求一部日本机器人动漫的名字

一、求一部日本机器人动漫的名字

ZEGAPAIN

故事内容：故事的主角是快活的游泳少年KYO，他在千叶舞浜近郊的高中上学，是个忙碌于恋爱和友情的普通高中生。但是，突然有一天，被谜之转校生SHIZUNO引导，卷入了异世界的巨大机器人战斗中。为了保护自己和同伴，投入了战斗中……

应该是这个

二、求一日本机器人动画片叫什么

《时间飞船》

三、以前尤文队中有个叫paro的，求他个人资料。

曾经被视为皮尔洛接班人

现年25岁的帕罗成长于尤文青训营，2003年5月17日，他在尤文客场1-2负于雷吉纳的联赛中上演了意甲处子秀。2003年7月，尤文从切沃引进莱罗塔列，做为转会的一部分，帕罗、斯库利和加斯塔尔代洛的一半所有权被出售给切沃。2004年1月，帕罗又被租借到意乙的克罗托内锻炼。

2005年，尤文又回收了三人的一半所有权，并将其转卖给锡耶纳。2006年夏，尤文因为电话门丑闻被勒令降级，斑马军团随后将帕罗买断。06-07赛季，小将帕罗成为了德尚队中的中场主力。值得一提的是，帕罗为尤文攻入了意乙历史上的首个进球。06年9月9日，意乙揭幕战，帕罗为尤文打进一球，帮助球队客场1比1战平里米尼。06-07赛季，帕罗共在28场联赛中攻入1球，他堪称球队升级的功臣之一。 07年夏，随着阿尔米隆和蒂亚戈的加盟，帕罗决定另觅东家，寻求更多的上场时间。随后，尤文以300万欧元将帕罗的一半所有权卖给热那亚。上赛季，帕罗代表热那亚参加了20场意甲（16次首发、4次替补、3次被换下、累计出场时间1433分钟）和2场意大利杯（2次首发、1次被换下、累计出场时间206分钟），《米兰体育报》6分的赛季平均分说明帕罗表现不俗。

四、什么是全职高手的黑道paro

黑道paro就是黑道设定的意思_(:з」∠)_

大概就是微草蓝雨啊等战队都是混黑道的

以黑道为背景

五、介绍机械人的英文文章

A robot is a mechanical or virtual, artificial agent. A robot is usually an electro-mechanical system, which, by its appearance or movements, conveys a sense that it has intent or agency of its own. The word robot can refer to both physical robots and virtual software agents, but the latter are often referred to as bots.

Robots are growing in complexity and their use in industry is becoming more widespread. The main use of robots has so far been in the automation of mass production industries, where the same, definable tasks must be performed repeatedly in exactly the same fashion. Car production is the primary example of the employment of large and complex robots for producing goods. Robots are used in that process for the painting, welding and assembly of the cars. Robots are good for such tasks because the tasks can be accurately defined and must be performed the same every time, with little need for feedback to control the exact process being performed. Industrial robots can be manufactured in a wide range of sizes and so can handle more tasks requiring heavy lifting than a human could.

They are also useful in environments which are unpleasant or dangerous for humans to work in, for example bomb disposal, work in space (eg. Canadarm2) or underwater, in mining, and for the cleaning of toxic waste. Robots are also used for patrolling these toxic areas, robots equipped for this job are e.g. the Robowatch OFRO, and Robowatch MOSRO.

Often this is referred to as the Three D's: Dull, Dirty and Dangerous work. Hundreds of bomb disposal robots such as the iRobot 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 Ordinance Disposal (EOD).

Automated Guided Vehicles (AGVs) are movable robots that are used in large facilities such as warehouses hospitals and container ports, for the movement of goods, or even for safety and security patrols. Such vehicles follow wires, markers or laser-guidance to navigate around the location and can be programmed to move between places to deliver goods or patrol a certain area. Top manufacturers include Egemin, Transbotics, FMC and Jervis B Webb makes AGV brains used in freely moving autonomous vehicles that do not require fixed paths as earlier AGVs have done.

One robot being used in the United States is the Tug robot by Aethon Inc, an automated delivery system for hospitals. This robot travels around hospitals to deliver medical supplies, medication, food trays, or just about anything to nursing stations. Once it is finished it goes back to its charging station and waits for its next task.

