AI News, Video Friday: Google Delivery Drones, Strange Robot Game, and Humanoid Does Ice Bucket Challenge
Video Friday: Google Delivery Drones, Strange Robot Game, and Humanoid Does Ice Bucket Challenge
Yesterday Google announced that it is developing flying robots to deliver stuff, and a video they've released shows an unusual drone design choice.
We know that Google is obsessed with robots and that they're working on a range of projects, from widely publicized ones like their self-driving robot cars to highly secretive programs probably based on the many robot startups the company has acquired.
The video reveals some interesting things about Google's drones: Unlike Amazon, which is apparently using conventional rotor-based vehicles (a questionable choice for a delivery UAV), Google chose instead a winged design that flies like a plane but takes off vertically, an approach with potential benefits likefaster speeds andextended range.The Atlantichas an in-depth story on the project:
During this initial phase of development, Google landed on an unusual design called a tail sitter, a hybrid of a plane and a helicopter that takes off vertically, then rotates to a horizontal position for flying around.
At the end of the tether, there’s a little bundle of electronics they call the “egg,” which detects that the package has hit the ground, detaches from the delivery, and is pulled back up into the body of the vehicle.
There, we successfully delivered a first aid kit, candy bars, dog treats, and water to a couple of Australian farmers.
We’re only just beginning to develop the technology to make a safe delivery system possible, but we think that there’s tremendous potential to transport goods more quickly, safely and efficiently.
Robots that walk, and the very few robots that run, depend on sophisticated and expensive sensing and lots of computing power to keep them from falling over.
With this high speed vision system developed at the University of Tokyo, you can do away with the sensors completely, and still get a little robot to run super fast.
Neurala has been secretly training flying robots to charge at what looks to be a red sleeping bag, because awesome (although the video isn't):
Sure, this is mostly a kids movie but as you have probably read many times, there is enough humor aimed at the adults to keep them entertained while with the kids.
The time and effort that must have went into making this movie is astonishing.I have read a few comments and reviews concerning Williams being annoying but that is absolutely 100% UNTRUE!
I thoroughly enjoyed William's performance, which is saying something considering it is only his voice.
A robot is a machine—especially one programmable by a computer— capable of carrying out a complex series of actions automatically. Robots can be guided by an external control device or the control may be embedded within.
It was sold to General Motors in 1961 where it was used to lift pieces of hot metal from die casting machines at the Inland Fisher Guide Plant in the West Trenton section of Ewing Township, New Jersey. Robots have replaced humans in performing repetitive and dangerous tasks which humans prefer not to do, or are unable to do because of size limitations, or which take place in extreme environments such as outer space or the bottom of the sea.
The word robot can refer to both physical robots and virtual software agents, but the latter are usually referred to as bots. There is no consensus on which machines qualify as robots but there is general agreement among experts, and the public, that robots tend to possess some or all of the following abilities and functions: accept electronic programming, process data or physical perceptions electronically, operate autonomously to some degree, move around, operate physical parts of itself or physical processes, sense and manipulate their environment, and exhibit intelligent behavior, especially behavior which mimics humans or other animals. Closely related to the concept of a robot is the field of Synthetic Biology, which studies entities whose nature is more comparable to beings than to machines.
Early descriptions of automata include the artificial doves of Archytas, the artificial birds of Mozi and Lu Ban, a 'speaking' automaton by Hero of Alexandria, a washstand automaton by Philo of Byzantium, and a human automaton described in the Lie Zi. Many ancient mythologies, and most modern religions include artificial people, such as the mechanical servants built by the Greek god Hephaestus (Vulcan to the Romans), the clay golems of Jewish legend and clay giants of Norse legend, and Galatea, the mythical statue of Pygmalion that came to life.
Hero of Alexandria (10–70 AD), a Greek mathematician and inventor, created numerous user-configurable automated devices, and described machines powered by air pressure, steam and water. The 11th century Lokapannatti tells of how the Buddha's relics were protected by mechanical robots (bhuta vahana yanta), from the kingdom of Roma visaya (Rome);
Yan Shi proudly presented the king with a life-size, human-shaped figure of his mechanical 'handiwork' made of leather, wood, and artificial organs. There are also accounts of flying automata in the Han Fei Zi and other texts, which attributes the 5th century BC Mohist philosopher Mozi and his contemporary Lu Ban with the invention of artificial wooden birds (ma yuan) that could successfully fly. In 1066, the Chinese inventor Su Song built a water clock in the form of a tower which featured mechanical figurines which chimed the hours.
