efficiently, given the complex interactions that occur between equipment, environment and staff in a data center.

To account for all those factors that a human operator or traditional formula-based engineering might miss, the team put DeepMind to work on the problem, and the result was a drastic reduction in power consumption for the center's cooling systems.

The efficiency was measured by the ratio of the IT department's energy usage compared to that of the entire building – a metric known as Power Usage Effectiveness (PUE). DeepMind networks were fed existing data, including temperature, power and pump speeds, and then trained to focus on the average future PUE, while other systems analyzed data to predict how factors like the temperature and pressure would change over the next hour, and adjust the cooling systems accordingly.

With the PUE plotted out, DeepMind's effectiveness is pretty clear: when the machine learning controls were turned on, the site saw a consistent 40 percent reduction in power used for cooling, a 15 percent reduction in total PUE (after inefficiencies in other departments were accounted for), and a new record for the lowest PUE the center had ever achieved.

Google plans to expand the system more broadly across its own facilities, as well as share the nitty-gritty of how it achieved the energy savings to help other data centers and industrial system operators reduce their energy consumption and environmental footprint.

Source: Gizmag, DeepMind 


Thursday 21 July 2016

Unboxing the kit: Foundation level

07:21 Posted by Anonymous No comments
If you have already read through the two of our previous posts where we just piqued your interest and yet did not reveal anything substantial, we are just sorry. We have been only trying to build up the surprise until we reveal the endless possibilities the kit is capable of offering.

“The longer the wait, the tastier is the fruit”. That is why still haven’t enlightened you on what the kit is and what it’s capabilities are. But, we are sorry for the wait and we would like to say this is your lucky day, for here ends your wait. This piece is intended on covering the various contents of the kit and throw some light on what are the various doables with the kit.
Moving on, let’s dwelve right into the Kit. 


This is the Foundation level kit offered by Kidobotikz. It is a well designed and properly planned kit that is aimed at introducing kids to the world of electronics and help them to test waters in various concepts that would enable them to learn with ease the concepts that are useful for their own academics as well as those requisite to build robots of various kinds. The kit consists of various electronic components and modules that will help kids learn and master the foundation concepts in the area of electronics. 

Unboxing the kit reveals its mysterious contents. The Kit consists of components such as a power supply board that powers all the experiments, led board, light sensor board, a bo wheel and motor among others. The number of projects possible with just one of these kits runs in the dozens. The kit also includes a book which is specifically designed for the foundation course. Kids who buy this kit can avail the online course which helps them learn all the basic concepts and tracks their every activity to provide them with an evaluation of their performance in the course and its various examinations. Buying this kit helps parents keep track of their ward through an exclusive online platform and it also brings the kids under the umbrella of Kidobotikz 12 X 365 tech support for the kit. The kids are also monitored and helped throughout the duration of the entire course with the support of dedicated online trainers who clarify doubts via video chat among other options. Now is the right time for parents to invest their kids’ time in such an engaging and educational activity and help their kids reap the benefits of practical-aided education for their entire lifetime.



Happy Roboting ! ! 

DARPA-developed next-generation bionic arm hits the market

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The next generation in prosthetic arms will soon be helping amputees get a grip in the real world. The LUKE arm, which was previously known as the Deka Arm, was developed under DARPA's Revolutionizing Prosthetics program by DEKA Research & Development Corp. It received marketing approval from the U.S. Food and Drug Administration (FDA) in 2014 and is now set to hit the market later this year.

As we've reported previously, the DEKA arm is the first prosthetic arm set approved for commercial markets that translates signals from a patient's muscles into complex motions. Rechristened the LUKE (Life Under Kinetic Evolution) arm by medical device maker Mobius Bionics, which will bring it to market with Universal Instruments Corporation as contract manufacturer, the prosthetic will be the first in a new product category for integrated prosthetic arms.

The LUKE arm's central control technology, whereby electromyogram (EMG) electrodes are used to pick up electrical signals from the patient's muscles, has been around for decades. The key innovation is just how much movement, control and strength the new system is able to translate from those signals to the arm which boasts up to 10 powered degrees of freedom.

According to Mobius Bionics, the LUKE arm will deliver a number of new capabilities to amputees, including a powered shoulder joint that can reach overhead or behind the back; an elbow strong enough to lift a bag of groceries from floor to tabletop; a wrist with enough range of motion and fine dexterity to hold a glass of water overhead or at waist level without spilling; and a complex hand with four motors that can hold heavy items and delicate ones like an egg without dropping or breaking either.

The system has a sensor that also returns "grip-force" information back to the patient, giving feedback about how firmly something is being grasped. Another new innovation is the use of foot-mounted inertial measurement sensors connected wirelessly to the arm that offer an alternative means of control.

The goal of an advanced upper limb prosthetic with near natural control is something DARPA began working on a decade ago. The LUKE arm is the result of years of research and development by DARPA, the U.S. Veterans Administration and private companies, including over 10,000 hours of testing involving nearly 100 amputees.
Mobius Bionics is now accepting names of people interested in owning one of the first LUKE arms.

The original DEKA arm is demonstrated in the video below.





