The electric version of Atlas will be stronger, with a broader range of motion than any of our previous generations. For example, our last generation hydraulic Atlas (HD Atlas) could already lift and maneuver a wide variety of heavy, irregular objects; we are continuing to build on those existing capabilities and are exploring several new gripper variations to meet a diverse set of expected manipulation needs in customer environments.
The electric version of Atlas will be stronger, with a broader range of motion than any of our previous generations. For example, our last generation hydraulic Atlas (HD Atlas) could already lift and maneuver a wide variety of heavy, irregular objects; we are continuing to build on those existing capabilities and are exploring several new gripper variations to meet a diverse set of expected manipulation needs in customer environments.
Roboterwurm soll eisigen Saturnmond erkunden Die Nasa arbeitet an einem Roboterwurm, der in Zukunft etwa den Saturnmond Enceladus erforschen soll. Der vier Meter lange und 100 Kilogramm schwere Eels soll sich dank Schraubenantrieb ähnlich wie eine Schlange fortbewegen können.
Roboterwurm soll eisigen Saturnmond erkunden Die Nasa arbeitet an einem Roboterwurm, der in Zukunft etwa den Saturnmond Enceladus erforschen soll. Der vier Meter lange und 100 Kilogramm schwere Eels soll sich dank Schraubenantrieb ähnlich wie eine Schlange fortbewegen können.
Promobot is the largest manufacturer of autonomous service robots in Europe. Promobots work in 40 countries as administrators, promoters, consultants, guides and concierges.
Promobot is the largest manufacturer of autonomous service robots in Europe. Promobots work in 40 countries as administrators, promoters, consultants, guides and concierges.
When NASA's Mars 2020 rover lands on the Red Planet in February 2021, it will touch down in Jezero Crater, the site of a lake that existed 3.5 billion years ago. The next generation rover will build on the goals of previous robotic explorers by collecting the first samples of Mars, which would be returned to Earth at a later date.
"On the science side, we're really thinking about new discoveries we can make on the surface and how [that] will inform what we learn when we get the samples back," said Katie Morgan Stack, deputy project scientist for the rover at NASA's Jet Propulsion Laboratory in Pasadena, California. "Our job is to find the best samples, collect and store them, and place them on the surface." But the new rover will also be on a mission to lay the groundwork for future human exploration.
When NASA's Mars 2020 rover lands on the Red Planet in February 2021, it will touch down in Jezero Crater, the site of a lake that existed 3.5 billion years ago. The next generation rover will build on the goals of previous robotic explorers by collecting the first samples of Mars, which would be returned to Earth at a later date.
"On the science side, we're really thinking about new discoveries we can make on the surface and how [that] will inform what we learn when we get the samples back," said Katie Morgan Stack, deputy project scientist for the rover at NASA's Jet Propulsion Laboratory in Pasadena, California. "Our job is to find the best samples, collect and store them, and place them on the surface." But the new rover will also be on a mission to lay the groundwork for future human exploration.
The app controlled 'piggyback' robot wheelchair that lets its owner easily change position.Japanese robotics firm tmsuk has unveiled a new piggyback-style rideable designed to make life easier for wheelchair users.The Rodem electric wheelchair is positioned in a way that allows a person to pull their body straight onto the seat, simplifying the process of moving from a bed or sofa onto the wheelchair.Rodem users can even control the robotic chair with a smartphone, to drive their wheelchair right up to them when it’s needed, or park it out of the way when it isn’t.
The app controlled 'piggyback' robot wheelchair that lets its owner easily change position.Japanese robotics firm tmsuk has unveiled a new piggyback-style rideable designed to make life easier for wheelchair users.The Rodem electric wheelchair is positioned in a way that allows a person to pull their body straight onto the seat, simplifying the process of moving from a bed or sofa onto the wheelchair.Rodem users can even control the robotic chair with a smartphone, to drive their wheelchair right up to them when it’s needed, or park it out of the way when it isn’t.
Meet Kengoro, a robot modelled after humans who is capable of completing physical exercises.
The humanoid machine can be seen doing push-ups and crunches, and can even play badminton.
Japanese researchers at the University of Tokyo's JSK lab has created the robot to closely resemble the anatomy of the human body.
