An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model
The sea state plays an important role in offshore-and marine operations. It affects both direct costs as well as risks for human and/or material loss. A better understanding of the present-, near-future-, and far-future sea states will increase efficiency and safety in shipping since it allow a ship...
| Main Authors: | , |
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| Language: | unknown |
| Published: |
2020
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| Online Access: | https://research.chalmers.se/en/publication/39ff3927-7e17-4f05-8fb6-8bf6343d0ae1 |
| _version_ | 1835018205539598336 |
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| author | Hildeman, Anders Mao, Wengang |
| author_facet | Hildeman, Anders Mao, Wengang |
| author_sort | Hildeman, Anders |
| collection | Unknown |
| description | The sea state plays an important role in offshore-and marine operations. It affects both direct costs as well as risks for human and/or material loss. A better understanding of the present-, near-future-, and far-future sea states will increase efficiency and safety in shipping since it allow a ship to reroute to a safer and/or more cost effective route. In the offshore industry it allows for minimizing downtime and aids in planning the construction of new offshore sites. Due to the complex nature of the sea state, its spatial distribution over a large region of ocean should be modeled using a probabilistic model. In this way, uncertainties due to lack of information and/or computing power can be quantified and decisions can be taken based on both what is known and what is not known. We analyze such a spatial probabilistic model in order to assess its ability to predict the significant wave height in the whole north Atlantic based only on measurements on a small line path, i.e., conditional prediction. This work is relevant for several applications, for instance data assimilation, oceanographic forecasting, and routing of ships. |
| genre | North Atlantic |
| genre_facet | North Atlantic |
| id | ftchalmersuniv:oai:research.chalmers.se:520154 |
| institution | Open Polar |
| language | unknown |
| op_collection_id | ftchalmersuniv |
| publishDate | 2020 |
| record_format | openpolar |
| spelling | ftchalmersuniv:oai:research.chalmers.se:520154 2025-06-15T14:43:12+00:00 An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model Hildeman, Anders Mao, Wengang 2020 text https://research.chalmers.se/en/publication/39ff3927-7e17-4f05-8fb6-8bf6343d0ae1 unknown Probability Theory and Statistics Gaussian random field Significant wave height Stochastic partial differential equation 2020 ftchalmersuniv 2025-05-19T04:26:15Z The sea state plays an important role in offshore-and marine operations. It affects both direct costs as well as risks for human and/or material loss. A better understanding of the present-, near-future-, and far-future sea states will increase efficiency and safety in shipping since it allow a ship to reroute to a safer and/or more cost effective route. In the offshore industry it allows for minimizing downtime and aids in planning the construction of new offshore sites. Due to the complex nature of the sea state, its spatial distribution over a large region of ocean should be modeled using a probabilistic model. In this way, uncertainties due to lack of information and/or computing power can be quantified and decisions can be taken based on both what is known and what is not known. We analyze such a spatial probabilistic model in order to assess its ability to predict the significant wave height in the whole north Atlantic based only on measurements on a small line path, i.e., conditional prediction. This work is relevant for several applications, for instance data assimilation, oceanographic forecasting, and routing of ships. Other/Unknown Material North Atlantic Unknown |
| spellingShingle | Probability Theory and Statistics Gaussian random field Significant wave height Stochastic partial differential equation Hildeman, Anders Mao, Wengang An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| title | An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| title_full | An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| title_fullStr | An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| title_full_unstemmed | An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| title_short | An evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| title_sort | evaluation of conditional spatial predictions of significant wave height based on the nonstationary spde model |
| topic | Probability Theory and Statistics Gaussian random field Significant wave height Stochastic partial differential equation |
| topic_facet | Probability Theory and Statistics Gaussian random field Significant wave height Stochastic partial differential equation |
| url | https://research.chalmers.se/en/publication/39ff3927-7e17-4f05-8fb6-8bf6343d0ae1 |