1. Part I. Sustainability assessments using soft-computing techniques
a. Physical risk factors – Detection, Evaluation, Improvement, and Control
b. Soft computing for sustainability in the manufacturing sector
c. Sustainable design of workstations safety
d. Sustainable design of work methods
e. The ergonomic design of hand tools
f. Environmental ergonomics
G. Software applications to physical ergonomics
2. Part II. Soft-computing and its applications: A recent trend in mechanical, manufacturing, and industrial engineering
a. Soft computing application for Human-computer interaction
b. Analysis and design of interfaces by computational methods
c. Mental workload with soft computing approach
d. Human error identification
e. Cognitive usability analysis
f. Resilience and motivation
g. Decision making
h. Green materials and intelligent manufacturing
3. Part III. Sustainable practices in manufacturing by IoT and A.I.
a. Work systems design modification with IoT and A.I.
b. Teamwork in industrial systems for safety
c. Supply chain management with IoT and A.I.
d. Organizational safety and hygiene with IoT and AI Education and training
e. Human resources optimization
f. Robotic application for safety and sustainability in the workplace
g. Green materials and smart materials
h. Intelligent Production system
i. Innovation and Robotic application
Arturo Realyvásquez Vargas is a full-time professor from the Department of Industrial Engineering at Tecnológico Nacional de Mexico/Instituto Tecnológico de Tijuana in Mexico. He received a master's degree in Industrial Engineering and a Ph.D. in Engineering Sciences from the Autonomous University of Ciudad Juarez in Mexico. In addition, he also holds a PhD in Innovation in Product Engineering and Industrial Process at the University of La Rioja (Spain). His main research areas are related to the optimization of industrial processes, lean manufacturing, and ergonomics. He is an active member of the Society of Ergonomists of Mexico Civil Association (Sociedad de Ergonomistas de México, SEMAC) and the Network of Optimization of Industrial Processes (Red de Optimización de Procesos Industriales, ROPRIN). Currently, he is a national researcher recognized by the National Council of Science & Technology of Mexico (CONACYT) as level I.
Suchismita Satapathy is an associate professor in the School of Mechanical Sciences, KIIT University, Bhubaneswar, India. Her areas of interest include production operation management, operation research, acoustics, sustainability, and supply chain management.
Jorge Luis García Alcaraz is a full-time researcher at the Industrial Engineering and Manufacturing Department at the Autonomous University of Ciudad Juarez in Mexico. He received an M.Sc. in Industrial Engineering from the Colima Technological Institute (Mexico), a Ph.D. in Industrial Engineering Sciences from Ciudad Juárez Technological Institute (Mexico), a Ph.D. in Innovation in Product Engineering and Industrial Process from University of La Rioja (Spain), a Ph.D. in Sciences and Industrial Technologies from the Public University of Navarre (Spain), and a Postdoc in Manufacturing Process from University of La Rioja (Spain). His main research areas are related to the multicriteria decision-making process and techniques applied to lean manufacturing, production process, and supply chain modeling. He is a founding member of the Mexican Society of Operation Research and an active member of the Mexican Academy of Industrial Engineering.
This book explores sustainability and innovation in manufacturing, encompassing three distinct parts. The first section delves into Sustainability in Manufacturing, where it analyzes topics like intelligent manufacturing, Industry 4.0 challenges, structural equation modeling for social sustainability, barriers to intelligent manufacturing systems, and critical success factors in Six Sigma deployment. The second part of the book, comprising Chapters 6-11, focuses on Ergonomics and Safety in manufacturing, examining cases related to health issues caused by factors like noise, high-temperature working conditions, ergonomic posture, and design attributes for ergonomic products. Lastly, Part III, consisting of Chapters 12-14, explores computational techniques applied in manufacturing, addressing issues such as vegetable waste in India, technology transfer models for university-industry collaboration, and the application of System Dynamics in safety management systems. Together, these chapters provide a comprehensive overview of sustainability, ergonomics, safety, and computational techniques in the manufacturing industry.