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Optimization of Industrial Systems


Optimization of Industrial Systems


1. Aufl.

von: Mohit Tyagi, Dilbagh Panchal, Anish Sachdeva, Dragan Pamucar

191,99 €

Verlag: Wiley
Format: EPUB
Veröffentl.: 19.07.2022
ISBN/EAN: 9781119755050
Sprache: englisch
Anzahl Seiten: 624

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Beschreibungen

OPTIMIZATION <i><b>of</b></i> INDUSTRIAL SYSTEMS <p><b>Including the latest industrial solution-based practical applications, this is the most comprehensive and up-to-date study of the optimization of industrial systems for engineers, scientists, students, and other professionals.</b> <p>In order to deal with societal challenges, novel technologies play an important role. For the advancement of technology, it is essential to share innovative ideas and thoughts on a common platform where researchers across the globe meet together and revitalize their knowledge and skills to tackle the challenges that the world faces. The high complexity of the issues related to societal interdisciplinary research is the key to future revolutions. From research funders to journal editors, policymakers to think tanks, all seem to agree that the future of research lies outside disciplinary boundaries. In such prevailing conditions, various working scenarios, conditions, and strategies need to be optimized. <p>Optimization is a multidisciplinary term, and its essence can be inculcated in any domain of business, research, and other associated working dynamics. Globalization provides all-around development, and this development is impossible without technological contributions. This volume’s mission is at the core of industrial engineering. All the manuscripts appended in this volume were double-blind peer-reviewed by committee members and the review team, promising high-quality research. This book provides deep insights to its readers about the current scenarios and future advancements of industrial engineering.
<p><b>1 Speed Control of DC Motor at Variable Load Torque Using FLC 1<br /></b><i>Kbrom Lbsu, Selomone Fantaye and Fisseha Teklay</i></p> <p>1.1 Introduction 1</p> <p>1.2 Background of Thesis Work 2</p> <p>1.3 Statement of the Problem (Case Study) 2</p> <p>1.4 Research Methods 3</p> <p>1.5 Mathematical Model of DC Motor 5</p> <p>1.6 Results and Discussion 7</p> <p>1.7 Conclusion 9</p> <p>References 10</p> <p><b>2 Detailing and Analysis of Factors Governing Inventory in Dynamics of Food Supply Chain Performance System 11<br /></b><i>Janpriy Sharma, Mohit Tyagi and Arvind Bhardwaj</i></p> <p>2.1 Introduction 11</p> <p>2.2 Literature Review 13</p> <p>2.3 Methodology 14</p> <p>2.4 Results and Discussions 25</p> <p>2.5 Work Implications and Future Avenues 26</p> <p>References 26</p> <p><b>3 Risk Factor Appraisal in Cold Supply Chain Performance System through Delphi Based Hybrid MCDM Approach 31<br /></b><i>Neeraj Kumar, Mohit Tyagi and Anish Sachdeva</i></p> <p>3.1 Introduction and Background 31</p> <p>3.2 Model Development (<i>First Segment</i>) 33</p> <p>3.3 Research Methodology 34</p> <p>3.4 Numerical Illustrations 38</p> <p>3.5 Results and Discussion 41</p> <p>3.6 Managerial Implication and Future Scope 43</p> <p>References 43</p> <p><b>4 Exploring Interaction Among Barriers of Circular Supply Chains: A Case of Indian Rubber Industry 45<br /></b><i>Somesh Agarwal, Mohit Tyagi and R.K. Garg</i></p> <p>4.1 Introduction 45</p> <p>4.2 Literature Survey 46</p> <p>4.3 Methodology 49</p> <p>4.4 Results and Discussion 56</p> <p>4.5 Conclusion and Future Scope 57</p> <p>4.6 Limitation of Study and Future Scope 58</p> <p>References 58</p> <p><b>5 Power Spectral Density Analysis of HRV to Evaluate Changes in ANS During Graded Head-Up Tilt and Head-Reverse Tilt 