第二十二篇 RealWld Robots When you think of a robot, do you envision ashiny, metallic device having the same general shape as a human being,perfming humanlike functions, responding to your questions in a monotonevoice accentuated by high-pitched tones beeps? This is the way many of usimagine a robot, but in the real wld, a robot is not humanoid at all. Insteada robot often is a voiceless, box-shaped machine that efficiently carries outrepetitive dangerous functions usually perfmed by humans. Today’s robot is me than an automatic machine that perfms one taskagain again. A modern robot is programmed with varying degrees ofartificial intelligence—that is, a robot contains acomputer program that tells it how to perfm tasks associated with human intelligence,such as reasoning, drawing conclusions, learning from past experience. A robot does not possess a human shape fthe simple reason that a two-legged robot has great difficulty remainingbalanced. A robot does, however, move from place to place on wheels axlesthat roll rotate. A robot even has limbs that swivel move incombination with ts mots. To find its way in its surroundings1, arobot utilizes various built-in senss. Antennae attached to the robot’s base detect anything they bump into. If the robot starts to teeteras it moves on an incline, a gyroscope a pendulum inside it senses thevertical differential. To determine its distance from an object how quicklyit will reach the object,the robot bounces beams oflaser light ultrasonic sound waves off obstructions in its path2. These other senss constantly feed infmation to the computer, which then analyzesthe infmation crects adjusts the robot’sactions. As science technology advance, the robot too will progress in itsfunctions use of artificial-intelligence programs. 词汇: envision v. 想象,预想 device n. 装置 accentuate v. 强调,重读 artificial intelligence n. 人工智能 limb n. 臂 antennae n. 天线 incline v. 倾斜 pendulum n. 钟摆 ultrasonic adj. 超声的 metallic adj. 金属的 monotone n. 单调的 humanoid adj. 像人的 axle n. 轮轴 rotate v. 旋转 swivel n. 旋转 teeter v. 摇晃 gyroscope n. 陀螺仪,回转仪 vertical n. 直立的 注释: 1.To find its way in its surroundings...:为了在周围找到路…… 2.the robot bounces beams of laser light ultrasonic sound waves off obstructions in its path:机器人发射激光束和超声波,反射到障碍物上(以此来探知路径)。 练习:3.The last paragraph suggests that futurerobots will beA me humanlike inbehavi actions.B me like automaticmachines.C better able to moveon inclines.D better equippedwith laser light senss.
第二十二篇 RealWld Robots
When you think of a robot, do you envision ashiny, metallic device having the same general shape as a human being,perfming humanlike functions, responding to your questions in a monotonevoice accentuated by high-pitched tones beeps? This is the way many of usimagine a robot, but in the real wld, a robot is not humanoid at all. Insteada robot often is a voiceless, box-shaped machine that efficiently carries outrepetitive dangerous functions usually perfmed by humans. Today’s robot is me than an automatic machine that perfms one taskagain again. A modern robot is programmed with varying degrees ofartificial intelligence—that is, a robot contains acomputer program that tells it how to perfm tasks associated with human intelligence,such as reasoning, drawing conclusions, learning from past experience.
A robot does not possess a human shape fthe simple reason that a two-legged robot has great difficulty remainingbalanced. A robot does, however, move from place to place on wheels axlesthat roll rotate. A robot even has limbs that swivel move incombination with ts mots. To find its way in its surroundings1, arobot utilizes various built-in senss. Antennae attached to the robot’s base detect anything they bump into. If the robot starts to teeteras it moves on an incline, a gyroscope a pendulum inside it senses thevertical differential. To determine its distance from an object how quicklyit will reach the object,the robot bounces beams oflaser light ultrasonic sound waves off obstructions in its path2. These other senss constantly feed infmation to the computer, which then analyzesthe infmation crects adjusts the robot’sactions. As science technology advance, the robot too will progress in itsfunctions use of artificial-intelligence programs.
