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"In this book, you can find a collection of the cutting edge technologies in the field of tree-climbing robot and the ways that animals climb. It provides a valuable reference for robot designers to select appropriate climbing methods in designing tree-climbing robots for specific purposes. Based on the study, a novel bio-inspired tree-climbing robot with several breakthrough performances has been developed and presents in this book. It is capable of performing various actions that is impossible in the state-of-the-art tree-climbing robots, such as moving between trunk and branches. This book also proposes several approaches in autonomous tree-climbing, including the sensing methodology, cognition of the environment, path planning and motion planning on both known and unknown environment. "

"This book shows how, through certain geometric transformations, some of the standard joints used in parallel robots can be replaced with lockable or non-holonomic joints. These substitutions allow for reducing the number of legs, and hence the number of actuators needed to control the robot, without losing the robot's ability to bring its mobile platform to the desired configuration. The kinematics of the most representative examples of these new designs are analyzed and their theoretical features verified through simulations and practical implementations. "

"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. "

"Compensating for quasi-periodic motion in robotic radiosurgery outlines the techniques needed to accurately track and compensate for respiratory and pulsatory motion during robotic radiosurgery. The algorithms presented within the book aid in the treatment of tumors that move during respiration. In Chapters 1 and 2, the book introduces the concept of stereotactic body radiation therapy, motion compensation strategies and the clinical state-of-the-art. In Chapters 3 through 5, the author describes and evaluates new methods for motion prediction, for correlating external motion to internal organ motion, and for the evaluation of these algorithms’ output based on an unprecedented amount of real clinical data. Finally, Chapter 6 provides a brief introduction into currently investigated, open questions and further fields of research. "

"This book is of interest to researchers inquiring about modern topics and methods in the kinematics, control and design of robotic manipulators. It considers the full range of robotic systems, including serial, parallel and cable driven manipulators, both planar and spatial. The systems range from being less than fully mobile to kinematically redundant to overconstrained. In addition to recognized areas, this book also presents recent advances in emerging areas such as the design and control of humanoids and humanoid subsystems, and the analysis, modeling and simulation of human body motions, as well as the mobility analysis of protein molecules and the development of machines which incorporate man. "

"Skripsi ini membahas mengenai perancangan mobile robot pelontar Frisbee berdasarkan spesifikasi pada peraturan kontes ABU Robocon tahun 2017. Sehingga Frisbee yang digunakan sebagai acuan pada skripsi ini juga berdasarkan dari peraturan yang dibuat oleh ABU Robocon. ABU Robocon merupakan kontes robot tahunan yang diselenggarakan oleh Kesatuan Penyiaran Asia-Pasifik. Peraturan dan tempat diselenggarakan kontes ini selalu berubah-ubah setiap tahunnya. Pada tahun ini diselenggarakan di Jepang dan tema yang diambil berasal dari permainan Tosenkyo. Pada awalnya, Tosenkyo merupakan permainan untuk melempar kipas lipat. Akan tetapi pada kontes ini, barang yang dilempar tersebut diganti menjadi sebuah Frisbee. ABU Robocon merupakan sebuah kontes internasional. Tim Robot UI Universitas Indonesia harus bersaing didalam negeri melalui kontes yang bernama KRAI Kontes Robot ABU-Robocon Indonesia.Oleh karena itu tujuan dari skripsi ini adalah untuk merancang sistem pelontar Frisbee beserta mobilisasinya. Penjelasan dibagi secara mekanis, elektris, programming, dan sistem kendali. Tidak hanya itu analisis gerak Frisbee serta mobilisasi robot menggunakan teknik odometri juga dibahas pada skripsi ini. Gerak mobilisasi robot berupa gerak holonomic menggunakan roda mekanum berjumlah 4 buah. Banyaknya penggunaan motor DC pada perancangan robot ini memerlukan sebuah teknik kendali berupa PID Proportional Integral Derivative untuk mengendalikan kecepatan putar motornya. Untuk mengendalikan satu motor DC diperlukan mikrokontroler tersendiri dan menyebabkan mikrokontroler yang digunakan mencapai tujuh buah, sehingga teknik koordinasi ketujuh mikrokontroler juga dibahas. Pembahasan skripsi ini pun meluas dan membahas mengenai sistem komunikasi serial master-slave. Rancangan robot yang dibuat pada skripsi bukan robot otomatis, robot masih perlu dikendalikan secara manual oleh operator.

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This thesis discusses the design of mobile robot Frisbee launcher based on specification in ABU Robocon contest rules of 2017. The Frisbee used as a reference is also based on the rules made by ABU Robocon. ABU Robocon is an annual robot contest organized by the Asia Pacific Broadcasting Union. The rules and venues of this contest are always changing every year. This year, the contest is held in Japan and the theme is taken from the Tosenkyo game. At first, Tosenkyo is a game to throw a folding fan. However, in this contest, the thrown item is changed into a Frisbee. ABU Robocon is an international contest. The UI Universitas Indonesia robotics team still needs to compete domestically through a contest named KRAI Kontes Robot ABU Robocon Indonesia.Therefore the purpose of this thesis is to design the Frisbee thrower system along with its mobilization. The discussion is divided into mechanically, electrically, programming, and its control systems. Frisbee motion analysis and robot mobilization using odometry technique will also be discussed. The motion of robot mobilization in the form of holonomic motion using 4 mecanum wheels. The amount of use of DC motors in designing this robot requires a control technique in the form of PID Proportional Integral Derivative to control the rotational speed of the motor. To control each DC motor required one microcontroller so that in the design of this robot, it required to use 7 microcontrollers, therefore the coordination of these microcontrollers are also discussed such as the master slave serial communication system. The design of the robot is not an automatic robot, it still need to be controlled manually by an operator."

