Global food losses are a result of a lack of necessary infrastructure, improper food safety handling procedures, and insufficient training for the personnel working in the cold chain. The development of a resource-efficient and energy-smart food supply chain requires a well-integrated evaluation and development of the cold chain. Cold Chain Management for the Fresh Produce Industry in the Developing World provides a comprehensive review of the benefits of an unbroken cold chain in developing countries and focuses on the critical role of extension education in the implementation of cold chain management. The unbroken cold chain is essential for all stakeholders in the fresh produce industry to maintain the quality and safety of food products during handling, transporting, and storing in their journey from producer to consumer. Appropriate cold chain management is crucial not only to reduce the postharvest losses and wastages, but also to increase farmers' income, generate employment opportunities, and improve the livelihood of stakeholders along the supply chain. Key Features: Includes case studies for promoting the expansion of existing technologies for cold chain development in Asian, Africa and the Caribbean nations. Assesses cold chain management as crucial to the growth of global trade in perishable products with contributions from international organizations, researchers and commercial experts. Articulates resilient, sustainable and creative concepts to develop cold chains to enhance food distribution. This book comprises of chapters contributed by the experts and practitioners of cold chain development in developing countries. The authors in the book provide the scenario of cold chain management in the world and discuss the importance of the cold chain as well as the different options and innovations of cooling systems. Chapters also include case studies, success stories, capacity building activities, and other opportunities in cold chain development.

Global food losses are a result of a lack of necessary infrastructure, improper food safety handling procedures, and insufficient training for the personnel working in the cold chain. The development of a resource-efficient and energy-smart food supply chain requires a well-integrated evaluation and development of the cold chain. Cold Chain Management for the Fresh Produce Industry in the Developing World provides a comprehensive review of the benefits of an unbroken cold chain in developing countries and focuses on the critical role of extension education in the implementation of cold chain management. The unbroken cold chain is essential for all stakeholders in the fresh produce industry to maintain the quality and safety of food products during handling, transporting, and storing in their journey from producer to consumer. Appropriate cold chain management is crucial not only to reduce the postharvest losses and wastages, but also to increase farmers' income, generate employment opportunities, and improve the livelihood of stakeholders along the supply chain. Key Features: Includes case studies for promoting the expansion of existing technologies for cold chain development in Asian, Africa and the Caribbean nations. Assesses cold chain management as crucial to the growth of global trade in perishable products with contributions from international organizations, researchers and commercial experts. Articulates resilient, sustainable and creative concepts to develop cold chains to enhance food distribution. This book comprises of chapters contributed by the experts and practitioners of cold chain development in developing countries. The authors in the book provide the scenario of cold chain management in the world and discuss the importance of the cold chain as well as the different options and innovations of cooling systems. Chapters also include case studies, success stories, capacity building activities, and other opportunities in cold chain development.

It is estimated that around 1.3 billion tons per year of food produced for human consumption, which is about one-third of all food produced, is either lost or wasted globally. Reduction of the postharvest losses is being considered as one of the sustainable ways to ensure world food security. Postharvest Extension and Capacity Building for the Developing World provides information on postharvest extension/outreach programs, capacity building, and practical methodologies for postharvest extension professionals and food science teachers, food processing trainers, and outreach specialists who work in the field. The book provides information on training of postharvest trainers, food loss assessment methods, capacity building in universities and agro-industry, distance education methods, models for cost effective postharvest/food processing extension work, success stories, and lessons learned from past projects and programs. The book is divided into four sections. Section I explains postharvest loss assessments methods, Section II is on capacity building, and Sections III and IV focus on training and postharvest extension models. Food loss assessment methodologies are highlighted from several high-profile institutions and it is envisioned that researchers and postharvest extension personnel will benefit from the development and field testing of a hybrid methodology, incorporating the strengths and utilizing the best practices from each of the methodologies in current use. Chapters cover postharvest extension work and capacity building in a wide range of regions.

It is estimated that around 1.3 billion tons per year of food produced for human consumption, which is about one-third of all food produced, is either lost or wasted globally. Reduction of the postharvest losses is being considered as one of the sustainable ways to ensure world food security. Postharvest Extension and Capacity Building for the Developing World provides information on postharvest extension/outreach programs, capacity building, and practical methodologies for postharvest extension professionals and food science teachers, food processing trainers, and outreach specialists who work in the field. The book provides information on training of postharvest trainers, food loss assessment methods, capacity building in universities and agro-industry, distance education methods, models for cost effective postharvest/food processing extension work, success stories, and lessons learned from past projects and programs. The book is divided into four sections. Section I explains postharvest loss assessments methods, Section II is on capacity building, and Sections III and IV focus on training and postharvest extension models. Food loss assessment methodologies are highlighted from several high-profile institutions and it is envisioned that researchers and postharvest extension personnel will benefit from the development and field testing of a hybrid methodology, incorporating the strengths and utilizing the best practices from each of the methodologies in current use. Chapters cover postharvest extension work and capacity building in a wide range of regions.

This book presents neural partial differentiation as an estimation algorithm for extracting aerodynamic derivatives from flight data. It discusses neural modeling of the aircraft system. The neural partial differentiation approach discussed in the book helps estimate parameters with their statistical information from the noisy data. Moreover, this method avoids the need for prior information about the aircraft model parameters. The objective of the book is to extend the use of the neural partial differentiation method to the multi-input multi-output aircraft system for the online estimation of aircraft parameters from an established neural model. This approach will be relevant for the design of an adaptive flight control system. The book also discusses the estimation of aerodynamic derivatives of rigid and flexible aircraft which are treated separately. The longitudinal and lateral-directional derivatives of aircraft are estimated from flight data. Besides the aerodynamic derivatives, mode shape parameters of flexible aircraft are also identified in the book as part of identification for the state space aircraft model. Since the detailed description of the approach is illustrated through the block diagram and their results are presented in tabular form with figures of parameters converge to their estimates, the contents of this book are intended for readers who want to pursue a postgraduate and doctoral degree in science and engineering. This book is useful for practicing scientists, engineers, and teachers in the field of aerospace engineering.