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A cool robot who could walk around, fall on his ass, and stand himself up.
Kansai Open Source Forum and FOSS4G 2008 in Osaka.
Kim Ingraham, ME PhD Student and member of the Neurobionics Lab, runs tests on an open-source robotic leg with Dawn Jordan Musil in the G. G. Brown Building on May 28, 2019.
The project is provides a robust and relatively inexpensive system that can be easily manufactured, assembled, and controlled by other researchers, aiming to expand the research field and its knowledge base.
Photo: Joseph Xu/Michigan Engineering, Communications & Marketing
A few years ago a Spaceship crewmember put a blue cap on Robot as a joke, but he has never bothered to take it off. In fact, he's become rather attached to it.
For Hussein's FGR pick - I Am Robot And Proud.
It didn't turn out as well as I'd hoped - I'll probably use something else for my 365...
I think the hardware is pretty much all assembled now! The batteries went together today and now connect up to everything, although I may mount them a bit more permanently in the future. The buzzer's held on with tape but it's light weight and protected by the case; everything else is bolted on.
This robot will use its camera to track the user, following them around and taking photos to store to the SD card. The software's progressing nicely enough - at the moment I can clearly see what's on the screen, but it's only a small fraction of the total image and the colours are not yet accurate. The chip doesn't have enough RAM to hold the entire image on the screen at once unfortunately, but I should be able to process each line before the next one comes in.
The robot uses an ARM Cortex-M3 STM32F103VBT6 microprocessor with a TCM8230MD camera from SparkFun, an OLED screen module on the back (also from SparkFun) with a navigation switch, modified servos for motors, various voltage regulators for the camera and main circuitry, a ball bearing caster on the bottom, a piezo buzzer to make it beep at you, three 1100mAh lithium polymer batteries (one for the main systems and two in series for the servos), PCBs made by Golden Phoenix in China and some standard power LEDs as headlights.
This robot is being trained for a future Mars mission. NASA Space Vehicle Mockup Facility, where astronauts train for future missions to the International Space Station, the moon and Mars. Houston, TX, Feb. 2020.
We have an ancient mound in our local park with steep grassy sides, and I often wondered how they managed to keep it mown. Well, the other day I saw how! A man with a remote control, guiding a robot mower. Note its caterpillar tracks for a better grip. I want one!
Students in the Robotics Class are busy designing and building robots to take part in virtual competitive events during December, 2020. Photography by Glenn Minshall.
From left, Tan Weiheng, and Kavan Shah, both graduate students in the Robotics program, working in Peter Gaskell’s ROB 550, Robotic Systems Laboratory in the Ford Robotics Building on the North Campus of the University of Michigan on Tuesday, February 1, 2022.
The course is a multidisciplinary laboratory course with exposures to sensing, reasoning, and acting for physically-embodied systems. Intro to kinematics, localization and mapping, planning, control, user interfaces. Design, build, integration, and test of mechanical, electrical, and software systems.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
My little guy is turning 2 at the end of the month...
1. build a ROBOT cupcakes!, 2. emmett's robot, 3. Robot Lovers, 4. robot needlebook and pincushion, 5. robots_01, 6. I Robot, 7. Kokka Trefle Large robots, 8. Robots Crayon Roll, 9. 3rd grade portrait, 10. Robot Love Valentine Card, 11. I'm Awesome!!!, 12. Robot Red-Rover, 13. Robot Party 414. Not available15. Not available16. Not available
A set consisting of plywood, a geared motor with battery, four gears, some screws, nuts, washers and some wire. By sawing, drilling, soldering, adhesive bonding can be pretty easy to assemble a walking robot. Modifications are possible. As a pendant version with notches in the feet also functional.
Ein Set, bestehend aus Sperrholzplatten, ein Getriebemotor mit Batterie, vier Zahnräder, einige Schrauben, Muttern, Scheiben und etwas Draht. Durch Sägen, Bohren, Löten, Kleben läßt sich recht einfach ein laufender Roboter zusammenbauen. Modifikationen sind möglich. Als hängende Version mit Kerben in den Füßen ist auch funktionsfähig.
Star Scouts Donovan Cox and Scout Andrew Hackworth of Troop 3234 French Creek Council, Pennsylvania along with First Class Scout Zachary Cash of Cambridge, Massachusetts participate in the Robotics Merit Badge during the 2023 National Scout Jamboree at The Summit Bechtel Reserve in Mount Hope, West Virginia. (BSA Photo by Charleen Kennedy)
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20230720-10-58-25-74-CK date - 7/20/23 time - 10:58:25 AM
Numerous robots are organized to showcase the Robot Garden near the Robotics Institute building in Ann Arbor MI on Thursday, May 20, 2021.
The Robot Garden was designed by University of Michigan Associate Professor of Architecture Matias del Campo and Robotics PhD student Alexa Carlson with the help of artificial intelligence. The garden gives robots a number of terrain and textural features to test their locomotion.
Photo: Robert Coelius/University of Michigan Engineering, Communications & Marketing
I think the hardware is pretty much all assembled now! The batteries went together today and now connect up to everything, although I may mount them a bit more permanently in the future. The buzzer's held on with tape but it's light weight and protected by the case; everything else is bolted on.
This robot will use its camera to track the user, following them around and taking photos to store to the SD card. The software's progressing nicely enough - at the moment I can clearly see what's on the screen, but it's only a small fraction of the total image and the colours are not yet accurate. The chip doesn't have enough RAM to hold the entire image on the screen at once unfortunately, but I should be able to process each line before the next one comes in.
The robot uses an ARM Cortex-M3 STM32F103VBT6 microprocessor with a TCM8230MD camera from SparkFun, an OLED screen module on the back (also from SparkFun) with a navigation switch, modified servos for motors, various voltage regulators for the camera and main circuitry, a ball bearing caster on the bottom, a piezo buzzer to make it beep at you, three 1100mAh lithium polymer batteries (one for the main systems and two in series for the servos), PCBs made by Golden Phoenix in China and some standard power LEDs as headlights.
Another robot based off of the crab droid from star wars, I'm thinking of making a theme out of these little guys.
A new art piece in the park was a magnet for folks to come see. Though the kids were asked to stay off it as a robot can only take so many climbers
Mechan 14 was created by Tyler FuQua Creations
The engineering mockup of the Robotic Refueling Mission (RRM) module is currently on display within the press building at the Kennedy Space Center in Florida. The RRM mission is a joint effort between NASA and the Canadian Space Agency designed to demonstrate and test the tools, technologies, and techniques needed to robotically refuel satellites in space. Reporters have the opportunity to get a close-up view of the replica module and tools that are a part of the final shuttle mission payload.
The Robotic Refueling Mission is now installed in Atlantis' cargo bay, ready for its STS-135 flight.
To learn more about the RRM go to: ssco.gsfc.nasa.gov/robotic_refueling_mission.html
NASA Goddard Space Flight Center enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission.
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