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It's started: Robot Uprising Begins as China Turns to Machines to Fill in Gaps in the Workforce

looks like it's got new legs and software. no need to do tap dancing all the time like before.

i wan't to see that faster and stronger version that mention at the end of the video. i hope it will be closer to the cheetah bot by mit. that would be awesome. :D
 
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World Intelligence Underwater Robots Challenge opens in Tianjin
Source: Xinhua| 2019-05-15 16:22:40|Editor: Liu

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Team members of Ocean University of China control an underwater robot during the World Intelligence Underwater Robots Challenge held in north China's Tianjin, May 15, 2019. The World Intelligence Underwater Robots Challenge opened here on Wednesday, attracting 13 teams from China, the United States, Japan and Australia. The competition, with the theme "Dream pursuer in the water, intelligence winner in the future," is one of the five competitions being held during the third World Intelligence Congress. (Xinhua/Yue Yuewei)

TIANJIN, May 15 (Xinhua) -- The World Intelligence Underwater Robots Challenge opened in north China's Tianjin Municipality on Wednesday, providing a platform for international teams to showcase the function and intelligence of underwater robots.

The competition, with the theme "Dream pursuer in the water, intelligence winner in the future," is one of the five competitions being held during the third World Intelligence Congress.

Two venues are set up for the competition, including indoor enclosed water and outdoor open water.

The underwater contest is held in the indoor water. Underwater robots' comprehensive performance will be evaluated upon underwater speed, photography, grasp, precise work, and other catagories.

Emergency rescue contest will be conducted in outdoor open waters.

This competition attracts 13 teams from China, the United States, Japan and Australia. Meanwhile, many well-known Chinese and foreign scholars and representatives of enterprises and public institutions in underwater intelligent robots and marine science and technology have been invited to this event.

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5G-based unmanned mining truck makes debut in Inner Mongolia
Source: Xinhua| 2019-05-17 09:15:32|Editor: Liangyu

HOHHOT, May 17 (Xinhua) -- A mining truck carrying iron ore moves carefully in the Bayan Obo mining area, northern China's Inner Mongolia Autonomous Region. It can accelerate, avoid obstacles and dump materials in specific areas without a driver inside.

Measuring 6.8 meters tall, the 5G network-based autonomous mining truck has a payload capacity of 170 tonnes. It was developed by the Baogang Group, Inner Mongolia branch of China Mobile and Beijing-based Tage Idriver, a service provider in autonomous driving for open-pit mines.

A total of four such unmanned mining trucks have been put into use in the Bayan Obo mining area, known as China's "rare earth capital." The proved rare earth reserve in the area reached around 100 million tonnes, accounting for around 83 percent of the country's total and 38 percent of the world.

Equipped with technologies such as laser radar, millimeter-wave radar and 5G-V2X wireless communication, the truck has various functions including remote control, precise parking and obstacle avoidance. The new trucks can improve the efficiency of mining cars under special circumstances and reduce operational risks.

The 5G base station equipment deployed by China Mobile and Chinese tech giant Huawei in the mining area provides faster, safer and more reliable information exchange for the trucks, thus enabling efficient monitoring, dispatching and management of mining vehicles, according to Zhang Yanghai, a staff member from the Inner Mongolia branch of China Mobile.

Compared with traditional mining trucks that use human drivers, autonomous vehicles are more efficient and cheaper to maintain. The Bayan Obo mining area plans to purchase more unmanned mining trucks and transform existing traditional vehicles, making over 65 percent of its mining cars autonomous in the future.

Sun Guolong, general manager of Baogang Group, said the application of 5G mobile communication and artificial intelligence (AI) is of great significance to the construction of the company's smart mines. The group will make full use of the internet, robots, AI and other new technical means to realize intelligent mining.

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China’s medical robot sees shorter cycle of R&D and phenomenal growth
By Miao Wanyi (People's Daily Overseas New Media) 16:47, May 29, 2019

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Tianji medical robot, photo courtesy to TINAVI

Imagine you are being put on an operating table only with a silent and chill-feeling robot surgeon by your side.

Will you be afraid? Will you trust the robot to operate surgery?

No matter how scared you may feel with those cold hands and arms inside your body, surgical robots (medical robots includes surgical and assistant robots) will embrace a stunning 30% growth by 2021, accounting for 60% of the total increase of medical robots which are expected to hit $20.7 billion, according to report from Research & Markets, world’s largest market research institute.