HeadThere, Inc. has introduced a telepresence robot that can be moved around its location by remote control using the Internet. The robot enables a user to hear, see, speak, and be seen at a far away location. In a sense, the robot acts as a stand-in for the user.

Domestic robots are now available that perform simple tasks such as vacuum cleaning and grass cutting. By the end of 2004 over 1,000,000 vacuum cleaner units had been sold. Examples of these domestic robots are the Scooba and Roomba robots from iRobot Corporation, Friendly Robotics' Robomower, and Electrolux's Automower.

Other domestic robots have the aim of providing companionship (social robots) or play partners (ludobots) to people. Examples are Sony's Aibo, a commercially successful robot pet dog, Paro, a robot baby seal intended to soothe nursing home patients, and Wakamaru, a humanoid robot intended for elderly and disabled people. Other humanoid robots are in development with the aim of being able to provide robotic functions in a form that may be more aesthetically pleasing to customers, thereby increasing the likelihood of them being accepted in society.

Robots perform in arts festivals and at museums with works such as James Seawright's House Plants, 1983, in which an artificial flower opens in response to viewer interaction or Ken Rinaldo's Autotelematic Spider Bots, 2006 where robots that appear like spiders, see like bats and act like ants interact with the public and structure each other's behaviors through Bluetooth communication. One of the earliest electronic art robots is Jim Pallas' 1976 Blue Wazoo which, using TTL IC devices, responds to sound and light with a repertoire of LED patterns, movements, inflations, deflations, whirs, clicks and jiggles.

For education in schools and high schools and mechatronics training in companies robot kits are becoming more and more popular. On the schools side there exists kits from LEGO , Parallax, Fischertechnik and others (made of plastics components); Microbric[5], which uses its mainboard as a chassis & on the more professional side there exists e.g. the qfix robot kit; VexLABS robotics kit made of aluminium parts; and the iRobot Create, which provides a fully assembled robot platform designed for expansion. Robots historically used in education include the turtle robots (strongly associated with the Logo programming language) and the Heathkit HERO series.

Robotics is the science and technology and application of robots. Stories of artificial helpers and attempts to create them has a long history and is the basis of much science fiction.

Robots are generally used to help with jobs that are too dirty or boring for most human beings.

The first prgrammable humanoid robot was about 1206 AD. We can make a robot to look like almost anything we want. The most fantasized about are ones that have a humanoid appearance. Think of a repetative task and generally there is probably one on th market that can do what you want.

Remember Rosey the robot on The Jetsons, or the robot on Lost in Space. We have come a long way, but we aren't quite that far yet. It is only a matter of time. There are already robots that can do simple tasks like cleaning the floor, or doing the laundry. But these won't be ready for the public until about the year 2010. The cost of the robots is another matter.

The robot is based around the structure, which is like the skeleton of the human body. It is the main support system.

Next, you have the actuatorsor muscles of the robot. This is quite complex, and I won't go into now.

Manipulators are the way an object is manipulated. This generally is done by grippers, or effectors.

Then there is locomotion to worry about. Do you have a flat surface that it will work on? Then it will probably be a rolling robot. It can be two wheels, four wheels, or on tracks.

If there are stairs, or uneven terrain the problem becomes more complex. Walking is difficult to solve, especially if you compare it to how a human walks. If The robot has locomotion, I am assuming it is going from point A to point B. Does it need memory to get to point A and memory to get to point B? It will probably need something similar to radar to be used for crash avoidance.

Scientists and researchers are constantly trying to hone the robot into something better.

Robots make our life a lot easier. They are in every facet of our life. The computer, garage door opener, unmanned reconnaissance planes, satellites, lawn mowers, a GPS in our car. These are all of robots we we use every day and probably don't think about it.

As you can tell, robots can get very complex very quickly. The fancier you make it, the more compkex and expensive it becomes. You are trying to tell an inanimate object how to do something halfway human, and that is complex.

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People who go all Lou Dobbs about robots. People say things like: All robots look alike. Robots should speak English. Robots are taking all the jobs. Robots don't pay enough taxes. Robots reproduce like bunnies. I don't want my child playing with a robot, or goodness gracious, marrying a robot.

