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Northwestern University Mechanical Engineering professor Todd Murphey and his team are engineering robots to mimic humans. With support from the National Science Foundation, the team is using algorithms to enhance a robot’s ability to adapt to human behaviors. Part of the "Science Nation" series.
(Source: DCMP)
Cubelets are magnetic, electronic building blocks, each with a small computer inside, that can be connected in many different ways to move around a table, follow a hand signal, turn on a light, play sounds, or do many other creative tasks. They were developed by Eric Schweikardt and his team at Modular Robotics, with support from the National Science Foundation’s Small Business Innovation Research (SBIR) program. These 21st century building blocks are meant to help kids learn about the basics of robotics while boosting their confidence to solve problems.
This project envisions a future where 3-D robotic systems can be produced and designed using 2-D desktop technology fabrication methods. If this feat is achieved, it would be possible for the average person to design, customize, and print a specialized robot in a matter of hours. This new project would completely automate the process, from sketches on-demand, anywhere, and with the skill of a team of professional engineers, leading to potential transformations in advanced manufacturing. The Computer Science and Artificial Intelligence Laboratory, known as CSAIL is focused on conducting groundbreaking research in artificial intelligence, computer systems, and the theory of computation, while also tackling pressing societal challenges such as education, health care, manufacturing and transportation. Part of the National Science Foundation Series “Science Nation.”
Emergency Integrated Lifesaving Lanyard (EMILY) is called into action by lifeguards and emergency response teams around the world for water rescues. With support from the National Science Foundation, roboticist Robin Murphy of Texas A&M University and her colleagues are developing some upgrades to make EMILY and other rescue robots "smarter" for large-scale water rescues, such as a capsized ferry or water taxi. Part of the "Science Nation" series.
Research engineers and students in the University of California, Los Angeles, Biomechatronics Lab are designing artificial limbs to be more sensational, with the emphasis on sensation. With support from the National Science Foundation, the team, led by mechanical engineer Veronica J. Santos, is constructing a language of touch that both a computer and a human can understand. Part of the National Science Foundation Series “Science Nation.”
Part of a series that features a wide variety of video footage, photographs, diagrams, graphics, and labels. For this particular video, students will focus on the correct methods to clean up and dispose of materials in a science lab. Students also learn how to safely clean up chemical spills. Part of the Science Video Vocab series.
Can we trust the robots of the future? Explores the world of artificial intelligence, taking us into labs and workshops where innovators teach robots to perceive, think, and move just like human beings.
Imagine robots no bigger than a fingertip scrambling through the rubble of a disaster site to search for victims or to assess damage. That’s the vision of engineer Sarah Bergbreiter and her research team at the University of Maryland. With support from the National Science Foundation (NSF), they’re building micro-robots to create legs that will ultimately allow a millimeter-scale robot to traverse rough terrain at high speeds. Part of the National Science Foundation Series “Science Nation.”
With support from the National Science Foundation, computer scientist Manuela Veloso and her team at Carnegie Mellon University are developing CoBots, autonomous indoor service robots to interact with people and provide help. CoBots can transport objects, deliver messages, and escort people to places. They are able to plan their paths and smoothly navigate autonomously.
Robotic arms are cool, useful, and fun to make. In this video from "Design Squad Nation," students design and build controllable mechanical arms and use their "robo" arms to lift objects and play a series of games. As they build their mechanical arms, the students use the engineering design process, apply a variety of science concepts, and learn how NASA uses robotic arms in many of its missions. Part of the "Design Squad Nation" series.
Scientists are using a hummingbird robot to explore places that drones can't reach. Other segments include a new genomic resource for improving tomatoes, a promising new battery to store clean energy, and new evidence that adding carbohydrates to mammal's diet changed their genes and saliva. Part of the "4 Awesome Discoveries You Probably Didn't Hear About This Week" series.
The inventions of the 1960s were all about transforming science fiction into fact. Robots, satellites and a trip to the moon help make what was once only fantasy, become a reality. Featured inventions include: the Lunar Lander, weather satellites, video game consoles, Tasers, and industrial robots.
It's likely one day there will be robots crawling around that look a lot like caterpillars. With funding from the National Science Foundation, Tufts Biology Professor Barry Trimmer is researching the neuromechanics of caterpillars. The applications for this research include the development of soft-bodied robots for use in medicine, environmental safety, industry, and defense.
In less than a second a sandfish lizard can dig its way into the sand and disappear. The sandfish's slithering moves are inspiring new robotic moves that could one day help search and rescue crews find survivors in piles of rubble left from disasters. With support from the National Science Foundation, physicist Daniel Goldman and his team at Georgia Tech are studying the lizard’s movements, using x-rays to track it underground. Their findings will contribute to engineering designs for deployable robots that could one day help canine search and rescue teams find survivors more quickly.
Harvard University, electrical engineers Rob Wood and Gu-Yeon Wei, and computer scientist Radhika Nagpal created the “RoboBee,” a miniature flying robot, inspired by the biology of a bee and the insect’s hive behavior. With support from the National Science Foundation and a program called Expeditions in Computing, Wood put together a diverse team of collaborators to get the RoboBee project off the ground. Ultimately, the researchers hope to build a colony in which the RoboBees interact, using their hive as a refueling station. They say RoboBees have the potential to be useful in a number of ways, including search and rescue missions, traffic monitoring, and weather mapping. Part of the National Science Foundation Series "Science Nation."
In the previous episode, Nerdo Cavernas revealed Campus Party Colombia 2012. This time Science and Technology will give viewers a little more of the "campuseros", those youngsters who showed their imagination, wit, and knowledge. It is an episode on automation projects, robotics, equipment performance devices, modding, and other areas where 5,000 "campuseros" who attended Campus Party Colombia 2012 stood out.
Adabot wants to know how a light-emitting diode (LED) works. Billie, the blue LED, helps answer the questions. Part of the "Circuit Playground" series.
RoboCup is the Olympics of college-level robotics and artificial intelligence contests. As teams gear up for the next round of competition, the “SpelBots” have positioned themselves as the team to beat. That’s the team from Spelman College, a historically black liberal arts college for women in Atlanta. They tied for first place globally in the humanoid soccer championship in Osaka, Japan in 2009, just four year after becoming the first all-women, African American team to enter the competition.
Adabot finds treasure in his rock collection. It's quartz. Have a look inside a quartz watch and learn why it is so important for electronics. Part of the "Circuit Playground" series.
Landfills are full of tires, and special attention must be given to their disposal. If they are not disposed of appropriately, they can cause contamination problems that affect people’s health, damage the environment, and lead to social and political conflicts.
Showing collections 1 to 2 of 2
Collection of anatomy resources
A collection containing 21 resources, curated by Benetech
3D models and images of the entire periodic table of elements
A collection containing 118 resources, curated by Library Lyna