词汇:
envision v. 想象,预想
device n. 装置
accentuate v. 强调,重读
artificial intelligence n. 人工智能
limb n. 臂
antennae n. 天线
incline v. 倾斜
pendulum n. 钟摆
ultrasonic adj. 超声的
metallic adj. 金属的
monotone n. 单调的
humanoid adj. 像人的
axle n. 轮轴
rotate v. 旋转
swivel n. 旋转
teeter v. 摇晃
gyroscope n. 陀螺仪,回转仪
vertical n. 直立的
注释:
1.To find its way in its surroundings...:为了在周围找到路……
2.the robot bounces beams of laser light ultrasonic sound waves off obstructions in its path:机器人发射激光束和超声波,反射到障碍物上(以此来探知路径)。
练习:3.The last paragraph suggests that futurerobots will be
When you think of a robot, do you envision ashiny, metallic device having the same general shape as a human being,perfming humanlike functions, responding to your questions in a monotonevoice accentuated by high-pitched tones beeps? This is the way many of usimagine a robot, but in the real wld, a robot is not humanoid at all. Insteada robot often is a voiceless, box-shaped machine that efficiently carries outrepetitive dangerous functions usually perfmed by humans. Today’s robot is me than an automatic machine that perfms one taskagain again. A modern robot is programmed with varying degrees ofartificial intelligence—that is, a robot contains acomputer program that tells it how to perfm tasks associated with human intelligence,such as reasoning, drawing conclusions, learning from past experience.
A robot does not possess a human shape fthe simple reason that a two-legged robot has great difficulty remainingbalanced. A robot does, however, move from place to place on wheels axlesthat roll rotate. A robot even has limbs that swivel move incombination with ts mots. To find its way in its surroundings1, arobot utilizes various built-in senss. Antennae attached to the robot’s base detect anything they bump into. If the robot starts to teeteras it moves on an incline, a gyroscope a pendulum inside it senses thevertical differential. To determine its distance from an object how quicklyit will reach the object,the robot bounces beams oflaser light ultrasonic sound waves off obstructions in its path2. These other senss constantly feed infmation to the computer, which then analyzesthe infmation crects adjusts the robot’sactions. As science technology advance, the robot too will progress in itsfunctions use of artificial-intelligence programs.
词汇:
envision v. 想象,预想
device n. 装置
accentuate v. 强调,重读
artificial intelligence n. 人工智能
limb n. 臂
antennae n. 天线
incline v. 倾斜
pendulum n. 钟摆
ultrasonic adj. 超声的
metallic adj. 金属的
monotone n. 单调的
humanoid adj. 像人的
axle n. 轮轴
rotate v. 旋转
swivel n. 旋转
teeter v. 摇晃
gyroscope n. 陀螺仪,回转仪
vertical n. 直立的
注释:
1.To find its way in its surroundings...:为了在周围找到路……
2.the robot bounces beams of laser light ultrasonic sound waves off obstructions in its path:机器人发射激光束和超声波,反射到障碍物上(以此来探知路径)。
练习:3.The last paragraph suggests that futurerobots will be
A me humanlike inbehavi actions.
B me like automaticmachines.
C better able to moveon inclines.
D better equippedwith laser light senss.
B me like automaticmachines.
C better able to moveon inclines.
D better equippedwith laser light senss.
参考解析
解析:3.A 最后一段讲机器人的发展方向是更加智能,能够自己判断并修正行为,而不仅仅是完成重复性的工作。
相关考题:
Robots are programmed and______(engineer)to perform. industrial tasks without human intervention.
_____ that they eventually reduce the amount of labor needed on construction sites by 90 percent.A:So clever are the construction robotsB:Such construction robots are cleverC:So clever the construction robots areD:Such clever construction robots are
Robots,(become)increasinglyprevalentinfactoriesandindustrialplantsthroughoutthedevelopedworld,areprogrammedandengineeredtoperformindustrialtaskswithouthumanintervention.