The drummer could be made to play different rhythms and different drum patterns by moving the pegs to different locations. Samarangana Sutradhara, a Sanskrit treatise by Bhoja (11th century), includes a chapter about the construction of mechanical contrivances (automata), including mechanical bees and birds, fountains shaped like humans and animals, and male and female dolls that refilled oil lamps, danced, played instruments, and re-enacted scenes from Hindu mythology. In Renaissance Italy, Leonardo da Vinci (1452–1519) sketched plans for a humanoid robot around 1495.
The mechanical duck could flap its wings, crane its neck, and swallow food from the exhibitor's hand, and it gave the illusion of digesting its food by excreting matter stored in a hidden compartment. Remotely operated vehicles were demonstrated in the late 19th century in the form of several types of remotely controlled torpedoes.
The early 1870s saw remotely controlled torpedoes by John Ericsson (pneumatic), John Louis Lay (electric wire guided), and Victor von Scheliha (electric wire guided). The Brennan torpedo, invented by Louis Brennan in 1877 was powered by two contra-rotating propellors that were spun by rapidly pulling out wires from drums wound inside the torpedo.
Differential speed on the wires connected to the shore station allowed the torpedo to be guided to its target, making it 'the world's first practical guided missile'. In 1897 the British inventor Ernest Wilson was granted a patent for a torpedo remotely controlled by 'Hertzian' (radio) waves and in 1898 Nikola Tesla publicly demonstrated a wireless-controlled torpedo that he hoped to sell to the US Navy. Archibald Low, known as the 'father of radio guidance systems' for his pioneering work on guided rockets and planes during the First World War.
However, Josef Čapek was named by his brother Karel as the true inventor of the term robot. The word 'robot' itself was not new, having been in Slavic language as robota (forced laborer), a term which classified those peasants obligated to compulsory service under the feudal system widespread in 19th century Europe (see: Robot Patent). Čapek's fictional story postulated the technological creation of artificial human bodies without souls, and the old theme of the feudal robota class eloquently fit the imagination of a new class of manufactured, artificial workers.
In 1939, the humanoid robot known as Elektro was debuted at the 1939 New York World's Fair. Seven feet tall (2.1 m) and weighing 265 pounds (120.2 kg), it could walk by voice command, speak about 700 words (using a 78-rpm record player), smoke cigarettes, blow up balloons, and move its head and arms.
This ultimately laid the foundations of the modern robotics industry. Devol sold the first Unimate to General Motors in 1960, and it was installed in 1961 in a plant in Trenton, New Jersey to lift hot pieces of metal from a die casting machine and stack them. Devol's patent for the first digitally operated programmable robotic arm represents the foundation of the modern robotics industry. The first palletizing robot was introduced in 1963 by the Fuji Yusoki Kogyo Company. In 1973, a robot with six electromechanically driven axes was patented by KUKA robotics in Germany, and the programmable universal manipulation arm was invented by Victor Scheinman in 1976, and the design was sold to Unimation.
The International Organization for Standardization gives a definition of a manipulating industrial robot in ISO 8373: 'an automatically controlled, reprogrammable, multipurpose, manipulator programmable in three or more axes, which may be either fixed in place or mobile for use in industrial automation applications.' This definition is used by the International Federation of Robotics, the European Robotics Research Network (EURON) and many national standards committees. Most commonly industrial robots are fixed robotic arms and manipulators used primarily for production and distribution of goods.
Because modular robots of the same architecture type are composed of modules that compose different modular robots, a snake-arm robot can combine with another to form a dual or quadra-arm robot, or can split into several mobile robots, and mobile robots can split into multiple smaller ones, or combine with others into a larger or different one.
Intended for sale to small businesses, they are promoted as the robotic analogue of the personal computer. As of May 2014[update], 190 companies in the US have bought Baxters and they are being used commercially in the UK. Roughly half of all the robots in the world are in Asia, 32% in Europe, and 16% in North America, 1% in Australasia and 1% in Africa. 40% of all the robots in the world are in Japan, making Japan the country with the highest number of robots.
As robots have become more advanced and sophisticated, experts and academics have increasingly explored the questions of what ethics might govern robots' behavior, and whether robots might be able to claim any kind of social, cultural, ethical or legal rights. One scientific team has said that it is possible that a robot brain will exist by 2019. Others predict robot intelligence breakthroughs by 2050. Recent advances have made robotic behavior more sophisticated. The social impact of intelligent robots is subject of a 2010 documentary film called Plug
They noted that self-awareness as depicted in science-fiction is probably unlikely, but that there were other potential hazards and pitfalls. Various media sources and scientific groups have noted separate trends in differing areas which might together result in greater robotic functionalities and autonomy, and which pose some inherent concerns. In 2015, the Nao alderen robots were shown to have a capability for a degree of self-awareness.