The data of growth skews in Asia, especially in China.

The atmosphere of congruency that pervaded on second international forum on innovation and development of medical robot on May 26 was practically palpable. Experts from the US, Switzerland and Japan consistently ratchet up the consent optimism towards China’s political and financial support of medical robots innovation.

Tianji, a China’s self-developed surgical robot, is said to be world’s only robot to help perform orthopedic surgeries. The robot is able to shorten 2/3 operation time in spine surgery, whose developer, TINAVI, a Beijing-based producer of the robot, becomes world’s second profitable company aside Intuitive Surgical, a US medical firm, who developed the world’s dominant da Vinci surgical system, Zhang Songgen, chairman of the company said at the forum.

Surgical reality and autonomy of surgical robots are two of the most significant aspect of human-robot interaction under the trending AI, AR and 5G technology, as surgeons pursue more acute medical treatment and smaller cut for patients, Stefan Weber, director of ARTORG center of biomedical engineering research noted at the forum.

In addition, establishment of a modern science and technology research method system for traditional Chinese medicine is a long-term trajectory. Digital devices has been applied on the objectification of pulse diagnosis of traditional Chinese medicine and the modernization of pulse detection.

Xima pulse monitor, a Shanghai-developed pulse diagnosis system, can constantly monitor human’s organ condition, pulse, and sleep via a wearable ring or a bracelet. The data is simultaneously processed to reflect the health condition on different platforms, such as mini-programs on WeChat, a popular Chinese social media platform and its self-developed app.

The combination of eastern and western medical science is of great importance to enhance technical research on medical robots and explore possibilities of human-robot interaction, said Masakatsu Fujie, tenured professor of Waseda University in his presentation on the forum.

Through detailed market categorization, production of medical robots is no longer shelved in college’s lab and floating in medical scientists’ minds. China’s sprint-like development of medical robots in the last 20 years was benefited from the continuous effort on systematic innovation and adaptable standardization in the medical robot industry.

The lab-to-operating-table venture that medical robots experienced witnessed the rapid growth of China’s commitment on providing better medical service for public, as China’s food and drug administration in 2017 began to encourage pharmaceutical medical device innovation. Moreover, information transparency is set to support the fundamental R&D projects in a bid to promote the medical market welfare in general.
 
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China's battery factory adopts automated robots on assembly line
New China TV
Published on Jun 23, 2019

Better, faster and energy-saving! China's battery factory adopts automated robots on assembly line.
 
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27 Jun 2019 | 21:35 GMT
Robot Squid and Robot Scallop Showcase Bio-inspired Underwater Propulsion
Animals have lots of creative ways of moving through the water, and robots are stealing them
By Evan Ackerman

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Image: Beihang University
Illustration showing the flying robot squid using a water jet to propel itself out of the water, glide in mid-air, and dive back into the water.


Most underwater robots use one of two ways of getting around. Way one is with propellers, and way two is with fins. But animals have shown us that there are many more kinds of underwater locomotion, potentially offering unique benefits to robots. We’ll take a look at two papers from ICRA this year that showed bioinspired underwater robots moving in creative new ways: A jet-powered squid robot that can leap out of the water, plus a robotic scallop that moves just like the real thing.


...

Robot Squid and Robot Scallop Showcase Bio-inspired Underwater Propulsion - IEEE Spectrum

 
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Robotics, 5G a potent pair, says tech executive
By Li Wenfang in Guangzhou | China Daily | Updated: 2019-07-19 09:01

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A robot capable of simulating human movements using a 5G network is displayed at the opening of the Jiangxi International Mobile Internet of Things Expo in Yingtan, Jiangxi province, on Thursday. [Photo/Xinhua]

Mak Hin-yu of the Hong Kong Special Administrative Region expects a strong performance next year for his company - a developer of 5G-enabled motion-controlled humanoid robots - as 5G telecom service is set to begin in China.

Company revenue could easily reach 100 million yuan ($14.54 million), with applications possible in a wide range of areas including public security, customs and hospitals, said Mak, co-founder and chief technology officer of Roborn Dynamics.

Through a self-developed algorithm, four controlling sensors, and the operator's body and finger movements, the robot can be directly controlled at the whim of the user, he said.