共用题干Wide World of RobotsEngineers who build and program robots have fascinating jobs. These researchers tinker (修补)with machines in the lab and write computer software to control these devices.“They're the best toys out there,” says Howie Choset at Carnegie Mellon University in Pittsburgh. Choset is a roboticist,a person who designs,builds or programs robots.When Choset was a kid,he was interested in anything that moved一cars,trains,animals. He put motors on Tinkertoy cars to make them move. Later,in high school,he built mobile robots similar to small cars.Hoping to continue working on robots,he studied computer science in college. But when he got to graduate school at the California Institute of Technology in Pasadena,Choset's lab- mates were working on something even cooler than remotely controlled cars:robotic snakes. Some robots can move only forward,backward,left and right. But snakes can twist(扭曲)in many directions and travel over a lot of different types of terrain(地形).“Snakes are far more interesting than the cars,”Choset concluded.After he started working at Carnegie Mellon,Choset and his colleagues there began developing their own snake robots.Choset's team programmed robots to perform the same movements as real snakes,such as sliding and inching forward. The robots also moved in ways that snakes usually don't, such as rolling. Choset's snake robots could crawl(爬行) through the grass,swim in a pond and even climb a flagpole.But Choset wondered if his snakes might be useful for medicine as well. For some heart surgeries,the doctor has to open a patient's chest,cutting through the breastbone. Recovering from these surgeries can be very painful. What if the doctor could perform the operation by instead making a small hole in the body and sending in a thin robotic snake?Choset teamed up with Marco Zenati,a heart surgeon now at Harvard Medical School,to investigate the idea. Zenati practiced using the robot on a plastic model of the chest and then tested the robot in pigs.A company called Medrobotics in Boston is now adapting the technology to surgeries on people.Even after 15 years of working with his team's creations,”I still don't get bored of watching the motion of my robots,”Choset says.The application of a thin robotic snake makes heart surgeries less time-consuming.A: RightB: WrongC: Not mentioned
共用题干The Robot ManAccording to Hans Moravec,universal robots will take over all the physical activities that we engage in,leaving us with little to do.Moravec sees four generations on the road to true universal robots. The first generation will be here by 2010 and will consist of free-ranging robots that can navigate by building an internal mental map of their surroundings.In new situations they'll be able to adapt,unlike today's mobile industrial robots.These robots will have the computing power to cope with simple speech and text recognition,and will be used for tasks such as domestic clean-ing.The second generation will arrive around 2020 and will be distinguished by the ability to learn .Second generation robots are programmed with sets of primitive tasks and with feedback that provide"pleasure"and"pain"stimuli .For example,a collision provokes a negative response,a completed task would be positive.Move forward another ten years to 2030 and you get to generation three.This robot can build internal simulations of the world around it. Before beginning a task,it can imagine what will happen in order to predict problems.If it has a free moment,it can replay past experiences and try variations in order to find a better way of如ing things next time .It could even observe a person or another robot performing a task and learn by imitation.For the first time,we have here a robot that can think.By the time we get to generation four in 2040,Moravec predicts that robots will be able to: match human reasoning and behaviour;generalise abstract ideas from specific experience;and, conversely,compile detailed plans of action from general commands such as"earn a living"or "make more robots".The Moravec manifesto(宣告)runs something like this. As robots start to become useful in generation one,they'll begin to take on many tasks in industry.Driven by the availability of this cheap and tireless labour force,the economy will boom and the demand for robots will grow so rapidly that they will soon become lowcost commodity items.So much so that they'll move into the home,where the domestic robot will relieve us of many chores.With increasing automation in generations two and three,the length of the average working day will plummet,eventually to near zero. Most people will be unemployed as robots take over not just primary industry,but the service economy too.Moravec sees the fourth generation as an opportunity to surpass our human limitations.These future machines will be our"mind children".Like biological children of previous generations,they will embody humanity's best hope for a long-term future. What does Moravec think of these future robots?A: They will look like previous biological children.B: They will be humans' mind-children.C: They will create a dangerous world.D: They will rule the world.