Researchers at the Rensselaer Polytechnic Institute AI and Reasoning Lab in New York conducted an experiment where a robot became aware of itself, and corrected its answer to a question once it had realised this. Some experts and academics have questioned the use of robots for military combat, especially when such robots are given some degree of autonomous functions. There are also concerns about technology which might allow some armed robots to be controlled mainly by other robots. The US Navy has funded a report which indicates that, as military robots become more complex, there should be greater attention to implications of their ability to make autonomous decisions. One researcher states that autonomous robots might be more humane, as they could make decisions more effectively.
However, other experts question this. One robot in particular, the EATR, has generated public concerns over its fuel source, as it can continually refuel itself using organic substances. Although the engine for the EATR is designed to run on biomass and vegetation specifically selected by its sensors, which it can find on battlefields or other local environments, the project has stated that chicken fat can also be used. Manuel De Landa has noted that 'smart missiles' and autonomous bombs equipped with artificial perception can be considered robots, as they make some of their decisions autonomously.
Mass-produced printed circuit boards (PCBs) are almost exclusively manufactured by pick-and-place robots, typically with SCARA manipulators, which remove tiny electronic components from strips or trays, and place them on to PCBs with great accuracy. Such robots can place hundreds of thousands of components per hour, far out-performing a human in speed, accuracy, and reliability. Mobile robots, following markers or wires in the floor, or using vision or lasers, are used to transport goods around large facilities, such as warehouses, container ports, or hospitals. Limited to tasks that could be accurately defined and had to be performed the same way every time.
The job may be boring, such as domestic cleaning, or dangerous, such as exploring inside a volcano. Other jobs are physically inaccessible, such as exploring another planet, cleaning the inside of a long pipe, or performing laparoscopic surgery. Almost every unmanned space probe ever launched was a robot. Some were launched in the 1960s with very limited abilities, but their ability to fly and land (in the case of Luna 9) is an indication of their status as a robot.
For instance, a laparoscopic surgery robot allows the surgeon to work inside a human patient on a relatively small scale compared to open surgery, significantly shortening recovery time. They can also be used to avoid exposing workers to the hazardous and tight spaces such as in duct cleaning.
These pilotless drones can search terrain and fire on targets. Hundreds of robots such as iRobot's Packbot and the Foster-Miller TALON are being used in Iraq and Afghanistan by the U.S. military to defuse roadside bombs or improvised explosive devices (IEDs) in an activity known as explosive ordnance disposal (EOD). Robots are used to automate picking fruit on orchards at a cost lower than that of human pickers.
UCAVs are being designed such as the BAE Systems Mantis which would have the ability to fly themselves, to pick their own course and target, and to make most decisions on their own. The BAE Taranis is a UCAV built by Great Britain which can fly across continents without a pilot and has new means to avoid detection. Flight trials are expected to begin in 2011. The AAAI has studied this topic in depth and its president has commissioned a study to look at this issue. Some have suggested a need to build 'Friendly AI', meaning that the advances which are already occurring with AI should also include an effort to make AI intrinsically friendly and humane. Several such measures reportedly already exist, with robot-heavy countries such as Japan and South Korea having begun to pass regulations requiring robots to be equipped with safety systems, and possibly sets of 'laws' akin to Asimov's Three Laws of Robotics. An official report was issued in 2009 by the Japanese government's Robot Industry Policy Committee. Chinese officials and researchers have issued a report suggesting a set of ethical rules, and a set of new legal guidelines referred to as 'Robot Legal Studies.' Some concern has been expressed over a possible occurrence of robots telling apparent falsehoods. Mining robots are designed to solve a number of problems currently facing the mining industry, including skills shortages, improving productivity from declining ore grades, and achieving environmental targets.
One of the world's largest mining corporations, Rio Tinto, has recently expanded its autonomous truck fleet to the world's largest, consisting of 150 autonomous Komatsu trucks, operating in Western Australia. Similarly, BHP has announced the expansion of its autonomous drill fleet to the world's largest, 21 autonomous Atlas Copco drills. Drilling, longwall and rockbreaking machines are now also available as autonomous robots. The Atlas Copco Rig Control System can autonomously execute a drilling plan on a drilling rig, moving the rig into position using GPS, set up the drill rig and drill down to specified depths. Similarly, the Transmin Rocklogic system can automatically plan a path to position a rockbreaker at a selected destination. These systems greatly enhance the safety and efficiency of mining operations.
The population is aging in many countries, especially Japan, meaning that there are increasing numbers of elderly people to care for, but relatively fewer young people to care for them. Humans make the best carers, but where they are unavailable, robots are gradually being introduced. FRIEND is a semi-autonomous robot designed to support disabled and elderly people in their daily life activities, like preparing and serving a meal.
