View allAll Photos Tagged Robotics
Full-size replica of the movie robot on display at the time the Lost In Space feature film was released- on display at FAO Schwartz
One of the first steps in drug development and toxicity testing is creating test systems (assays) to evaluate the effects of chemical compounds on cellular, molecular or biochemical processes of interest. Investigators from the biomedical research community submit ideas for assays to National Center for Advancing Translational Sciences researchers, who then assist with high-throughput small molecule screening using a robotic system.
ncats.nih.gov/preclinical/drugdev/assay
Credit: National Center for Advancing Translational Sciences, National Institutes of Health
Vintage Robots etc. Voltron, Robotech, Shogun Warriors.
1979 Kenner Alien with Custom Case.
Eagle 1 Space 1999.
Jetfires 3 MIB plus 5 Loose Complete.
SISYPHUS is a robot that learns to crawl using a simple AI algorithm called reinforcement learning. The robot tries random actions at first and learns if it is moving forward or backward. Over time it connects actions that move it forward.
Odc: intricate...robots. We want to a local Maker faire today and saw lots of very cool crafts, electronics and robotics. These are robots using Arduino technology, which we are looking to learn about and get into some with our son.
Photos from the Virginia Beach Fire Training Center this week of testing being done on the latest robotic technology available to emergency response agencies. ASTI International along with federal agencies to include NSTI and the Department of Homeland Security were here at the training center to test and evaluate the various systems available today. They are doing standardize testing on the robotic systems to help various emergency response agencies and the military determine and quantify the capabilities of these systems. This testing /competing helps agencies determine what are the best systems for their particular missions and even increases proficiency of the users of these systems. Robotics developers from as far away as Japan and elsewhere around the world are here to participate in this unique event.
The robotics systems included ground, aerial and aquatic robots, maneuvering through special obstacle courses built for this event. Some of the robots even maneuvered through the “Burn House” at the fire training center. Local police departments and military units are participating with their bomb disposal units and NYFD and other fire departments across the country are also participating.
Photographs by Craig McClure
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ALL Rights reserved by City of Virginia Beach.
Contact photo[at]vbgov.com for permission to use. Commercial use not allowed.
Robot mode
This is an almost complete redesign of my original jazz. Don't forget to comment and fave. Thanks for watching!
Most of this design came from a desire to use up some spare parts, but I think it turned out quite well.
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 cube-shaped RRM module breaks down each refueling activity into distinct, testable tasks and provides the components, activity boards, and tools to practice them. Four unique tools are stowed within RRM until the Dextre robot retrieves them.
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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Participants in NASA's 7th annual Robotic Mining Competition tote their robotic excavators to the competition arena on the first day of competitive runs following morning practice rounds. The RMC is set up for college students to design and build a mining robot that can travel over a simulated Martian surface, excavate regolith and deposit as much of it as possible into a bin, all within 10 minutes. Team members may control their bots remotely from a trailer where their only line of sight is via a computer screen, or completely autonomously, with their programming skills put to the test as their robot handles the mission on its own. The competition, which takes place May 16 to 20 at the Kennedy Space Center Visitor Complex in Florida, focuses on technologies necessary to extract consumables such as oxygen and water to support human life and provide methane fuel to spacecraft. Photo credit: NASA/Bill White
Ambassador Miller joined 30 enthusiastic students at the American Center for a U.S. Embassy and Robo Lab jointly hosted Robotics Fair to promote STEM education during Computer Science Education Week. Participants showcased their own creations, which included a spider robot, a human intrusion detection system, an Arduino weather station, and an automated street light system, and shared their innovative ideas with each other. Visit the American Center’s MakerSpace to participate in hands-on activities like this and learn how innovation and invention can be used to solve everyday problems.
i created this robot pattern after googling lots and lots of robot images. the block is pieced with the arms embroidered.
fabrics:
background -- kona snow
light grey -- kona ash
dark grey -- kona coal
patchwork scraps -- from my scrap bucket:
(top row L to R) -- modern workshop by oliver + s, children at play by sarah jane for michael miller, pezzy print
(2nd row L to R) -- metro circles by robert kaufman, honey child by jennifer paginelli, children at play by sarah jane
(3rd row L to R) -- a dear stella stripe, avignon by emily taylor, children at play
(bottom row) -- ruby by bonnie and camille for moda, cape ann by oliver + s, sunkissed by sweetwater for moda
binding -- painters canvas in grass by laura gunn
Photos from a work session by the robotics team at North High School as they put the finishing touches on their creation before heading off to a competition in Detroit.
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.
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.
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!
I found this in Berkeley. I can hardly bear to part with it. Alas, I bought it for my brother. It's just living on my counter until he visits.