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This paper toy is a simple Cardboard Robot, created by brynjones. It is a good papercraft for kids.
You can download this papercraft template here: Cardboard Robot Paper Toy Free Template Download [Part 2]
www.papercraftsquare.com/cardboard-robot-paper-toy-free-t...
This is 33 1/3 Robot Detective (ロボット刑事, Robotto Keiji) LP released by Columbia in July 1973 with multi page deluxe jacket.
Robita capsule toy robot from Japan given to me by Dan's sister. Robot Lilliput was a blind box toy that we got from Little Tokyo several years ago. Robita is 2 inches tall and Robot Lilliput is 2 and 1/4 inches tall.
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.
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
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.
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.
I built this transforming cube months ago, after I've seen the first pics of the black cubes from the Lego Movie. I didn't manage in this first trial to attach all the plates on the robot, one is the base. It works good but my first idea was an eight-faces transforming cube. Next time!!
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.
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.
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.
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!