Barrier analysis to improve big data analytics capability of the maritime industry: a mixed-method approach
Barrier analysis to improve big data analytics capability of the maritime industry: a mixed-method approach
The maritime industry is facing increasing challenges due to decarbonization requirements, trade disruptions, and geoeconomic fragmentation, such as International Maritime Organization (IMO) sets out clear framework to reach net zero emissions by 2050, Russia-Ukraine war disrupted maritime activities in the Black and Azov seas, and increased trade tensions between the United States and China. To enhance their sustainability, operational efficiency, and competitiveness, maritime organizations are therefore very keen to build big data analytics capability (BDAC). However, various barriers, mean that only a handful are able to do so. We adopt a mixed-method approach to analyze these barriers. Thematic analysis is used to identify five categories of barriers and 16 individual barriers based on empirical data collected from 26 maritime organizations. These are then prioritized using the analytic hierarchy process (AHP), followed by total interpretive structural modelling (TISM) to understand their interrelationships. Finally, cross-impact matrix multiplications applied to classification (MICMAC) is employed to differentiate the role of each barrier based on its driving and dependence power. This paper makes several theoretical contributions. First, China's hierarchical cultural value orientation encourages competition and obedience to rules, resulting in unwillingness to share knowledge, lack of coordination, and lack of error correction mechanisms. These cultural barriers hinder BDAC development. Second, organizational learning category barriers are found to be the most important in impeding BDAC development. This study also raises practitioners' awareness of the need to tackle cultural and organizational learning barriers.
Analytic hierarchy process (AHP), Barrier analysis, Big data analytics capability (BDAC), Maritime industry, Mixed methods, Total interpretive structural modelling (TISM)
Zhao, Guoqing
4a72c641-93f3-461b-80a9-2ffba386c30d
Xie, Xiaotian
9021dc52-fdaa-4e68-8427-d742a8224ec0
Wang, Yi
27b58726-7412-4679-80a7-1dececd78304
Liu, Shaofeng
cfa70434-9403-4760-bef1-085041066df8
Jones, Paul
b51472fd-cbaa-4297-97ee-fd0e47ea46e4
Lopez, Carmen
f11f88d5-36c4-4beb-a4c5-ceb16a6df19c
23 March 2024
Zhao, Guoqing
4a72c641-93f3-461b-80a9-2ffba386c30d
Xie, Xiaotian
9021dc52-fdaa-4e68-8427-d742a8224ec0
Wang, Yi
27b58726-7412-4679-80a7-1dececd78304
Liu, Shaofeng
cfa70434-9403-4760-bef1-085041066df8
Jones, Paul
b51472fd-cbaa-4297-97ee-fd0e47ea46e4
Lopez, Carmen
f11f88d5-36c4-4beb-a4c5-ceb16a6df19c
Zhao, Guoqing, Xie, Xiaotian and Wang, Yi
,
et al.
(2024)
Barrier analysis to improve big data analytics capability of the maritime industry: a mixed-method approach.
Technological Forecasting and Social Change, 203, [123345].
(doi:10.1016/j.techfore.2024.123345).
Abstract
The maritime industry is facing increasing challenges due to decarbonization requirements, trade disruptions, and geoeconomic fragmentation, such as International Maritime Organization (IMO) sets out clear framework to reach net zero emissions by 2050, Russia-Ukraine war disrupted maritime activities in the Black and Azov seas, and increased trade tensions between the United States and China. To enhance their sustainability, operational efficiency, and competitiveness, maritime organizations are therefore very keen to build big data analytics capability (BDAC). However, various barriers, mean that only a handful are able to do so. We adopt a mixed-method approach to analyze these barriers. Thematic analysis is used to identify five categories of barriers and 16 individual barriers based on empirical data collected from 26 maritime organizations. These are then prioritized using the analytic hierarchy process (AHP), followed by total interpretive structural modelling (TISM) to understand their interrelationships. Finally, cross-impact matrix multiplications applied to classification (MICMAC) is employed to differentiate the role of each barrier based on its driving and dependence power. This paper makes several theoretical contributions. First, China's hierarchical cultural value orientation encourages competition and obedience to rules, resulting in unwillingness to share knowledge, lack of coordination, and lack of error correction mechanisms. These cultural barriers hinder BDAC development. Second, organizational learning category barriers are found to be the most important in impeding BDAC development. This study also raises practitioners' awareness of the need to tackle cultural and organizational learning barriers.
Text
1-s2.0-S0040162524001410-main
- Version of Record
More information
Accepted/In Press date: 16 March 2024
e-pub ahead of print date: 23 March 2024
Published date: 23 March 2024
Keywords:
Analytic hierarchy process (AHP), Barrier analysis, Big data analytics capability (BDAC), Maritime industry, Mixed methods, Total interpretive structural modelling (TISM)
Identifiers
Local EPrints ID: 489137
URI: http://eprints.soton.ac.uk/id/eprint/489137
ISSN: 0040-1625
PURE UUID: 65c5abd5-7417-4abe-9cb0-6e72e65b105f
Catalogue record
Date deposited: 15 Apr 2024 16:48
Last modified: 16 Apr 2024 01:57
Export record
Altmetrics
Contributors
Author:
Guoqing Zhao
Author:
Xiaotian Xie
Author:
Yi Wang
Author:
Shaofeng Liu
Author:
Paul Jones
Author:
Carmen Lopez
Corporate Author: et al.
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics