Baxter was conceived by Rodney Brooks, the Australian roboticist and artificial-intelligence expert who left MIT to build a $22,000 humanoid robot that can easily be programmed to do simple jobs that have never been automated before.
Brooks’s company, Rethink Robotics, says the robot will spark a 'renaissance' in American manufacturing by helping small companies compete against low-wage offshore labor. Baxter will do that by accelerating a trend of factory efficiency that’s eliminated more jobs in the U.S. than overseas competition has. Of the approximately 5.8 million manufacturing jobs the U.S. lost between 2000 and 2010, according to McKinsey Global Institute, two-thirds were lost because of higher productivity and only 20 percent moved to places like China, Mexico, or Thailand.
The ultimate goal is for robots like Baxter to take over more complex tasks, such as fitting together parts on an electronics assembly line. 'A couple more ticks of Moore’s Law and you’ve got automation that works more cheaply than Chinese labor does,' Andrew McAfee, an MIT researcher, predicted last year at a conference in Tucson, Arizona, where Baxter was discussed.
IPsoft is a young company started by Chetan Dube, a former mathematics professor at New York University. He reckons that artificial intelligence can take over most of the routine information-technology and business-process tasks currently performed by workers in offshore locations. 'The last decade was about replacing labour with cheaper labour,' says Mr Dube. “The coming decade will be about replacing cheaper labour with autonomics.”
IPsoft’s Eliza, a 'virtual service-desk employee' that learns on the job and can reply to e-mail, answer phone calls and hold conversations, is being tested by several multinationals. At one American media giant she is answering 62,000 calls a month from the firm’s information-technology staff. She is able to solve two out of three of the problems without human help. At IPsoft’s media-industry customer Eliza has replaced India’s Tata Consulting Services.
Foxconn has been planning to buy 1 million robots to replace human workers and it looks like that change, albeit gradual, is about to start.
The company is allegedly paying $25,000 per robot – about three times a worker’s average salary – and they will replace humans in assembly tasks. The plans have been in place for a while – I spoke to Foxconn reps about this a year ago – and it makes perfect sense. Humans are messy, they want more money, and having a half-a-million of them in one factory is a recipe for unrest. But what happens after the halls are clear of careful young men and women and instead full of whirring robots?
First, machines will consolidate their gains in already-automated industries. After robots finish replacing assembly line workers, they will replace the workers in warehouses. Speedy bots able to lift 150 pounds all day long will retrieve boxes, sort them, and load them onto trucks. Fruit and vegetable picking will continue to be robotized until no humans pick outside of specialty farms. Pharmacies will feature a single pill-dispensing robot in the back while the pharmacists focus on patient consulting. Next, the more dexterous chores of cleaning in offices and schools will be taken over by late-night robots, starting with easy-to-do floors and windows and eventually getting to toilets. The highway legs of long-haul trucking routes will be driven by robots embedded in truck cabs.
All the while, robots will continue their migration into white-collar work. We already have artificial intelligence in many of our machines; we just don’t call it that. Witness one piece of software by Narrative Science (profiled in issue 20.05) that can write newspaper stories about sports games directly from the games’ stats or generate a synopsis of a company’s stock performance each day from bits of text around the web. Any job dealing with reams of paperwork will be taken over by bots, including much of medicine. Even those areas of medicine not defined by paperwork, such as surgery, are becoming increasingly robotic. The rote tasks of any information-intensive job can be automated. It doesn’t matter if you are a doctor, lawyer, architect, reporter, or even programmer: The robot takeover will be epic.
Google and Toyota are rolling out cars that can drive themselves. The Pentagon deploys robots to find roadside explosives in Afghanistan and wages war from the air with drone aircraft. North Carolina State University this month introduced a high-tech library where robots — 'bookBots' — retrieve books when students request them, instead of humans. The library's 1.5 million books are no longer displayed on shelves; they're kept in 18,000 metal bins that require one-ninth the space.
But the drone industry is ramping up for a big landgrab the moment the regulatory environment starts to relax. At last year's Association for Unmanned Vehicle Systems International (AUVSI) trade show in Las Vegas, more than 500 companies pitched drones for filming crowds and tornados and surveying agricultural fields, power lines, coalfields, construction sites, gas spills and archaeological digs. A Palo Alto, Calif., start-up called Matternet wants to establish a network of drones that will transport small, urgent packages, like those for medicine.
In other countries civilian drone populations are already booming. Aerial video is a major application. A U.K. company called Skypower makes the eight-rotored Cinipro drone, which can carry a cinema-quality movie camera. In Costa Rica they're used to study volcanoes. In Japan drones dust crops and track schools of tuna; emergency workers used one to survey the damage at Fukushima. A nature preserve in Kenya ran a crowdsourced fundraising drive to buy drones to watch over the last few northern white rhinos. Ironically, while the U.S. has been the leader in sending drones overseas, it's lagging behind when it comes to deploying them on its own turf.
He cuts a dashing figure, this gentleman: nearly seven feet tall, and possessed of a pair of striking brown eyes. With a fondness for Ralph Lauren, middle-class rap and sharing a drink with friends, Rex is, in many ways, an unexceptional chap.
Except that he is, in fact, a real-world bionic man. Housed within a frame of state-of-the-art prosthetic limbs is a functional heart-lung system, complete with artificial blood pumping through a network of pulsating modified-polymer arteries. He has a bionic spleen to clean the blood, and an artificial pancreas to keep his blood sugar on the level. Behind the deep brown irises are a pair of retinal implants, giving him a vista of the crowds of curious humans who meet his gaze.
He even has a degree of artificial intelligence: talk to him, and he'll listen (through his cochlear implants), before using a speech generator to respond.