The technology can help in life-threatening missions as well as in rehabilitation and education. A mid-to high-end Roborn robot costs about 400,000 yuan.

Founded in 2017, Roborn started collaborating on 5G applications with telecom operator China Mobile and telecom vendor ZTE Corp in November.

Thanks to the large bandwidth and low time delays, 5G technology allows smoother robot actions and better synchronization between the operator and the robot, he said.

"Telecom operators are also promoting 5G applications. I'm optimistic about the market," Mak said, adding that his team has promoted the products in almost all provinces in the country.

The company employs seven people in Hong Kong for project management and software development and about 50 in Jiangmen, Guangdong province, where a research and development center is located and a manufacturing facility is planned. The staff at the center is set to exceed 100 by the end of this year.

It also runs a sales and management office in Guangzhou and electric motor developing operations in Dongguan, two other cities in Guangdong.

The greater integration of the Guangdong-Hong Kong-Macao Greater Bay Area has provided greater convenience for Hong Kong startups and more flexibility to employees, Mak said, citing easier transport via a high-speed railway and the Hong Kong-Zhuhai-Macao Bridge, as well as favorable personal income tax rates on Hong Kong and Macao talent working in Guangdong cities in the area.

Apart from financial support from the Hong Kong government, the company - as an entrepreneurial and innovative entity - has also received support in Guangdong such as preferential rental rates, access to an industrial fund and housing subsidies.

Such support is helpful to the company and it plans to talk with investors as it anticipates rapid business expansion, Mak said.

The outline development plan for the Greater Bay Area released in February pledges to "support young people and micro, small and medium-sized enterprises from Hong Kong and Macao to realize their development potential on the mainland, extend local entrepreneurship subsidies, (provide) support to cover eligible entrepreneurs from Hong Kong and Macao and proactively take forward the development of youth entrepreneurship and employment bases for Hong Kong and Macao".

Roborn will draft a development blueprint closely related to 5G development in China, he said.

The company has also signed up for an entrepreneurship and innovation competition in Guangdong province.

The Community Entrepreneurs Cup competition will take place later this year with contestants from Hong Kong and Macao to attend.

Focused on serving the Guangdong-Hong Kong-Macao Greater Bay Area, the competition is meant to facilitate the commercialization of scientific and technological research results and the industrial chain in the region, it was announced at a news conference last month in preparation for the competition.
 
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Watch this paper doll do sit-ups thanks to new kind of “artificial muscle” | Ars Technica
Flexible material contracts in response to ethanol vapor, relaxes when vapor is gone.

JENNIFER OUELLETTE - 7/21/2019, 9:00 PM

A new twist on a special kind of polymer is what enables this paper doll to do calisthenics.

A new twist on lightweight organic materials shows promise for artificial-muscle applications. Chinese scientists spiked a crystalline organic material with a polymer to make it more flexible. They reported their findings in a new paper in ACS Central Science, demonstrating proof of concept by using their material to make an aluminum foil paper doll do sit-ups.

There's a lot of active research on developing better artificial muscles—manmade materials, actuators, or similar devices that mimic the contraction, expansion, and rotation (torque) characteristic of the movement of natural muscle. And small wonder, since they could be useful in a dizzying range of potential applications: robots, prosthetic limbs, powered exoskeletons, toys, wearable electronics, haptic interfaces, vehicles, and miniature medical devices, to name just a few. Most artificial muscles are designed to respond to electric fields, (such as electroactive polymers), changes in temperature (such as shape-memory alloys and fishing line), and changes in air pressure via pneumatics.

Yet artificial muscles typically weigh more than scientists would like and don't respond as quickly as needed for key applications. So scientists are keen to develop new types of artificial muscle that are lightweight and highly responsive. Just this past week, Science featured three papers from different research groups (at MIT, University of Texas at Dallas, and University of Bordeaux) describing three artificial-muscle technologies based on tiny twisted fibers that can store and release energy.

Enlarge / Chinese scientists figured out how to make a flexible membrane out of COFs by adding polyethylene glycol.
YouTube/American Chemical Society


The Chinese scientists built their version of an artificial muscle out of a special class of materials known as covalent organic frameworks (COFs), first synthesized in 2005. To make COFs, scientists link up certain carbon-containing molecules (boric acid, for example) via covalent bonds (in which atoms share electron pairs) into a porous crystalline powder. That crystalline structure imparts mechanical properties that are useful for catalysis, gas storage, and drug delivery, for example. But a standard COF is too brittle to fashion into sheets or membranes, which would open a whole new swathe of practical applications.

