Model:FuzzyReef: Difference between revisions

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{{Infobox Model
{{Model identity
|model name              = FuzzyReef
|Model type=Single
|developer                = '''Parcell''', William
|one-line-description    = Fuzzy logic model to model microbial reef development
|type                     = Model
|source                  = [[image:Red1.png]]
}}
}}
<!-- Edit the part above to update info on other papers -->
{{Model identity2
 
|ModelDomain=Carbonates and Biogenics
== FuzzyReef ==
|Spatial dimensions=3D
__TOC__
|Spatialscale=Regional-Scale
 
|One-line model description=Fuzzy logic model to model microbial reef development
===Introduction===
|Extended model description=FuzzyReef is a three-dimensional (3D) numerical stratigraphic model that simulates the development of microbial reefs using fuzzy logic (multi-valued logic) modeling methods. The flexibility of the model allows for the examination of a large number of variables. This model has been used to examine the importance of local environmental conditions and global changes on the frequency of reef development relative to the temporal and spatial constraints from Upper Jurassic (Oxfordian) Smackover reef datasets from two Alabama oil fields.
 
=== History ===
 
=== Papers ===
 
=== FuzzyReef Questionnaire ===
 
==== Contact Information ====
 
{| class="wikitable"
| class="model_col1"| Model:
| class="model_col2"| FuzzyReef
|-
| class="model_col1"| Contact person:
| class="model_col2"| William Parcell (Model developer)
|-
| class="model_col1"| Institute:
| class="model_col2"| Wichita State University
|-
| class="model_col1"| City:
| class="model_col2"| Wichita, Kansas
|-
| class="model_col1"| Country:
| class="model_col2"| USA
|-
| class="model_col1"| Email:
| class="model_col2"| william.parcell@wichita.edu
|-
| class="model_col1"| 2nd person involved:
| class="model_col2"| --
|-
| class="model_col1"| 3rd person involved:
| class="model_col2"| --
|-
|}
 
==== Model Description ====
 
{| class="wikitable" 
| class="model_col1"| Model type:
| class="model_col2"| Modular model for the Marine and Carbonate environment.
|-
| class="model_col1"| Description:
| class="model_col2"| FuzzyReef is a three-dimensional (3D) numerical stratigraphic model that simulates the development of microbial reefs using fuzzy logic (multi-valued logic) modeling methods. The flexibility of the model allows for the examination of a large number of variables. This model has been used to examine the importance of local environmental conditions and global changes on the frequency of reef development relative to the temporal and spatial constraints from Upper Jurassic (Oxfordian) Smackover reef datasets from two Alabama oil fields.


The fuzzy model simulates the deposition of reefs and carbonate facies through integration of local and global variables. Local-scale factors include basement relief, sea-level change, climate, latitude, water energy, water depth, background sedimentation rate, and substrate conditions. Regional and global-scale changes include relative sea-level change, climate, and latitude.
The fuzzy model simulates the deposition of reefs and carbonate facies through integration of local and global variables. Local-scale factors include basement relief, sea-level change, climate, latitude, water energy, water depth, background sedimentation rate, and substrate conditions. Regional and global-scale changes include relative sea-level change, climate, and latitude.
|-
}}
|}
{{Start model keyword table}}
 
{{Model keywords
==== Technical information ====
|Model keywords=stratigraphic model
 
}}
{| class="wikitable" 
{{Model keywords
| class="model_col1"| Supported platforms:
|Model keywords=microbial reef
| class="model_col2"| Windows
}}
|-
{{End a table}}
| class="model_col1"| Programming language:
{{Modeler information
| class="model_col2"| C, C++
|First name=William
|-
|Last name=Parcell
| class="model_col1"| Model development started at:
|Type of contact=Model developer
| class="model_col2"| 1999 and development still takes place.
|Institute / Organization=Wichita State University
|-
|Postal address 1=1845 Fairmount Avenue, Box 27
| class="model_col1"| To what degree will the model become available:
|Town / City=Wichita
| class="model_col2"| --
|Postal code=67260-0027
|-
|State=Kansas
| class="model_col1"| Current license type:
|Country=United States
| class="model_col2"| GPLv2
|Email address=william.parcell@wichita.edu
|-
|Phone=316-978-3141
| class="model_col1"| Memory requirements:
}}
| class="model_col2"| 512Mb
{{Model technical information
|-
|Supported platforms=Windows
| class="model_col1"| Typical run time:
|Programming language=C
| class="model_col2"| 5 minutes
|Start year development=1999
|}
|Does model development still take place?=Yes
 
|Program license type=GPL v2
==== Input / Output description ====
|Memory requirements=512Mb
 
|Typical run time=5 minutes
{| class="wikitable"
}}
| class="model_col1"| Input parameters:
{{Input - Output description
| class="model_col2"|
|Describe input parameters=Parameters:
#Spatial
# Spatial
#Temporal
# Temporal
#Initial 'basement' topography
# Initial 'basement' topography
#Relative sea level curve
# Relative sea level curve
#Climate (arid, temperate, humid)
# Climate (arid, temperate, humid)
#Latitude
# Latitude
|-
|Input format=ASCII
| class="model_col1"| Input format:
|Describe output parameters=Dynamic variables:
| class="model_col2"| ASCII
# water energy
|-
# depositional (seafloor) slope
| class="model_col1"| Output parameters:
| class="model_col2"|
Dynamic variables:
#water energy
#depositional (seafloor) slope