It features sensors in its joints and has over 100 motors that replicate the muscle and skeletal structure found in humans. It's creators believe that Kengoro can help us better understand our bodies and the neural networks that control them through the data it collects when doing exercises.
Meet Kengoro, a robot modelled after humans who is capable of completing physical exercises.
The humanoid machine can be seen doing push-ups and crunches, and can even play badminton.
Japanese researchers at the University of Tokyo's JSK lab has created the robot to closely resemble the anatomy of the human body.
It features sensors in its joints and has over 100 motors that replicate the muscle and skeletal structure found in humans. It's creators believe that Kengoro can help us better understand our bodies and the neural networks that control them through the data it collects when doing exercises.
Here was the challenge for bioengineers: Find a way to for patients to take drugs — like insulin or monoclonal antibodies used to treat cancers and other diseases — without injections.
The medicines are made of molecules too big to be absorbed through the stomach or intestines; in any event, the drugs would be quickly degraded by the body’s harsh digestive system.
Now, a team of scientists may have found a solution that delivers these drugs in a capsule a person can swallow. Their inspiration? A tortoise that always rights itself after rolling over.
The test device, called Soma, is shaped like the tortoise’s shell. Inside is a miniature post made of insulin. After the tiny device positions itself against the stomach wall, the post pops out and injects insulin. The device then travels through the colon and eventually is eliminated by the patient.
Here was the challenge for bioengineers: Find a way to for patients to take drugs — like insulin or monoclonal antibodies used to treat cancers and other diseases — without injections.
The medicines are made of molecules too big to be absorbed through the stomach or intestines; in any event, the drugs would be quickly degraded by the body’s harsh digestive system.
Now, a team of scientists may have found a solution that delivers these drugs in a capsule a person can swallow. Their inspiration? A tortoise that always rights itself after rolling over.
The test device, called Soma, is shaped like the tortoise’s shell. Inside is a miniature post made of insulin. After the tiny device positions itself against the stomach wall, the post pops out and injects insulin. The device then travels through the colon and eventually is eliminated by the patient.
A team of MIT researchers have developed a printable origami robot that folds itself up from a flat sheet of plastic when heated and measures about a centimeter from front to back. (Learn more: http://mitne.ws/1HwBZro)
Weighing only a third of a gram, the robot can swim, climb an incline, traverse rough terrain, and carry a load twice its weight.
A team of MIT researchers have developed a printable origami robot that folds itself up from a flat sheet of plastic when heated and measures about a centimeter from front to back. (Learn more: http://mitne.ws/1HwBZro)
Weighing only a third of a gram, the robot can swim, climb an incline, traverse rough terrain, and carry a load twice its weight.
Before humanity sets foot on Mars, bees are more likely to do so, or at least their robotic version. Biorobots—machines that emulate the functioning of biological organisms—have reached space exploration with Marsbees, NASA’s plan to explore all corners of the red planet, even those where their rovers can’t reach.
The US space agency has had great success with its rovers, especially Curiosity and Opportunity, but these are limited in the extent of land they can cover. The rocky terrain of Mars is hellish for everything that moves on wheels, so the idea of NASA’s aerospace engineers is to use robots that can collect data by flying over the surface.
Before humanity sets foot on Mars, bees are more likely to do so, or at least their robotic version. Biorobots—machines that emulate the functioning of biological organisms—have reached space exploration with Marsbees, NASA’s plan to explore all corners of the red planet, even those where their rovers can’t reach.
The US space agency has had great success with its rovers, especially Curiosity and Opportunity, but these are limited in the extent of land they can cover. The rocky terrain of Mars is hellish for everything that moves on wheels, so the idea of NASA’s aerospace engineers is to use robots that can collect data by flying over the surface.
Ein autonomer Roboter läuft fast wie ein Mensch durch die Gegend und springt über einen Baumstamm. Ein anderer klettert eine Treppe hinauf. Gruselige Videos zeigen die Fähigkeiten aktueller autonomer Roboter.
Der US-Roboterspezialist Boston Dynamics hat seinen zweibeinigen, autonomen Roboter Atlas weiter entwickelt. Der Roboter kann sich nun auch im Freien selbstständig bewegen und dort autonom seinen Weg finden. Atlas ähnelt vom äußern Aufbau her einem Menschen. Wenn man ihn dann wie auf diesem Youtube-Video durch einen Park beziehungsweise Garten joggen sieht, könnte man glatt glauben, dass sich ein menschlicher Jogger als Roboter verkleidet habe.
