Autonomous Jumping Micro - Robot
نویسندگان
چکیده
Title of Document: Novel Integrated System Architecture for an Autonomous Jumping Micro-Robot Wayne A. Churaman, M.S., 2010 Directed By: Dr. Neil Goldsman, ECE ; Dr. Sarah Bergbreiter, ME As the capability and complexity of robotic platforms continue to evolve from the macro to micro-scale, innovation of such systems is driven by the notion that a robot must be able to sense, think, and act [1]. The traditional architecture of a robotic platform consists of a structural layer upon which, actuators, controls, power, and communication modules are integrated for optimal system performance. The structural layer, for many micro-scale platforms, has commonly been implemented using a silicon die, thus leading to robotic platforms referred to as “walking chips” [2]. In this thesis, the first-ever jumping microrobotic platform is demonstrated using a hybrid integration approach to assemble on-board sensing and power directly onto a polymer chassis. The microrobot detects a change in light intensity and ignites 0.21mg of integrated nanoporous energetic silicon, resulting in 246μJ of kinetic energy and a vertical jump height of 8cm. Novel Integrated System Architecture for an Autonomous Jumping Micro-Robot By
منابع مشابه
Effective Mechatronic Models and Methods for Implementation an Autonomous Soccer Robot
Omni directional mobile robots have been popularly employed in several applications especially in soccer player robots considered in Robocup competitions. However, Omni directional navigation system, Omni-vision system and solenoid kicking mechanism in such mobile robots have not ever been combined. This situation brings the idea of a robot with no head direction into existence, a comprehensi...
متن کاملDesign of a Cricket Microrobots
Our goal is to develop an autonomous robot that will fit within a two-inch cube and will locomote by walking and jumping. The robot will be based on the kinematics of a cricket. It will be actuated by braided pneumatic actuators with compressed air provided by an onboard compressor. The air will be distributed by an array of actuated MEMS valves. A neural network will control the robot and it w...
متن کاملController Design for an Autonomous Wall-climbing Micro-robot Based on TMS320LF2407 DSP Chip
Nishi [1-3], Backes [4] have built large wall-climbing robots with suction cups. However, designing a micro-robot that can climb walls, walk on ceilings, crawl through pipes and traverse on floors is a challenging task. Autonomous micro-robot system has wide applications include remotely monitoring hazardous environments, reconnaissance, defects inspection, and fire fighting. The restrictions s...
متن کاملA Q-learning Based Continuous Tuning of Fuzzy Wall Tracking
A simple easy to implement algorithm is proposed to address wall tracking task of an autonomous robot. The robot should navigate in unknown environments, find the nearest wall, and track it solely based on locally sensed data. The proposed method benefits from coupling fuzzy logic and Q-learning to meet requirements of autonomous navigations. Fuzzy if-then rules provide a reliable decision maki...
متن کاملA Navigation System for Autonomous Robot Operating in Unknown and Dynamic Environment: Escaping Algorithm
In this study, the problem of navigation in dynamic and unknown environment is investigated and a navigation method based on force field approach is suggested. It is assumed that the robot performs navigation in...
متن کامل