The Chinese scientists added polyethylene glycol into the reactant mix when building their COF compound, which effectively bridged the porous spaces to create a version that was much more compact and flexible. A membrane made of this polymer covalent organic framework (polyCOF) can be bent, twisted, and stretched repeatedly. The team also noticed that, when exposed to certain chemical vapors, the membrane would curl up, then uncurl as soon as it was no longer in contact with the vapor. Those two properties make polyCOFs a promising candidate for future artificial-muscle applications.

As proof of concept, the Chinese researchers used a membrane as the waist of a paper doll they fashioned out of aluminum foil. Then they exposed the doll to ethanol vapors. The membrane contracted in response, causing the doll to sit up. The membrane relaxed when the vapor was no longer present, and the doll sat back down. The researchers were able to repeat this process several times. They surmise that the polyCOF pores expand upon binding with molecules in the gas, and this is what's causing the contraction.

DOI: ACS Central Science, 2019. 10.1021/acscentsci.9b00212
 
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Across China: Space robot technology used for grid inspection in southwest China
Source: Xinhua| 2019-07-25 23:07:23|Editor: ZX

CHONGQING, July 25 (Xinhua) -- A black robot about 90 cm tall opened a power box and flicked an air switch inside, this is what happened Wednesday at an electrical substation in Chengdu, capital of southwest China's Sichuan Province.

The small robot was remotely controlled by workers in the maintenance unit of the State Grid Sichuan Electric Power Company and was used for the first time for grid maintenance. The robot's true significance however is that it is powered by technology developed for space exploration.

Sichuan is a major province in generating electricity with one of the most expansive grids in China.

Robots are often used in substations in China for maintenance, but they are usually loaded with different sensors for gathering information. However, this one can directly operate in the power boxes, said Zhang Yao, a worker with the Sichuan company.

Zhang is a team leader in his company on the project to apply the robot in their maintenance work. The robot was jointly developed by an institution under China Aerospace Science and Technology Corporation and Zhang's company.

"It used a space robot as a prototype and was adapted to specialize in grid maintenance," said Zhang, adding that it is expected to be more widely used in two years.

Zhang's company maintains 52 substations and switch stations across Sichuan, and some are in remote mountainous areas, which pose great challenges to the safety of production.

Since April, Zhang's team has started to conduct studies on the robot for wider applications, with the ultimate aim of replacing part of the human operations gradually.

"The robot is of great significance to improving maintenance capacities in remote areas and increasing productivity," said Wang Hongmei, chief engineer of the maintenance unit under the State Grid Sichuan Electric Power Company.

In the trial on Wednesday, the robot is capable of replacing over half of the manual operations.

"We still need to enhance the stability of the signal transmission, expand the functionality of the robot arms and develop artificial intelligence algorithms for it to work more independently," said Zhang.
 
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Robotic arms created for space missions to help sort garbage on Earth
Source: Xinhua| 2019-07-31 18:37:04|Editor: huaxia


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Photo shows that two robotic arms are sorting household garbage carried by a conveyor belt. (Photo provided by the China Academy of Launch Vehicle Technology)

CALT scientists have developed a high-precision robotic arm previously used during space missions into a garbage sorting expert.

BEIJING, July 31 (Xinhua) -- Sorting garbage on Earth will be easier thanks to a helping hand from a robotic arm in space.

Chinese scientists have developed a robotic arm for garbage collecting and separating, which was originally created for space missions and was first launched by China's Long March-7 rocket in 2016.

The arm, designed and built by the China Academy of Launch Vehicle Technology (CALT), a developer of the country's rockets, has been tested to remove space debris, including rocket emissions and fragments from disintegration, erosion and collision.

There are billions of pieces of millimeter-sized debris around Earth, which require precise capture and disposal that could be provided by the robotic arm.

It turns out that the high precision achieved in space is also very useful for sorting household garbage on Earth. Scientists from the CALT, using space and artificial intelligence technologies, have upgraded the arm into a high-efficient garbage sorting tool.

The robot has learned to sort garbage by scanning waste items with a visual identification system. In experiments, it can quickly identify and sort all types of household garbage.