共用题干Wide World of RobotsEngineers who build and program robots have fascinating jobs. These researchers tinker (修补)with machines in the lab and write computer software to control these devices.“They're the best toys out there,” says Howie Choset at Carnegie Mellon University in Pittsburgh. Choset is a roboticist,a person who designs,builds or programs robots.When Choset was a kid,he was interested in anything that moved一cars,trains,animals. He put motors on Tinkertoy cars to make them move. Later,in high school,he built mobile robots similar to small cars.Hoping to continue working on robots,he studied computer science in college. But when he got to graduate school at the California Institute of Technology in Pasadena,Choset's lab- mates were working on something even cooler than remotely controlled cars:robotic snakes. Some robots can move only forward,backward,left and right. But snakes can twist(扭曲)in many directions and travel over a lot of different types of terrain(地形).“Snakes are far more interesting than the cars,”Choset concluded.After he started working at Carnegie Mellon,Choset and his colleagues there began developing their own snake robots.Choset's team programmed robots to perform the same movements as real snakes,such as sliding and inching forward. The robots also moved in ways that snakes usually don't, such as rolling. Choset's snake robots could crawl(爬行) through the grass,swim in a pond and even climb a flagpole.But Choset wondered if his snakes might be useful for medicine as well. For some heart surgeries,the doctor has to open a patient's chest,cutting through the breastbone. Recovering from these surgeries can be very painful. What if the doctor could perform the operation by instead making a small hole in the body and sending in a thin robotic snake?Choset teamed up with Marco Zenati,a heart surgeon now at Harvard Medical School,to investigate the idea. Zenati practiced using the robot on a plastic model of the chest and then tested the robot in pigs.A company called Medrobotics in Boston is now adapting the technology to surgeries on people.Even after 15 years of working with his team's creations,”I still don't get bored of watching the motion of my robots,”Choset says.Choset didn't begin developing his own snake robots until he started working at Carnegio Mellon.A: RightB: WrongC: Not mentioned
共用题干The Robot ManAccording to Hans Moravec,universal robots will take over all the physical activities that we engage in,leaving us with little to do.Moravec sees four generations on the road to true universal robots. The first generation will be here by 2010 and will consist of free-ranging robots that can navigate by building an internal mental map of their surroundings.In new situations they'll be able to adapt,unlike today's mobile industrial robots.These robots will have the computing power to cope with simple speech and text recognition,and will be used for tasks such as domestic clean-ing.The second generation will arrive around 2020 and will be distinguished by the ability to learn .Second generation robots are programmed with sets of primitive tasks and with feedback that provide"pleasure"and"pain"stimuli .For example,a collision provokes a negative response,a completed task would be positive.Move forward another ten years to 2030 and you get to generation three.This robot can build internal simulations of the world around it. Before beginning a task,it can imagine what will happen in order to predict problems.If it has a free moment,it can replay past experiences and try variations in order to find a better way of如ing things next time .It could even observe a person or another robot performing a task and learn by imitation.For the first time,we have here a robot that can think.By the time we get to generation four in 2040,Moravec predicts that robots will be able to: match human reasoning and behaviour;generalise abstract ideas from specific experience;and, conversely,compile detailed plans of action from general commands such as"earn a living"or "make more robots".The Moravec manifesto(宣告)runs something like this. As robots start to become useful in generation one,they'll begin to take on many tasks in industry.Driven by the availability of this cheap and tireless labour force,the economy will boom and the demand for robots will grow so rapidly that they will soon become lowcost commodity items.So much so that they'll move into the home,where the domestic robot will relieve us of many chores.With increasing automation in generations two and three,the length of the average working day will plummet,eventually to near zero. Most people will be unemployed as robots take over not just primary industry,but the service economy too.Moravec sees the fourth generation as an opportunity to surpass our human limitations.These future machines will be our"mind children".Like biological children of previous generations,they will embody humanity's best hope for a long-term future. Which of the following statements is true of the future robots?A: They will relieve us of many chores.B: They will take over the information industry.C: They will never surpass us.D: They will become high-cost commodity items.