Ein autonomer Roboter läuft fast wie ein Mensch durch die Gegend und springt über einen Baumstamm. Ein anderer klettert eine Treppe hinauf. Gruselige Videos zeigen die Fähigkeiten aktueller autonomer Roboter.
Der US-Roboterspezialist Boston Dynamics hat seinen zweibeinigen, autonomen Roboter Atlas weiter entwickelt. Der Roboter kann sich nun auch im Freien selbstständig bewegen und dort autonom seinen Weg finden. Atlas ähnelt vom äußern Aufbau her einem Menschen. Wenn man ihn dann wie auf diesem Youtube-Video durch einen Park beziehungsweise Garten joggen sieht, könnte man glatt glauben, dass sich ein menschlicher Jogger als Roboter verkleidet habe.
At Tohoku University, there's now a robot that teaches dance. But the goal isn't to put human dance teachers out of work -- instead, scientists are using the project to gather information on how humans can get comfortably close with with robots. If we're going to spending a lot of time with robots in the future, might as well make it easier.
At Tohoku University, there's now a robot that teaches dance. But the goal isn't to put human dance teachers out of work -- instead, scientists are using the project to gather information on how humans can get comfortably close with with robots. If we're going to spending a lot of time with robots in the future, might as well make it easier.
Japanese engineers unveiled on Wednesday (April 25) a robot that transforms into a car that can actually carry people on board, in what they said was the first-ever such accomplishment in the history of robots.
The 3.7-metre (12.1-feet)-tall two-seater robot "J-deite RIDE" can transform into a sportscar in a process that takes about a minute. It can technically walk at 30 km/h (18.6 mph) or run on its four wheels but developers said they've never really tested it outside the factory cargo bay area.
CEO of Brave Robotics, Kenji Ishida, who initiated the co-project with Asratec, an affiliate of the Japanese mobile phone giant SoftBank, and a roller coaster manufacturer Sansei Technologies, said he was motivated by his childhood transformer heroes in anime movies.
While admitting that it may seem like an expensive toy, Ishida said the robot is an attempt to inspire others and broaden the human imagination. Developers said they will begin with utilizing the technology in entertainment industry, such as amusement park and street parades.
Japanese engineers unveiled on Wednesday (April 25) a robot that transforms into a car that can actually carry people on board, in what they said was the first-ever such accomplishment in the history of robots.
The 3.7-metre (12.1-feet)-tall two-seater robot "J-deite RIDE" can transform into a sportscar in a process that takes about a minute. It can technically walk at 30 km/h (18.6 mph) or run on its four wheels but developers said they've never really tested it outside the factory cargo bay area.
CEO of Brave Robotics, Kenji Ishida, who initiated the co-project with Asratec, an affiliate of the Japanese mobile phone giant SoftBank, and a roller coaster manufacturer Sansei Technologies, said he was motivated by his childhood transformer heroes in anime movies.
While admitting that it may seem like an expensive toy, Ishida said the robot is an attempt to inspire others and broaden the human imagination. Developers said they will begin with utilizing the technology in entertainment industry, such as amusement park and street parades.
Konkurrenz bekommen Atlas und Tesla Bot aus China. Das Unternehmen Fourier Intelligence hat einen humanoiden Roboter entwickelt, der in der Pflege eingesetzt werden soll.
GR-1 heißt der Roboter, den Fourier Intelligence auf einer Konferenz in Schanghai vorgestellt hat. Er ist 1,65 Meter groß und wiegt 55 Kilogramm. Er könne etwa 50 Kilogramm heben, berichtet die staatliche chinesische Nachrichtenagentur Xinhua – also fast sein eigenes Gewicht.
Konkurrenz bekommen Atlas und Tesla Bot aus China. Das Unternehmen Fourier Intelligence hat einen humanoiden Roboter entwickelt, der in der Pflege eingesetzt werden soll.
GR-1 heißt der Roboter, den Fourier Intelligence auf einer Konferenz in Schanghai vorgestellt hat. Er ist 1,65 Meter groß und wiegt 55 Kilogramm. Er könne etwa 50 Kilogramm heben, berichtet die staatliche chinesische Nachrichtenagentur Xinhua – also fast sein eigenes Gewicht.
