University of Tokyo’s JSK Robotics Laboratory Researchers have developed a robot, named Kojiro that can mimics human movement. The scientists who have been working on Kojiro have equipped him with a human-like skeletal structure that allows him to move, twist and bend in natural human way.
Quite different from traditional robots, Kojiro uses lightweight motors, a sophisticated system of tendon muscle structures, sensors to track postures and two gyroscopes for robot balance to function.
Kojiro is still undergoing small and complex movemenent tests and scientists believe that in future Kojiro will be suitable for working in daily environment.
Human-Spined Robots
Kojiro is a Mechanised Humaniod Robot Servant
Trend Themes
1. Human-like Movement - The trend of developing robots with human-like skeletal structures and movement opens up opportunities for more intuitive and versatile robotic applications.
2. Lightweight Motors - The trend towards using lightweight motors in robots allows for increased agility and efficiency, enabling robots to perform tasks more delicately and with less energy consumption.
3. Sensor-assisted Posture Tracking - The trend of integrating sensors for posture tracking in robots offers potential for improved stabilization and adaptability, enhancing their ability to operate in diverse environments.
Industry Implications
1. Robotics - The robotics industry has the opportunity to leverage human-spined robots to develop advanced applications for various sectors, including healthcare, manufacturing, and entertainment.
2. Healthcare - In the healthcare industry, human-spined robots can revolutionize patient care by assisting in activities of daily living, physical therapy, and telemedicine, transforming the way healthcare professionals interact with patients.
3. Manufacturing - Manufacturing industries can benefit from the disruptive innovation of human-spined robots by introducing more flexible and adaptable automation solutions that can handle complex tasks with increased precision and efficiency.