共用题干Wide World of RobotsEngineers who build and program robots have fascinating jobs. These researchers tinker (修补)with machines in the lab and write computer software to control these devices.“They're the best toys out there,” says Howie Choset at Carnegie Mellon University in Pittsburgh. Choset is a roboticist,a person who designs,builds or programs robots.When Choset was a kid,he was interested in anything that moved一cars,trains,animals. He put motors on Tinkertoy cars to make them move. Later,in high school,he built mobile robots similar to small cars.Hoping to continue working on robots,he studied computer science in college. But when he got to graduate school at the California Institute of Technology in Pasadena,Choset's lab- mates were working on something even cooler than remotely controlled cars:robotic snakes. Some robots can move only forward,backward,left and right. But snakes can twist(扭曲)in many directions and travel over a lot of different types of terrain(地形).“Snakes are far more interesting than the cars,”Choset concluded.After he started working at Carnegie Mellon,Choset and his colleagues there began developing their own snake robots.Choset's team programmed robots to perform the same movements as real snakes,such as sliding and inching forward. The robots also moved in ways that snakes usually don't, such as rolling. Choset's snake robots could crawl(爬行) through the grass,swim in a pond and even climb a flagpole.But Choset wondered if his snakes might be useful for medicine as well. For some heart surgeries,the doctor has to open a patient's chest,cutting through the breastbone. Recovering from these surgeries can be very painful. What if the doctor could perform the operation by instead making a small hole in the body and sending in a thin robotic snake?Choset teamed up with Marco Zenati,a heart surgeon now at Harvard Medical School,to investigate the idea. Zenati practiced using the robot on a plastic model of the chest and then tested the robot in pigs.A company called Medrobotics in Boston is now adapting the technology to surgeries on people.Even after 15 years of working with his team's creations,”I still don't get bored of watching the motion of my robots,”Choset says.Zenati tested the robot on people after using it in pigs.A:RightB: WrongC: Not mentioned
共用题干Wide World of RobotsEngineers who build and program robots have fascinating jobs. These researchers tinker (修补)with machines in the lab and write computer software to control these devices.“They're the best toys out there,” says Howie Choset at Carnegie Mellon University in Pittsburgh. Choset is a roboticist,a person who designs,builds or programs robots.When Choset was a kid,he was interested in anything that moved一cars,trains,animals. He put motors on Tinkertoy cars to make them move. Later,in high school,he built mobile robots similar to small cars.Hoping to continue working on robots,he studied computer science in college. But when he got to graduate school at the California Institute of Technology in Pasadena,Choset's lab- mates were working on something even cooler than remotely controlled cars:robotic snakes. Some robots can move only forward,backward,left and right. But snakes can twist(扭曲)in many directions and travel over a lot of different types of terrain(地形).“Snakes are far more interesting than the cars,”Choset concluded.After he started working at Carnegie Mellon,Choset and his colleagues there began developing their own snake robots.Choset's team programmed robots to perform the same movements as real snakes,such as sliding and inching forward. The robots also moved in ways that snakes usually don't, such as rolling. Choset's snake robots could crawl(爬行) through the grass,swim in a pond and even climb a flagpole.But Choset wondered if his snakes might be useful for medicine as well. For some heart surgeries,the doctor has to open a patient's chest,cutting through the breastbone. Recovering from these surgeries can be very painful. What if the doctor could perform the operation by instead making a small hole in the body and sending in a thin robotic snake?Choset teamed up with Marco Zenati,a heart surgeon now at Harvard Medical School,to investigate the idea. Zenati practiced using the robot on a plastic model of the chest and then tested the robot in pigs.A company called Medrobotics in Boston is now adapting the technology to surgeries on people.Even after 15 years of working with his team's creations,”I still don't get bored of watching the motion of my robots,”Choset says.Snake robots could move in only four directions.A: RightB: WrongC: Not mentioned
共用题干第一篇Almost Human?Scientists are racing to build the world's first thinking robot.This is not science fiction: some say they will have made it by the year 2020.Carol Packer reports.Machines that walk,speak and feel are no longer science fiction.Kismet is the name of an android(机器人)which scientists have built at the Massachusetts Institute of Technology(MIT).Kismet is different from the traditional robot because it can show human emotions.Its eyes,ears and lips move to show when it feels happy,sad or bored. Kismet is one of the first of a new generation of androids一robots that look like human beings一which can imitate human feelings.Cog,another android invented by the MIT, imitates the action of a mother. However,scientists admit that so far Cog has the mental ability of a two-year-old.The optimists(乐观主义者)say that by the year 2020 we will have created humanoids (机器人)with brains similar to those of an adult human being. These robots will be designed to look like people to make them more attractive and easier to sell to the public. What kind of jobs will they do?In the future,robots like Robonaut,a humanoid invented by NASA,Will be doing dangerous jobs,like repairing space stations.They will also be doing more and more of the household work for us.In Japan,scientists are designing androids that will entertain us by dancing and playing the piano.Some people worry about what the future holds:will robots become monsters(怪物)? Will people themselves become increasingly like robots?Experts predict that more and morepeople will be wearing micro-computers,connected to the Internet,in the future.People will have micro-chips in various parts of their body,which will connect them to a wide variety of gadgets(小装置).Perhaps we should not exaggerate(夸大)the importance of technology,but one wonders whether,in years to come,we will still be falling in love, and whether we will still feel pain.Who knows?What is the writer's attitude to robots in the future?A:Critical. B:Hostile.C:Objective. D:Enthusiastic.
