搜索结果: 76-90 共查到“国际动态 机器人控制”相关记录317条 . 查询时间(1.984 秒)
3D打印探索制造软体机器人(图)
3D打印 软体机器人 无脊椎机器人
2018/4/27
深海里的软体生物一直都是神秘而暗黑的存在,像章鱼和乌贼这样的头足类动物更是机器人世界的灵感来源。美国陆军研究实验室(ARL)与明尼苏达大学合作,对软体机器人进行探究。该研究小组近期发表了一份研究报告:面对庞大的障碍时,无脊椎机器人拥有天然的优势,可以挤进或绕开障碍物。因此该研究小组展开了对软体机器人的制造。
2018年4月24日,日本东京大学和九州岛工业大学的团队宣布,研发出能自动在海底移动并捕获生物的机器人。据报道,与有人乘坐的探测船和带电缆的远程操控设备相比,该机器人的优点在于使用方便。研发团队希望其对海底环境调查发挥作用。据报道,该机器人为边长约1.3米的立方体,最大下潜深度为2000米。从海上的支持船上放下后,机器人可按预设路线自动航行。每隔几秒,机器人就会对海底进行拍摄,并挑选出不同寻常的地...
德国开发新型纳米机器人电驱动技术
德国 纳米机器人 电驱动技术
2018/4/4
德国慕尼黑工业大学和慕尼黑大学的科研人员合作开发出一种新型纳米机器人电驱动技术,据称其较目前通过加酶和DNA链等生化驱动方法快10万倍。相关研究结果于1月19日以封面故事形式发表在国际权威杂志《科学》上。新的控制技术不仅适合来回移动染料或纳米颗粒,微型机器人的手臂也可对分子施力。研究人员强调,纳米机器人体积小,价格低廉,效率高,可搜索样本中的特定物质或像在流水线上一样逐步合成复杂的分子,用于诊断和...
意大利科学家拟研发“人形”飞行机器人
意大利 科学家 人形 飞行机器人
2018/1/17
开发能够飞行的“人形”机器人,是意大利技术研究所(IIT)正在开展的工作。研究人员认为,目前研究的大多数执行空中操作任务的智能机器人,是通过在四旋翼无人机上装配机器手臂来实现的,这种方式存在明显不足,例如飞行器对周边环境的感知和互动能力较差,在恶劣环境下,操作人员难以精确操控等。将人形机器人与飞行机器人结合在一起,将具有较强的综合技术优势,可以较好解决上述问题。
Scientists Develop Machine-Learning Method to Predict the Behavior of Molecules(图)
Scientists Machine-Learning Method Predict the Behavior of Molecules
2017/10/26
An international, interdisciplinary research team of scientists has come up with a machine-learning method that predicts molecular behavior, a breakthrough that can aid in the development of pharmaceu...
This soft robotic gripper can screw in your light bulbs for you(图)
soft robotic gripper screw in your light bulbs for you
2017/10/25
How many robots does it take to screw in a light bulb? The answer: just one, assuming you’re talking about a new robotic gripper developed by engineers at the University of California San Diego.The en...
Even as robots become increasingly common, they remain incredibly difficult to make. From designing and modeling to fabricating and testing, the process is slow and costly: Even one small change can m...
Can early experiences with computers,robots increase STEM interest among young girls?
early experiences computers robots STEM interest young girls
2017/7/19
Girls start believing they aren’t good at math, science and even computers at a young age — but providing fun STEM activities at school and home may spark interest and inspire confidence.A study from ...
Researchers at Carnegie Mellon University's Robotics Institute have enabled a computer to understand body poses and movements of multiple people from video in real time — including, for the first time...
CMU's Interactive Tool Helps Novices and Experts Make Custom Robots
CMU's Interactive Tool Novices Experts Custom Robots
2017/7/21
A new interactive design tool developed by Carnegie Mellon University's Robotics Institute enables both novices and experts to build customized legged or wheeled robots using 3D-printed components and...
Engineering highly adaptable robots requires new tools for new rules
Engineering highly adaptable robots requires new tools
2017/4/27
Northwestern University mechanical engineering professor Todd Murphey and his team are engineering robots that one might say could make robotic assistance as seamless as "humanly" possible. With suppo...
156 early career engineering researchers to journey to frontiers of their fields,chart new paths
156 early career engineering researchers frontiers of their fields chart new paths
2017/4/27
Today, 156 early career engineering faculty begin a five-year journey that will take them to the frontiers of fundamental engineering research.Supported by grants from the National Science Foundation'...
This paper demonstrates the ability to accurately detect the movement state of Madagascar hissing cockroaches equipped with a custom board containing a five degree of freedom inertial measurement unit...
NSF to host ‘Arc of Science’ event on Capitol Hill
NSF host Arc of Science event Capitol Hill
2017/3/13
On Feb. 15, the National Science Foundation (NSF) and the Coalition for National Science Funding (CNSF) will host "The Arc of Science: Research to Results," an event on Capitol Hill to highlight for n...
Transparent,gel-based robots can catch and release live fish
Transparent gel-based robots catch release live fish
2017/2/16
Engineers at MIT have fabricated transparent, gel-based robots that move when water is pumped in and out of them. The bots can perform a number of fast, forceful tasks, including kicking a ball underw...