Mechatronics in Engineering Design and Product Development | Dobrivoji

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Mechatronics in Engineering Design and Product Development

ABSTRACT

This work presents a systematic and comprehensive overview to the theory and applications of mechatronic processes, emphasizing the adaptation and incorporation of this important tool in fulfilling desired performance and quality requirements. The authors address the core technologies needed for the design and development of the mechatronic product

TABLE OF CONTENTS

chapter 1|2 pages

Sensors and Actuators in Mechatronics

chapter |6 pages

command plant to be output controller actuators controlled measured output sensor and signal processing

chapter |10 pages

E. Repeatability

chapter VI|2 pages

FIBER-OPTIC SENSORS AND OPTICAL INCODERS A. Fiber-Optic Sensors

chapter |7 pages

moving object moving object photoelectric light j photoelectric sensor source] sensor Method A Method B

chapter |3 pages

REFERENCES

chapter 2|5 pages

Microsensors and Microactuators

Michael Goldfarb

chapter |2 pages

Figure 2

chapter |7 pages

Figure 4 Harmonie drive type electrostatic motor. Opposing pairs of electrodes are ener

chapter |1 pages

Figure 9

chapter |2 pages

nniQ

chapter |1 pages

Figure 13

chapter |5 pages

B. Shape Memory Alloy

chapter |2 pages

B. Pressure

chapter |1 pages

a= 2co xv

chapter |6 pages

Figure 15 Schematic of a vibratory gyroscope. REFERENCES

chapter 3|1 pages

Microcomputer Technology

chapter I|4 pages

MICROCOMPUTER ARCHITECTURES

chapter |1 pages

Figure 3 Structure of a CPU.

chapter |6 pages

Table 1

chapter III|18 pages

PRODUCT DESIGN USING A MICROCONTROLLER

chapter |12 pages

MicrocomputerTechnology93

chapter |3 pages

MicrocomputerTechnology105

chapter |3 pages

Figure 25

chapter |6 pages

Start Please Check Empty Sensors

chapter |13 pages

Microcomputer Technology 117

chapter |3 pages

ACKNOWLEDGMENTS

chapter 4|5 pages

Intelligent Controllers

Vojislav Kecman

chapter |2 pages

Table 1 Neural Networks and Fuzzy Logic Modeling

chapter |1 pages

Table 3 Claimed Disadvantages of NN and FLM

chapter |4 pages

Intelligent Controllers 141

chapter |3 pages

F(x) = Ys»0i(x) (7)

chapter |3 pages

[bi, bjj

chapter |6 pages

Figure 5 Logistic (17) and bipolar sigmoidal (18) activation functions and their deriva

chapter |3 pages

Figure 10 Membership functions of crisp (left) and fuzzy set (right).

chapter |3 pages

Figure 17

chapter |2 pages

Figure 20 Discrete membership function ju(x, y) of the relation R: x is smaller than y.

chapter |2 pages

Figure 21 Membership function /u(x, y) of the relation R: x is approximately equal to y

chapter |7 pages

Figure 22 Fuzzy sets, or linguistic terms, 'young man' and 'tall man' given by corre-

chapter |1 pages

Figure 23

chapter |2 pages

Figure 24

chapter x|3 pages

'= 20 Figure 27 Construction of the consequent membership function from the two active rules

chapter 48|1 pages

50

chapter |5 pages

Figure 31 Fuzzy model for controlling the distance between two cars, showing the fuzzy

chapter |5 pages

Figure 33 (N=K) (N<K)

chapter |4 pages

Table 5 Summary o

chapter |2 pages

Intelligent Controllers 195

chapter C|1 pages

Specialized Learning Architecture

chapter |5 pages

Plant r y •

chapter |1 pages

Figure 42 Perfect poles-zeros cancelling by the ABC.

chapter |3 pages

Figure 44 Test results with previously unseen ramp y without the on-line training (left)

chapter |3 pages

Figure 47

chapter V|11 pages

CONCLUSIONS

chapter 5|3 pages

Communications Systems

chapter 224|1 pages

Popovic

chapter |1 pages

Communications Systems 225

chapter 226|2 pages

Popovic

chapter |3 pages

Figure 4 Star topology.

chapter C|35 pages

Medium Access Control Methods

chapter 266|5 pages

Popovic

chapter 6|3 pages

Conceptual Design

chapter 274|4 pages

Popovic

chapter II|4 pages

HIERARCHICAL SYSTEMS ORGANIZATION

chapter 282|2 pages

Popovic

chapter 284|1 pages

Popovic

chapter |1 pages

Conceptual Design 285

chapter 286|14 pages

Popovic

chapter IV|1 pages

INTERLEVEL COORDINATION

chapter |3 pages

Conceptual Design 301

chapter 304|5 pages

Popovíc

chapter 7|5 pages

Computer Aided Design of Automotive Control Systems Using MATLAB®, Simulink®, and Stateflow™

chapter |2 pages

Figure 3 Plot of the function g used in the throttle block.

chapter 316|1 pages

Computer Simulated Design

chapter |1 pages

Gran 317

chapter |4 pages

Edil Simulation Format Tools

chapter |2 pages

Figure 11 Using the nonlinear control design (NCD) toolbox to optimize the control

chapter 324|2 pages

Computer Simulated Design

chapter 326|2 pages

Computer Simulated Design

chapter |5 pages

B. The Engine Simulation with Failure Monitoring and Control

chapter |1 pages

Figure 20 A plot of the 2D data used to estimate speed when the sensor fails.