ChatGPT bekommt Konkurrenz: Eine Gruppe von KI-Forschenden von Google und der Technischen Universität Berlin haben am 6. März 2023 ihre künstliche Intelligenz Palm-E vorgestellt. Dabei handelt es sich um ein multimodal verankertes visuelles Sprachmodell (VLM), das nicht nur Sprachbefehle entgegennimmt, sondern sie auch an einen mobilen Roboter mit einem Arm weitergeben kann.
ChatGPT bekommt Konkurrenz: Eine Gruppe von KI-Forschenden von Google und der Technischen Universität Berlin haben am 6. März 2023 ihre künstliche Intelligenz Palm-E vorgestellt. Dabei handelt es sich um ein multimodal verankertes visuelles Sprachmodell (VLM), das nicht nur Sprachbefehle entgegennimmt, sondern sie auch an einen mobilen Roboter mit einem Arm weitergeben kann.
Imagine a future in which robots, smaller than the tip of a hair, are deployed inside the human body to perform micro-surgeries. As far fetched as it may seemed, it's not entirely implausible anymore.
Itai Cohen, Professor of Physics at Cornell University, says the crucial breakthrough was the invention of 'legs' that allow the microscopic robots to move, guided by electrical signals sent by humans. Now, it's just a matter of time before the technology is perfected.
Imagine a future in which robots, smaller than the tip of a hair, are deployed inside the human body to perform micro-surgeries. As far fetched as it may seemed, it's not entirely implausible anymore.
Itai Cohen, Professor of Physics at Cornell University, says the crucial breakthrough was the invention of 'legs' that allow the microscopic robots to move, guided by electrical signals sent by humans. Now, it's just a matter of time before the technology is perfected.
Hey, remember those deeply unsettling robot dogs that have been creeping out the internet for years and recently went into production? The company that makes them is called Boston Dynamics, and according to a report published Wednesday by The Korea Economic Daily, it just got bought by Hyundai for around $921 million.
Yes, the very same Hyundai that's hammering out eye-catching and affordable automobiles for you to buy will now be getting deeper into the robot business with an eye on future mobility. Does this mean we'll get self-driving cars sooner, or will we get a robot to help us pedal our tandem bikes? Who knows?
Hey, remember those deeply unsettling robot dogs that have been creeping out the internet for years and recently went into production? The company that makes them is called Boston Dynamics, and according to a report published Wednesday by The Korea Economic Daily, it just got bought by Hyundai for around $921 million.
Yes, the very same Hyundai that's hammering out eye-catching and affordable automobiles for you to buy will now be getting deeper into the robot business with an eye on future mobility. Does this mean we'll get self-driving cars sooner, or will we get a robot to help us pedal our tandem bikes? Who knows?
Le rover Mars 2020 qui va s'envoler dans quelques mois vers la planète rouge ne se contentera pas d'y chercher d'éventuelles traces de vie passée, il servira aussi de «précurseur à une mission humaine sur Mars», ont déclaré vendredi les scientifiques de la Nasa en présentant l'engin à la presse.
En Californie, une «salle blanche» stérile pour la planète rouge
Le rover Mars 2020 sera bientôt en route pour la planète rouge, mais c'est dans une «salle blanche» de Californie qu'il a vu le jour, comme tous ses prédécesseurs et déjà avant eux les sondes Voyager, Galileo ou Cassini qui ont sillonné notre système solaire. Cette «salle blanche» est l'une des deux pièces ultra-stériles nichées sur le site d'assemblage des véhicules spatiaux du JPL (Jet Propulsion Laboratory) à Pasadena, dans la banlieue de Los Angeles. Elle était vendredi exceptionnellement ouverte à la presse pour présenter le rover.
Le robot a effectué la semaine dernière ses premiers tours de roue dans la grande salle stérile du Jet Propulsion Laboratory (JPL) de Pasadena, près de Los Angeles, où il a vu le jour. Il doit quitter la Terre en juillet 2020 depuis Cap Canaveral (Floride) pour se poser sur Mars en février 2021.
«Il est conçu pour chercher des signes de vie, donc il emporte un grand nombre d'instruments différents qui vont nous aider à comprendre le contexte géologique et chimique à la surface de Mars, et aussi collecter des échantillons dans le but de pouvoir un jour les rapporter sur Terre», résume pour l'AFP Matt Wallace, responsable adjoint de la mission Mars 2020.
