Difference between revisions of "FMPP"

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{{DSS description, Identification
+
{{DSS, Wiki quality control
|Acronym=FMPP
+
|Has flag=N/A
|Name=Forest Management Planning Package
+
|Contact person=Ola Eriksson
+
|Contact email=ola.eriksson@slu.se
+
|Type of the owner organization=research institution, higher or secondary education establishment
+
|Website=http://www.srh.slu.se/default.cfm
+
|Description=The Forest Management Planning Package it is an existing planning system used in practical forestry in Sweden. It focuses on the economically effective resource management of forest timber. The FMPP integrates economic theory, objective inventory measurements, growth forecasts and optimization methods. It is essentially aimed at long term (strategic) planning of larger forest holdings. The planning problem can be formulated and solved in two ways. (1) A non-linear objective function and mathematical optimization result in a compromise between maximization of economics benefits (Net Present Value) and a sustainable development (sustained net-revenue profile). (2) A linear programming package, [[JLP]], is utilized to maximize Net Present Value under some preselected restrictions.
+
|Development start year=1970
+
|Institutional framework=research prototype (R&D project)
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|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, FORSYS problem types classification
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{{DSS, Name, responsible organisation and contact person
|Temporal scale=long term (strategic)
+
|Has full name=Forest Management Planning Package
|Spatial context=non spatial
+
|Has acronym=FMPP
|Spatial scale=forest level
+
|Has wiki contact person=Ola Eriksson
|Decision making dimension=single decision maker
+
|Has wiki contact e-mail=ola.eriksson@slu.se
|Objectives dimension=single objective
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|Goods and services dimension=market wood products
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|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, Utilisation scope
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{{DSS, Software identification
|Status=used (stable
+
|Has software=FMPP.Software
|User profile=corporations, IT company
+
|Initial deployment effort=<= 1 week
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|Adaptation effort=parametrised by the user
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|Maintenance organization=SkogForsk
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|User support organization=SkogForsk
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|Support team size=1
+
|Number of real-life applications=<=30
+
|Last utilisation year by users=2009
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|Typical use case=200,000 ha
+
|Number of users=<=30
+
|Utilisation in education=used by students
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|Manual=No
+
|Accessibility=restricted access
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|Deployment cost=<= 10‘000€
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|Installation requirements=Windows; JLP if LP
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|Country=Sweden
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|Last utilised in education=2008
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|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, Functional description
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{{DSS, Description
|Species=Norway spruce; Scots pine; Birch; Oak; Beech; Other deciduos
+
|Has description=he Forest Management Planning Package it is an existing planning system used in practical forestry in Sweden. It focuses on the economically effective resource management of forest timber. The FMPP integrates economic theory, objective inventory measurements, growth forecasts and optimization methods. It is essentially aimed at long term (strategic) planning of larger forest holdings. The planning problem can be formulated and solved in two ways. (1) A non-linear objective function and mathematical optimization result in a compromise between maximization of economics benefits (Net Present Value) and a sustainable development (sustained net-revenue profile). (2) A linear programming package, JLP, is utilized to maximize Net Present Value under some preselected restrictions.
|Silvicultural regime=even-aged
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|Has modelling scope=Economical indicators, Forest indicators
|Forest management goal=afforestation management, economic evaluation, forest inventory, silvicultural regime, wood supply planning
+
|Has temporal scale=Long term (strategic)
|Risk evaluation=N/A
+
|Has spatial context=Non spatial
|Input data requirements=Forest inventory data
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|Has spatial scale=Forest level
|Modelling dimension=Economical indicators, Forest indicators
+
|Has objectives dimension=Single objective
|Planning scenario=-
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|Has goods and services dimension=Market wood products
|Parameterised GUI=Yes
+
|Has decision making dimension=Single decision maker
|size=User access control= Team profiles= Software development methods=
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|Has forest management goal=afforestation management, economic evaluation, forest inventory, silvicultural regime, wood supply planning
|participating in specification=
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|Supports tree species=Norway spruce; Scots pine; Birch; Oak; Beech; Other deciduos
 +
|Supports silvicultural regime=even-aged
 
