Difference between revisions of "SIPAFIT"
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− | {{DSS | + | {{DSS, Wiki quality control |
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− | {{DSS | + | {{DSS, Name, responsible organisation and contact person |
− | + | |Has full name=Sistema Informativo Provinciale per l’Assestamento Forestale in Trentino | |
− | | | + | |Has acronym=SIPAFIT |
− | | | + | |Has wiki contact person=Gianfranco Scrinzi |
− | | | + | |Has wiki contact e-mail=gianfranco.scrinzi@entecra.it |
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− | {{DSS | + | {{DSS, Software identification |
− | | | + | |Has software=SIPAFIT.Software |
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− | {{DSS | + | {{DSS, Description |
− | | | + | |Has description=It’s a forest management system that integrates statistical and sampling methods with computer and technological resources allowing an effective georeferenced description of the dendroauxometric and structural forest parameters. |
− | | | + | |Has modelling scope=Forest indicators |
− | |Forest management goal=biomass estimation, economic evaluation, forest inventory, yield prediction, wood supply planning, multi-functional | + | |Has temporal scale=Medium term (tactical), Short term (operational) |
− | | | + | |Has spatial context=Spatial with no neighbourhood interrelations |
− | | | + | |Has spatial scale=Forest level |
− | + | |Has objectives dimension=Multiple objectives | |
− | + | |Has goods and services dimension=Market wood products, Non-market services | |
− | + | |Has decision making dimension=Single decision maker | |
+ | |Has forest management goal=biomass estimation, economic evaluation, forest inventory, yield prediction, wood supply planning, multi-functional | ||
+ | |Supports tree species=all the Trentino forest types | ||
+ | |Supports silvicultural regime=user defined | ||
}} | }} | ||
− | {{DSS | + | {{DSS, Concrete application |
− | | | + | |Has typical use case=one forest stand managed at a time |
− | | | + | |Has country=Italy |
− | | | + | |Has number of users=<=10 |
− | + | |Has number of real-life applications=<=30 | |
− | | | + | |Has utilisation in education=no |
− | + | |Has tool dissemination=workshop, scientific and technical publications | |
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− | {{DSS | + | {{DSS, Decision support techniques used in the DSS |
− | + | |Has decision support techniques=SIPAFIT.Decision support techniques | |
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− | {{DSS | + | {{DSS, Support of Knowledge Management |
− | | | + | |Has knowledge management processes=SIPAFIT.Knowledge management process |
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− | {{DSS | + | {{DSS, Support of social participation |
− | + | |Has support for social participation=SIPAFIT.Support of social participation | |
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− | {{DSS | + | {{DSS, DSS development |
− | | | + | |Has DSS development=SIPAFIT.Description of DSS development |
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− | {{DSS | + | {{DSS, Documentation |
− | | | + | |Has website=http://www.foreste.provincia.tn.it/organizzazione/org_index.htm |
+ | |Has technical documentation=Yes | ||
+ | |Has reference=Scrinzi et al., 2008; Wolynski et al., 2009;Colle et al., 2010 | ||
}} | }} | ||
[[Category:Not finished articles]] | [[Category:Not finished articles]] | ||
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[[Category:Forest level]] | [[Category:Forest level]] | ||
[[Category:Tactical and operational planning]] | [[Category:Tactical and operational planning]] | ||
− | + | = ADDITIONAL INFORMATION (needs to be migrated using the "edit with form" link) = | |
− | == | + | |
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== Brief overview == | == Brief overview == | ||
SIPAFIT is the forest management system used by the Forest Service of Trentino Province articulated in several sub-systems (and relative instruments and tools) which support the different steps of the management decision chain. | SIPAFIT is the forest management system used by the Forest Service of Trentino Province articulated in several sub-systems (and relative instruments and tools) which support the different steps of the management decision chain. | ||
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|- | |- | ||
|Creating the sample network | |Creating the sample network | ||
− | |SAMSIZE outputs, geodatabase, .LAUNCHER | + | |SAMSIZE outputs, geodatabase, .LAUNCHER sw tool (Model Builder and Python in ArcGIS environment). |
|It is possible to choose between random or systematic (on a squared grid) sample distribution, with different density among the strata | |It is possible to choose between random or systematic (on a squared grid) sample distribution, with different density among the strata | ||
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|Ground inventory | |Ground inventory | ||
− | |.LAUNCHER outputs, RELASKOPE mobileGIS | + | |.LAUNCHER outputs, RELASKOPE mobileGIS sw (VBscript and applet programming in ESRI Arcpad environment). |
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|Inventory data control and processing | |Inventory data control and processing | ||
− | |.CONTROL and .PROCESS | + | |.CONTROL and .PROCESS sw tools (VBA in Excel/Access environment) |
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|Result reporting | |Result reporting | ||
− | |.REPORT | + | |.REPORT sw tool (Vba in Access environment); thematic maps in vector and raster format |
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== System origin == | == System origin == | ||
− | Forest administration of the Province of Trento (North-Eastern Italian Alps, 400,000 ha of forest area, more than 50% of the province total area) has recently changed its inventory system from total census (full callipering, which had been progressively reduced in area, for cost reasons) to sampling methods | + | Forest administration of the Province of Trento (North-Eastern Italian Alps, 400,000 ha of forest area, more than 50% of the province total area) has recently changed its inventory system from total census (full callipering, which had been progressively reduced in area, for cost reasons) to sampling methods; besides, the needs for a modern and efficient forest management require more information about an overall “description” of the forest, but at the same time can tolerate less accuracy in timber production estimates. A comprehensive system was developed to support the forest managers, the forest owners and the consultants (professionals who perform forest management plans), in each step of the forest planning. |
