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"Humanoid Robotics: A Reference provides a comprehensive compilation of developments in the conceptualization, design and development of humanoid robots and related technologies. Human beings have built the environment they occupy (living spaces, instruments and vehicles) to suit two-legged systems. Building systems, especially in robotics, that are compatible with the well established, human-based surroundings and which could naturally interact with humans is an ultimate goal for all researches and engineers. Humanoid Robots are systems (i.e. robots) which mimic human behaviour. Humanoids provide a platform to study the construction of systems that behave and interact like humans. A broad range of applications ranging from daily housework to complex medical surgery, deep ocean exploration, and other potentially dangerous tasks are possible using humanoids. In addition, the study of humanoid robotics provides a platform to understand the mechanisms and offers a physical visual of how humans interact, think, and react with the surroundings and how such behaviours could be reassembled and reconstructed. Currently, the most challenging issue with bipedal humanoids is to make them balance on two legs, The purportedly simple act of finding the best balance that enables easy walking, jumping and running requires some of the most sophisticated development of robotic systems- those that will ultimately mimic fully the diversity and dexterity of human beings. Other typical human-like interactions such as complex thought and conversations on the other hand, also pose barriers for the development of humanoids because we are yet to understand fully the way in which we humans interact with our environment and consequently to replicate this in humanoids."

"Humanoid Robot Soccer adalah sebuah robot yang dapat bermain sepak bola layaknya manusia secara otomatis. Untuk membuat sebuah robot humanoid sepak bola dibutuhkan sistem tertanam yang mumpuni dan terpadu disebabkan oleh kebutuhan akan beberapa sensor sebagai pendukung kecerdasan yang diambil secara kontinu dan kalkulasi yang besar pada sistem pengendalian dan pengolahan citranya. Penelitian skripsi ini fokus pada perancangan dan penerapan Odroid XU-4 Komputer Papan Tunggal sebagai pengendali utama didukung dengan sensor Inertial Measurement Unit dan aktuator Dynamixel MX-28T dan MX-64T. Hasil dari penelitian ini menunjukkan bahwa perangkat yang diusulkan mumpuni untuk menjadi sistem tertanam pada Humanoid Robot Soccer.

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Humanoid Robot Soccer is a robot with human like form tha could play soccer autonomously. To create Humanoid Robot Soccer, a robust, compact and rich of feature embedded system is needed caused by the need of many sensors data sampled continously, weight of running process and complex calculation espesially for its control system and image processing. This thesis focus on designing and implementing Odroid XU 4 Single Board Computer as Main Controller support by Inertial Measurement Unit sensors and Dynamixel MX 28T and MX 64T actuators for Humanoid Robot Soccer. The result of this reasearch indicate that the purposed device is qualified to be an embedded system in Humanoid Robot Soccer."

"ABSTRAKKestabilan dari pergerakan kaki adalah salah satu tantangan robot humanoid. Maka desain dalam pergerakan robot menjadi penting. Penelitian ini bertujuan untuk mendesain gerak jalan menggunakan model kinematika terbalik dan mengukur kestabilan robot menggunakan pendekatan zero momen point. Pemilihan material dan mengukur kekuatan struktur robot menggunakan metode elemen hingga juga dilakukan guna mendapat desain yang optimal. Permodelan gerakan menggunakan pendekatan Matlab dan disimulasikan dengan Inventor. Hasil yang didapat pada penelitian ini adalah joint trajectory kaki robot dan perbandingan nilai ZMP data real robot dengan data simulasi robot.

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ABSTRACTBipedal locomotion stability is one of the challenging problem in humanoid robot. So, design for the robot movement becomes important. This paper aims to design the walking motion using inversee kinematics model and measure the stability of the robot using the zero moment point approach. Material selection and measuring the strength of robot structure using finite element method is also done to get optimal design. Motion modeling using Matlab approach and simulated with Inventor. The result of this research are joint trajectory of robot leg and comparison of ZMP value between real robot data with robot simulation data."

"The book represents new developments and advances in the field of bio-inspired robotics research introducing the state of the art, the idea of multi-locomotion robotic system to implement the diversity of animal motion. It covers theoretical and computational aspects of Passive Dynamic Autonomous Control (PDAC), robot motion control, multi legged walking and climbing as well as brachiation focusing concrete robot systems, components and applications. In addition, gorilla type robot systems are described as hardware of multi-locomotion robotic system. "

"This book represents the fourth part of a larger work dedicated to the structural synthesis of parallel robots. This book offers other topologies of parallel robotic manipulators with two and three degrees of freedom systematically generated by using the structural synthesis approach proposed in Part 1."