TY - BOOK ID - 145078930 TI - Sustainable Assessment in Supply Chain and Infrastructure Management AU - Kabir, Golam AU - Paul, Sanjoy Kumar AU - Ali, Syed Mithun PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - green supply chain KW - performance measurement KW - Bayesian belief network KW - sustainability KW - trenchless technologies KW - pipelines KW - construction KW - social cost KW - fuzzy QFD KW - flexibility KW - IT flexibility KW - importance‒performance analysis KW - partial least squared structured equation modelling KW - performance gap KW - sustainable growth KW - higher educational institutions KW - academic buildings KW - environmental performance KW - performance benchmarking KW - fuzzy clustering analysis KW - metabolic flows KW - green supply chain management KW - carbon tax and cap KW - can-order policy KW - mixed-integer programming KW - fuzzy constraints KW - social sustainability KW - small- and medium-sized enterprises (SMEs) KW - stakeholder support KW - social sustainability awareness KW - transport networks KW - logistics KW - simulation games KW - serious games KW - innovation ecosystem KW - Port of Rotterdam KW - complex systems KW - truck platooning KW - barge transport KW - multi-sided platforms KW - Bayesian KW - geoadditive KW - quantile KW - P-splines KW - boosting optimization KW - resilience KW - housing infrastructure KW - flood hazard and sensitivity analysis KW - shipping cost KW - risk assessment and management KW - conditional value-at-risk KW - investment projects KW - financial analysis KW - economic analysis KW - energy efficiency KW - public buildings KW - literature review KW - multi-criteria decision-making KW - MCDM methods KW - sustainable supply chain management KW - SSCM KW - efficiency assessment KW - operations strategy matrix KW - data envelopment analysis KW - healthcare systems KW - COVID-19 KW - green supply chain KW - performance measurement KW - Bayesian belief network KW - sustainability KW - trenchless technologies KW - pipelines KW - construction KW - social cost KW - fuzzy QFD KW - flexibility KW - IT flexibility KW - importance‒performance analysis KW - partial least squared structured equation modelling KW - performance gap KW - sustainable growth KW - higher educational institutions KW - academic buildings KW - environmental performance KW - performance benchmarking KW - fuzzy clustering analysis KW - metabolic flows KW - green supply chain management KW - carbon tax and cap KW - can-order policy KW - mixed-integer programming KW - fuzzy constraints KW - social sustainability KW - small- and medium-sized enterprises (SMEs) KW - stakeholder support KW - social sustainability awareness KW - transport networks KW - logistics KW - simulation games KW - serious games KW - innovation ecosystem KW - Port of Rotterdam KW - complex systems KW - truck platooning KW - barge transport KW - multi-sided platforms KW - Bayesian KW - geoadditive KW - quantile KW - P-splines KW - boosting optimization KW - resilience KW - housing infrastructure KW - flood hazard and sensitivity analysis KW - shipping cost KW - risk assessment and management KW - conditional value-at-risk KW - investment projects KW - financial analysis KW - economic analysis KW - energy efficiency KW - public buildings KW - literature review KW - multi-criteria decision-making KW - MCDM methods KW - sustainable supply chain management KW - SSCM KW - efficiency assessment KW - operations strategy matrix KW - data envelopment analysis KW - healthcare systems KW - COVID-19 UR - https://www.unicat.be/uniCat?func=search&query=sysid:145078930 AB - In the competitive business environment or public domain, the sustainability assessment in supply chain and infrastructure management are important for any organization. Organizations are currently striving to improve their sustainable strategies through preparedness, response, and recovery because of increasing competitiveness, community, and regulatory pressure. Thus, it is necessary to develop a meaningful and more focused understanding of sustainability in supply chain management and infrastructure management practices. In the context of a supply chain, sustainability implies that companies identify, assess, and manage impacts and risks in all the echelons of the supply chain, considering downstream and upstream activities. Similarly, the sustainable infrastructure management indicates the ability of infrastructure to meet the requirements of the present without sacrificing the ability of future generations to address their needs. The complexities regarding sustainable supply chain and infrastructure management have driven managers and professionals to seek different solutions. This Special Issue aims to provide readers with the most recent research results on the aforementioned subjects. In addition, it offers some solutions and also raises some questions for further research and development toward sustainable supply chain and infrastructure management. ER -