SIPAF and its sub-systems were initially tested on a pilot management plan in 2009, and then had several changes and improvements to tackle the problems met. | SIPAF and its sub-systems were initially tested on a pilot management plan in 2009, and then had several changes and improvements to tackle the problems met. | ||
A total of 12 experts were involved in system design, implementation and testing (5 researchers, 4 foresters from the Forest Service and 3 consultants involved in plan preparation). | A total of 12 experts were involved in system design, implementation and testing (5 researchers, 4 foresters from the Forest Service and 3 consultants involved in plan preparation). | ||
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== Support for specific issues == | == Support for specific issues == | ||
− | SIPAFIT support | + | SIPAFIT support consultanst in field surveys, allowing an effective georeferenced description of the main (both dendroauxometric and structural) forest parameters, it support forest managers in inventory data control and procesing and it support forest manager in result reporting. |
== Support for specific thematic areas of a problem type == | == Support for specific thematic areas of a problem type == | ||
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== Capability to support decision making phases == | == Capability to support decision making phases == | ||
− | * Intelligence: the system | + | * Intelligence: the system use a fully automatic, congruent, progressive and recordable procedure. |
* Design: forest planner input data in the inventory phase | * Design: forest planner input data in the inventory phase | ||
* Choice: results give quantitative dendroauxometric parameters | * Choice: results give quantitative dendroauxometric parameters | ||
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== Typical spatial extent of application == | == Typical spatial extent of application == | ||
The typical spatial extent of application is the forest management plan. | The typical spatial extent of application is the forest management plan. | ||
− | The spatial unit for the output depends on what extension data input refer (the forest subjected to the planning process). Definitely we can say that the typical spatial extent of application is the single | + | The spatial unit for the output depends on what extension data input refer (the forest subjected to the planning process). Definitely we can say that the typical spatial extent of application is the single reale property scale. |
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Latest revision as of 16:05, 3 April 2013
Contents
- 1 Wiki quality control
- 2 Name, responsible organisation and contact person
- 3 Software identification
- 4 Description
- 5 Concrete application
- 6 Decision support techniques used in the DSS
- 7 Support of Knowledge Management
- 8 Support of social participation
- 9 DSS development
- 10 Documentation
- 11 ADDITIONAL INFORMATION (needs to be migrated using the "edit with form" link)
Wiki quality control
Has flag | N/A |
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Name, responsible organisation and contact person
Has full name | Sistema Informativo Provinciale per l’Assestamento Forestale in Trentino |
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Has acronym | SIPAFIT |
Has wiki contact person | Gianfranco Scrinzi |
Has wiki contact e-mail | gianfranco.scrinzi@entecra.it |
Software identification
Has software | SIPAFIT.Software |
---|
Description
Has description | It’s a forest management system that integrates statistical and sampling methods with computer and technological resources allowing an effective georeferenced description of the dendroauxometric and structural forest parameters. |
---|---|
Has modelling scope | Forest indicators |
Has temporal scale | Medium term (tactical), Short term (operational) |
Has spatial context | Spatial with no neighbourhood interrelations |
Has spatial scale | Forest level |
Has objectives dimension | Multiple objectives |
Has related DSS | |
Has goods and services dimension | Market wood products, Non-market services |
Has decision making dimension | Single decision maker |
Has forest management goal | biomass estimation, economic evaluation, forest inventory, yield prediction, wood supply planning, multi-functional |
Supports tree species | all the Trentino forest types |
Supports silvicultural regime | user defined |
Concrete application
Has typical use case | one forest stand managed at a time |
---|---|
Has user profile | |
Has country | Italy |
Has references about examples of application | |
Has number of users | <=10 |
Has number of real-life applications | <=30 |
Has utilisation in education | no |
Has research project reference | |
Has tool dissemination | workshop, scientific and technical publications |
Decision support techniques used in the DSS
Has decision support techniques | SIPAFIT.Decision support techniques |
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Support of Knowledge Management
Has knowledge management processes | SIPAFIT.Knowledge management process |
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Support of social participation
Has support for social participation | SIPAFIT.Support of social participation |
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DSS development
Has DSS development | SIPAFIT.Description of DSS development |
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Documentation
Has website | http://www.foreste.provincia.tn.it/organizzazione/org_index.htm |
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Has online demo | |
Has manual | |
Has technical documentation | Yes |
Has reference | Scrinzi et al., 2008; Wolynski et al., 2009;Colle et al., 2010 |
ADDITIONAL INFORMATION (needs to be migrated using the "edit with form" link)
Brief overview
SIPAFIT is the forest management system used by the Forest Service of Trentino Province articulated in several sub-systems (and relative instruments and tools) which support the different steps of the management decision chain. In the following table the sub-systems - which support the different steps of the management decision chain – are described.