According to scientists, it has an accuracy of more than 94 percent, which is comparable to manual sorting. Even if a target is covered by as much as 30 percent by other items, the robot can also identify and sort it accurately.

The robot can be equipped with up to 30 arms working at the same time. With one camera and four robots, the technology could sort 300 tonnes of garbage a day.

"It enables humans to say goodbye to dirty garbage sorting work," said Wang Yanbo, head of the program.

China has been promoting garbage sorting to improve the living environment and contribute to green and sustainable development. By the end of 2020, garbage sorting systems will have been built in 46 major Chinese cities.

The robotic arms can also be used to sort packages for delivery, food, drug and agricultural products, according to the CALT.
 
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You can’t squash this roach-inspired robot | Berkeley News
By Kara Manke| JULY 31, 2019

A new insect-sized robot scurries at the speed of a cockroach and can withstand the weight of a human. (UC Berkeley video by Stephen McNally)

If the sight of a skittering bug makes you squirm, you may want to look away — a new insect-sized robot created by researchers at the University of California, Berkeley, can scurry across the floor at nearly the speed of a darting cockroach.

And it’s nearly as hardy as a cockroach, too. Try to squash this robot under your foot, and more than likely, it will just keep going.

“Most of the robots at this particular small scale are very fragile. If you step on them, you pretty much destroy the robot,” said Liwei Lin, a professor of mechanical engineering at UC Berkeley and senior author of a new study that describes the robot. “We found that if we put weight on our robot, it still more or less functions.”

Small-scale robots like these could be advantageous in search and rescue missions, squeezing and squishing into places where dogs or humans can’t fit, or where it may be too dangerous for them to go, said Yichuan Wu, first author of the paper, who completed the work as a graduate student in mechanical engineering at UC Berkeley through the Tsinghua-Berkeley Shenzhen Institute partnership.

“For example, if an earthquake happens, it’s very hard for the big machines, or the big dogs, to find life underneath debris, so that’s why we need a small-sized robot that is agile and robust,” said Wu, who is now an assistant professor at the University of Electronic Science and Technology of China.

The study appears today (Wednesday, July 31) in the journal Science Robotics.

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The robot is built of a layered material that bends and straightens when AC voltage is applied, causing it to spring forward in a “leapfrogging” motion. (UC Berkeley photo by Stephen McNally)

The robot, which is about the size of a large postage stamp, is made of a thin sheet of a piezoelectric material called polyvinylidene fluoride, or PVDF. Piezoelectric materials are unique, in that applying electric voltage to them causes the materials to expand or contract.

The researchers coated the PVDF in a layer of an elastic polymer, which causes the entire sheet to bend, instead of to expand or contract. They then added a front leg so that, as the material bends and straightens under an electric field, the oscillations propel the device forward in a “leapfrogging” motion.

The resulting robot may be simple to look at, but it has some remarkable abilities. It can sail along the ground at a speed of 20 body lengths per second, a rate comparable to that of a cockroach and reported to be the fastest pace among insect-scale robots. It can zip through tubes, climb small slopes and carry small loads, such as a peanut.

Perhaps most impressively, the robot, which weighs less than one tenth of a gram, can withstand a weight of around 60 kg — about the weight of an average human — which is approximately 1 million times the weight of the robot.

“People may have experienced that, if you step on the cockroach, you may have to grind it up a little bit, otherwise the cockroach may still survive and run away,” Lin said. “Somebody stepping on our robot is applying an extraordinarily large weight, but [the robot] still works, it still functions. So, in that particular sense, it’s very similar to a cockroach.”

The robot is currently “tethered” to a thin wire that carries an electric voltage that drives the oscillations. The team is experimenting with adding a battery so the robot can roam independently. They are also working to add gas sensors and are improving the design of the robot so it can be steered around obstacles.

Co-authors of the paper include Justin K. Yim, Zhichun Shao, Mingjing Qi, Junwen Zhong, Zihao Luo, Ronald S. Fearing and Robert J. Full of UC Berkeley, Xiaojun Yan of Beihang University and Jiaming Liang, Min Zhang and Xiaohao Wang of Tsinghua University.

This work is supported in part by the Berkeley Sensor and Actuator Center, an Industry-University Cooperation Research Center.


