Results (Water Overlay): Difference between revisions

From Tygron Support wiki
Jump to navigation Jump to search
No edit summary
No edit summary
 
(36 intermediate revisions by 2 users not shown)
Line 1: Line 1:
When a simulation for a particular [[Water Overlay]] is completed, the results of the calculation as well as large amounts of additional information and visualizations are made available for analysis.
When a simulation for a particular [[Water Overlay]] is completed, the results of the calculation as well as large amounts of additional information and visualizations are made available for analysis. ___NOTOC___


==Grid Overlay results==
==Grid Overlay results==
[[File:FloodingOverlay2.png|right|thumb|100xpx|Flooding overlay [[Surface last value result type (Water Overlay)| result]].]]
{{main|Result type (Water Overlay)}}
{{main|Result type (Water Overlay)}}
Depending on the configured result type, various results are stored as numerical values in a grid spanning the project area. The stored values and their context depend on the selected [[Result type (Water Overlay)|result type]]. These grid results are not only stored for the Water Overlay, but also for its related [[result child overlay]]s. Additionally, apart from the end result, multiple intermediate [[timeframe]]s may be generated and stored for each result child overlay.  
Depending on the configured result type, various results are stored as numerical values in a grid spanning the project area. The stored values and their context depend on the selected [[Result type (Water Overlay)|result type]]. These grid results are not only stored for the Water Overlay, but also for its related [[Result Child Overlay]]s. Additionally, apart from the end result, multiple intermediate [[timeframe]]s may be generated and stored for each result child overlay.


==Object flow output==
==Object output==
{{main|Object flow output (Water Overlay)}}
[[File:Weir_test_case_weir_adjusting_flow.png|thumb|right|150xpx|[[Object flow output (Water Overlay)| Object flow output]] measurement]]
Water flowing through a hydraulic structure or hydrological feature is recorded in an [[Attribute]] for that [[Item]], as an [[Attribute array]] with one value per [[timeframe]]. This is to facilitate in-depth analysis of throughput and functioning of many geographical features in the [[Water Overlay]].
Several result parameters in formulas used for hydraulic structures or hydrological features are recorded in an [[Attribute]] for that [[Item]], as an [[Attribute array]] with one value per [[timeframe]]. This is to facilitate in-depth analysis of throughput and functioning of many geographical features in the [[Water Overlay]]. The following are supported:
 
* [[Object flow output (Water Overlay)|Object flow output]]. Water flowing through a hydraulic structure or hydrological feature.
==Object datum output==
* [[Object height output (Water Overlay)|Object height output]]. The (changing) datum height of the hydraulic structure or hydrological feature.
{{main|Object datum output (Water Overlay)}}
* [[Object datum output a (Water Overlay)|Object datum output a]]. The (changing) water level datum of the hydraulic structure or hydrological feature at interaction side a.
The water levels at both sides of a hydraulic structure or hydrological feature is recorded in an [[Attribute]] for that [[Item]], as an [[Attribute array]] with values per [[timeframe]]. This is to facilitate in-depth analysis of many geographical features in the [[Water Overlay]].
* [[Object datum output b (Water Overlay)|Object datum output b]]. The (changing) water level datum of the hydraulic structure or hydrological feature at interaction side b.


==Water balance==
==Water balance==
[[File:Water_balance.jpg|thumb|right|150xpx|Water balance panel]]
{{main|Water balance (Water Overlay)}}
{{main|Water balance (Water Overlay)}}
For a quick overview of where water in the model came from and where it has ended up, the water balance can be inspected. This is intended for verification that across the entirety of the model, all water is accounted for and there are no unexpected points where water comes from or ends up.
For a quick overview of where water in the model came from and where it has ended up, the water balance can be inspected. This is intended for verification that across the entirety of the model, all water is accounted for and there are no unexpected points where water comes from or ends up.


