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餐厅机器人技术在市场开发,生产制造,质量控制到销售服务体系的目的是为了使餐饮售卖机器人材料设备,技术,人力上得到总体优化及充分利用。

打造一站式精酿啤酒设备

英语翻译 robot themed restaurants 机器人主题餐厅(机器人用英语怎么说)

作者:易秋      发布时间:2021-08-30      浏览量:93326
英语翻译 robot themed restaurants 机器人主题餐厅I think in the future ,there will be a lot of robot themed restaurants around the w

英语翻译 robot themed restaurants 机器人主题餐厅



I think in the future ,there will be a lot of robot themed restaurants around the world 我认为,将来会有许多机器人主题餐厅遍布世界各地


机器人用英语怎么说


robot

英 ['rəʊbɒt]  美 ['robɑt] 

n. 机器人;遥控设备,自动机械;机械般工作的人

短语

military robot 军用机器人 ; 军事机器人

Legged robot 步行机 ; 机器人 ; 腿式机器人 ; 步行机器人

I ROBOT 机械公敌 ; 机器人 ; 机器人与我

Bad Robot 坏机器人 ; 坏机械人 ; 坏呆板人 ; 人公司

例句

1、What will you do if you have a robot 

如果你有一个机器人,你会让它做什么?

2、Why do we have this robot slowing me down 

为什么还要留着这个机器人来拖累我呢?

扩展资料

同义词

1、droid

英 [drɒɪd]  美 [drɔɪd] 

n. 机器人

短语

Droid Escape 机器人大逃亡 ; 机器人大流亡 ; 乐高拼插益智积木亡

Droid Towers 机器人摩天楼 ; 机器人摩天轮

Droid Shop 机器人商店

2、golem

英 ['gəʊləm; 'gɒɪl-] 

n. 机器人;犹太传说中的有生命的泥人;16世纪希伯来传说中的有生命的假人

短语

Clay Golem 粘土石魔 ; 黏土石魔 ; 黏土魔像 ; 土傀儡

The Golem 泥人历险记 ; 傀儡人 ; 巨魔像

Steel Golem 钢魔像 ; 全金属模型 ; 钢铁魔像 ; 模型


求一些简单的机器人英文资料,要有中文的对照翻译


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 Ds: 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 Electroluxs Automower.
Other domestic robots have the aim of providing companionship (social robots) or play partners (ludobots) to people. Examples are Sonys 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 Seawrights House Plants, 1983, in which an artificial flower opens in response to viewer interaction or Ken Rinaldos Autotelematic Spider Bots, 2006 where robots that appear like spiders, see like bats and act like ants interact with the public and structure each others 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

我来试试。
关机选项(请查看最前页框图): 由于补偿端子和软开始端子(管脚9和管脚8)都有电流源拉升,所以二者中的任一端子都可以接受一个下拉信号从而关闭输出——这个下拉信号只需下拉最多100ma即可。这依赖于额外的连接到这些管脚上的电容进行放电。另外一种方法是使用管脚10上的关机电路,这一电路已被改进以增强可用的关机选项。在管脚10上加上一个正信号激活这一电路,可以实现两个功能:pwm(脉宽调制)锁立即在输出中产生最快速度的关闭信号,同时一个150ma的吸入电流开始让外接软开始电容器放电。如果关机命令很短促,pwm(脉宽调制)信号终结时外接软开始电容器放电并不多,因此,举个例子,可以实现一种方便的方式,来产生脉冲式限流。否则,管脚10高电平保持较长时间则会导致外接电容器彻底放电,而在释放后(取消管脚10的高电平,我认为是这个意思),重新开始一个慢速启动。当发现噪声拾取停止正常运行时,管脚10(电平)不应当继续浮动。

Chroino is a small humanoid robot with friendly appearance and sophisticated movements. A newly-developed outer covering that serves also as a frame is called a “monocoque frame” and is made of carbon and plastic, giving Chroino a friendly appearance, light weight and strong frame.
Using a new technology named SHIN-Walk, Chroino has the ability to walk more naturally than traditional robots that walk stiffly with constantly bent knees. The ability to walk naturally, similar to a human, have long been expected. Thanks to this latest advancement in technology developed by Robo Garage, SHIN-Walk allows Chroino to walk almost as smoothly as a human.
Chroino was created by Mr. Tomotaka Takahashi from Robo Garage, the only scientist involved in the entire development process – from the design to the production stage – to create this futuristic robot.
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Chroino是一个拥有友善的表情和熟练动作的小型的类人行机器人。由于这个机器人运用一种新开发的由碳和塑料“monocoque frame”做成覆盖表面,所以Chroino拥有一个友善的外表,较轻的重量和强硬的结构。
基于用上新科技SHIN-Walk,Chroino能够通过弯膝来走路并且比传统的机器人走得更加自然和稳。能够像人类一样自然的走路已经被期待很久了。 感谢由Robo Garage开发这项最新的先进的科技----SHIN-Walk。并使Chroino走起路来像人类一样的平稳。
Chroino是由来自Robo Garage的Tomotaka Takahashi先生制造的。他是唯一一位被涉及到整个开发过程,从制作阶段的设计到制造这个未来机器人的科学家。
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