View allAll Photos Tagged smallrobot
Danbo directs traffic at the Blackstone River Bikeway in Cumberland, Rhode Island on a late autumn day.
Danbo stops for his picture along the shore at the Blackstone River Bikeway in Cumberland, Rhode Island.
Danbo and Danbo watch the Blackstone river go by on a late summer day at the Blackstone River Bikeway in Cumberland, Rhode Island.
Earrings: [GHB] PIERCING: ZWEIFEL DROPPED - main store - maps.secondlife.com/secondlife/Filhomes/16/181/3531
Axe: ~MR~Mega Mace~ - main store - maps.secondlife.com/secondlife/Nisha/129/118/23
Teeny Robot: Aardvark : Bitty Bot - main store - maps.secondlife.com/secondlife/Peaceful%20Shore/245/13/1503
Outfit: SOLIAC - Set Nilah & SOLIAC - Boots Nilah - @Cyber Fair - maps.secondlife.com/secondlife/ACCESS%202/124/123/1504
main store - maps.secondlife.com/secondlife/Grey%20Gardens/229/20/3529
Backdrop: The Bearded Guy - Crisis Galactica Backdrop - main store - maps.secondlife.com/secondlife/Moonwall/169/121/32
Danbo skateboarding on a beautiful summer day at the Blackstone River Bikeway in Cumberland, Rhode Island.
Danbo tries some trick skateboarding on a beautiful summer day at the Blackstone River Bikeway in Cumberland, Rhode Island.
Danbo and Danbo enjoying the late fall sunshine at the Blackstone River Bikeway in Cumberland, Rhode Island.
Hey mum, how was it before? Sculpture made from recycled metal wires, cables, strings, and sea snails shell. . . . #snailart #cybersnail #cybernature #crustacés #smallrobot #snailsculpture #recupart #scrapart #upcycledart #escargot #smallart #insectart #handmadeart #organicart via Facebook ift.tt/2S0NW2X
Another lock-down self-portrait, this time in the garage. I was making some smallrobots, but I've not had them running for over 5 years and they are in disrepair.
The first of what is sure to be a line of many felt robots. The one on the left I call Fat ThumbsUp Bot. The one on the right is Sunny and the middle one is just Tiny Giant Robot.
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
Lamp01 Robot
Material used:
Small transparent cover deodorant;
Car burned lamp;
Two screws;
Small springs;
A button of tissue;
Plastic gear;
Rubber support cd player;
A small slot with electric wire;
Little piece plastic;
and bonded durepox by Loctite.
From left, Ryan Feng, Emily Keller, and Ruichang Chen speak with Graduate Student Instructor Stanley Lewis 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
Soonhyeong Choi, a graduate student in Electrical and Computer Engineering, 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
Ryan Feng, a graduate student in Robotics, opens Probabilistic Robotics on his laptop 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
Ruichang Chen, an undergraduate student in the Electrical and Computer Engineering program sends his team’s robot through a maze set up 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
Jeremy Punch, a graduate student in the Mechanical Engineering program, right, and Rohan Chandy, an undergraduate student in the Electrical and Computer Engineering program working on their robot for 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
Kavan Shah, a graduate student 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
Soonhyeong Choi, a graduate student in Electrical and Computer Engineering, working with Graduate Student Instructor Stanley Lewis 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
Kavan Shah, a graduate student 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
Jeremy Punch, a graduate student in the Mechanical Engineering program, right, and Rohan Chandy, an undergraduate student in the Electrical and Computer Engineering program working on their robot for 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
Soonhyeong Choi, a graduate student in Electrical and Computer Engineering, 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
The KURT Engineering Systems display at IMTS 2010 featured a FANUC CERT Mobile Training Cart with a LR Mate 200iC tabletop robot.
Soonhyeong Choi, a graduate student in Electrical and Computer Engineering, 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
Kavan Shah, a graduate student 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
The motors, motor mounts, wheels, front ball caster, and “Motor Driver” all came from sparkfun.com. The Atmel ATtiny 24 microcontroller came from mouser.com. The “Motor Driver” can also be purchased at mouser as well. The 9 volt connecter came in a 4 or 5 pack from Radioshack some time ago.
This View shows the size of the robot next to a quarter. It's not amazingly small, but it is a smaller robot and what is kind of amazing is the small amount of components used.
A 9 volt battery is secured underneath using double sided foam tape for power. A volt regulator and smoothing capacitor provide the solid 5 volts required to run the Atmel microcontroller and Texas Interments “Motor Driver”.