More update on controlling drones with BMI.
Using wireless interface, operators control multiple drones by thinking of various tasks.
A researcher at Arizona State University has discovered how to control multiple robotic drones using the human brain.
A controller wears a skull cap outfitted with 128 electrodes wired to a computer. The device records electrical brain activity. If the controller moves a hand or thinks of something, certain areas light up.
Children with a rare neurological disease were recently given the chance to walk for the first time thanks to a new robotic exoskeleton. These devices – which are essentially robotic suits that give artificial movement to a user’s limbs – are set to become an increasingly common way of helping people who’ve lost the use of their legs to walk. But while today’s exoskeletons are mostly clumsy, heavy devices, new technology could make them much easier and more natural to use by creating a robotic skin.
Exoskeletons have been in development since the 1960s. The first one was a bulky set of legs and claw-like gloves reminiscent of the superhero, Iron Man, designed to use hydraulic power to help industrial workers lift hundreds of kilogrammes of weight. It didn’t work, but since then other designs for both the upper and lower body have successfully been used to increase people’s strength, help teach them to use their limbs again, or even as a way to interact with computers using touch or “haptic” feedback.
These devices usually consist of a chain of links and powered joints that align with the user’s own bones and joints. The links are strapped securely to the user’s limbs and when the powered joints are activated they cause their joints to flex. Control of the exoskeleton can be performed by a computer – for example if it is performing a physiotherapy routine – or by monitoring the electrical activity in the user’s muscles and then amplifying the force they are creating.
By: HQAnon / (AnonHQ) The evolution of humanoid robots is well into the concerning stage at this point. DARPA’s latest incarnation of its Atlas robot is seen in the following video beginning to walk at a pace with a sense of balance equal to most humans. Strangely, toward the end of the video, it is being “abused” by its human handler, which begs the question if a true artificial intelligence is permitted to flourish in this robot, if it might strike back at some point. At the very least, this robot’s demonstration of dexterity in the warehouse is likely to threaten humans economically as humans continue to be outsourced to machine labor at record levels.
But it’s the latest humanoid robot from Hanson Robotics that might further heighten the level of concern. As you will see below, the “Sophia” robot is being designed to walk among us in the future and fully integrate as part of the consumer experience and on into the family, according to CEO Dr. David Hanson.
https://youtube.com/watch?v=eUlKwvhSu3M
A new artificially organic stingray created by a team of researchers is redefining what constitutes a living organism. The small stingray is controlled and powered by light-activated cells taken from a rat’s heart. All anatomical features relative to a real stingray are present on the artificial creature which utilizes a polymer skin to create structure. Cells embed inside the skin are capable of flapping the wings of the stingray, propelling it through the water as well as controlling direction with the artificial stingray tail.
The forefront of Russian military technology looks a lot like the Terminator movies, with future soldiers being replaced by humanoid machines. Replacing humans with robots in warfare isn’t a new idea, but this is the first time the principle has actually been employed to design warfighting robots. Russian military officials believe that the human warfighter’s days are numbered, and robotics will soon take over the field, according to Russia Today.
The above video was released detailing what the robot, named Ivan, is capable of. A modification of the current design was already presented to President Putin riding an ATV and autonomously navigating around obstacles. The USA is currently developing many robotic devices for warfare, but they are largely systems departing from the human form. Ending human casualties in warfare is ultimately the goal in developing robotic warfighters, but the question then shifts to what ware will be without human casualties.
The machine uses and studies 3D scans of the stockroom items to help it decide how to manipulate items. The arm got a near-flawless score in the stowing half of the event. Also, Delft was over three times faster at picking objects than last year’s champion (100 per hour versus 30).
The robots were scored on their ability to correctly select individual items from shelves. Picking items mixed in with other objects would score a contender more points. The items used represented a cross section of products commonly found in Amazon’s warehouses.