61<br /></b><i>Anjali Sharma and Dilbag Singh</i></p> <p>5.1 Introduction 61</p> <p>5.2 Materials and Methods 62</p> <p>5.3 Results and Discussion 67</p> <p>5.4 Conclusion 71</p> <p>References 71</p> <p><b>6 Mathematical Modeling for Catalytic Combustion of Volatile Organic Compound (VOC) Methane During Warm-Up Behaviour in Catalytic Converter 73<br /></b><i>Umang Bedi and Sanchita Chauhan</i></p> <p>6.1 Introduction 73</p> <p>6.2 Rate Kinetics 74</p> <p>6.3 Modeling 74</p> <p>6.4 Methodology to Solve Dimensionless Equations 76</p> <p>6.5 Result and Discussions 76</p> <p>6.5 Conclusion 81</p> <p>6.6 Acknowledgments 82</p> <p>Nomenclature 82</p> <p>References 83</p> <p><b>7 Numerical Investigation of Two-Phase Flow in a Horizontal T Junction 85<br /></b><i>Parth Patpatiya, Sreejita Samadder and Vanshika Kapoor</i></p> <p>7.1 Introduction 85</p> <p>7.2 Literature Review 86</p> <p>7.3 Methodology 90</p> <p>7.4 Results and Discussions 92</p> <p>7.5 Conclusion 98</p> <p>References 98</p> <p><b>8 Studies on Design of Flexible Pavement Using Resilient Modulus: A Review 101<br /></b><i>Ashish Pratap Singh, Mayank Pathak, Rajiv Kumar and Kanish Kapoor</i></p> <p>8.1 Introduction 101</p> <p>8.2 Resilient Modulus 103</p> <p>8.3 Importance of Subgrade Resilient Modulus 103</p> <p>8.4 Effect On Pavement Design 104</p> <p>8.5 Seasonal Variations 106</p> <p>8.6 Changes in Water Content Have an Effect on Resilient Modulus 106</p> <p>8.7 Perspective on Resilient Modulus 107</p> <p>8.8 Conclusion 107</p> <p>References 108</p> <p><b>9 Study on Design of Top Shackle used in Cage Suspension Gear in Mines – FEA Approach 111<br /></b><i>Shivam Jaiswal</i></p> <p>9.1 Introduction 111</p> <p>9.2 Research Background 113</p> <p>9.3 Research Methods 114</p> <p>9.4 Finite Element Analysis 115</p> <p>9.5 Analysis and Result 120</p> <p>9.6 Conclusion 122</p> <p>9.7 Acknowledgement 123</p> <p>References 123</p> <p><b>10 A Review on Current Trends in Offshore Wind Energy 125<br /></b><i>Atul Gautam, Pramod Sharma, Vilas Warudkar and J.L. Bhagoria</i></p> <p>10.1 Introduction 125</p> <p>10.2 Modelling and Simulation 127</p> <p>10.3 Dynamic Response and Dynamic Analysis 128</p> <p>10.4 Damping and Fragility Estimations 129</p> <p>10.5 Optimizing the New Offshore Wind Turbine Design 130</p> <p>10.6 Reliability Studies of Offshore Wind Turbines 131</p> <p>10.7 Cost Assessment 131</p> <p>10.8 Methods of Installing Monopole Foundations Offshore 132</p> <p>10.9 Climate Change Influence on Design of Offshore Wind Farm in Indian Offshore Wind Energy Sector 134</p> <p>10.10 Conclusions 135</p> <p>References 135</p> <p><b>11 Assessment of Offshore Wind Energy for Site 137<br /></b><i>Atul Gautam, Pramod Kumar Sharma, Vilas Warudkar and J L Bhagoria</i></p> <p>11.1 Introduction 137</p> <p>11.2 Literature Review 138</p> <p>11.3 Offshore Tower Design Condition 139</p> <p>11.4 Methodology 140</p> <p>11.5 Paradeep Data Collection 142</p> <p>11.6 Results 143</p> <p>11.7 Discussion 145</p> <p>11.8 Conclusion 145</p> <p>References 145</p> <p><b>12 Optimizing Volume of Helical Compression Spring by Genetic Algorithm and Comparing with Simulated Annealing 147<br /></b><i>Kishor Kumar and Meenu</i></p> <p>12.1 Introduction 147</p> <p>12.2 Design of Springs 148</p> <p>12.3 Optimization Techniques 151</p> <p>12.4 Discussion of Results 155</p> <p>12.5 Conclusions 159</p> <p>References 159</p> <p><b>13 Topological Design Optimisation of Dental Implant 161<br /></b><i>Abner Ankit Lawrence, Nikhil Singh, Rahul Davis, Mohd. Sahil Ansari, Yash Vardhan Tewari and Vishal Francis</i></p> <p>13.1 Introduction 161</p> <p>13.2 Research Methods 163</p> <p>13.3 Result Discussion 167</p> <p>13.4 Conclusion 171</p> <p>References 171</p> <p><b>14 Response Surface Methodology Approach for Combustion