}}
 
}}
{{DSS description, Models and techniques to support decision making
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{{DSS, Concrete application
|Optimisation algorithm=linear programming
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|Has typical use case=200,000 ha; 150-300 strata
|MCDM methods=N/A
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|Has country=Sweden
|Knowlegde management methods=N/A
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|Has number of users=<=30
|Forest models=growth models, yield models
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|Has number of real-life applications=<=100
|Ecological models=N/A
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|Has utilisation in education=no
|Social models=N/A
+
|Has research project reference=(see free text)
|Data mining=N/A
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|Has tool dissemination=Consultant mediated
|Uncertainty evaluation=N/A
+
|2D map interface=No
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|3D map interface=No
+
|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, Support for knowledge management processes
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{{DSS, Decision support techniques used in the DSS
|Tool dissemination=Consultant mediated
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|Has decision support techniques=FMPP.Decision support techniques
|Supported KM processes=Knowledge Storage
+
|Has knowledge management processes=FMPP.Knowledge management process
|KM tools used during the development of the DSS=Database
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|Kind of knowlegde and information processed=Explicit Knowledge
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|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, Support for participatory planning
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{{DSS, Support of Knowledge Management
|Participatory planning tasks supported=exploring options, evaluating options
+
|Has knowledge management processes=FMPP.Knowledge management process
|size=User access control= Team profiles= Software development methods=
+
|Has support for social participation=FMPP.Support of social participation
|participating in specification=
+
 
}}
 
}}
{{DSS description, Development process
+
{{DSS, Support of social participation
|Number of forest specialists in the development team=4
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|Has support for social participation=FMPP.Support of social participation
|Development team size=2
+
|User access control=no
+
|Team profiles=Forest planning expert; programmer
+
|Software development methods=Ad hoc
+
|User-friendliness of GUI=Fair
+
|Number of developer months=60
+
|Development cost=>10‘000€
+
|Percentage of HR cost=95
+
|Technical documentation=Yes
+
|Number of users on participating in specification=5
+
|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, IT environment & IT requirements
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{{DSS, DSS development
|Operating system=Windows
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|Has DSS development=FMPP.Description of DSS development
|Programming language=Visual Basic, Fortran
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|System type=stand-alone GUI
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|Communication architecture=-
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|Database=Access
+
|GIS integration=N/A
+
|Optimisation package=other
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|Application architecture=-
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|Format of the input data=text file
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|Format of the output data=GUI, pre-defined report
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|Internal data management=temporary files
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|Data validation=N/A
+
|GUI technology=other
+
|Scalability=No
+
|Spatial analysis=-
+
|Integration with other systems=-
+
|Computational limitations=1000 if LP; none otherwise
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|size=User access control= Team profiles= Software development methods=
+
|participating in specification=
+
 
}}
 
}}
{{DSS description, Commercial information
+
{{DSS, Documentation
|Can be used commercially=Yes
+
|Has website=http://www.srh.slu.se/default.cfm
|Price=2000
+
|Has manual=No
|size=User access control= Team profiles= Software development methods=
+
|Has technical documentation=No
|participating in specification=
+
|Has reference=JONSSON, B., J. JACOBSSON et H. KALLUR (1993): The Forest Management Planning Package. Theory and application. ‘’Studia Forestalia Suecica’’ 189. 56 pp.
 
}}
 
}}
== General System description ==
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===Free text description===
 
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System name: Forest Management Planning Package
+
 
+
Acronym: FMPP
+
 
+
=== Brief overview ===
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The Forest Management Planning Package it is an existing calculation system used in practical forestry in Sweden. It focuses on the economically effective resource management of forest timber.
+
 
+
[[Category:Finished articles]]
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[[Category:Decision support system]]
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[[Category:Swedish DSS]]
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[[Category:Pinus sylvestris]]
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[[Category:Pinus contorta]]
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[[Category:Picea abies]]
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[[Category:Operational planning]]
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[[Category:Strategic planning]]
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[[Category:Yield prediction]]
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[[Category:Economic evaluation]]
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[[Category:Forest level]]
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+
__TOC__
+
 
+
=== Scope of the system ===
+
 
The FMPP integrates economic theory, objective inventory measurements, accurate growth forecasts and optimization methods. The core of the system is a chain of models depicting the production possibilities of a forest holding.
 
The FMPP integrates economic theory, objective inventory measurements, accurate growth forecasts and optimization methods. The core of the system is a chain of models depicting the production possibilities of a forest holding.
  
 
A non-linear objective function and mathematical optimization result in a compromise between maximization of economics benefits (Net Present Value) and a sustainable development (sustained net-revenue profile).
 
A non-linear objective function and mathematical optimization result in a compromise between maximization of economics benefits (Net Present Value) and a sustainable development (sustained net-revenue profile).
  
=== System origin ===
+
==== System origin ====
 
* The FMPP development started in the early 1970s.
 