Final output:
Final output:
#carbonate productivity rate
# carbonate productivity rate
#depositional facies
# depositional facies
|-
|Output format=ASCII
| class="model_col1"| Output format:
|Pre-processing software needed?=No
| class="model_col2"| ASCII
|Post-processing software needed?=Yes
|-
|Describe post-processing software=A 3D visualization software package.
| class="model_col1"| Post-processing software (if needed):
|Visualization software needed?=Yes
| class="model_col2"| Yes, A 3D visualization software package.
|Other visualization software=any visualization package that can import ASCII or Excel tables (X,Y,Z)
|-
}}
| class="model_col1"| Visualization software (if needed):
{{Process description model
| class="model_col2"| Yes, any visualization package that can import ASCII or Excel tables (X,Y,Z)
|Describe processes represented by the model=Process:
|}
# carbonate productivity and deposition
 
# winnowing
==== Process description ====
# reef development
 
# carbonate depositional facies
{| class="wikitable"
| class="model_col1"| Processes represented by model:
| class="model_col2"|
#carbonate productivity and deposition
#winnowing
#reef development
#carbonate depositional facies


Model determines these through five deterministic and fuzzy steps:
Model determines these through five deterministic and fuzzy steps:
#data input
# data input
#data fuzzification
# data fuzzification
#fuzzy rule analysis
# fuzzy rule analysis
#aggregation of results
# aggregation of results
#defuzzification
# defuzzification
|-
|Describe key physical parameters and equations=See above
| class="model_col1"| Key physical parameters & equations:
|Describe length scale and resolution constraints=Model does not place any spatial constraints.
| class="model_col2"| see above 4/9
|Describe time scale and resolution constraints=Temporal scale and resolution determined by user. Model adjusts process and output to the temporal increment chosen by user.
|-
|Describe any numerical limitations and issues=Some of the fuzzy logic methods do not produce unique results as there are a variety of method choices that best 'match' test data. For example, the user can choose a variety of aggregation methods to calculate final carbonate facies and productivity values.
| class="model_col1"| Length scale & resolution constraints:
}}
| class="model_col2"| Model does not place any spatial constraints.
{{Model testing
|-
|Describe available calibration data sets=
| class="model_col1"| Time scale & resolution constraints:
|Describe available test data sets=
| class="model_col2"| Temporal scale and resolution determined by user. Model adjusts process and output to the temporal increment chosen by user.
|Describe ideal data for testing=
|-
}}
| class="model_col1"| Numerical limitations and issues :
{{Users groups model
| class="model_col2"| Some of the fuzzy logic methods do not produce unique results as there are a variety of method choices that best 'match' test data. For example, the user can choose a variety of aggregation methods to calculate final carbonate facies and productivity values.
|Do you have current or future plans for collaborating with other researchers?=--
|}
}}
{{Documentation model
|Provide key papers on model if any=Key Papers:
* '''Parcell, W.C., 2003, Modeling the controls on Upper Jurassic Smackover microbial reefs with fuzzy logic computer modeling. Journal of Sedimentary Research, v. 73, n. 4., p. 498-515.'''
|Manual model available=No
|Model website if any=http://webs.wichita.edu/?u=wparcell&p=/index
}}
{{Additional comments model}}
{{CSDMS staff part
|OpenMI compliant=No but possible
|CCA component=No but possible
|IRF interface=No but possible
|CMT component=No but possible
}}
{{Start coupled table}}
{{End a table}}
{{End headertab}}
{{{{PAGENAME}}_autokeywords}}


==== Testing ====
{{NOINDEX}}
 
<!-- Edit the part above to update info on other papers -->
{| class="wikitable"
| class="model_col1"| Available calibration data sets:
| class="model_col2"| --
|-
| class="model_col1"| Available test data sets:
| class="model_col2"| --
|-
| class="model_col1"| Ideal data for testing:
| class="model_col2"| --
|}
 
==== User groups ====
 
{| class="wikitable"
| class="model_col1"| Currently or plans for collaborating with:
| class="model_col2"| --
|}
 
==== Documentation ====
 
{| class="wikitable"
| class="model_col1"| Key papers of the model:
| class="model_col2"| Parcell, W.C., 2003, Modeling the controls on Upper Jurassic Smackover microbial reefs with fuzzy logic computer modeling: Journal of Sedimentary Research, v. 73, p. 498-515.
|-
| class="model_col1"| Is there a manual available:
| class="model_col2"| No
|-
| class="model_col1"| Model website if any:
| class="model_col2"| [http://webs.wichita.edu/?u=wparcell&p=/index http://webs.wichita.edu/?u=wparcell&p=/index]
|}
 
==== Additional comments ====


{| class="wikitable"
==Introduction==
| class="model_col1"| Comments:
| class="model_col2"| --
|}