Analysis of Compression Ignition Engine Fueled with Jatropha Biodiesel Produced by Using Heterogeneous Catalyst 173<br /></b><i>Aparna Singh, Shailendra Sinha and Akhilesh Kumar Choudhary</i></p> <p>14.1 Introduction 173</p> <p>14.2 Materials and Methods 175</p> <p>14.3 Results and Discussion 178</p> <p>14.4 Optimization 181</p> <p>14.5 Validation 182</p> <p>14.6 Conclusion 183</p> <p>References 183</p> <p><b>15 Thermal Performance Evaluation of Solar Air Heater with Different Roughness Designs 185<br /></b><i>Junaid Ahmad Bhat</i></p> <p>Nomenclature 185</p> <p>15.1 Introduction 185</p> <p>15.2 Solar Air Heater 187</p> <p>15.3 Experimentation 187</p> <p>15.4 Instrumentation Used 189</p> <p>15.5 Experimental Procedure 189</p> <p>15.6 Results and Discussion 189</p> <p>15.7 Conclusion and Scope for Future 192</p> <p>15.8 Future Scope 193</p> <p>Bibliography 193</p> <p><b>16 Study of Physical Attributes of Indian Coconut Leaves for Efficient Midrib Separation 195<br /></b><i>Abi Varghese, Joby G. David, Mebin Toms Mathew, Mijo P. Saji and Sambhu Nair V. S.</i></p> <p>16.1 Introduction 195</p> <p>16.2 Materials and Methods 196</p> <p>16.3 Results and Discussion 198</p> <p>16.4 Conclusion 201</p> <p>References 201</p> <p>Appendix 202</p> <p><b>17 Manual Solar Tracking System with Two Degrees of Freedom 205<br /></b><i>Surya Kumar, Ritesh Ranjan, Niraj Kumar Poddar, Bikash Kumar, Adarsh Kumar, Shweta Kumari, Nitish Kumar, Ajay Kumar and Suman Kumar</i></p> <p>17.1 Introduction 205</p> <p>17.2 Design Methodology 206</p> <p>17.3 Working Prototype 210</p> <p>17.4 Working Principle 212</p> <p>17.5 Conclusions 214</p> <p>17.6 Acknowledgement 214</p> <p>References 214</p> <p><b>18 Critical Review on Tribometers and Their Contact Mechanism 217<br /></b><i>Sumit Singhal, Ritwik Agarwal, Rajan Kumar and R.K. Dwivedi</i></p> <p>18.1 Introduction 217</p> <p>18.2 Types of Wear 219</p> <p>18.3 Ball-On-Disc Tribometer Contact Mechanism 220</p> <p>18.4 Disc on Disc Tribometer 220</p> <p>18.5 Cylinder on Block Tribometer 221</p> <p>18.6 Four Ball Tester 222</p> <p>18.7 Fretting Testing Machine 222</p> <p>18.8 Conclusion 224</p> <p>References 224</p> <p><b>19 Investigation on Tribological Performance of Ferro-Magnetic Fluid as Lubricant 227<br /></b><i>Ashwani Singh, Lalit Thakur and Jaideep Gupta</i></p> <p>19.1 Introduction 227</p> <p>19.2 Materials and Methods 229</p> <p>19.3 Results and Discussion 234</p> <p>19.4 Conclusion 235</p> <p>References 236</p> <p><b>20 Application of State Space Method on Beam to Predict its Response in Time and Frequency Domain 239<br /></b><i>Nitin Gupta, Ashok Kumar Bagha and Shashi Bahl</i></p> <p>20.1 Introduction 239</p> <p>20.2 Formulation of Beam 240</p> <p>20.3 State Space Formulation 243</p> <p>20.4 Results and Discussion 245</p> <p>Software and Comparing it with Analytical Solutions 248</p> <p>20.5 Conclusions 250</p> <p>References 250</p> <p><b>21 Finite Element Model Updating of Five Degree of Freedom Spring Mass </b><b>System using Direct Updating Method 253<br /></b><i>Abhishek Sharma, Dinesh Kumar Shukla, Ashok Kumar Bagha and Shashi Bahl</i></p> <p>21.1 Introduction 253</p> <p>21.2 Analytical Study 255</p> <p>21.3 Results and Discussion 257</p> <p>21.4 Conclusions 262</p> <p>References 263</p> <p><b>22 Design and Analysis of Two Wheeler Suspension Helical Compression Spring 265<br /></b><i>Pravin B. Khope, Sagar D. Shelare and Shubham S. Gunjal</i></p> <p>22.1 Introduction 265</p> <p>22.2 Design of Spring 267</p> <p>22.3 Analysis of Existing Spring 270</p> <p>22.4 Analysis of Spring I 273</p> <p>22.5 Analysis of New Spring II 275</p> <p>22.6 Result 277</p> <p>22.7 Conclusion 277</p> <p>References 277</p> <p><b>23 Automated Belt Conveyor System for Bolt and Washer Assembly 279<br /></b><i>Subhash