* The FMPP development started in the early 1970s.
 
* The FMPP was first developed and tested in the forest research holding Remingstorp, and then by Faculty of Forestry of the Swedish University of Agricultural Sciences. There also has been a fruitful cooperation with the HUGIN-project.
 
* The FMPP was first developed and tested in the forest research holding Remingstorp, and then by Faculty of Forestry of the Swedish University of Agricultural Sciences. There also has been a fruitful cooperation with the HUGIN-project.
 
* The FMPP has been used for analysis of a large number of forest holdings in Sweden. A total of more than 2.5 million hectares has been analysed between 1983 and 1992.
 
* The FMPP has been used for analysis of a large number of forest holdings in Sweden. A total of more than 2.5 million hectares has been analysed between 1983 and 1992.
  
=== Support for specific issues  ===
+
==== Support for specific issues  ====
 
Economic evaluation of the timber resources, adjusting to some forest sustainable management constraints such as a sustained revenue.
 
Economic evaluation of the timber resources, adjusting to some forest sustainable management constraints such as a sustained revenue.
  
=== Support for specific thematic areas of a problem type  ===
+
==== Support for specific thematic areas of a problem type  ====
 
* Silvicultural  
 
* Silvicultural  
 
* Conservation  
 
* Conservation  
  
=== Related systems ===
+
==== Typical spatial extent of application  ====
* [[HUGIN]]
+
Package was developed for the purpose to allow forest companies to do projections their own forest holdings, but it is not well suited for areas of small-scale forestry.
* [[Heureka]]
+
  
 
+
==== Forest data input  ====
== Data and data models ==
+
 
+
=== Typical spatial extent of application  ===
+
Package was developed for the purpose to allow forest companies to do projections their own forest holdings, but it is not well suited for areas of small-scale forestry<ref>ANDERSSON, M., B. DAHLIN et M. MOSSBERG (2005): The Forest Time Machine — a multi-purpose forest management decision-support system. ''Computers and Electronics in Agriculture'', 49, 114–128.</ref>.
+
 
+
=== Forest data input  ===
+
 
The FMPP uses forest inventory data such as site quality, age, diameter, number of stems per ha, and species composition.  
 
The FMPP uses forest inventory data such as site quality, age, diameter, number of stems per ha, and species composition.  
 
This data can be provided by:
 
This data can be provided by:
Line 181: Line 79:
 
* long-term experimental trials for estimating effects of treatments such as thinning and fertilizing,
 
* long-term experimental trials for estimating effects of treatments such as thinning and fertilizing,
 
* the sample tree material, collected in connection with the FMPP inventory for estimating tree quality and bark volume,
 
* the sample tree material, collected in connection with the FMPP inventory for estimating tree quality and bark volume,
* the [[HUGIN]]-survey for estimating regeneration results and plant growth.
+
* the HUGIN-survey for estimating regeneration results and plant growth.
  
  
== Models ==
+
==== Models ====
 
+
=== Forest models ===
+
 
Forest growth prediction models are used. Also, economic evaluation through the NPV is made.
 
Forest growth prediction models are used. Also, economic evaluation through the NPV is made.
  
 
+
==== Definition of management interventions ====
== Decision Support ==
+
 
+
=== Definition of management interventions ===
+
 
The FMPP determines where (in which stand), when (at which age) and which silvicutural management treatments (harvestings, thinnings, regeneration...) have to be made.
 
The FMPP determines where (in which stand), when (at which age) and which silvicutural management treatments (harvestings, thinnings, regeneration...) have to be made.
  
=== Typical temporal scale of application ===
+
==== Typical temporal scale of application ====
 
It can be used for operational and strategic planning, although it fits better to strategic planning requirements, since it has been developed toward this goal.
 
It can be used for operational and strategic planning, although it fits better to strategic planning requirements, since it has been developed toward this goal.
  
=== Decision-making processes and models ===
+
==== Decision-making processes and models ====
The FMPP uses to get the optimum solution linear programming, through the [[JLP]] package.
+
The FMPP uses to get the optimum solution linear programming, through the JLP package.
  
  
== Output ==
+
==== Output ====
 
+
=== Types of  outputs ===
+
 
The results are stored in the form of yield tables.
 
The results are stored in the form of yield tables.
 
 
==References==
 
 
===Cited references===
 
<references/>
 
 
===External resources===
 
* JONSSON, B., J. JACOBSSON et H. KALLUR (1993): The Forest Management Planning Package. Theory and application. ‘’Studia Forestalia Suecica’’ 189. 56 pp.
 

