This is a robotic model best suited for learning to simulate the quadruped’s movement through the careful manipulation of the mini-servo motor on each of its 4 legs. Through careful studying and programming, one can simulate the various movement of a quadruped such as slow walk, fast running, turning left and right, 360° turning, etc. It will also enable one to program the animal to walk on various ground surfaces to experience the movement changes needed to enable the animal to move on these various surfaces.
This is a robotic model best suited for learning to simulate the hexapod’s movement through the careful manipulation of the mini-servo motor on each of its six legs. Through careful studying and programming, one can simulate the various movement of a hexapod such as slow walking, fast running, turning left and right, 360° turning, etc. It will also enable one to program the animal to walk on various ground surfaces to experience the movement changes needed to enable the animal to move on these various surfaces.
This is a low cost robotic arm model with 7 mini-servo motors. These motors provide one (1) degree of freedom each to the robotic arm’s base, arm, forearm, fore wrist, back wrist, and its clamp and enable them to move within an 80° freedom. Together with our mini-servo control card and the Mini Servo ExplorerTM software, it creates a formidable platform for robotic arm enthusiast to explore the various movements and positioning of such a popular item. Through careful programming, one can accurately position this robotic arm to perform various complicated movements in continuation.
In the animal world, bug has relatively low intelligence. Nevertheless, like our human, it possesses the ability to react to quite a few of outside stimulants. Our IQ-BUG is a robotic machine with similar outlook of a bug, but much higher intelligence than the real bug. The real bug’s reaction process is: Sensing-brain action-body reaction; Our IQ-BUG has various sensors such as “sight”, “hearing”, “sensing”, with a micro process brain, it will enable our bug to receive these stimulants and follow the same process to react to them. By enhance its expressive ability by enabling our bug to sing and flashing its eyes to express its feeling, we have transformed this mechanical robot into a lovable pet.
Since Sony’s introduction of the robotic dog “Aibo” last year, it has aroused tremendous interest in the robotic toy industry. The Joinmax initial introduction of a robotic dog with 15 degrees of freedom is aiming to establish a robotic dog platform to provide a more flexible playground for the Robotic Dog enthusiast community. Through the construction of this robotic dog, one can have a much better understanding of the fundamental concept of a robotic dog’s mechanical architecture and its basic principle of movement. This platform can also support other sensors, such as “sight”, “smell”, “Hearing”, “sensing”, which will be introduced later to make this robotic dog more intelligent and more fun to play with.