This book examines the Capacitated Lot Sizing Problem (CLSP) in process industries. In almost all process industries, there are situations where products have short/long setup times, and the setup of the product and its subsequent production are carried over, across consecutive periods. The setup of a product is carried over across more than one successive period in the case of products having long setup times. A product having short setup has its setup time less than the capacity of the period in which it is setup. The setup is immediately followed by its production of the product and it may also be carried over, across successive time period(s). Many process industries require production of a product to occur immediately after its setup (without the presence of idle time between the setup and production of the product), and they also require the product to be continuously produced without any interruption. This book considers a single-machine, single-level and multiple-item CLSP problem. This book introduces the Capacitated Lot Sizing Problem with Production Carryover and Setup Crossover across periods (CLSP-PCSC). Mathematical models are proposed which are all encompassing that they can handle continuous manufacturing (as in process industries), and also situations where the setup costs and holding costs are product dependent and time independent/time dependent, with possible backorders, and with other appropriate adaptations. Comprehensive heuristics are proposed based on these mathematical models to solve the CLSP-PCSC. The performance of the proposed models and heuristics are evaluated using problem instances of various sizes. This book also covers mathematical models developed for the Capacitated Lot Sizing Problem with Production Carryover and Setup Crossover across periods, and with Sequence-Dependent Setup Times and Setup Costs (CLSP-SD-PCSC). These models allow the presence of backorders and also address real-life situations present in process industries such as production of a product starting immediately after its setup and its uninterrupted production carryover across periods, along with the presence of short/long setup times. Heuristics proposed for the CLSP-PCSC can be extended to address the CLSP problem with sequence dependent setup costs and setup times. All the models and heuristics proposed in this book address some real-life considerations present in process industries.
This book offers a conceptual, theoretical, and empirical overview of the role of total quality management (TQM) in Indian higher education from the perspectives of the engineering faculty, students, and alumni. It identifies the critical dimensions to measure the performance of TQM. This volume conceptualizes the service quality of higher education, especially in engineering education, through empirical assessment of the services being provided to major stakeholders like the faculty, the students, and the alumni. It highlights the significance of TQM in creating success stories while discussing the importance of improved productivity and quality in higher education with respect to the quality of engineering educational institutions. Further, the book provides a complete framework for the implementation of TQM in engineering educational institutions. This book will be of interest to students, teachers, and researchers of education and management studies. It will also be useful for educationalists, education administrators, education policymakers and bureaucrats, management professionals, business leaders, and the governing bodies of higher education institutions.
This book offers a conceptual, theoretical, and empirical overview of the role of total quality management (TQM) in Indian higher education from the perspectives of the engineering faculty, students, and alumni. It identifies the critical dimensions to measure the performance of TQM. This volume conceptualizes the service quality of higher education, especially in engineering education, through empirical assessment of the services being provided to major stakeholders like the faculty, the students, and the alumni. It highlights the significance of TQM in creating success stories while discussing the importance of improved productivity and quality in higher education with respect to the quality of engineering educational institutions. Further, the book provides a complete framework for the implementation of TQM in engineering educational institutions. This book will be of interest to students, teachers, and researchers of education and management studies. It will also be useful for educationalists, education administrators, education policymakers and bureaucrats, management professionals, business leaders, and the governing bodies of higher education institutions.
This book examines the Capacitated Lot Sizing Problem (CLSP) in process industries. In almost all process industries, there are situations where products have short/long setup times, and the setup of the product and its subsequent production are carried over, across consecutive periods. The setup of a product is carried over across more than one successive period in the case of products having long setup times. A product having short setup has its setup time less than the capacity of the period in which it is setup. The setup is immediately followed by its production of the product and it may also be carried over, across successive time period(s). Many process industries require production of a product to occur immediately after its setup (without the presence of idle time between the setup and production of the product), and they also require the product to be continuously produced without any interruption. This book considers a single-machine, single-level and multiple-item CLSP problem. This book introduces the Capacitated Lot Sizing Problem with Production Carryover and Setup Crossover across periods (CLSP-PCSC). Mathematical models are proposed which are all encompassing that they can handle continuous manufacturing (as in process industries), and also situations where the setup costs and holding costs are product dependent and time independent/time dependent, with possible backorders, and with other appropriate adaptations. Comprehensive heuristics are proposed based on these mathematical models to solve the CLSP-PCSC. The performance of the proposed models and heuristics are evaluated using problem instances of various sizes. This book also covers mathematical models developed for the Capacitated Lot Sizing Problem with Production Carryover and Setup Crossover across periods, and with Sequence-Dependent Setup Times and Setup Costs (CLSP-SD-PCSC). These models allow the presence of backorders and also address real-life situations present in process industries such as production of a product starting immediately after its setup and its uninterrupted production carryover across periods, along with the presence of short/long setup times. Heuristics proposed for the CLSP-PCSC can be extended to address the CLSP problem with sequence dependent setup costs and setup times. All the models and heuristics proposed in this book address some real-life considerations present in process industries.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.