Difference between revisions of "Capsis"

Latest revision as of 06:48, 14 October 2012

General System description

System name: Capsis - Computer Aided Projection of Strategies In Silviculture

Acronym: Capsis

Brief overview

Capsis is a software platform which purpose is to host forestry growth and yield / dynamics models. It can help run various silvicultural scenarios by combining a given growth model with silvicultural treatments. It was built by french researchers (INRA, France) for forest research (hypotheses testing, model evaluation), transfert to forest managers (particularly french ONF) and educational purposes.

It may help for decision making in forest management in some particular cases.

Scope of the system

Capsis is a simulation platform for forestry growth / dynamics models. It is a tool for forestry researchers, forest managers and educational purposes. It makes possible to implement models of various types (stand models, distance-independent or distance-dependent tree models, mixt models…), to run simulations and then compare the different scenarios in the same tool.

Thanks to its flexible architecture, it is possible to integrate heterogeneous models (uneven-aged, several species) with various processes (growth, competition, mortality, regeneration…) and to run simulations in interactive or script modes. Some models can have very particular properties, e.g. radiative balance, genetics information at the individual level, internal biomechanics or wood quality.

System origin

The first version was developped by Philippe Dreyfus (INRA URFM, Avignon, France) between 1994 and 1999.
Since 1999 the platform has been developed by François de Coligny (INRA AMAP, Montpellier, France), joined by Samuel Dufour in 2008.

Support for specific issues

The supported issues depend on the model which has been integrated in Capsis. It can be for instance growth and biomass estimation, carbon storage, logging, regeneration and mortality estimation, risk management, economical balances, evaluation of different silvicultural strategies and harvesting scenarii...

Data and data models

Typical spatial extent of application

The normal spatial application level of Capsis is the stand level but can be extended to the forest level for specific models.

Forest data input

Capsis input information are

inventory data that can be imported from files
simulated data calcultated by specific algorithms

Each model can have its own and specific input file formats.

Type of information input from user (via GUI)

Each model integrated in capsis has its own GUI. This gui allow to set the model input parameters. These parameters depend on the model. There are various types of inputs :

Initial parameters
Evolution parameters
Intervention parameters (managed with plugins that may be compatible with several growth models)

Models

Forest models

There are around 50 models integrated in Capsis : see capsis models.

stand models
diameter class models
distance independant tree models
distance dependant tree models
mixt models...

Decision Support

Definition of management interventions

Capsis supports numerous types of generic interventions:

thresholds on tree age, height, diameter
thinning diagram (cut in girth / diameter classes)
individual thinning
thinning with the mouse on a map
specific strategies like French ONF thinning...

Each model can also implements its specific intervention mechanisms depending on specific parameters.

Typical temporal scale of application

The temporal scale depends on the model: it can be short or long term simulation. The time is discretized in steps. The time step also depends on the model implementation.

The typical time step is one year but other possible time steps are: day, fortnight (2 weeks), month, 3 years. Some models may manage several years for several processes.

Types of decisions supported

It depends of the integrated model.

Decision-making processes and models

The main goals of the models in Capsis are to study various management scenarios to predict plantations growth / forests dynamics to assess production or viability issues.

Capsis can also host models for very different studies:

wind risk
trees / crops interaction (agroforestry)
tree canopy plasticity
evolution of biomass in many compartments
forest fires prevention
heterogeneous forests study...

Capsis can help elaborate scenarios to reach specific management objectives.

Capsis integrates optimization methods to help evaluate various management strategies. It can also be used to run sensitivity analyses on the model parameters.

Output

Types of outputs

stand level table and graphical outputs showing the temporal changes
stand level 2D viewer
stand level 3D viewer
many file exports with specific formats (plugins with new formats can be added when needed) to connect with data analysis tools or other downstream simulators

Spatial analysis capabilities

Facilitates links to Geographical Information Systems with geotools java library

Abilities to address interdisciplinary, multi-scaled, and political issues

Capsis models can be coupled to other models or frameworks to address interdisciplinary issues. Capsis can also be used as an external model or library. For instance, a Capsis-hosted model can be used in the OpenAlea ^[1] framework. Some Capsis models also link to agronomical models (STICS), architectural models (AMAPsim), biomechanical models (FOREOLE) or radiative balance (ARCHIMED, SLIM)...

