搜索结果: 136-150 共查到“国际动态 控制科学与技术”相关记录497条 . 查询时间(1.463 秒)
Imagine an aircraft that could alter its wing shape in midflight and, like a pelican, dive into the water before morphing into a submarine. Cornell University engineering professor Rob Shepherd and hi...
Super elastic electroluminescent ‘skin’ will soon create mood robots
Super elastic electroluminescent skin mood robots
2016/3/3
Imagine a health care robot that could display the patient’s temperature and pulse, and even reacts to a patient’s mood. It sounds futuristic, but a team of Cornell graduate students – led by Rob Shep...
National Science Foundation and federal partners award $37M to advance nation's co-robots
National Science Foundation federal partners award $37M nation's co-robots
2015/12/17
Today the National Science Foundation (NSF) -- in partnership with the Department of Defense (DOD), the Defense Advanced Research Projects Agency (DARPA), theNational Aeronautics and Space Administrat...
This was the call from an ITN/ODN television news reporter following a massive 2011 earthquake in Van Province, Turkey.For Jessy Grizzle, a robotics engineer at the University of Michigan in Ann ...
英国利兹大学开发机器人远程无线充电新技术
英国利兹大学 机器人远程无线充电新技术
2015/12/9
根据英国利兹大学网站2015年6月29日发布的消息,该校研究人员正在开发利用微波波束为机器人及其它数字装置实现远程充电的新技术。该研究项目获工程与自然科学研究理事会资助100万英镑。项目名为“SWIFT”,历时3年,由利兹大学与伦敦大学国王学院以及兰卡斯特大学合作实施,诸多国内工业合作伙伴以及一些著名的国际合作伙伴如普林斯顿大学和新加坡国立大学提供支持。
HARVARD MICROROBOTICS LAB DEVELOPS FIRST INSECT-SIZE ROBOT CAPABLE OF FLYING AND SWIMMING
HARVARD MICROROBOTICS LAB INSECT-SIZE ROBOT CAPABLE FLYING SWIMMING
2015/10/21
In 1939, a Russian engineer proposed a “flying submarine” -- a vehicle that can seamlessly transition from air to water and back again. While it may sound like something out of a James Bond film, engi...
These microscopic fish are 3D-printed to do more than swim(图)
microscopic fish 3D-printed more than swim
2015/8/25
Nanoengineers at the University of California, San Diego used an innovative 3D printing technology they developed to manufacture multipurpose fish-shaped microrobots — called microfish — that swim aro...
Instability in engineering is generally not a good thing. If you’re building a skyscraper, minor instabilities could bring the whole structure crashing down in a fraction of a second. But what if a qu...
能自我进化的机器人“问世”
机器人 英国
2015/8/13
英国和瑞士科学家携手研制出了一种能自我进化并不断改进性能的机器人系统。他们的最终目标是研制出能适应周围环境的机器人,这些机器人未来或能应用于汽车制造或农业领域。
新一代机器人能像人一样自我适应环境
机器人 像人一样 自我适应环境
2015/7/16
德国马普智能系统研究所开发出了两款新一代机器人。这种机器人可以像人一样具有自我学习和自我适应环境的功能,被称为仿人机器人,未来可以在许多复杂的环境中替代人类工作。
目前国际上开发的大多数智能机器人在复杂环境中还难以做到像人一样动作自如,机器人面对复杂的地形或障碍物,无法像人一样及时反馈信息,并做出适应环境的新决定。例如在一个倒塌的核反应堆里进行关闭阀门、操作电泵等动作。这些机器人只能根据事先设定...
Engagement in STEM through robotics,mechatronics,cybersecurity and more
STEM robotics mechatronics cybersecurity
2015/7/9
NYU Polytechnic School of Engineering kicks off its Summer of STEM today. Science, technology, engineering and mathematics are the focus, with both teachers and students gaining new opportunities for ...
Tough tail of a seahorse may provide robotic solutions(图)
Tough tail seahorse robotic solutions
2015/7/2
One of the ocean’s oddest little creatures, the seahorse, is providing inspiration for robotics researchers as they learn from nature how to build robots that have capabilities sometimes at odds with ...
Why the Seahorse’s Tail is Square and How It Could be an Inspiration for Robots and Medical Devices(图)
Seahorse’s Tail is Square Inspiration for Robots Medical Devices
2015/7/2
Why is the seahorse’s tail square? An international team of researchers has found the answer and it could lead to building better robots and medical devices. In a nutshell, a tail made of square, over...
Iowa State engineers develop micro-tentacles so tiny robots can handle delicate objects
Iowa State engineers micro-tentacles so tiny robots handle delicate objects
2015/6/19
The tiny tube circled an ant’s thorax, gently trapping the insect and demonstrating the utility of a microrobotic tentacle developed by Iowa State University engineers.“Most robots use two fingers and...
日本发布《机器人新战略》
机器人新战略 IT技术
2015/5/15
日本政府于1月下旬发布了《机器人新战略(Japan’s Robot Strategy)》。该战略认为,在世界快速进入物联网时代的今天,日本要继续保持自身“机器人大国”(以产业机器人为主)的优势地位,就必须策划实施机器人革命新战略,将机器人与IT技术、大数据、网络、人工智能等深度融合,在日本积极建立世界机器人技术创新高地,营造世界一流的机器人应用社会,继续引领物联网时代机器人的发展。