"Dalam kehidupan sehari-hari tak jarang ditemukan pekerjaan yang membutuhkan lebih dari satu orang dalam penyelesaiannya. Konsep tersebut diadaptasikan ke penyelesaian tugas kompleks untuk sistem otonomi dengan lebih dari satu mobile robot atau disebut juga mobile robot kooperatif. Dalam mengakomodasi sistem mobile robot kooperatif yang baik, beberapa aspek perlu diperhatikan terutama komunikasi antar anggotanya.Pada skripsi ini, mobile robot akan dirancang dengan menggunakan trayektori linier dan sinusoidal sebelum antar robotnya dikomunikasikan untuk bertukar informasi. Sistem meggunakan protokol komunikasi nirkabel internet socket sebagai media pertukaran informasi antar robotnya sehingga pengujian terhadap komunikasi juga perlu dilakukan.Berdasarkan hasil pengujian dapat diketahui bahwa setiap mobile robot mempunyai karakteristik dan pergerakan yang berbeda satu sama lain tetapi masih dapat dikendalikan dengan menggunakan nilai pengendali yang sama. Hasil pengujian juga menunjukkan bahwa komunikasi dengan internet socket sudah dapat digunakan dalam aplikasi mobile robot komunikatif.

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In daily life, a lot of tasks need more than one people to complete because of it complexity. The concept of using more hand to complete a complex problems is adapted in autonomous system that used more than one robot which often defined as cooperative robot. In order to accommodate a good cooperative mobile robot system, interrobot communication should be carefully designed.In this script, the mobile robot would be design while using linear and sinusoidal trajectory to test whether before being communicated between each other.

The system using wireless internet socket communication protocol as the information exchange's media between the robots, therefore an experiment need to be done to test the communication as well.Accordintg to experiment done, the result show that each robot has its own characteristic and movement dyamics. However, the differences are still tolerable and still can be controlled using the same controllers'constans.The experiment also show that internet socket communication is proven to be able implemented in communicative mobile robots."

"ABSTRAKUntuk dapat terus mengejar kemajuan dalam bidang robotika terutama dalam bidang microrobot dimensi robot terus diminimalisir. Peminimalisiran ini membuat terjadi beberapa halangan-halangan dalam hal komponen. Dengan menggantikan sensor yang ada dirobot menjadi sensor vision terpusat kita dapat menghiangkan banyak sekali ruang yang tadinya dipakai. Penelitian ini melakukan pengembangan sistem visual servoing untuk mobil microrobot. Sistem ini menggunakan multi object tracking dan hough transform untuk mengetahui posisi robot. Pengujian dari sistem yang dibuat mendapatkan bahwa sistem dapat mengendalikan banyak robot sekaligus. Dan dapat menggerakan robot dengan tingkat akurasi 5-6 pixel dari target yang diinginkan.

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ABSTRACTTo achieve grater advancements in the fields of robotics especialy in microrobotics field the dimensions of robots are minimalize. With this isue there are several hurdles in which component can be minimize. By changing several sensors in the robot with a centralized vision sensor we can eliminate large spaces that are usualy ocuppied. A study and design of a visual servoing for microrobots have been developed. This system uses multy object tracking and hough transform to know the position of the robot. A test of the developed system conclude that it can control several robots at once. And can control robots with an accuracy of 5 6 pixels from the desired target."

"Rancangan sistem kontrol lengan robot dengan menggunakan sinyal elektromiogram (EMG) telah dibuat dengan elektroda permukaan sebagai transduser. Sinyal EMG diolah dengan sistem pengolahan sinyal dan diakuisisi dengan menggunakan mikrokontroler H8/3069F . Data pengamatan ditampilkan dalam bentuk Graphical User Interface (GUI) yang dibuat dengan bahasa pemrograman Python dan disimpan dalam database Microsoft Access. Kontrol lengan robot dilakukan berdasarkan gerakan fleksi-ekstensi pergelangan tangan. Sinyal EMG dikarakterisasi berdasarkan root mean square (RMS) sehingga sinyal EMG dapat diklasifikasikan. Gerakan fleksi memiliki RMS antara 0.01 - 0.13 V dan gerakan ekstensi memiliki RMS antara 0.69 - 1.19 V. Sinyal EMG yang telah diklasifikasi ini digunakan sebagai input untuk mengontrol servo motor pada lengan robot.

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Designing control system of arm robot using electromyiogram (EMG) signal have been made with surface electrode as tranducer. EMG signal is processed by signal conditoning system dan acquired by microcontroller H8/3069F. Recording EMG signal is displayed on Graphical User Interface (GUI) with Python as programming language and stored in Microsoft Access database. Arm robot is controlled by flexion-extension of wrist joint movements. Extract feature EMG signal is determined by root mean square (RMS). RMS for each movements is vary, 0.01 - 0.13 V for flexion and 0.69 - 1.19 V for extension. These classification feature of EMG signal is used to control servo motor of arm robot."