chapter |2 pages

Figure 21 The sensor correction and fault redundancy block provides estimated meas

chapter |1 pages

Figure 23 Diagnostics generated by real time workshop.

chapter |1 pages

Gran 337

chapter 338|1 pages

Computer Simulated Design

chapter |9 pages

Figure 26 RTW code for the gain block.

chapter |3 pages

Tool Box Description

chapter |2 pages

Gran 351

chapter |1 pages

Bfc £ d t Smiuàcïfn Formai Tod$

chapter 354|1 pages

Computer Simulated Design Figure A.5 Creating a Simulink model for the "Leaning Tower of Pisa" is as simple as

chapter |4 pages

Gran 355 Figure A.6 "The Leaning Tower of Pisa" example using Simulink—final block diagram

chapter 8|1 pages

Rapid Prototyping o f Mechanical and Electronic Subsystems o f Mechatronic Products

chapter 360|6 pages

Postula and Christodoulou Intent's Capture

chapter |1 pages

Table 1 Selected Material Properties of Some Commonly Used SL Resins

chapter |1 pages

Figure 5 Schematic diagram of the L

chapter |2 pages

Table 2 Selected Material Properties for LOMPapers

chapter 370|1 pages

Postula and Christodoulou

chapter |2 pages

Support Material Platform Figure 7 Schematic of the F

chapter |8 pages

RAPID PROTOTYPING Tooling Technologies Tools

chapter |1 pages

Table 5 Flexibility of Different Integrated Circuit Technologies

chapter |4 pages

Figure 11 Components of the simulation process.

chapter |4 pages

Figure 16 Relations between elements of V

chapter 390|10 pages

Postula and Christodoulou BEHAVIOURAL CODE CONSTRAINTS

chapter |2 pages

Figure 22 Principles of different programming technologies.

chapter |4 pages

Figure 23 X

chapter |7 pages

ooooooooo0oooooooooooooooo ••• obwo o

chapter 9|14 pages

System Integration

chapter |4 pages

A. Systems with Repair

chapter |1 pages

System Integration 431

chapter |3 pages

D. Design for Reliability

chapter 10|4 pages

Optimality o f System Performance

chapter |19 pages

Optimality of System Performance 439

chapter |2 pages

Image I Imagen Image III Figure 5 Image substraction.

chapter |4 pages

Figure 6 Data compression network.

chapter |1 pages

Figure 7 Cascaded neural network. H. Automated Acoustic Inspection

chapter |8 pages

Figure 8 Automated acoustic inspection. I. Principles of Automated Acoustic Inspection

chapter 11|1 pages

System Software

Stuart Bennett

chapter |7 pages

ADC Digital Speed Logic Input Controller Control Register DAC Digital Output Register Shared Memory SYSTEM Database System Operator Messages Communications Communications Input Display Controller Device Control ENVIRONMENT Figure 1 Example of a simple real-time control system.

chapter |2 pages

*< 3 ENVIRONMENT Figure 2

chapter |2 pages

Figure 3 Single task approach to software design.

chapter |16 pages

Figure 4

chapter |3 pages

«< 3 o Figure 7 Tool integration for the framework development system. (From JM Bass.) o

chapter |2 pages

Figure 8 State diagram for task management.

chapter C|6 pages

Task Scheduling

chapter |2 pages

B. Assemblers, Compilers, Linkers, and Loaders [15]

chapter 514|6 pages

Bennett

chapter 520|2 pages

Bennett

chapter |11 pages

Figure 13 Example showing transfer of program control on an interrupt.

chapter |1 pages

Information Information Information related equipment Energy, Material Machine Energy, Material

chapter 534|2 pages

Kajitani

chapter |2 pages

D. Interface Concept

chapter |2 pages

Recording pulse current

chapter |2 pages

Figure 7 Photograph of the prototype instrument. 1, Test gear; feeler; rotary mag

chapter |1 pages

Figure 9

chapter |3 pages

Width direction Root Dedendum

chapter |6 pages

Figure 12 Schematic diagram of the calibration system. Figure 13 General view of the calibration system.

chapter |1 pages

Figure 18 Principle of measurement method based on triangulation.

chapter |2 pages

Linear CCD senso Lens r (102 ) Band pass filter 4 elements Laser range finder Angle measuring unit rJ La

chapter |1 pages

Figure 21 Mechanism of marking system.

chapter 556|3 pages

Kajitani Axis Max650mm

chapter C|1 pages

Violin MUBOT

chapter |1 pages

Figure 26 Bow operating mechanism of the violin MUBOT. D. Cello MUBOT

chapter 9|1 pages

Large pulley Small pulley

chapter |3 pages

Figure 29 Cello MUBOT. REFERENCES

chapter 13|7 pages

A n Operator's Model for Control and Optimization o f Mechatronic Processes

chapter 572|2 pages

Vachtsevanos and Klim

chapter 574|4 pages

Vachtsevanos and Klim

chapter 578|2 pages

Vachtsevanos and Klim

chapter |5 pages

Figure 13 Model structure of CVT based upon DPNN method.

chapter 14|3 pages

Ethics in Product Design

Donald R. Searing and Michael J. Rabins

chapter |3 pages

B. Framing the Problem

chapter |1 pages

Table 1 Line Drawing Analysis Chart

chapter |9 pages

Table 2 Line Drawing Analysis Chart with Values from the Case

chapter |6 pages

E. Area of Interest: The Environment