Latest revision as of 15:42, 2 April 2013

Wiki quality control

Has flag N/A

Name, responsible organisation and contact person

Has full name Forest Management Planning Package
Has acronym FMPP
Has wiki contact person Ola Eriksson
Has wiki contact e-mail ola.eriksson@slu.se

Software identification

Has software FMPP.Software

Description

Has description he Forest Management Planning Package it is an existing planning system used in practical forestry in Sweden. It focuses on the economically effective resource management of forest timber. The FMPP integrates economic theory, objective inventory measurements, growth forecasts and optimization methods. It is essentially aimed at long term (strategic) planning of larger forest holdings. The planning problem can be formulated and solved in two ways. (1) A non-linear objective function and mathematical optimization result in a compromise between maximization of economics benefits (Net Present Value) and a sustainable development (sustained net-revenue profile). (2) A linear programming package, JLP, is utilized to maximize Net Present Value under some preselected restrictions.
Has modelling scope Economical indicators, Forest indicators
Has temporal scale Long term (strategic)
Has spatial context Non spatial
Has spatial scale Forest level
Has objectives dimension Single objective
Has related DSS
Has goods and services dimension Market wood products
Has decision making dimension Single decision maker
Has forest management goal afforestation management, economic evaluation, forest inventory, silvicultural regime, wood supply planning
Supports tree species Norway spruce; Scots pine; Birch; Oak; Beech; Other deciduos
Supports silvicultural regime even-aged

Concrete application

Has typical use case 200,000 ha; 150-300 strata
Has user profile
Has country Sweden
Has references about examples of application
Has number of users <=30
Has number of real-life applications <=100
Has utilisation in education no
Has research project reference (see free text)
Has tool dissemination Consultant mediated

Decision support techniques used in the DSS

Has decision support techniques FMPP.Decision support techniques

Support of Knowledge Management

Has knowledge management processes FMPP.Knowledge management process

Support of social participation

Has support for social participation FMPP.Support of social participation

DSS development

Has DSS development FMPP.Description of DSS development

Documentation

Has website http://www.srh.slu.se/default.cfm
Has online demo
Has manual No
Has technical documentation No
Has reference JONSSON, B., J. JACOBSSON et H. KALLUR (1993): The Forest Management Planning Package. Theory and application. ‘’Studia Forestalia Suecica’’ 189. 56 pp.

Free text description

The FMPP integrates economic theory, objective inventory measurements, accurate growth forecasts and optimization methods. The core of the system is a chain of models depicting the production possibilities of a forest holding.

A non-linear objective function and mathematical optimization result in a compromise between maximization of economics benefits (Net Present Value) and a sustainable development (sustained net-revenue profile).

System origin

  • The FMPP development started in the early 1970s.
  • The FMPP was first developed and tested in the forest research holding Remingstorp, and then by Faculty of Forestry of the Swedish University of Agricultural Sciences. There also has been a fruitful cooperation with the HUGIN-project.
  • The FMPP has been used for analysis of a large number of forest holdings in Sweden. A total of more than 2.5 million hectares has been analysed between 1983 and 1992.

Support for specific issues

Economic evaluation of the timber resources, adjusting to some forest sustainable management constraints such as a sustained revenue.

Support for specific thematic areas of a problem type

  • Silvicultural
  • Conservation

Typical spatial extent of application

Package was developed for the purpose to allow forest companies to do projections their own forest holdings, but it is not well suited for areas of small-scale forestry.

Forest data input

The FMPP uses forest inventory data such as site quality, age, diameter, number of stems per ha, and species composition. This data can be provided by:

  • the Swedish National Forest Survey,
  • long-term experimental trials for estimating effects of treatments such as thinning and fertilizing,
  • the sample tree material, collected in connection with the FMPP inventory for estimating tree quality and bark volume,
  • the HUGIN-survey for estimating regeneration results and plant growth.


Models

Forest growth prediction models are used. Also, economic evaluation through the NPV is made.

Definition of management interventions

The FMPP determines where (in which stand), when (at which age) and which silvicutural management treatments (harvestings, thinnings, regeneration...) have to be made.

Typical temporal scale of application

It can be used for operational and strategic planning, although it fits better to strategic planning requirements, since it has been developed toward this goal.

Decision-making processes and models

The FMPP uses to get the optimum solution linear programming, through the JLP package.


Output

The results are stored in the form of yield tables.