=== Issues ===
== History ==


=== Help ===
== References  ==
<br>{{AddReferenceUploadButtons}}<br><br>
{{#ifexist:Template:{{PAGENAME}}-citation-indices|{{{{PAGENAME}}-citation-indices}}|}}<br>
{{Include_featured_references_models_cargo}}<br>


=== Input Files ===
== Issues ==


=== Output Files ===
== Help ==
{{#ifexist:Model_help:{{PAGENAME}}|[[Model_help:{{PAGENAME}}]]|}}


=== Download ===
== Input Files ==


=== Source ===
== Output Files ==


[[Category:Marine]]
[[Category:Source code not available]]
[[Category:Carbonate]]

Latest revision as of 20:17, 16 September 2020



FuzzyReef


Metadata

Also known as
Model type Single
Model part of larger framework
Note on status model
Date note status model
Spatial dimensions 3D
Spatial extent Regional-Scale
Model domain Carbonates and Biogenics
One-line model description Fuzzy logic model to model microbial reef development
Extended model description FuzzyReef is a three-dimensional (3D) numerical stratigraphic model that simulates the development of microbial reefs using fuzzy logic (multi-valued logic) modeling methods. The flexibility of the model allows for the examination of a large number of variables. This model has been used to examine the importance of local environmental conditions and global changes on the frequency of reef development relative to the temporal and spatial constraints from Upper Jurassic (Oxfordian) Smackover reef datasets from two Alabama oil fields.

The fuzzy model simulates the deposition of reefs and carbonate facies through integration of local and global variables. Local-scale factors include basement relief, sea-level change, climate, latitude, water energy, water depth, background sedimentation rate, and substrate conditions. Regional and global-scale changes include relative sea-level change, climate, and latitude.

Keywords:

stratigraphic model, microbial reef,

Name William Parcell
Type of contact Model developer
Institute / Organization Wichita State University
Postal address 1 1845 Fairmount Avenue, Box 27
Postal address 2
Town / City Wichita
Postal code 67260-0027
State Kansas
Country United States
Email address william.parcell@wichita.edu
Phone 316-978-3141
Fax


Supported platforms
Windows
Other platform
Programming language

C

Other program language
Code optimized
Multiple processors implemented
Nr of distributed processors
Nr of shared processors
Start year development 1999
Does model development still take place? Yes
If above answer is no, provide end year model development
Code development status
When did you indicate the 'code development status'?
Model availability
Source code availability
(Or provide future intension)
Source web address
Source csdms web address
Program license type GPL v2
Program license type other
Memory requirements 512Mb
Typical run time 5 minutes


Describe input parameters Parameters:
  1. Spatial
  2. Temporal
  3. Initial 'basement' topography
  4. Relative sea level curve
  5. Climate (arid, temperate, humid)
  6. Latitude
Input format ASCII
Other input format
Describe output parameters Dynamic variables:
  1. water energy
  2. depositional (seafloor) slope

Final output:

  1. carbonate productivity rate
  2. depositional facies
Output format ASCII
Other output format
Pre-processing software needed? No
Describe pre-processing software
Post-processing software needed? Yes
Describe post-processing software A 3D visualization software package.
Visualization software needed? Yes
If above answer is yes
Other visualization software any visualization package that can import ASCII or Excel tables (X,Y,Z)


Describe processes represented by the model Process:
  1. carbonate productivity and deposition
  2. winnowing
  3. reef development
  4. carbonate depositional facies

Model determines these through five deterministic and fuzzy steps:

  1. data input
  2. data fuzzification
  3. fuzzy rule analysis
  4. aggregation of results
  5. defuzzification
Describe key physical parameters and equations See above
Describe length scale and resolution constraints Model does not place any spatial constraints.
Describe time scale and resolution constraints Temporal scale and resolution determined by user. Model adjusts process and output to the temporal increment chosen by user.
Describe any numerical limitations and issues Some of the fuzzy logic methods do not produce unique results as there are a variety of method choices that best 'match' test data. For example, the user can choose a variety of aggregation methods to calculate final carbonate facies and productivity values.


Describe available calibration data sets
Upload calibration data sets if available:
Describe available test data sets
Upload test data sets if available:
Describe ideal data for testing


Do you have current or future plans for collaborating with other researchers? --
Is there a manual available? No
Upload manual if available:
Model website if any http://webs.wichita.edu/?u=wparcell&p=/index
Model forum / discussion board
Comments


This part will be filled out by CSDMS staff

OpenMI compliant No but possible
BMI compliant No but possible
WMT component No but possible
PyMT component
Is this a data component
Can be coupled with:
Model info
Authors
William Parcell
Source code
Model citations
Nr. of publications: --
Total citations: 0
h-index: --"--" is not a number.
m-quotient: 0
QR-code
Qrcode FuzzyReef.png
Link to this page
Other models by author

Template:FuzzyReef autokeywords


Introduction

History

References



Nr. of publications: --
Total citations: 0
h-index: --"--" is not a number.
m-quotient: 0


See more publications of FuzzyReef

Issues

Help

Input Files

Output Files

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