Forest management phase | SIPAFIT sub-system | Remarks |
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Correction of forest and forest compartments boundaries | Geodatabase, mobileGIS software | Using sampling methods, it is essential a precise knowledge of the extension and position of the forest elements (compartments, stands…). |
Production of the “forest unit” map | Geodatabase, mobileGIS software, LiDAR (CHM) data, digital orthophotos, forest type map, other ancillary layers | This phase is essential to organize a standardized description of the forest and to build the strata on which the sample network will be launched |
Dimensioning the sample size | SAMSIZE (VBA in Excel/Access environment), forest strata map, data entry by the user | This tool allows to produce a proper distribution of the sample among the strata according to the expected uncertainties. It is possible to simulate different sampling scenarios, in terms of forest structure variability and complexity, and exploitation temporal proximity |
Creating the sample network | SAMSIZE outputs, geodatabase, .LAUNCHER sw tool (Model Builder and Python in ArcGIS environment). | It is possible to choose between random or systematic (on a squared grid) sample distribution, with different density among the strata |
Ground inventory | .LAUNCHER outputs, RELASKOPE mobileGIS sw (VBscript and applet programming in ESRI Arcpad environment). | |
Inventory data control and processing | .CONTROL and .PROCESS sw tools (VBA in Excel/Access environment) | |
Result reporting | .REPORT sw tool (Vba in Access environment); thematic maps in vector and raster format |
Scope of the system
SIPAFIT integrates statistical and sampling methods with computer and technological resources allowing an effective georeferenced description of the main (both dendroauxometric and structural) forest parameters of the managed forest stands. SIPAF allows simulation of different scenarios in terms of forest stratification, inventory strategies and sampling intensity.
System origin
Forest administration of the Province of Trento (North-Eastern Italian Alps, 400,000 ha of forest area, more than 50% of the province total area) has recently changed its inventory system from total census (full callipering, which had been progressively reduced in area, for cost reasons) to sampling methods; besides, the needs for a modern and efficient forest management require more information about an overall “description” of the forest, but at the same time can tolerate less accuracy in timber production estimates. A comprehensive system was developed to support the forest managers, the forest owners and the consultants (professionals who perform forest management plans), in each step of the forest planning. SIPAF and its sub-systems were initially tested on a pilot management plan in 2009, and then had several changes and improvements to tackle the problems met. A total of 12 experts were involved in system design, implementation and testing (5 researchers, 4 foresters from the Forest Service and 3 consultants involved in plan preparation). During this first period of application, a number of meetings and workshops has been realized with all the users of the system. The tools have been operatively used since 2009 by the forest managers of Forest Service in the Trentino Province, and therefore their users have extended from researchers to consultants and to other stakeholders (i.e. managers and technicians of the municipalities which are the public forest owners).
Support for specific issues
SIPAFIT support consultanst in field surveys, allowing an effective georeferenced description of the main (both dendroauxometric and structural) forest parameters, it support forest managers in inventory data control and procesing and it support forest manager in result reporting.
Support for specific thematic areas of a problem type
- Forest planning.
- Territorial planning.
Capability to support decision making phases
- Intelligence: the system use a fully automatic, congruent, progressive and recordable procedure.
- Design: forest planner input data in the inventory phase
- Choice: results give quantitative dendroauxometric parameters
- Monitor: a field test is implemented by the forest managers in the forest surveyed by the consultants.
Related systems
Data and data models
Typical spatial extent of application
The typical spatial extent of application is the forest management plan. The spatial unit for the output depends on what extension data input refer (the forest subjected to the planning process). Definitely we can say that the typical spatial extent of application is the single reale property scale.