==System visualization==
==System visualization==
[[File:Water_area_system.PNG|right|thumb|150xpx|Area and object system visualization]]
{{main|System visualization (Water Overlay)}}
{{main|System visualization (Water Overlay)}}
Because the water system is composed of many hydrological features which move water around, insight into how the model facilitates water flow is necessary to understand how the initial circumstances lead the the outcome they do. The system visualization shows the various connections between locations in the model, and the locations of boundary conditions.
Because the water system is composed of many hydrological features which move water around, insight into how the model facilitates water flow is necessary to understand how the initial circumstances lead the the outcome they do. The system visualization shows the various connections between locations in the model, and the locations of boundary conditions. Both a low level and a high level visualization is supported.


==Weather visualization==
==Weather visualization==
{{main|Weather visualization (Water Overlay)}}
{{main|Weather visualization (Water Overlay)}}
Based on the results computed by the [[Water Overlay]], a visually engaging effect can be shown in the [[3D world]] where water appears on and flows across the surface.
Based on the results computed by the [[Water Overlay]], a visually engaging effect can be shown in the [[3D Visualization]] where water appears on and flows across the surface.


==Debug information==
==Debug information==
[[File:Debug_info.jpg|150xpx|thumb|right|Overlay debug info]]
{{main|Debug info (Water Overlay)}}
{{main|Debug info (Water Overlay)}}
For the purposes of debugging the simulation, and getting a quick insight into some of the numbers relevant to the simulation as a whole. This is mostly for determining whether the simulation has been configured well enough to provide a realistic model.
For the purposes of debugging the simulation, and getting a quick insight into some of the numbers relevant to the simulation as a whole. This is mostly for determining whether the simulation has been configured well enough to provide a realistic model.


{{Water Module buttons}}
{{WaterOverlay output nav}}

Latest revision as of 16:07, 28 February 2023

When a simulation for a particular Water Overlay is completed, the results of the calculation as well as large amounts of additional information and visualizations are made available for analysis. __

Grid Overlay results

Flooding overlay result.
Main article: Result type (Water Overlay)

Depending on the configured result type, various results are stored as numerical values in a grid spanning the project area. The stored values and their context depend on the selected result type. These grid results are not only stored for the Water Overlay, but also for its related Result Child Overlays. Additionally, apart from the end result, multiple intermediate timeframes may be generated and stored for each result child overlay.

Object output

Several result parameters in formulas used for hydraulic structures or hydrological features are recorded in an Attribute for that Item, as an Attribute array with one value per timeframe. This is to facilitate in-depth analysis of throughput and functioning of many geographical features in the Water Overlay. The following are supported:

  • Object flow output. Water flowing through a hydraulic structure or hydrological feature.
  • Object height output. The (changing) datum height of the hydraulic structure or hydrological feature.
  • Object datum output a. The (changing) water level datum of the hydraulic structure or hydrological feature at interaction side a.
  • Object datum output b. The (changing) water level datum of the hydraulic structure or hydrological feature at interaction side b.

Water balance

Water balance panel
Main article: Water balance (Water Overlay)

For a quick overview of where water in the model came from and where it has ended up, the water balance can be inspected. This is intended for verification that across the entirety of the model, all water is accounted for and there are no unexpected points where water comes from or ends up.

System visualization

Area and object system visualization
Main article: System visualization (Water Overlay)

Because the water system is composed of many hydrological features which move water around, insight into how the model facilitates water flow is necessary to understand how the initial circumstances lead the the outcome they do. The system visualization shows the various connections between locations in the model, and the locations of boundary conditions. Both a low level and a high level visualization is supported.

Weather visualization

Main article: Weather visualization (Water Overlay)

Based on the results computed by the Water Overlay, a visually engaging effect can be shown in the 3D Visualization where water appears on and flows across the surface.

Debug information

Overlay debug info
Main article: Debug info (Water Overlay)

For the purposes of debugging the simulation, and getting a quick insight into some of the numbers relevant to the simulation as a whole. This is mostly for determining whether the simulation has been configured well enough to provide a realistic model.