TY - GEN
T1 - LINCOLN Integrated Solution Supporting the Design of Specialized Connected Vessels
AU - Sullivan, Brendan P.
AU - Rossi, Monica
AU - Sassanelli, Claudio
AU - Luglietti, Rossella
AU - Ramundo, Lucia
AU - Terzi, Sergio
PY - 2018
Y1 - 2018
N2 - The maritime industry has been working to apply unique solutions capable of improving design and development performances (Koenig, Narita, & Baba, 2002; Liker & Lamb, 2001; Milanovic, 2016; Radovic & Macclaren, 2004). Over the past several decades, the industry has faced changes related to the increasing complexity of the dynamic global market. Activities to meet these challenges have been carried out in the marine space (e.g. aquaculture, renewable energy, environmental monitoring, accident response and clean up), however, design methodologies have remained rather unchanged, regardless of demand for the incorporation of new technologies and materials. Literature and multiple case studies have been utilized to develop a design approach, that aims to transform the design process for the extension of serviceability and reduction of design time. This paper describes an innovative maritime design framework, based on the comprehensive usage of design methodologies, (economic and environmental) sustainability analysis and Internet of Things (IoT) in vessel design.
AB - The maritime industry has been working to apply unique solutions capable of improving design and development performances (Koenig, Narita, & Baba, 2002; Liker & Lamb, 2001; Milanovic, 2016; Radovic & Macclaren, 2004). Over the past several decades, the industry has faced changes related to the increasing complexity of the dynamic global market. Activities to meet these challenges have been carried out in the marine space (e.g. aquaculture, renewable energy, environmental monitoring, accident response and clean up), however, design methodologies have remained rather unchanged, regardless of demand for the incorporation of new technologies and materials. Literature and multiple case studies have been utilized to develop a design approach, that aims to transform the design process for the extension of serviceability and reduction of design time. This paper describes an innovative maritime design framework, based on the comprehensive usage of design methodologies, (economic and environmental) sustainability analysis and Internet of Things (IoT) in vessel design.
KW - Lean design
KW - Internet of Things (IoT)
KW - HPC simulation
KW - Life cycle assessment (LCA)
KW - Life Cycle Cost (LCC)
KW - Maritime design
M3 - Conference contribution
SN - 978-88-908649-0-2
T3 - Summer School Francesco Turco
SP - 250
EP - 256
BT - XXIII Summer School Francesco Turco
PB - Associazione Italiana Docenti Impianti Industriali
T2 - XXIII Summer School Francesco Turco 2018
Y2 - 11 September 2018 through 13 September 2018
ER -