Le rover Mars 2020 qui va s'envoler dans quelques mois vers la planète rouge ne se contentera pas d'y chercher d'éventuelles traces de vie passée, il servira aussi de «précurseur à une mission humaine sur Mars», ont déclaré vendredi les scientifiques de la Nasa en présentant l'engin à la presse.
En Californie, une «salle blanche» stérile pour la planète rouge
Le rover Mars 2020 sera bientôt en route pour la planète rouge, mais c'est dans une «salle blanche» de Californie qu'il a vu le jour, comme tous ses prédécesseurs et déjà avant eux les sondes Voyager, Galileo ou Cassini qui ont sillonné notre système solaire. Cette «salle blanche» est l'une des deux pièces ultra-stériles nichées sur le site d'assemblage des véhicules spatiaux du JPL (Jet Propulsion Laboratory) à Pasadena, dans la banlieue de Los Angeles. Elle était vendredi exceptionnellement ouverte à la presse pour présenter le rover.
Le robot a effectué la semaine dernière ses premiers tours de roue dans la grande salle stérile du Jet Propulsion Laboratory (JPL) de Pasadena, près de Los Angeles, où il a vu le jour. Il doit quitter la Terre en juillet 2020 depuis Cap Canaveral (Floride) pour se poser sur Mars en février 2021.
«Il est conçu pour chercher des signes de vie, donc il emporte un grand nombre d'instruments différents qui vont nous aider à comprendre le contexte géologique et chimique à la surface de Mars, et aussi collecter des échantillons dans le but de pouvoir un jour les rapporter sur Terre», résume pour l'AFP Matt Wallace, responsable adjoint de la mission Mars 2020.
Root Robotics acquired by iRobot to bring coding education to classrooms worldwide
Today, iRobot Corp. announced its acquisition of Root Robotics, Inc., whose educational Root coding robot got its start as a summer research project at the Wyss Institute for Biologically Inspired Engineering at Harvard University in 2011. Since then, it has developed into a robust learning tool that is being used in over 500 schools to teach children how to code in an engaging, intuitive way. iRobot plans to incorporate the Root robot into its growing portfolio of educational robot products, and continue the work of scaling up production and expanding Root’s programming content that began when Root Robotics was founded by former Wyss Institute members in 2017.
Root Robotics acquired by iRobot to bring coding education to classrooms worldwide
Today, iRobot Corp. announced its acquisition of Root Robotics, Inc., whose educational Root coding robot got its start as a summer research project at the Wyss Institute for Biologically Inspired Engineering at Harvard University in 2011. Since then, it has developed into a robust learning tool that is being used in over 500 schools to teach children how to code in an engaging, intuitive way. iRobot plans to incorporate the Root robot into its growing portfolio of educational robot products, and continue the work of scaling up production and expanding Root’s programming content that began when Root Robotics was founded by former Wyss Institute members in 2017.
Ford, best known for its cars, pick-up trucks and SUVs, is experimenting with something totally different: a package-carrying robot.
The automaker announced Tuesday it's testing a robot to carry deliveries from its self-driving cars to customers' doorsteps. Ford is already piloting deliveries with self-driving cars inspired by the popularity of online shopping. But the company found it was sometimes inconvenient for people to walk outside their homes and take a package from a self-driving car waiting at the curb. So it partnered with Agility Robotics, an Albany, Oregon-based startup that makes a human-like robot capable of carrying 40-pound packages.
Ford, best known for its cars, pick-up trucks and SUVs, is experimenting with something totally different: a package-carrying robot.
The automaker announced Tuesday it's testing a robot to carry deliveries from its self-driving cars to customers' doorsteps. Ford is already piloting deliveries with self-driving cars inspired by the popularity of online shopping. But the company found it was sometimes inconvenient for people to walk outside their homes and take a package from a self-driving car waiting at the curb. So it partnered with Agility Robotics, an Albany, Oregon-based startup that makes a human-like robot capable of carrying 40-pound packages.
Künstliche Intelligenzen und Roboter werden in unserem Leben immer selbstverständlicher. Was erwarten wir von den intelligenten Maschinen, wie verändert ihre Präsenz in unserem Alltag und die Interaktion mit ihnen unser Selbstverständnis und unseren Umgang mit anderen Menschen? Müssen wir Roboter als eine Art menschliches Gegenüber anerkennen? Und welche Freiheiten wollen wir den Maschinen einräumen? Es ist dringend an der Zeit, die ethischen und rechtlichen Fragen zu klären.
Künstliche Intelligenzen und Roboter werden in unserem Leben immer selbstverständlicher. Was erwarten wir von den intelligenten Maschinen, wie verändert ihre Präsenz in unserem Alltag und die Interaktion mit ihnen unser Selbstverständnis und unseren Umgang mit anderen Menschen? Müssen wir Roboter als eine Art menschliches Gegenüber anerkennen? Und welche Freiheiten wollen wir den Maschinen einräumen? Es ist dringend an der Zeit, die ethischen und rechtlichen Fragen zu klären.
What has the ability to move and show its colors, is made only of silicone rubber and manufactured at the millimeter scale? A soft robotic peacock spider. Researchers have combined three different manufacturing techniques to create a novel origami-inspired soft material microfabrication process that goes beyond what existing approaches can achieve at this small scale.
What has the ability to move and show its colors, is made only of silicone rubber and manufactured at the millimeter scale? A soft robotic peacock spider. Researchers have combined three different manufacturing techniques to create a novel origami-inspired soft material microfabrication process that goes beyond what existing approaches can achieve at this small scale.
RoboFly Is the First Flying Insect-Size Robot that Can Soar Without a Tether
If you keep up on tech news, you’ve probably seen a handful of robotic flying insects over the past few years. We’ve even featured a few of them here on Hackster. But, as impressive as those have been, they all “cheat” in the sense that they’re not actually completely self-contained. Because batteries and microcontrollers are heavy, those remain stationary on the ground and connect to the robot itself with tiny wires.
RoboFly Is the First Flying Insect-Size Robot that Can Soar Without a Tether
If you keep up on tech news, you’ve probably seen a handful of robotic flying insects over the past few years. We’ve even featured a few of them here on Hackster. But, as impressive as those have been, they all “cheat” in the sense that they’re not actually completely self-contained. Because batteries and microcontrollers are heavy, those remain stationary on the ground and connect to the robot itself with tiny wires.
Boston Dynamics, the company voted most likely to spawn the Robopocalypse, has released a pair of new videos showcasing the latest abilities of its synthetic creations.
A freakishly realistic humanoid robot running effortlessly through grassy fields and managing challenging terrain. A dog-like machine autonomously navigating the complex maze of an office and lab facility. What could possibly go wrong?
From previous videos, we know that the humanoid robot Atlas is capable of some incredible physical feats, such as stacking boxes, performing backflips, and occasionally providing some needed comic relief. Up until this point, however, we’ve never seen this bipedal machine do its work outside.
Boston Dynamics, the company voted most likely to spawn the Robopocalypse, has released a pair of new videos showcasing the latest abilities of its synthetic creations.
A freakishly realistic humanoid robot running effortlessly through grassy fields and managing challenging terrain. A dog-like machine autonomously navigating the complex maze of an office and lab facility. What could possibly go wrong?
From previous videos, we know that the humanoid robot Atlas is capable of some incredible physical feats, such as stacking boxes, performing backflips, and occasionally providing some needed comic relief. Up until this point, however, we’ve never seen this bipedal machine do its work outside.
TUPO 8 E-Control PLUS is the most advanced wall plastering machine/rendering machine ever invented. Extra strong and super fast, TUPO 8 is able to plaster 200 m2 of walls PER HOUR (SGS Certified)!
TUPO 8 E-Control PLUS is the most advanced wall plastering machine/rendering machine ever invented. Extra strong and super fast, TUPO 8 is able to plaster 200 m2 of walls PER HOUR (SGS Certified)!
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The electric version of Atlas will be stronger, with a broader range of motion than any of our previous generations. For example, our last generation hydraulic Atlas (HD Atlas) could already lift and maneuver a wide variety of heavy, irregular objects; we are continuing to build on those existing capabilities and are exploring several new gripper variations to meet a diverse set of expected manipulation needs in customer environments.
Learn more / En savoir plus / Mehr erfahren:
https://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?&tag=Robotics