London, : ISTE

Hoboken, N.J., : Wiley, 2011

9781118614471

111861447X

9781118614549

1118614542

9781299315143

1299315143

9781118614532

1118614534

1 online resource (257 p.)

ISTE

DavimJ. Paulo

621

Mechatronics

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover; Mechatronics; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. Mechatronics Systems Based on CAD/CAM; 1.1. Introduction; 1.2. Five-axis NC machine tool with a tilting head; 1.3. Three-axis NC machine tool with a rotary unit; 1.3.1. Introduction; 1.3.2. Post-processor for a three-axis NC machine tool with a rotary unit; 1.3.3. Experiment; 1.4. Articulated-type industrial robot; 1.4.1. Introduction; 1.4.2. For sanding a wooden workpiece; 1.4.3. For mold finishing; 1.5. Desktop Cartesian-type robot; 1.5.1. Background; 1.5.2. Cartesian-type robot

1.5.3. Design of weak coupling control between force feedback loop and position feedback loop1.5.4. Frequency characteristic of force control system; 1.5.5. Finishing experiment of an LED lens mold; 1.6. Conclusions; 1.7. Bibliography; Chapter 2. Modeling and Control of Ionic Polymer-Metal Composite Actuators for Mechatronics Applications; 2.1. Introduction; 2.2. Electromechanical IPMC model;

2.2.1. Nonlinear electric circuit; 2.2.2. Electromechanical coupling; 2.2.3. Mechanical beam model; 2.2.4. Parameter identification and results; 2.3. IPMC stepper motor; 2.3.1. Mechanical design

2.3.2. Model integration and simulation2.3.3. Experimental validation; 2.3.4. Extension to four IPMCs; 2.4. Robotic rotary joint; 2.4.1. Mechanical design; 2.4.2. Control system; 2.4.3. System parameter tuning; 2.4.4. Experimental tuning results; 2.4.5. Gain schedule nonlinear controller; 2.4.6. Gain schedule vs. PID controller; 2.5. Discussions; 2.6. Concluding remarks; 2.7. Bibliography; Chapter 3. Modeling and Simulation of Analog Angular Sensors for Manufacturing Purposes; 3.1. Introduction; 3.2. Pancake resolver model; 3.2.1. Description; 3.2.2. Mathematical model

3.3. Simulation and experimental results3.3.1. Performance of the overall model; 3.3.2. Manufacturer correction tools; 3.4. Conclusions; 3.5. Acknowledgment; 3.6. Bibliography; Chapter 4. Robust Control of Atomic Force Microscopy; 4.1. Introduction; 4.2. Repetitive control of the vertical direction motion; 4.2.1. Tapping mode AFM system model; 4.2.2. Repetitive control basics; 4.2.3. Mapping mixed sensitivity specifications into controller parameter space; 4.2.4. Repetitive control features of COMES; 4.2.5. Robust repetitive controller design using the COMES toolbox

4.2.6. Simulation results for the vertical direction4.3. MIMO disturbance observer control of the lateral directions; 4.3.1. The piezotube and the experimental setup; 4.3.2. MIMO disturbance observer; 4.3.3. Disturbance observer design for the piezotube and experimental results; 4.4. Concluding remarks; 4.5. Acknowledgments; 4.6. Bibliography; Chapter 5. Automated Identification; 5.1. Introduction; 5.2. Serial binary barcode; 5.2.1. Identification technology for serial binary barcodes; 5.2.2. Requirements for serial binary barcode identification; 5.2.3. Decoding for identification

5.3. Two-dimensional binary barcode

The term Mechatronics is a combination of the words "mechanics" and "electronics". It is the blending of mechanical, electronic, and computer engineering into an integrated design and implementation. Mechatronics systems employ microprocessors and software as well as special-purpose electronics.The main objective of this interdisciplinary engineering field is the study of automated devices (e.g. robots) from an engineering perspective, thinking about the design of products and manufacturing processes. Today, mechatronics is having a significant and increasing impact on engineering - in the

Berlin, Heidelberg : , : Springer Berlin Heidelberg : , : Imprint : Springer, , 2009

1-280-38336-4

9786613561282

3-642-10698-6

1 online resource (IX, 121 p.)

Theoretical Computer Science and General Issues, , 2512-2029 ; ; 5906

ChildsAndrew, Ph.D.

MoscaMichele <1971->

004n/a

User interfaces (Computer systems)

Human-computer interaction

Computer programming

Coding theory

Information theory

Computer science

Algorithms

User Interfaces and Human Computer Interaction

Programming Techniques

Coding and Information Theory

Theory of Computation

Inglese

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references and index.

Solutions to the Hidden Subgroup Problem on Some Metacyclic Groups -- Quantum Online Memory Checking -- On the Structure of Protocols for Magic State Distillation -- Statistically-Hiding Quantum Bit Commitment from Approximable-Preimage-Size Quantum One-Way Function -- On the Security and Degradability of Gaussian Channels -- Universal Quantum Computation with a Non-Abelian Topological Memory -- Conditions for the Approximate Correction of Algebras --

Optimal State Merging without Decoupling -- Optimal Trading of Classical Communication, Quantum Communication, and Entanglement -- On the Power of the PPT Constraint in the Symmetric Extensions Test for Separability.

This book constitutes the thoroughly refereed post-workshop proceedings of the 4th Workshop on Theory of Quantum Computation, Communication, and Cryptography, TQC 2009, held in Waterloo, Canada, in May 2009. The 10 revised papers presented were carefully selected during two rounds of reviewing and improvement. The papers present current original research and focus on theoretical aspects of quantum computation, quantum communication, and quantum cryptography, which are part of a larger interdisciplinary field embedding information science in a quantum mechanical framework. Topics addressed are such as quantum algorithms, models of quantum computation, quantum complexity theory, simulation of quantum systems, quantum cryptography, quantum communication, quantum estimation and measurement, quantum noise, quantum coding theory, fault-tolerant quantum computing, and entanglement theory.