共用题干The Robot ManAccording to Hans Moravec,universal robots will take over all the physical activities that we engage in,leaving us with little to do.Moravec sees four generations on the road to true universal robots. The first generation will be here by 2010 and will consist of free-ranging robots that can navigate by building an internal mental map of their surroundings.In new situations they'll be able to adapt,unlike today's mobile industrial robots.These robots will have the computing power to cope with simple speech and text recognition,and will be used for tasks such as domestic clean-ing.The second generation will arrive around 2020 and will be distinguished by the ability to learn .Second generation robots are programmed with sets of primitive tasks and with feedback that provide"pleasure"and"pain"stimuli .For example,a collision provokes a negative response,a completed task would be positive.Move forward another ten years to 2030 and you get to generation three.This robot can build internal simulations of the world around it. Before beginning a task,it can imagine what will happen in order to predict problems.If it has a free moment,it can replay past experiences and try variations in order to find a better way of如ing things next time .It could even observe a person or another robot performing a task and learn by imitation.For the first time,we have here a robot that can think.By the time we get to generation four in 2040,Moravec predicts that robots will be able to: match human reasoning and behaviour;generalise abstract ideas from specific experience;and, conversely,compile detailed plans of action from general commands such as"earn a living"or "make more robots".The Moravec manifesto(宣告)runs something like this. As robots start to become useful in generation one,they'll begin to take on many tasks in industry.Driven by the availability of this cheap and tireless labour force,the economy will boom and the demand for robots will grow so rapidly that they will soon become lowcost commodity items.So much so that they'll move into the home,where the domestic robot will relieve us of many chores.With increasing automation in generations two and three,the length of the average working day will plummet,eventually to near zero. Most people will be unemployed as robots take over not just primary industry,but the service economy too.Moravec sees the fourth generation as an opportunity to surpass our human limitations.These future machines will be our"mind children".Like biological children of previous generations,they will embody humanity's best hope for a long-term future. The author's main purpose is to______.A: describe the life of Hans MoravecB: support the view that robots will play a major role in our lifeC: make fun of the views of Hans MoravecD: get people prepared for the threat of future robots
共用题干Robots May Allow Surgery in SpaceSmall robots designed by University of Nebraska researchers may allow doctors on Earth to help perlorm surgery on patients in space.The tiny,wheeled robots,_________(1)are about 3 inches tall and as wide as a lipstick case, can be slipped into small incisions(切口)and computer-controlled by surgeons in different locations.Some robots are equipped_________(2)cameras and lights and can send images back to surgeons and others have surgical tools attached thatcan be_________(3)remotely."We think this is going to_________(4)open surgery,"Dr. Dmitry Oleynikov said at a news conference.Oleynikov is a_________(5)in computer-assisted surgery at the University of Nebraska Medical Center in Omaha.Officials hope that NASA will teach_________(6)to use the robots soon enough so that surgeries could one day be performed in space.On earth,the surgeons could control the robots themselves_________(7)other locations.For example,the robots could enable surgeons in other places to_________ (8)on injured soldiers on the front line.Researchers plan to seek federal regulatory_________(9)early next year.Tests on animals have been successful,and tests on humans in England will begin very soon.The camera-carrying robots can provide_________(10)of affected areas and the ones with surgical tools will be able to maneuver(操控)inside the body in ways surgeons' hands can't.The views from the camera-carrying robots are_________(11)than the naked eye,because they_________(12)back color images that are magnified(放大). Because several robots can be inserted through one incision,they could reduce the amount and_________(13)of cuts needed for surgery,which would decrease recovery time. This is particularly_________( 14) to those patients who have been debilitated(使虚弱) by long illness.Eventually,Oleynikov said,the tiny robots may enable surgeons to work without ever _________(15)their hands in patients' bodies."That's the goal,"Oleynikov said."It's getting easier and easier.We can do even more with these devices."_________(6)A:astronauts B:nurses C:teachers D:trainers
Robots came into the world as a literary device whereby the writers and film-makers of the early 20th centu0'could explore their hopes and fears about technology,as the era of the automobile,telephone and aeroplane picked up its reckless jazz-age speed.From Fritz Lang's Metropolis and Isaac Asimov's l,Robot to WALL-E and the Terrnirator films,and in countless repetitions in between,they have succeeded admirably in their task.41.Since moving from the page and screen lo real life,robots have been a mild disappointment.They do some things that humans cannot do themselves,like exploring Mars,and a host of things people do not much want to do,like dealing with unexploded bombs or vacuuming floors.And they are very useful in bits of manufacturing.But reliable robots-especially ones required to work beyond the safety cages of a factory flom-have proved hard to make,and robots are still pretty stupid.So although they fascinate people,they have not yet made much of a mark on the world 42.That seems about to change.The exponential growth in the power of silicon chips,digital sensors and high-bandwidth communications improves robots just as it improves all sorts of other products.And,as our special report this week explains,three other factors are at play.43.One is that robotics Reventually some of them will build mass markets.Aerial robots-drones-may be in the vanguarcl here.They willlet farmers tend their crops in new ways,give citizens,journalists and broadcasters new perspectives on events big and small,monitor traffic and fires,look for infrastniccure in need of repair and much more besides.41选?A.Robots Come from Lhe Movies.B.Development of Robots Is Fast.C.Google Enters the Robot Industry.D.Robots Today Are Not Impressive EnouS;h.