Yichuan Wu, Justin K. Yim, Jiaming Liang, Zhichun Shao, Mingjing Qi, Junwen Zhong, Zihao Luo, Xiaojun Yan, Min Zhang, Xiaohao Wang, Ronald S. Fearing, Robert J. Full, and Liwei Lin. Insect-scale fast moving and ultrarobust soft robot. Science Robotics (2019). DOI: 10.1126/scirobotics.aax1594
 
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NEWS RELEASE 2-AUG-2019
Agile untethered fully soft robots in liquid
SCIENCE CHINA PRESS

(a) Photographs of a robot targeting an LED-indicated path. The targeting demonstration shows the accuracy that the robot control can achieve. (b) Comparison of the measured relative noise level of a soft macro robot and a battery-powered, similarly sized toy boat. RSPL denotes to the relative sound pressure level. The robot exhibits a much lower noise level compared to the toy boat. (c) Photographs of a cold robot moving in warm water taken by an infrared video camera and a normal camera, respectively. CREDIT: ©Science China Press

Soft robots have gained much attention in the past several years for their unique characteristics compared to traditional rigid robots. However, unlike the Baymax in the film "Big Hero 6", state-of-the-art soft robot is just a prototype in labs, usually tethered, which means it requires an electrical wire or pneumatic tubing for powering. To exploit the full potential of soft robots, untethered design is preferred. Existing approaches to equip the soft robots with untethered design usually involve high energy-density powering sources, which leads to integration problems, otherwise the robot will be bulk and clumsy for carry low energy-density power sources.

In nature are enormous creatures who have evolved for billions of years for surviving. Rove beetles in genus Stenus, a type of terrestrial insects lives around pools or streams, would gain a burst of kinetic energy to escape when they accidentally fell onto the water, by secreting chemicals to generate a surface energy gradient. Such a propulsive process, commonly known as Marangoni Propulsion, was adopted by live creatures, so it was mild and gentle, completely compatible with soft materials.

In a new research article published in the Beijing-based National Science Review, scientists at Huazhong University of Science & Technology report an untethered fully soft robot in liquid whose actuation employs environmental energy gradients. By releasing environmental active materials (EAMs) to the liquid environment, the robot could gain an agile speed of 5.5 body lengths per second, which is 7 times higher than the best reported value in the untethered soft robotic fish.

"A few advantages occur by adopting such aß mechanism, such as quietness, no thermal fatigue and so on." Prof. Zhigang Wu said, "More importantly, the actuation and the robot functional realization can be complemented separately. The designer, for the first time, gains the opportunity to focus on the function realization. This might enable the soft robot in some untouched scenarios in the future."



Agile untethered fully soft robots in liquid | EurekAlert! Science News

Liang Xiong Lyu, Fen Li, Kang Wu, Pan Deng, Seung Hee Jeong, Zhigang Wu, Han Ding. Bio-Inspired Untethered fully soft Robots in Liquid Actuated by Induced Energy Gradients. National Science Review (2019). DOI: https://doi.org/10.1093/nsr/nwz083
 
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Chinese students set record in RoboSub win
2018-08-06 16:31:43Ecns.cnEditor : Mo Hong'e
ECNS App Download

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A student from Harbin Engineering University operates on the computer during the 21st International RoboSub Competition held in San Diego, the United States. (Photo provided to China News Service)

(ECNS) - A student team from Harbin Engineering University has won first place in the 21st International RoboSub Competition held in San Diego, the United States, setting a record among Chinese universities.

An EV team from the university is attending the contest for the 8th time since 2011. EV teams won 4th place, 5th place, 6th place and 4th place in 2012, 2013, 2016 and 2017 respectively.

RoboSub, an underwater robotics program, allows high school and college students from around the world to design and build an autonomous underwater vehicle (AUV) that navigates a series of tasks, mimicking ongoing research.

Since the competition started in 1998, all previous first-place winners were students from the United States or Canada.

The 2018 International RoboSub Competition ran from July 30 to Aug. 5 and was held at the U.S. Navy Space and Naval Warfare Systems Center Pacific's TRANSDEC facility in San Diego. It is organized by RoboNation with funding from the U.S. Office of Naval Research and hosted by the U.S. Navy’s SSC Pacific.

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From slayerhuahua of cjdby.net

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They did it again this year! :china::china::china:


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