The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)

Understanding soil water infiltration movement has been birthed from extensive interest and concern in the last few decades. The arrangement of particles (i.e. structures and sizes) and the interaction between both the soil and soil water have a profound effect on the soil water infiltration. The ch...

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Main Authors: Siti Nurbaidzuri, Reli @ Raily, Izham, Mohamad Yusoff, Habibah, Lateh, Muhamad Uznir, Ujang
Format: Book Chapter
Language:English
Published: Springer Cham 2017
Subjects:
Online Access:http://ir.unimas.my/id/eprint/41709/1/Siti%20Nurbaidzuri.pdf
http://ir.unimas.my/id/eprint/41709/
https://link.springer.com/chapter/10.1007/978-3-319-25691-7_25
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Institution: Universiti Malaysia Sarawak
Language: English
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spelling my.unimas.ir.417092023-04-18T07:25:43Z http://ir.unimas.my/id/eprint/41709/ The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN) Siti Nurbaidzuri, Reli @ Raily Izham, Mohamad Yusoff Habibah, Lateh Muhamad Uznir, Ujang G Geography (General) GA Mathematical geography. Cartography GB Physical geography Understanding soil water infiltration movement has been birthed from extensive interest and concern in the last few decades. The arrangement of particles (i.e. structures and sizes) and the interaction between both the soil and soil water have a profound effect on the soil water infiltration. The challenging task in the soil fluid modelling is the indeterminate spatial extent that has no specific boundaries and the fact that it is difficult to sense. Plenty of investigations and studies have been conducted to measure the water movement. However, less focus has been given on the movement of the dynamic soil water infiltration. This paper will focus on modelling the three-dimensional (3D) soil water infiltrations that flow downward due to the gravitational factor and gradient pressure. The 3D hierarchical soil water infiltration model proposes the integration of techniques which includes the Tree-map to isolate the depth of the soil that acts as a route of the soil water flow from the surface of the terrain to the subsurface flow. Moreover, the 3D Gosper curve is used to represent the soil water flow pattern that is based on the law of gravity and Horton equation, which control the flow of the soil water in the model. The curves that consist of a series of nodes adopt the Three-Dimensional Triangular Irregular Network (3D TIN) which creates a network of flow direction that allows the water to pass through the nodes according to a predetermined sequence. The study area has an average of 8.5 mm total rain and −5 m water level. The soil is divided into a few layers to represent the flow of the soil water according to the sequence of nodes. The soil depth (40, 80, 120, 160 and 200 cm) isolation in the form of Voronoi-shaped polygon nodes allows the soil water to flow down where the depth is chosen based on the soil wetting range of the subsurface soil. Springer Cham 2017 Book Chapter PeerReviewed text en http://ir.unimas.my/id/eprint/41709/1/Siti%20Nurbaidzuri.pdf Siti Nurbaidzuri, Reli @ Raily and Izham, Mohamad Yusoff and Habibah, Lateh and Muhamad Uznir, Ujang (2017) The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN). In: Advances in 3D Geoinformation. Lecture Notes in Geoinformation and Cartography (LNGC) . Springer Cham, pp. 443-460. ISBN 978-3-319-25691-7 https://link.springer.com/chapter/10.1007/978-3-319-25691-7_25
institution Universiti Malaysia Sarawak
building Centre for Academic Information Services (CAIS)
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Sarawak
content_source UNIMAS Institutional Repository
url_provider http://ir.unimas.my/
language English
topic G Geography (General)
GA Mathematical geography. Cartography
GB Physical geography
spellingShingle G Geography (General)
GA Mathematical geography. Cartography
GB Physical geography
Siti Nurbaidzuri, Reli @ Raily
Izham, Mohamad Yusoff
Habibah, Lateh
Muhamad Uznir, Ujang
The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)
description Understanding soil water infiltration movement has been birthed from extensive interest and concern in the last few decades. The arrangement of particles (i.e. structures and sizes) and the interaction between both the soil and soil water have a profound effect on the soil water infiltration. The challenging task in the soil fluid modelling is the indeterminate spatial extent that has no specific boundaries and the fact that it is difficult to sense. Plenty of investigations and studies have been conducted to measure the water movement. However, less focus has been given on the movement of the dynamic soil water infiltration. This paper will focus on modelling the three-dimensional (3D) soil water infiltrations that flow downward due to the gravitational factor and gradient pressure. The 3D hierarchical soil water infiltration model proposes the integration of techniques which includes the Tree-map to isolate the depth of the soil that acts as a route of the soil water flow from the surface of the terrain to the subsurface flow. Moreover, the 3D Gosper curve is used to represent the soil water flow pattern that is based on the law of gravity and Horton equation, which control the flow of the soil water in the model. The curves that consist of a series of nodes adopt the Three-Dimensional Triangular Irregular Network (3D TIN) which creates a network of flow direction that allows the water to pass through the nodes according to a predetermined sequence. The study area has an average of 8.5 mm total rain and −5 m water level. The soil is divided into a few layers to represent the flow of the soil water according to the sequence of nodes. The soil depth (40, 80, 120, 160 and 200 cm) isolation in the form of Voronoi-shaped polygon nodes allows the soil water to flow down where the depth is chosen based on the soil wetting range of the subsurface soil.
format Book Chapter
author Siti Nurbaidzuri, Reli @ Raily
Izham, Mohamad Yusoff
Habibah, Lateh
Muhamad Uznir, Ujang
author_facet Siti Nurbaidzuri, Reli @ Raily
Izham, Mohamad Yusoff
Habibah, Lateh
Muhamad Uznir, Ujang
author_sort Siti Nurbaidzuri, Reli @ Raily
title The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)
title_short The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)
title_full The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)
title_fullStr The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)
title_full_unstemmed The Hierarchical Three-Dimensional (3D) Dynamic Water Infiltration on Multi-layers of Soil According to Voronoi Sequence Nodes Based on the Three-Dimensional Triangular Irregular Network (3D TIN)
title_sort hierarchical three-dimensional (3d) dynamic water infiltration on multi-layers of soil according to voronoi sequence nodes based on the three-dimensional triangular irregular network (3d tin)
publisher Springer Cham
publishDate 2017
url http://ir.unimas.my/id/eprint/41709/1/Siti%20Nurbaidzuri.pdf
http://ir.unimas.my/id/eprint/41709/
https://link.springer.com/chapter/10.1007/978-3-319-25691-7_25
_version_ 1765301197552484352