N. Waghmare, Sagar D. Shelare, Nischal P. Mungle and Krunal P. Mudafale</i></p> <p>23.1 Introduction 279</p> <p>23.2 Research Methods 280</p> <p>23.3 Materials and Methods 280</p> <p>23.4 Result Discussion 290</p> <p>23.5 Conclusion 293</p> <p>References 294</p> <p><b>24 Design and Development of Spherical Roller Bearings: A Review 297<br /></b><i>Nilay Bhavsar and Gurmitsingh Bassan</i></p> <p>24.1 Introduction 297</p> <p>24.2 Literature Review 298</p> <p>24.3 Literature Outcome 304</p> <p>24.4 Conclusion 305</p> <p>References 305</p> <p><b>25 Topological Design Optimisation of Tissue Engineering Scaffolds 307<br /></b><i>Abner Ankit Lawrence, Nikhil Singh, Mohd. Sahil Ansari, Yash Vardhan Tewari and Vishal Francis</i></p> <p>25.1 Introduction 307</p> <p>25.2 Research Methods 311</p> <p>Scan 313</p> <p>25.3 Result Discussion 317</p> <p>25.4 Conclusion 319</p> <p>References 319</p> <p><b>26 Design of Different Controllers of Cruise Control System on Inclined Plane 321<br /></b><i>Saty Prakash Yadav and Amit Kumar Singh</i></p> <p>26.1 Introduction 321</p> <p>26.2 Modeling of Cruise Control 322</p> <p>26.3 Controller Design 324</p> <p>26.4 Simulation Results 327</p> <p>26.5 Conclusion 331</p> <p>References 332</p> <p><b>27 Mechanical Properties for 3D Printing of Polymers through Fused Deposition Modelling 335<br /></b><i>Brajesh Kumar, Ankush Raina, Ravi Pratap Singh and Mir Irfan Ul Haq</i></p> <p>27.1 Introduction 335</p> <p>27.2 3D Printing Techniques 336</p> <p>27.3 Materials 339</p> <p>27.4 Studies Related to Behaviour of 3D Printed FDM Parts 340</p> <p>27.5 Conclusions and Future Scope 348</p> <p>References 348</p> <p><b>28 Novel Approach for Optimization of Machining Characteristics of Polymer Nanocomposites 353<br /></b><i>Kuldeep Kumar, Jogendra Kumar, Vijay Kumar Singh, Rajesh Kumar Verma and Abhishek Singh</i></p> <p>28.1 Introduction 353</p> <p>28.2 Background and Problem Formulation 354</p> <p>28.3 Experimentation 355</p> <p>28.4 Parametric Optimization 357</p> <p>28.5 Results and Discussion 358</p> <p>28.6 Conclusion 362</p> <p>References 363</p> <p><b>29 Soft Computing Techniques and Aluminum Metal Matrix Composites 367<br /></b><i>Nitish Singh Jammoria, Mir Irfan Ul Haq, Ravi Pratap Singh and Ankush Raina</i></p> <p>29.1 Introduction 367</p> <p>29.2 Soft Computing Techniques 368</p> <p>29.3 Studies Related to Soft Computing Techniques 368</p> <p>29.4 Conclusions 382</p> <p>References 382</p> <p><b>30 Sustainable Manufacturing Related Aspects in Turning: A Study on Tool Wear 391<br /></b><i>Akshay Kumar Vadaliya, Anil B. Ghubade, Parveen Sharma and Anil Kumar</i></p> <p>30.1 Introduction 391</p> <p>30.2 Literature Survey 392</p> <p>30.3 Experimental Procedure 393</p> <p>30.4 Result and Discussion 398</p> <p>30.5 Conclusion 399</p> <p>References 400</p> <p><b>31 Effect of Different Process Parameters and Manufacturing Design of Heat Sink: A Review 403<br /></b><i>Anil Kumar Rao and Shamsul Haq</i></p> <p>31.1 Introduction 403</p> <p>31.2 Heat Sink Construction 404</p> <p>31.3 Thermal Resistance 404</p> <p>31.4 Materials 405</p> <p>31.5 Previous Research Work 406</p> <p>31.6 Conclusion 411</p> <p>References 411</p> <p><b>32 Effect of Crumb Rubber on Concrete by Partial Replacement of Fine Aggregates 415<br /></b><i>Mayank, Ashish Pratap Singh, Vaibhav Chaturvedi, Ravi Pratap Singh, Parampreet Kaur, Shivangi and Amit Arora</i></p> <p>32.1 Introduction 415</p> <p>32.2 Materials Used 416</p> <p>32.3 Results and Discussions 416</p> <p>32.4 Conclusions 419</p> <p>References 420</p> <p><b>33 An Analytical Model for Estimation of Build Time in Fused Deposition Modelling 423<br /></b><i>Faladrum Sharma and Uday Shanker Dixit</i></p> <p>33.1 Introduction 423</p> <p>33.2 A Deterministic Model for Time Estimation 426</p> <p>33.3 