Fish Project is an award-winning robot. Developed by Queen’s University students, it has servomotors that propel its fins. The robot contains a microcontroller and swims in an aquarium.
Gogic Five is a hobby robot with a racer extension kit. This tiny humanoid can transform into a sporty racecar. Five servomotors allow it to walk, punch, kick and stand.
KAIST developed the fourth robot in the HanSaRam series called HanSaRam IV. It has 12 servomotors, 4 force sensing resistors in each foot, and master-slave controllers.
Hanson Robotics developed Jules which is an android robot. It looks like a real human and contains servomotors, advanced animatronics and possesses artificial intelligence.
Naoko Hikima developed a bear looking robot toy called Kumataro. It was completely redesigned and re-fabricated from the original with more torque and upgrade of servomotors.
Crafthouse developed a humanoid called Melissa which has five human-like fingers. It uses its servomotors and a feedback mechanism system to efficiently fold and open them.
Perfect Buddy Buddy is a robot toy dog developed by WowWee. This fun toy can bark and sniff with realistic sounds. Its advanced servomotors distinguish between different types of touching. Its hypersensitive microphone and ultra-clear speaker make for…
KMUTT developed the Phoenix which is a soccer-playing robot. This lightweight humanoid robot has servomotors, sensors, camera and microprocessor which generate its movement.
Robo Motio developed Reddy which expresses emotions, thanks to nine servomotors in its face. It has the potential to be used for research, entertainment and marketing purposes.
David Barrett developed RoboTuna I as part of his PhD thesis at MIT. It is the very first functional robotic fish ever created and is controlled by six powerful servomotors.
The T8 is a bio-inspired spider robot developed by the Hong Kong based Robugtix Company. It employs around 26 servomotors to function effectively making the movements very fluent and life-like.
David Buckley developed an educational biped robot called TecFoot. It is powered by five servomotors, and can walk on two legs by shifting its weight from one leg to the other.
Waseda University's WF-4R is a major improvement over the WF-3RIX. This anthropomorphic flutist robot now has 38 degrees of freedom. The range of motion increased in the neck and arms and the vibrato mechanism is smaller. The fingers are link mechanisms…
Rozum Robotics company is centered at manufacturing own collaborative robot PULSE. Aim of the company - make automation affordable for all SME and bring robotics into everyday life of all the people.&
Developed at the Delft Biorobotics Lab, Bob is a 3D Walking robot that is equipped with actuated ankles and knees. The passive dynamic biped lacks controls and is known for its 3D dynamic simulation as well as stability analysis.
KAIST developed the first robot in the HanSaRam series called HanSaRam I. This bipedal robot was created to test the walking algorithm and control method of lightweight robots.
KAIST developed the second robot in the HanSaRam series called HanSaRam II. This bipedal walking robot has the shape of a human body with different upper and lowers parts.
KAIST developed the third robot in the HanSaRam series called HanSaRam III. It has 22 DOFs and a camera for visual feedback, and can grasp objects with its claw-like hands.
KAIST developed the fifth robot in the HanSaRam series called HanSaRam V. With independent locomotion, sensing and processing, it can walk in patterns avoiding obstacles.
The 6th generation of Dr Robot's android series, HR 6 can recognize faces, obey voice commands, read emails and do online research. It also sings, dances and tells jokes.
Tomy Company developed the world's smallest humanoid robot called I-SOBOT Omnibot 17?. It has gyro-sensors for balance, infrared remote-control unit, and four modes of operation.
Developed by the Robugtix Company, iitsii serves as an interactive platform to play with robotics. This hexapod robot kit is user-friendly, affordable and provides an interesting platform to get an idea of the world of robotics.
KHR-1 is a programmable humanoid robot, also known as the ECO-ROBOT. It is capable of performing human-like movements such as walking, climbing the stairs and back flips. KHR-1 has a rechargeable battery and can be controlled with a RF remote control…
WowWee's Lion Cub Alive is one of their robotic toy Alive minis. Servomotors allow it to blink and move its mouth, and its touch sensors respond to petting and cuddling. Tilt sensors allow the robot to know when it's being turned. Lion cub Alive comes…
The Technical University of Darmstadt developed Mr. DD Junior 2. This humanoid robot uses the inverse kinematics approach for its movements and can play soccer autonomously.
Perfect Puppy Bella is a robot toy dog developed by WowWee. It can detect and respond differently to soft and loud commands, and can tell when it is being patted or hugged. Modern servo motors provide topnotch animation to Bella, the female version of…
George Mason University developed three humanoids called RoboPatriots. They play soccer and are used to study motion and path planning, multiple robot coordination, etc.
Trossen Robotics developed a programmable humanoid called RoboPhilo. It can move all parts of its body and can be controlled using a multi-functioned wireless remote controller.
David Beal and Michael Sachinis of the MIT developed a robotic fish called RoboTuna II. It is designed on a cable pulley system and uses genetic algorithms to learn to swim.
Robovie-M is a humanoid robot created by Team Osaka. It can play soccer and has programmable moves. Robovie-M is a build-it-yourself robot with an optional remote control.
Speecys Corp's 1st humanoid robot, SPC-001 was built for research purposes. The serial ports of its 21 actuators interface with a PC's USB port using installed drivers.