System

System requirements

Operating Systems: Linux / Windows / Mac Os X
Other software needed : Java 1.6

Architecture and major DSS components

Desktop application

Usage

Research level use / knowledge transfert to expert level users

Computational limitations

System memory limitation

User interface

Capsis provides :

an interactive graphical user interface
a script mode (without gui) based on java or groovy

Documentation and support

See the Capsis web site ^[2] : capsis web site

Installation

A free and open source version is available on the web, it contains only few free models for evaluation: http://capsis.cirad.fr/capsis/download

References

Cited references

External resources

de Coligny F., 2007. Efficient Building of Forestry Modelling Software with the Capsis Methodology. In: Fourcaud T, Zhang XP, eds. Plant Growth Modeling and Applications. Proceedings of PMA06. Los Alamitos, California: IEEE Computer Society, pp. 216-222.

[1] [1]

[2] sis web site

[1]

[2]

@@ Line 1: / Line 1: @@
 == General System description ==
-System name: Capsis - '''C'''omputer '''A'''ided '''P'''rojections of '''S'''trategies '''I'''n '''S'''ilviculture
+System name: Capsis - '''C'''omputer '''A'''ided '''P'''rojection of '''S'''trategies '''I'''n '''S'''ilviculture
 Acronym: Capsis
@@ Line 8: / Line 8: @@
 [[Category:Decision support system]]
-[[Category:Spatial DSS]]
+[[Category:French DSS]]
-[[Category:GIS application]]
-[[Category:Spatial DSS]]
-[[Category:Silviculture model]]
-[[Category:Stand level]]
-[[Category:Harvesting system]]
-[[Category:Government use]]
-[[Category:Windows Client OS]]
 === Brief overview ===
-[[Capsis]] is a software platform aimed at simulation growth and silvicultural treatments for decision making in forest management, forestry research (hypotheses testing, model evaluation) and educational purposes.
+[[Capsis]] is a software platform which purpose is to host forestry growth and yield / dynamics models. It can help run various silvicultural scenarios by combining a given growth model with silvicultural treatments. It was built by french researchers (INRA, France) for forest research (hypotheses testing, model evaluation), transfert to forest managers (particularly french ONF) and educational purposes.
+It may help for decision making in forest management in some particular cases.
 [[File:capsis415_mac.png]]
+[[File:capsis_ventoux.png]]
 === Scope of the system ===
@@ Line 30: / Line 27: @@
 === System origin ===
-* The first version was developped by Philippe Dreyfus between 1993-1999
+* The first version was developped by Philippe Dreyfus (INRA URFM, Avignon, France) between 1994 and 1999.
-* Since 1999 the platform is developed by [[François de Coligny]], joined by [[Samuel Dufour]] in 2008
+* Since 1999 the platform has been developed by [[François de Coligny]] (INRA AMAP, Montpellier, France), joined by [[Samuel Dufour]] in 2008.
 === Support for specific issues  ===
-=== Support for specific thematic areas of a problem type  ===
+The supported issues depend on the model which has been integrated in Capsis. It can be for instance
+growth and biomass estimation, carbon storage, logging, regeneration and mortality estimation, risk management, economical balances, evaluation of different silvicultural strategies and harvesting scenarii...
-=== Capability to support decision making phases   ===
-=== Related systems  ===
 == Data and data models ==
@@ Line 54: / Line 47: @@
 * simulated data calcultated by specific algorithms
+Each model can have its own and specific input file formats.
 === Type of information input from user (via GUI) ===
 Each model integrated in capsis has its own GUI. This gui allow to set the model input parameters.
-These parameters depends of the model. There are different type of inputs :
+These parameters depend on the model. There are various types of inputs :
 * Initial parameters
 * Evolution parameters
-* Intervention parameters
+* Intervention parameters (managed with plugins that may be compatible with several growth models)
 == Models ==
@@ Line 68: / Line 62: @@
 === Forest models ===
-There are more than 40 models integrated in Capsis : see [http://capsis.cirad.fr/capsis/models capsis models].