Determination of Lower and Upper Limits of Time Estimates 431</p> <p>33.4 Validation 432</p> <p>33.5 Conclusion 434</p> <p>References 436</p> <p><b>34 Thermomechanical Analysis of Pulsed Laser Welded Thin Aluminium Alloy Sheets 439<br /></b><i>Tapas Bajpai, Pankaj Kumar Gupta and Anup Malik</i></p> <p>34.1 Introduction 439</p> <p>34.2 Finite Element Modelling 440</p> <p>34.3 Results and Discussion 444</p> <p>References 446</p> <p><b>35 CFD Analysis of Car Parking Area to Study Carbon Monoxide Levels 447<br /></b><i>Rahul Gupta and Rajesh Kumar</i></p> <p>35.1 Introduction 448</p> <p>35.2 Computational Fluid Dynamics Analysis 449</p> <p>35.3 Governing Equations 449</p> <p>35.4 Turbulence Model 451</p> <p>35.5 Computational Domain and Boundary Conditions 452</p> <p>35.6 Numerical Method 454</p> <p>35.7 Results and Discussion 454</p> <p>35.8 Conclusions 460</p> <p>References 460</p> <p><b>36 Performance Analysis of Semi-Transparent Photovoltaic Thermal Module with Single and Double Pass Configuration 463<br /></b><i>C.S. Rajoria, Pankaj Gupta, Dharmendra Singh and Amit Sharma</i></p> <p>36.1 Introduction 463</p> <p>36.2 System Description 464</p> <p>36.3 Energy Analysis of DPSPVT 465</p> <p>36.4 Economic Analysis 466</p> <p>36.5 Results and Discussion 468</p> <p>36.6 Conclusion 471</p> <p>References 471</p> <p><b>37 Mechanical and Corrosion Behavior of Al 5083 Alloy Processed by Multi Directional Forging at Cryogenic Temperature 473<br /></b><i>D. Singh, C. S. Rajoria, J. P. Bhamu, S. Raykar, P. K. Gupta and S. K. Rajput</i></p> <p>37.1 Introduction 473</p> <p>37.2 Experimental Details 474</p> <p>37.3 Result Discussion 476</p> <p>37.4 Conclusion 482</p> <p>References 482</p> <p><b>38 Critical Review of Cold Spraying Coating Techniques 485<br /></b><i>Sagar D. Shelare, Trupti S. Gajbhiye, Dipak M. Hajare and Subhash N. Waghmare</i></p> <p>38.1 Introduction 485</p> <p>38.2 Principle of Cold Spraying 487</p> <p>38.3 Contact Phenomenon and Bonding Mechanism of Cold Spraying Process 488</p> <p>38.4 Coatings by Cold Spray 489</p> <p>38.5 Cold Spraying Coatings Applications 491</p> <p>38.6 Advantages and Potential Challenges of Cold Splash upon Another Thermal Spray Processes 493</p> <p>38.7 Conclusion 494</p> <p>References 495</p> <p><b>39 Experimental Study of Influence of Drilling Parameters on Delamination in Drilling Aircraft CFRP Composites Using DOE (Taguchi Method) 499<br /></b><i>Mayuresh Kashikar, S.M. Patil and Sumeet Kalkar</i></p> <p>39.1 Introduction 499</p> <p>39.2 Materials and Methods 501</p> <p>39.3 Results and Discussions 504</p> <p>References 517</p> <p><b>40 Programming of 6 Axis Articulated Robot for Industrial Applications 519<br /></b><i>Huzefa Mashhood and Mohammed Ali</i></p> <p>40.1 Introduction 519</p> <p>40.2 Research Background 520</p> <p>40.3 Specification Details of Robot 521</p> <p>40.4 Experimental Work 524</p> <p>40.5 Programming of ARISTO Robot 525</p> <p>40.6 Development of Arena Model For Layout 529</p> <p>40.7 Discussion on Simulation Results 531</p> <p>40.8 Conclusion 531</p> <p>References 532</p> <p><b>41 Process Optimization of EDM Parameters Using TAGUCHI while Machining Aluminium Metal Matrix Composite 533<br /></b><i>Divya Chandra, Nathi Ram Chauhan and Rajesha S.</i></p> <p>41.1 Introduction 533</p> <p>41.2 Material Selection 535</p> <p>41.3 Machinability Analysis on MMCs using Electric Discharge Machining 535</p> <p>41.4 Analysis of Process Parameters 537</p> <p>41.5 Results and Discussion 537</p> <p>41.6 Conclusion 542</p> <p>References 542</p> <p><b>42 Study of Thermal Conductivity of NiCrFeSi Based Ceramic Composite Coating 545<br /></b><i>Rahul Yadav, Rahul Kumar Sah, Pulkit Mann, Deepak Kumar and Pushpendra Singh</i></p> <p>42.1 Introduction 545</p> <p>42.2 Research Background 546</p> <p>42.3 Experimental Procedure 547</p> <p>42.4 Calculations 550</p> <p>42.5 Discussion 551</p> <p>42.6 Result 551</p> <p>References 551</p> <p>About the Editors 555</p> <p>Index 557 </p>
