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New giant drones are strong enough to perform jobs such as cleaning wind turbines, fighting fires and even carrying people to safety. Some of the dirtiest, most dangerous jobs are being taken over by artificial intelligence, robots, and drones. Machines are slowly becoming man’s best friend, helping us do tough, risky, or menial tasks. Future drones will do more than just peruse the skies, surveying and filming. New innovations in drone technology show their potential to take on much larger tasks that benefit society in new ways. New giant drones are now capable of cleaning wind turbines, fighting fires, and even carrying people to safety. An innovative startup, Aeron, has built a giant drone equipped with 28 motors and 16 batteries. The stout prototypes can lift up to 400 pounds, potentially rescuing people from burning buildings. In a series of videos, the founders demonstrate how the new drones can manoeuvre with hoses to clean and de-ice wind turbines. These large quadcopters can manoeuvre alongside tall buildings, clean the windows, or put out a potential fire.The ambitious startup, backed by Y Combinator, is already getting orders from around the world to help clean and de-ice wind turbines. The greatest challenge for these new drones is sustaining power. Relying on battery only, these drones can only carry a load for about twelve minutes. For now, the drones are better off tethered and connected to a power source from the ground. As the capability of drones expands, the implications for abuse become more real, too. A drone that can rescue people from fires can also identify, locate, and displace a person for various reasons. Large drones of this nature could be used to protect property, locating and removing threats from private areas. Who will make the rules that govern how drones can and cannot be used? A large drone that fights fires can also fight insurrection, threaten protestors, or spray down mobs. In the eyes of authority, this could be seen as a good use for drones, to curb violence; however, the power could readily be abused. Government forces could use drones in an authoritarian, intimidating manner, threatening peaceful assembly, free speech, and democracy. Drones equipped with tear gas could help riot police disperse their opposition. Large drones could easily be used as a means of force to control others. (Related: Drone makers looking to expand into civilian law enforcement market as a replacement for police helicopters.) A giant drone that can operate hoses to clean wind turbines also has the capability to operate hoses to fumigate from overhead. If a city council declared that a vector-borne disease was threatening their community, they could deploy these large drones overhead to fumigate mosquitoes and ticks in certain areas. The residents of the city will have no control over the operation or the number of nervous system toxins that are being sprayed into the air. That same drone could be used to spray disinfectants over an area that has been declared an outbreak zone. Health officials, paying no mind to the consequences of spraying people with biological agents and other chemicals, could experiment with airborne flu vaccines to combat a declared flu outbreak. As drone capabilities expand, it won’t be long before authorities begin using the technology to their advantage. It will be much easier for authorities to carry out force if they can hide behind the technology. Content gathered by BTM robotics training center, robotics in Bangalore, stem education in Bangalore, stem education in Bannerghatta road, stem education in JP nagar, robotics training centers in Bannerghatta road, robotics training centers in JP nagar, robotics training for kids, robotics training for beginners, best robotics in Bangalore.
Using your body to control a drone is more effective than a joystick. If you've ever been chastised for throwing your entire body around during gaming (because physically leaning into track corners definitely helps somehow), here's a bit of science-backed vindication. Researchers in Switzerland have discovered that using your torso to control a drone is far more effective than using a joystick. The team from EPFL monitored the body movements and muscular activity of 17 people, each with 19 markers placed all over their upper bodies. The participants then followed the actions of a virtual drone through simulated landscapes, via virtual reality goggles. By observing motion patterns, the scientists found that only four markers located on the torso were needed to pilot a drone through an obstacle course and that the method outperformed joystick control in both precision and reliability. The study's lead author, Jenifer Miehlbradt of EPFL's Translational Neuroengineering Laboratory, said: "Using your torso really gives you the feeling that you are actually flying. Joysticks, on the other hand, are of simple design but mastering their use to precisely control distant objects can be challenging." The proof-of-concept system still depends on body markers and external motion detectors to work, so the team's next challenge will be making the tech wearable and completely independent. However, the range of applications for it is enormous. Being able to virtually fly while your head, limbs, hand and feet are free to perform other tasks could be a major development for gaming, drone control or even the planes of the future. Content gathered by BTM robotics training centre, robotics in Bangalore, stem education in Bangalore, stem education in Bannerghatta road, stem education in JP Nagar, robotics training centres in Bannerghatta road, robotics training centres in JP Nagar, robotics training for kids, robotics training for beginners, best robotics in Bangalore,
Food delivery drones take flight in China. You don't have to wait for food delivery drones... if you live in the right part of China. Alibaba's online meal giant Ele.me has been cleared to use drones for delivering orders in Shanghai's Jinshan Industrial Park. The initiative won't deliver directly to your abode, but it will save you a lot of travel time: there are 17 routes, each of with two fixed drop-off points. Your food should arrive within 20 minutes, which isn't always possible with conventional cars slogging through traffic. Despite the automation, Ele.me believes this could be better for drivers. Humans would only need to cover about 15 percent of its routes and should lower operating costs in the process. Existing couriers could make up to five times more income, it claimed. This approach wouldn't likely work in primarily residential areas, so you could easily argue that Ele.me is taking a shortcut to put drones into service. At the same time, this underscores a few of the advantages Chinese companies have when introducing commercial delivery drones. The US is only just considering looser rules that would enable practical drone couriers, while a Made in China 2025 campaign is providing grants, investments and loans to help technological innovation in fields like this. The edge might not last for long, but it's hard not to look on with some envy as Shanghai residents receive their grub from above. Content gathered by BTM robotics training centre, robotics in Bangalore, stem education in Bangalore, stem education in Bannerghatta road, stem education in JP Nagar, robotics training centres in Bannerghatta road, robotics training centres in JP Nagar, robotics training for kids, robotics training for beginners, best robotics in Bangalore.