Algorithms have been designed in case any such robots become a reality. Robots with silicone bodies and flexible actuators (air muscles, electroactive polymers, and ferrofluids) look and feel different from robots with rigid skeletons, and can have different behaviors. Inspired by colonies of insects such as ants and bees, researchers are modeling the behavior of swarms of thousands of tiny robots which together perform a useful task, such as finding something hidden, cleaning, or spying.
Robotic forces allow simulating the mechanical properties of 'virtual' objects, which users can experience through their sense of touch. Robotic characters, androids (artificial men/women) or gynoids (artificial women), and cyborgs (also 'bionic men/women', or humans with significant mechanical enhancements) have become a staple of science fiction.
Possibly the most prolific author of the twentieth century was Isaac Asimov (1920–1992) who published over five-hundred books. Asimov is probably best remembered for his science-fiction stories and especially those about robots, where he placed robots and their interaction with society at the center of many of his works. Asimov carefully considered the problem of the ideal set of instructions robots might be given in order to lower the risk to humans, and arrived at his Three Laws of Robotics: a robot may not injure a human being or, through inaction, allow a human being to come to harm;
10 Amazing Robots That Really Exist
Top most amazing and coolest ROBOTSThe family of robot animals from the German developer of robotics Festo is growing.
The company presents many new robots, for example: a swarm of ants that can interact with each other, as well as butterflies and dragonflies, which are characterized by all the ease and grace of these insects.
There’re not just butterflies, but a whole system that consists of ten high-speed infrared cameras installed in a room where butterflies fly.
You can hardly distinguish these bionic butterflies from the real ones in the room where they fly.Robotic seagulls and dragonflies that can fly just like their living relatives.
BionicKangaroo that weighs 7 kilograms and highs one meter can make a jump of 80 cm in length and 40 cm in height.
This unmanned underwater facility - a robotic shark length of about one and a half meters and weigh up to 45 kg.
The engine is integrated with the servo motors of the paws, three in each: the resulting system provides simple control of flexible, plastic movements with convenient coordination from the control panel.
The mechanical snake is designed to perform maintenance and repair of various mechanisms on the seabed, mainly on oil platforms.
Robots (2005 film)
Donkin, and stars the voices of Ewan McGregor, Halle Berry, Greg Kinnear, Mel Brooks, Amanda Bynes, Drew Carey, and Robin Williams. Originally developing a film version of Joyce's book Santa Calls, Wedge and Joyce then decided to develop an original story about a world of robots. The film was released on March 11, 2005, and grossed $260.7 million on its $75 million budget.
It was also the first IMAX DMR film released in the Spring season, and the second IMAX DMR film distributed by Fox. The film, released on DVD and VHS on September 27, 2005, was accompanied by an original short animated film based on Robots, titled Aunt Fanny's Tour of Booty. The film was released in high-definition on Blu-ray Disc on March 22, 2011. On the review aggregator Rotten Tomatoes, the film has a rating of 64% based on 177 reviews.
The site's consensus reads: 'Robots delights on a visual level, but the story feels like it came off an assembly line.' Another review aggregator, Metacritic, gave a score of 64 based on 33 reviews. Roger Ebert gave the film three-and-a-half stars out of four, stating that 'this is a movie that is a joy to behold entirely apart from what it is about.
It looks happy, and, more to the point, it looks harmonious.' The film was released March 11, 2005, in the United States and Canada and grossed $36 million in 3,776 theaters its opening weekend, ranking #1 at the box office. It grossed a total of $260.7 million worldwide—$128.2 million in the United States and Canada and $132.5 million in other territories. The film was nominated for many awards in the category of best animated film, as well as awards for character design, best animated character, voice casting, and sound editing.
However, it only won one, the MTV (Mexico) Movie Award for best song, 'Un Héroe Real'. The film is recognized by American Film Institute in these lists: Robots: Original Motion Picture Soundtrack was released on March 1, 2005 by Virgin Records. Robots: Original Motion Picture Score was composed by John Powell and was released on March 15, 2005 by Varèse Sarabande Records. Aunt Fanny's Tour of Booty is a five-minute computer-animated film that was included as a bonus feature on the DVD and VHS releases of Robots and a prequel to the film.
This Might Be the Most Life-Like (And Creepiest) Robot Ever Built
Bloomberg's Hello World host Ashlee Vance recently traveled to Osaka University to see Professor Hiroshi Ishiguro’s latest creation, an android named Erica that's designed to work, one day, as a receptionist or personal assistant.
To Vance she is, but not to Professor Ishiguro, who considers her nearly indistinguishable from a human.----------Hello World is a Webby and Emmy-nominated video series by Bloomberg that invites the viewer to come on a journey across the globe to find the inventors, scientists and technologists shaping our future.