+There are around 50 models integrated in Capsis : see [http://capsis.cirad.fr/capsis/models capsis models].
 * stand models
@@ Line 74: / Line 68: @@
 * distance independant tree models
 * distance dependant tree models
+* mixt models...
-=== Social models  ===
--Not available yet
 == Decision Support ==
@@ Line 84: / Line 76: @@
 === Definition of management interventions ===
-Capsis supports different type of generic interventions :
+Capsis supports numerous types of generic interventions:
-* by age, by height, by diameter class...
-Each model can also implements specific intervention mechanisms.
+* thresholds on tree age, height, diameter
+* thinning diagram (cut in girth / diameter classes)
+* individual thinning
+* thinning with the mouse on a map
+* specific strategies like French ONF thinning...
+Each model can also implements its specific intervention mechanisms depending on specific parameters.
 === Typical temporal scale of application ===
-The temporal depends of the model.
+The temporal scale depends on the model: it can be short or long term simulation. The time is discretized in steps. The time step also depends on the model implementation.
+The typical time step is one year but other possible time steps are: day, fortnight (2 weeks), month, 3 years. Some models may manage several years for several processes.
 === Types of decisions supported  ===
+It depends of the integrated model.
 === Decision-making processes and models ===
+The main goals of the models in Capsis are to study various management scenarios to predict plantations growth / forests dynamics to assess production or viability issues.
+Capsis can also host models for very different studies:
+* wind risk
+* trees / crops interaction (agroforestry)
+* tree canopy plasticity
+* evolution of biomass in many compartments
+* forest fires prevention
+* heterogeneous forests study...
+Capsis can help elaborate scenarios to reach specific management objectives.
+Capsis integrates optimization methods to help evaluate various management strategies. It can also be used to run sensitivity analyses on the model parameters.
 == Output ==
@@ Line 102: / Line 117: @@
 === Types of  outputs ===
-* stand level table and graphical outputs showing the temporal changes of its parameters
+* stand level table and graphical outputs showing the temporal changes
 * stand level 2D viewer
 * stand level 3D viewer
+* many file exports with specific formats (plugins with new formats can be added when needed) to connect with data analysis tools or other downstream simulators
 === Spatial analysis capabilities  ===
-* facilitates links to GIS with [http://www.geotools.org geotools java library]
+Facilitates links to Geographical Information Systems with [http://www.geotools.org geotools java library]
 === Abilities to address interdisciplinary, multi-scaled, and political issues  ===
+Capsis models can be coupled to other models or frameworks to address interdisciplinary issues.
+Capsis can also be used as an external model or library.
+For instance, a Capsis-hosted model can be used in the OpenAlea <ref>[http://openalea.gforge.inria.fr]</ref> framework.
+Some Capsis models also link to agronomical models (STICS), architectural models (AMAPsim), biomechanical models (FOREOLE) or radiative balance (ARCHIMED, SLIM)...
 == System ==
@@ Line 125: / Line 145: @@
 === Usage ===
-Research level use
+Research level use / knowledge transfert to expert level users
 === Computational limitations ===
@@ Line 135: / Line 155: @@
 Capsis provides :
 * an interactive graphical user interface
-* a script mode (without gui) based on groovy
+* a script mode (without gui) based on java or groovy
 === Documentation and support ===
-See Capsis web site <ref>[http://www.inra.fr/capsis capsis web site]</ref> : [http://www.inra.fr/capsis capsis web site]
+See the Capsis web site <ref>[http://www.inra.fr/capsis capsis web site]</ref> : [http://www.inra.fr/capsis capsis web site]
 === Installation ===
-* a free and open source version is available on the web : http://capsis.cirad.fr/capsis/download
+A free and open source version is available on the web, it contains only few free models for evaluation: http://capsis.cirad.fr/capsis/download
 ==References==