Wednesday 20 July 2016

Delivering the future: Autonomous courier bots take to the streets

04:47 Posted by Anonymous 4 comments

From this month, pedestrians in the United Kingdom, Germany and Switzerland will begin sharing their sidewalks with robot couriers. The self-driving delivery droids are being rolled out as part of a pilot by Starship Technologies, working with a number of major industry partners.

Starship Technologies was set up in 2014 by Skype co-founders Ahti Heinla and Janus Friis, with the aim of revolutionizing local deliveries. The robots are designed for delivering packages, groceries and food to consumers in a 2-3-mi (3-5-km) radius and travel at a "brisk walking speed" of 4 mph (6 km/h) on average, but can travel at up to 10 mph (16 km/h).


They are built with off-the-shelf components, such as an Nvidia Tegra K1 processor, to keep the costs down. They also make use of a number of conventional cameras, a 360-degree camera, infrared and ultrasonic sensors to navigate autonomously, but are monitored by human operators in control centers who can take control at any time if required.

Starship has been testing the robots in 12 countries for nine months. Around 5,000 mi (8,000 km) are said to have been covered and over 400,000 people encountered without any accidents.


The pilot, however, will provide the first opportunity to test the robots for real deliveries and to introduce them to the general public. It will also allow Starship to better understand and design a robotic delivery service.

The partners for the pilot are food delivery companies Just Eat and Pronto.co.uk, German courier Hermes and German retailer Metro Group. Starship tells Gizmag that each partnership will work slightly differently, but that robot operation, maintenance and the provision of any human operation that is required will be handled in-house. It expects to hand over more responsibility to the partners as they learn more about the technology.

When a customer in one of the served pilot areas orders something from one of the partners online or via an app, they will be offered Starship delivery as an option. They will then be alerted via their mobile phone when their package is ready for delivery and they will be able to choose a time for the robot to make the delivery.

The robot will take between 15-30 minutes to arrive and, once it has arrived, the customer will be sent a unique PIN code with which to access the lid of the robot and take their goods. The robot will then return to its base.

Starship says the combination of PIN-only access and remote tracking makes the robot delivery system both safe and secure. There are also nine cameras in total that can capture the actions of any potential aggressors. In addition, they feature two-way audio so that operators in the control room can speak with people who might approach the robots. Location tracking is said to be to the nearest inch, so they could be easily found if stolen.

The robots are electric and have four motors that drive six wheels, with power coming from lithium batteries that last for about three hours. Starship Technologies says it could easily increase the battery capacity by a factor of 10, but that the robots are currently being transported a lot by plane and they can't fly on a plane with a battery any larger.

The program will see "dozens" of the robots deployed in London, Düsseldorf, Bern and one other German city to begin with. Several other European cities will then be added, as well as the first American cities. Starship says it will also continue testing its technology at its R&D facilities in Tallinn, Estonia.

Get a Kit, nerd up a bit ! !

04:24 Posted by Anonymous No comments



If you had read our previous post, you would’ve realized by now that the Kidobotikz kit is indeed a big deal. We at Kidobotikz cannot stop looking at it and wonder at the immense possibilities it offers to the world of education and the way kids learn their concepts. As we had covered in the previous posts, we had spent 3 months soft launching the product to the kids on our online platform and with the immense success received from the improvements received from the gamification of the entire classroom environment here at Kidobotikz on to an online platform, we have now decided to roll out the product to make it to hands of every student across the planet. This we believe is the next big thing in education.


So, what are we aiming for with this kit? After a long 3 months with the online tutored robotics training, our team decided to conduct a survey with the users of Kidobotikz kit and online platform- the students and their parents. The responses we received were so rich and full of praises. Parents here at Kidobotikz are a motivational factor for every change we imbibe into the way training is imparted.

The happiest of parents are our assets because the satisfaction received from making a parent realize that their ward is on the right path is something we cherish. So, when we wanted to conduct a survey, we were preparing for an outcome where parents were satisfied but yet would give us complaints. We were expecting a few complaints where parents felt their children were having a hard time understanding the concepts or where the parents felt the portions were not in accordance with their immediate scholastic needs.


But to the wildest of our surprises, all parents were unanimously positive in their feedback for the kits. While we at Kidobotikz were looking at the kits as empowering the students with technologies which could be useful for their future career as engineers, we had rather overlooked a major positive outcome of undergoing training with the kits. One that was more grassroots and had a much more immediate impact on their academics- their school education. Hundreds of parents have come back to us with the feedback that after undergoing training on the Kidobotikz kits, especially the Foundation level kits, the behaviour of their kids has now seen a marked shift. The perspective through which their kids now view the world has completely changed.

In the foundation course, kids engage themselves in learning the various concepts of basic science such as basic electrical concepts, engineering drawing concepts. All of this makes kids well verse in the subjects that they would otherwise learn in subjects in the classroom. The kids learn these concepts as a part of the courseware that enables them to build a robot. This means that the practical understanding of some of the boring subjects of high school are now learnt in a fun way which facilitates in their retention and leaves room for more concepts to understand and experiment. This is the sweetest benefit from learning through the robotic kits- improvement in academic performance. If you’ve already been with us up until this point on the blog, I’d suggest you to try one for yourself and see the wonders that your kid will be able to perform after learning his subjects the right way.