<p><b>Dilbagh Panchal, PhD</b>, is an assistant professor in the Department of Industrial and Production Engineering, Dr. B R Ambedkar National Institute of Technology Jalandhar, Punjab, India. He earned his PhD from the Indian Institute of Technology Roorkee, India. He has published 22 research papers in scientific journals, ten book chapters in various books, and he has edited two books. He is a reviewer for several scientific journals, and he is currently working on seven books, including books for Scrivener Publishing.</p> <p><b>Mohit Tyagi, PhD</b>, is an assistant professor in the Department of Industrial and Production Engineering at Dr. B. R. Ambedkar National Institute of Technology Jalandhar, India. He earned his PhD from the Indian Institute of Technology, Roorkee, India, and he has over seven years of teaching and research experience. He has roughly 75 publications in scientific journals and has numerous conference proceedings and book chapters to his credit. He is a reviewer for many technical journals and has organized three international conferences. <p><b>Anish Sachdeva, PhD</b>, is an associate professor in the Department of Industrial and Production Engineering at Dr. B.R. Ambedkar National Institute of Technology, Jalandhar, Punjab, India. He received his PhD from IIT Roorkee and has published more than 100 research articles in scientific journals and conferences. He is a peer reviewer for numerous journals, acts as session chair in many international conferences, and conducts a number of training programs. He has organized five international conferences at NIT Jalandhar as organizing secretary and convener. <p><b>Dragan Pamucar, PhD</b>, is an associate professor and earned his PhD from the University of Defence in Belgrade, Serbia. He has authored or co-authored over 50 papers in numerous scientific and technical journals, and, in 2017, he was awarded the top and outstanding reviewer award for his reviews in these journals.
<p><b>Including the latest industrial solution-based practical applications, this is the most comprehensive and up-to-date study of the optimization of industrial systems for engineers, scientists, students, and other professionals.</b></p> <p>In order to deal with societal challenges, novel technologies play an important role. For the advancement of technology, it is essential to share innovative ideas and thoughts on a common platform where researchers across the globe meet together and revitalize their knowledge and skills to tackle the challenges that the world faces. The high complexity of the issues related to societal interdisciplinary research is the key to future revolutions. From research funders to journal editors, policymakers to think tanks, all seem to agree that the future of research lies outside disciplinary boundaries. In such prevailing conditions, various working scenarios, conditions, and strategies need to be optimized. <p>Optimization is a multidisciplinary term, and its essence can be inculcated in any domain of business, research, and other associated working dynamics. Globalization provides all-around development, and this development is impossible without technological contributions. This volume’s mission is at the core of industrial engineering. All the manuscripts appended in this volume were double-blind peer-reviewed by committee members and the review team, promising high-quality research. This book provides deep insights to its readers about the current scenarios and future advancements of industrial engineering.

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