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This decade is best remembered for disco and Watergate. But the inventions in the 1970s mark the beginning of the digital age to come. Featured inventions include: cell phones, the bomb disposal robot, Post It Note, hybrid cars, and digital cameras.
(Source: DCMP)
Robotic students at UC Berkeley have designed a small robot that can leap into the air and then spring off a wall. It can also perform multiple vertical jumps in a row, resulting in the highest robotic vertical jumping agility ever recorded. The agility of the robot opens new pathways of locomotion that were not previously attainable. The researchers hope that one day this robot and other vertically agile robots can be used in search and rescue missions.
The smartest people in the world have spent millions of dollars trying to develop high-tech robots. Even though technology has come a long way, these humanoid robots are nowhere close to having the "brain" and motor control of a human. Why is that? A MIT scientist explains the motor control processes in the human brain, and how cutting-edge research is trying to implement it in robots. Part of the "Science Out Loud" series.
Almost fifty years ago the first industrial robot was "employed" in an automobile assembly plant. Robots are regularly used for hazardous, super-heavy and difficult tasks in manufacturing, agriculture, entertainment, medicine, and space exploration. Welding robots with touch sensing and seam tracking abilities increase assembly plant efficiency, while robotic surgery results in less pain, quicker recovery and shorter hospital stays. NASAs robotic rovers Spirit and Opportunity are mapping the terrain and searching for evidence of water on Mars. Honda Motor Company's humanoid robot, ASIMO, can walk, run, recognize people and identify sounds and voices.
Will robots replace humans? Revolutionary new machines are being designed and built for the workplace of tomorrow. Along with visiting robotic labs around the world, this production explores robot-human psychology and tests out an exoskeleton, a robot that you can strap on and wear.
With support from the National Science Foundation, the RoMeLa Lab at Virginia Tech is developing robots to perform a wide variety of tasks and to eventually be able to move and think on their own. The robots in Dennis Hong’s lab climb walls, negotiate bumpy terrain, and type letters.
Robotics is gaining more and more ground in all areas of everyday life. It is increasingly common to see robots in the industrial field, in the workplace, or just being used for fun. Recently, robots have found their place in the educational field. This episode traces the evolution of robots and discusses the technological advances made in the world of robotics.
Assembly line workers won’t be swapping stories with their robotic counterparts any time soon, but future robots will be more aware of the humans they’re working alongside. With support from the National Science Foundation, roboticist and aerospace engineer Julie Shah and her team at the Massachusetts Institute of Technology are developing next generation assembly line robots that are smarter and more adaptable than robots available on today’s assembly lines. Part of the National Science Foundation Series “Science Nation.”
His name is HERB (Home Exploring Robot Butler) and he’s a robotic butler designed to open doors, clean tables, and even retrieve slippers. He doesn't look as human as his Japanese counterparts, but HERB has a bigger brain according to its developer Siddhartha Srinivasa at Intel Labs located on the campus of Carnegie Mellon University. With funding from the National Science Foundation, HERB is being programmed to think and function on its own and to navigate unknown environments.
Step into the future of medicine with a look at the surgical robotics being developed at the Johns Hopkins Engineering Research Center for Computer-Integrated Surgical Systems and Technology. Here, engineers are designing less invasive surgical techniques and robots that a decade ago may have seemed like science fiction. Many of these techniques are leading to significantly quicker and less painful recoveries while giving surgeons more flexibility than ever before.
NASA robotics engineer Sandeep Yayathi explains how he designs and builds humanoid robots that can work alongside astronauts. Part of the "Design Squad Nation" series.
Provides an overview of how robots are currently being used and what advances can be expected in the future. Imagine tiny micro bots cleaning a classroom, mini robots retrieving library videos, or a "smart house" that will be automated to take care of an entire family.
Visionary oceanographer Scott Glenn leads a team of scientists as they race against time to launch the first autonomous underwater robot across the vast and dangerous Atlantic Ocean. Destined for Spain, the 8-foot bright yellow robot named RU27, or "Scarlet," is launched off the coast of New Jersey. Throughout her journey, data collected by Scarlet is fed into oceanographic navigation and forecasting models. Engulfed by the powerful ocean, our robot hero faces extreme weather conditions, ship traffic, and aggressive sea life that can terminate her mission. If Scarlet can successfully cross the vast Atlantic Ocean, her historic mission will inspire a future robotic oceanographic observation network critical for monitoring and predicting climate change. If Scarlet can successfully cross the vast Atlantic Ocean, her historic mission will inspire a future robotic oceanographic observation network critical for monitoring and predicting climate change.
The people at Barrett Technologies in Cambridge, Massachusetts are always glad to lend a hand, or an arm, or both, as long as they're robotic. Barrett Technologies is on the cutting edge of developing and implementing robotic technology.
With support from the National Science Foundation, mechanical and computer engineer Nilanjan Sarkar and psychologist Zachary Warren at Vanderbilt University have developed a learning environment for kids with autism, built around state-of-the-art technologies. One of those state-of-the-art technologies is a humanoid robot, nicknamed Russell, who works with the children on their ability to imitate others. The robot has some of the characteristics of a human, but it’s not as complex, so it doesn’t overstimulate or overwhelm a child with autism.
With support from the National Science Foundation, researchers at Stanford University and the University of California, Santa Barbara are building soft robots inspired by vines. The team is also engineering vine robots with the ability to configure themselves into 3-D structures, such as manipulators and antennae for communication. Part of the "Science Nation" series.
The image of a rat sniffing around for food with its little whiskers moving back and forth to help satisfy its appetite is enough to make most people lose theirs. But those whiskers play a valuable role in helping rats determine what is in the environment around them. With support from the National Science Foundation, Mitra Hartmann and colleagues at Northwestern University in Chicago are constructing whiskered robots that can detect and then project three-dimensional virtual images of objects on to a computer screen. Scientists here don't think it's so far-fetched that one day robotic rovers, much like the ones on Mars now, might contain a set of whiskers to help them navigate the terrain around them.
Bilge Mutlu, a computer scientist at the University of Wisconsin-Madison knows a thing or two about the psychology of body language. With support from the National Science Foundation, Mutlu and his fellow computer scientist, Michael Gleicher, take a gaze into the behavior of humans and create algorithms to reproduce it in robots and animated characters. Both Mutlu and Gleicher are betting that there will be significant benefits to making robots and animated characters look more like humans.
Gabriela, Manuel and Leonardo are three friends who accidentally start a rocket that takes them to space. Their journey through space takes them to different planets and strange worlds. Throughout their journey, they have the help of Maqui, an on-board computer. Maqui helps them learn about the universe. The spaceship lands on a planet where a robot is expecting them. His only interest is in Maqui. The robot shows her around the planet and reveals some of the planet’s objects. He shows her ships, satellites, and other space objects that were launched from planet Earth.
One of the major challenges in robotics is designing robots that can move over uneven, loose, or unexpected terrain. With support from the National Science Foundation, computer engineer Luther Palmer and his team at the Biomorphic Robotics Lab at the University of South Florida are designing computer simulation models for the next generation of robotic legs, and then building them in the lab. The team studies the biomechanics of animals adept at running on rough ground to program the algorithms that power their computer simulations. Part of the National Science Foundation Series “Science Nation.”
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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
