They're testing their systems on epilepsy patients, who have these ECoG systems inserted anyway while they're waiting for surgery (the electrodes record the source of their seizures). The researchers are capturing these patients' movement commands from their brains, and using them to control robotic limbs. Someday such a system could be used by amputees to control their prosthetic limbs.
None of this is helpful for the nuclear power industry, which had hoped its newest generation of plants in Georgia and South Carolina would prove it could build without the delays and cost overruns so endemic years ago. When construction slows down, it costs more money to employ the thousands of workers needed to build a nuclear plant. Meanwhile, interest charges add up on the money borrowed to finance construction. A single day of delay in Georgia could cost $2 million, according to an analysis by utility regulators.
Marshall Brain's writings like Robotic Nation and Manna have inspired my own work. I made my own video version of the concept around 2010, as a parable called "The Richest Man in the World: A parable about structural unemployment and a basic income." (I also pulled together a lot of links to robot videos in 2009.) It's great to see more informative videos on this topic. CGP Grey's video is awesome in the way he puts it all together.
Stenotype machines are usually most visible when court reporters are using them. They've been around since the 1800s, when their output was holes in paper tape. Today's versions are essentially chorded keyboards that act as computer input devices. (Douglas Engelbart famously showed off a chorded keyboard during his 1968 Mother of All Demos.) Today you have The Open Steno Project, and Stenosaurus is a member. And while Joshua's project may not have an actual website quite yet, it has an active blog. And the 225 WPM claim? Totally possible. The world record for English language stenography is 360 WPM. And you thought the Dvorak Keyboard was fast. Hah! (Alternate Video Link)