Man or Machine
A
During July 2003, the Museum of Science in Cambridge, Massachusetts exhibited what Honda calls βthe worldβs most advanced humanoid robotβ, ASIMO (the Advanced Step in Innovative Mobility). Hondaβs brainchild is on tour in North America and delighting audiences wherever it goes. After 17 years in the making, ASIMO stands at four feet tall, weighs around 115 pounds and looks like a child in an astronautβs suit. Though it is difficult to see ASIMOβs face at a distance, on closer inspection it has a smile and two large βeyesβ that conceal cameras. The robot cannot work autonomously β its actions are βremote-controlledβ by scientists through the computer in its backpack. Yet watching AIMIO perform at a show in Massachusetts it seemed uncannily human. The audience cheered as ASIMO walked forwards and backwards, side to side and up and downstairs. After the show, a number of people told me that they would like robots to play more of a role in daily life β one even said that the robot would be like βanother personβ.
B
While the Japanese have made huge strides in solving some of the engineering problems of human kinetics and bipedal movements, for the past 10 years scientists at MITβs former Artificial Intelligence (AI) lab (recently renamed the Computer Science and Artificial Intelligence Laboratory, CSAIL) have been making robots that can behave like humans and interact with humans. One of MITβs robots, Kismet, is an anthropomorphic head and has two eyes (complete with eyelids), ears, a mouth, and eyebrows. It has several facial expressions, including happy, sad, frightened and disgusted. Human interlocutors are able to read some of the robotβs facial expressions, and often change their behavior towards the machine as a result β for example, playing with it when it appears βsadβ. Kismet is now in MITβs museum, but the ideas developed here continue to be explored in new robots.
C
Cog (short for Cognition) is another pioneering project from MITβs former AI lab. Cog has a head, eyes, two arms, hands and a torso β and its proportions were originally measured from the body of a researcher in the lab. The work on Cog has been used to test theories of embodiment and developmental robotics, particularly getting a robot to develop intelligence by responding to its environment via sensors, and to learn through these types of interactions.
D
MIT is getting furthest down the road to creating human-like and interactive robots. Some scientists argue that ASIMO is a great engineering feat but not an intelligent machine β because it is unable to interact autonomously with unpredictabilities in its environment in meaningful ways, and learn from experience. Robots like Cog and Kismet and new robots at MITβs CSAIL and media lab, however, are beginning to do this.
E
These are exciting developments. Creating a machine that can walk, make gestures and learn from its environment is an amazing achievement. And watch this space: these achievements are likely rapidly to be improved upon. Humanoid robots could have a plethora of uses in society, helping to free people from everyday tasks. In Japan, for example, there is an aim to create robots that can do the tasks similar to an average human and also act in more sophisticated situations as firefighters, astronauts or medical assistants to the elderly in the workplace and in homes β partly in order to counterbalance the effects of an ageing population.
F
Such robots say much about the way in which we view humanity, and they bring out the best and worst of us. On one hand, these developments express human creativity β our ability to invent, experiment, and to extend our control over the world. On the other hand, the aim to create a robot like a human being is spurred on by dehumanized ideas β by the sense that human companionship can be substituted by machines; that humans lose their humanity when they interact with technology; or that we are a little more than surface and ritual behaviors, that can be simulated with metal and electrical circuits.Β
Questions 1-6
Reading passage 1 has six paragraphs, A-F.
Which paragraph contains the following information?
Write the correct letter, A-F, in boxes 1-6 on your answer sheet.
NB You may use any letter more than once
1 ABCDEF different ways of using robots
2 ABCDEF a robot whose body has the same proportion as that of an adult
3 ABCDEF the fact that human can be copied and replaced by robots
4 ABCDEF a comparison between ASIMO for Honda and other robots
5 ABCDEF the pros and cons of creating robots
6 ABCDEF a robot that has eyebrows
Questions 7-13
Complete the following summary of the paragraphs of Reading Passage 1.
Using NO MORE THAN TWO WORDS from the Reading Passage for each answer.
Write your answers in boxes 7-13 on your answer sheet.
In 2003, Massachusetts displayed a robot named ASIMO which was invented by Honda, after a period of 7 in the making. The operating information is stored in the computer in its 8 so that scientists can control ASIMOβs movement. While Japan is making great progress, MIT is developing robots that are human-like and can 9 . Humans. What is special about Kismet is that it has different 10 which can be read by human interlocutors. 11 is another robot from MIT, whose bodyβs proportion is the same as an adult. By responding to the surroundings through 12 , it could develop its 13 ##a.