An acquaintance of mine, who discriminates against robots, but never actually met one, received a Roomba for Christmas I pushed its power button, she said. It was so cute when it sounded the charge, and scurried across the floor gobbling up dust bunnies. I love Roomba, she said. But I still don't like robots. It is typical to think that your robot is somehow different from other robots. Those other robots can not be trusted.

It may take another generation, one where our children are raised amongst robots, for them to gain acceptance. Like the washing machine and the automobile, robots are part of our future.

It is true that robots can be hard to tell apart. I remember Sarah Connor in Terminator II. She damn near wet her pants when a series 800-Model 101 showed up, a few years after she'd sent its twin to the scrap heap. Given a little time, however, she got acquainted with the big, muscle-bound machine. She fantasized about keeping him on as dad and husband. After all, he got along well with the boy, was a good provider, and would stop at nothing to protect her family.

Although robots are loyal and dependable, they do screw up once in a while. I'm thinking of HAL in 2001, A Space Odyssey. He definitely made a mistake of judgment. I still think he deserved a second chance? For every HAL, there are dozens of R2-D2's and 3CPO's. And that cute little WALL-E.

Occasionally, there is a bad egg, like ED-209 in RoboCop. Or the Battle Droids in Star Wars. But are they worse than rottweilers and pit bulls? Surely, some of them can be rehabilitated, and make good pets.

From an economic point of view, you can't beat robots. They work day and night. They rarely call in sick. They add to the nation's GDP, and don't require pensions or health care. They are terrific with numbers and rarely have math anxiety. RoboDoc performs delicate surgeries 24/7 and he never gets the shakes.

But, you ask, What if they go into politics? Will they impose their culture, their language, and their way of life on us? Forget about it. No one can resist Big Macs, vacations to Disneyland, and shopping at Walmart. This is America..

Face it, robots are here to stay. They are willing to do ANYTHING. They make great maids and gardeners, sweepers and scrubbers, mowers and choppers. There are robots that care for the elderly, wash their dirty bottoms and soon perhaps, play Yahtzee with them. There are robots that imitate pets yet don't require walks nor litter boxes. Even robots that'll go the fridge, grab a cold beer, and bring it to you. If it's eager to watch the Super Bowl, and play Wii Tennis, you got yourself a great roommate.

As far as intermarriage with a robot, didn't they try that in The Stepford Wives? Maybe it was just too soon.

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Most of us are still of of the mindset that robotics is something that is rather futuristic. We still may have pictures in our head of humanoid robots, flailing their arms and either attacking the Earth from other planets or perhaps protecting us in some way or another. The fact of the matter is, humanoid robots are still very much futuristic but much of the future of robots is already in existence today. Robots are used in a number of different settings that you might find rather interesting. Here is a little bit about the future of robotics and the fact that much of it is already in existence with what we are doing now.

One of the ways in which robots are most often used is in an industrial setting. The automotive industry, for example, makes use of robots on their assembly lines to do a number of different tasks. Unfortunately, this has put many individuals out of a job because the robot was able to do what they used to do on the assembly line more efficiently. Not only that, once the robot is put into place they are able to take care of these repetitive tasks, 24 hours a day, 365 days a year.

One of the ways in which robotics is used on a regular basis is in spot welding. Although this used to require a human touch, much of the welding that is now done by robots is so accurate and precise that a human could not possibly take care of it in that way. Many times, this welding needs to be done in an assembly line environment so the same simple task is done over and over again. It will be difficult for anybody to improve on what is already existing in these robotics unless they make them less apt to have difficulties from breaking down.

Robots are also able to help us to get out of dangerous situations in many cases. A good example of this is spring painting. Humans used to have to take care of spray painting in the automotive industry and other industrial settings. This put them at risk because they were constantly being exposed to dangerous chemicals, even if they wore protective clothing. A robot is not only able to be in these rooms without having to worry about health concerns, they are able to do the painting more evenly and accurately than their human counterparts.

Finally, robotics are often used in the development and building of computer chips. These chips are often too small for humans to work on themselves so if or not for the robotics that are put to use in these factories, much of the computer science that we have today would not be in existence. Although they will continue to improve on this and other things in the robotics industry, the fact of the matter is that the modern-day use of robotics is already futuristic.