Experimental drone uses AI to spot violence in crowds. Whether or not it works well in practice is another story. Drone-based surveillance still makes many people uncomfortable, but that isn't stopping research into more effective airborne watchdogs. Scientists have developed an experimental drone system that uses AI to detect violent actions in crowds. The team trained their machine learning algorithm to recognize a handful of typical violent motions (punching, kicking, shooting and stabbing) and flag them when they appear in a drone's camera view. The technology could theoretically detect a brawl that on-the-ground officers might miss, or pinpoint the source of a gunshot. As The Verge warned, the technology definitely isn't ready for real-world use. The researchers used volunteers in relatively ideal conditions (open ground, generous spacing and dramatic movements). The AI is 94 percent effective at its best, but that drops down to an unacceptable 79 percent when there are ten people in the scene. As-is, this system might struggle to find an assailant on a jam-packed street -- what if it mistakes an innocent gesture for an attack? The creators expect to fly their drone system over two festivals in India as a test, but it's not something you'd want to rely on just yet. There's a larger problem surrounding the ethical implications. There are questions about abuses of power and reliability for facial recognition systems. Governments may be tempted to use this as an excuse to record aerial footage of people in public spaces, and could track the gestures of political dissidents (say, people holding protest signs or flashing peace symbols). It could easily combine with other surveillance methods to create a complete picture of a person's movements. This might only find acceptance in limited scenarios where organizations both make it clear that people are on camera and with reassurances that a handshake won't lead to police at their door. Content gathered by BTM robotics training center, robotics in Bangalore, stem education in Bangalore, stem education in Bannerghatta road, stem education in JP nagar, robotics training centers in Bannerghatta road, robotics training centers in JP nagar, robotics training for kids, robotics training for beginners, best robotics in Bangalore.
Nvidia 's AI makes a breakthrough in ray tracing(computer graphics): Nvidia' AI that started out in 2017 as something that was not expected to do as much as it has already done like enriching graphics, transforming huge amounts of medical data into life saving breakthroughs, identifying diseases with a simple drop of blood, finding new ways to bring cures to the market faster, helping crops to flourish with optimal materials, customer assistance, self driving vehicles, analysis of various things in search for solutions etc. This AI became popular due to the Isaac robot simulator program. This got rid of programming and let the AI or robot think and learn on its own. Of course initially it was inefficient but after they found out that the robot could successfully learn something like hockey they wanted to make it efficient. This is where their idea of a virtual world comes in. They crated a program that takes the brain of a robot and puts it in a virtual world where it is allowed to try as much as it likes to achieve a certain task. This virtual world follows the laws of our world except for time. In this world a robot can practice its goal in very less time therefore becoming efficient. This AI has now made a breakthrough in computer graphics. ray tracing which is a method used for non real time instances due to its low computing speed has now been turned into a more faster computing one to handle real time gaming systems. Ray tracing is normally used to enhance effects bye understanding how our eye works, but was unable to handle on going instances like gaming and that was why it was limited to only movies.But now thanks to the AI and the quadro GV100 it is now possible to use get high quality graphics by using ray tracing for games as well. This also cuts the cost to 1/5 the original and takes 1/7 the original time taken. Issued by BTM layout robotic center
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