百度robots工具具有以下哪项功能()A、实时查看网站在百度中已生效的robots文件内容B、支持通知百度更新网站的robot文件C、支持对robots文件进行语法及逻辑校验D、能够按照规则生成robots文件E、以上全都是
下列选项中,关于robots.txt文件的说法正确的是()A、robots.txt文件存放于空间根目录下B、robots.txt是搜索引擎蜘蛛访问网站的时候要查看的第一个文件C、如果robots.txt不存在,搜索引擎蜘蛛将能够访问网站上所有未被口令保护的页面D、robots.txt文件只需要存放在空间任意位置就行
关于网络爬虫协议文件robots.txt,说法错误的是()A、一个网站可以放多个不同robots文件B、robots文件不可以用xml格式命名C、disallow用来描述不希望被访问到的一个URLD、robots文件可以放在任何位置
某网页不允许搜索引擎抓取,以下代码正确的是:()A、 meta name="robots" content="nosnippet"/B、meta name="robots" content="noarchive"/C、meta name="robots" content="nofollow"/D、meta name="robots" content="noindex"/
Robots.txt文件是搜索引擎抓取网站第一个需要查看的文件,网站通过Robots协议告诉搜索引擎哪些页面可以抓取,哪些页面不能抓取。在www.domain.com中,如禁止所有搜索引擎程序抓取www.domain.com/A下所有内容,Robots文件应如何设置?()A、"User-agent:*Disallow:/A"B、"User-agent:Allow:/A"C、"User-agent:Disallow:/"D、"User-agent:*Allow:/"
关于robots文件下面说法正确的是()。A、一个网站可以放多个不同robots文件B、robots文件不可以用xml格式命名C、disallow用来描述不希望被访问到的一个URLD、robots文件可以放在任何位置
单选题百度robots工具具有以下哪项功能()A实时查看网站在百度中已生效的robots文件内容B支持通知百度更新网站的robot文件C支持对robots文件进行语法及逻辑校验D能够按照规则生成robots文件E以上全都是
问答题Robot Even before the first robot was built, the subject of robotics was controversial. The word robot was coined in 1921 by a Czech playwright who wrote about a colony of machines endowed with artificial intelligence that eventually turned against3 their human creators. Although that account was fictional, the first industrial robots were in use by the early 1960s. Today, we continue to be intrigued by robots and their potential for both good and evil. Basically, a robot is any machine that performs work or other actions normally done by humans. Most robots are used in factories to make products such as cars and electronics. Others are used to explore underwater, in volcanoes and even on other planets. Robots consist of three main components: a brain, which is usually a computer; actuators and mechanical parts such as motors, wheels and gears; and sensors for detecting images, sound, temperature, motion and light. With these basic components, robots can interact with their environment and perform the tasks they are designed to carry out. The advantages are obvious — robots can do things humans just don’t want to do, and they are usually more cost effective. Robots can also do things more precisely than humans and allow progress in medical science and other useful advances. But, as with any machine, a robot can break down and even cause disaster. There’s also the possibility that wicked people will use robots for evil purposes. Yet this is also true with other forms of technology such as weapons and biological material. Robots will probably be used even more in the future. They will continue to do tasks where danger, repetition, cost or the need for precision prevents humans from performing. As to whether they will be used for good or evil, that depends on the nature of the humans who create them.
单选题There will be ______ jobs for people because some robots will do the same jobs as people.AmanyBmoreCfewerDfewest