DSD

Template:DSS description, Wiki quality control Template:DSS description, Name, responsible organisation and contact person Template:DSS description, Scope of the tool Template:DSS description, Concrete application Template:DSS description, Installation and support Template:DSS description, Data, data model and data management Template:DSS description, Models and methods, MBMS, decision support techniques Template:DSS description, Support of knowledge management process Template:DSS description, Support of social participation Template:DSS description, User interface and outputs Template:DSS description, System design and development Template:DSS description, Technological architecture, integration with other systems Template:DSS description, Ongoing development Template:DSS description, Documentation

Scope of the system

DSD supports two main silvicultural decision-making problems, both for individual stands:

1. The establishment of new stands. It seeks which species or species mixtures are suitable at particular locations within the project area, including considerations of the effect of climate change.
2. Stand treatments scheduling, given a particular set of management objectives aiming at a future species-mixture stand type.

System origin

• It was developed by a researchers team in the Universität für Bodenkultur Wien. First prototype was implemented in 2001.
• how was it developed
• is it a commercial product
• Is in use in southern Austria.

Support for specific issues

Timber harvest effects, climate change effects, risk assesment methods, biodiversity, and site improvement.

Support for specific thematic areas of a problem type

• Silvicultural
• Certification
• Conservation
• Restoration
• Development choices / land use zoning
• Policy/intervention alternatives

Capability to support decision making phases

• Intelligence:

  DSD requires from the user the insertion of forest features data and management objectives.

• Design:

  For each stand objective different schedules and results are proposed, that then would be evaluated according to the management objectives.

• Choice:

  The selection among the different management possibilities is made according to the predefined objectives using multicriteria evaluation.

• Monitor:

  It falls on the final manager.

Related systems

• SDSS Wolschartwald
• SDSS Wildalpen
• CONES

Data and data models

Typical spatial extent of application

Stand level.

Forest data input

Stand characteristics are input via GUI.

Type of information input from user (via GUI)

Users have to assign a particular forest property to one of the predefined site and stand categories, usin some easily available stand characteristics. They also have to choose the management objectives among the predefined ones employing pairwise comparisons.

Models

Forest models

Growth and yield models are used to calculate costs and revenues. It has also an additive hierarchical utility model used in the multicriteria evaluation.

Decision Support

Definition of management interventions

Manager is able to choose among three objectives: timber production, nature conservation and biodiversity, or mantaining or improving site productivity.

Typical temporal scale of application

Depending on the objective, a short- to mid-term (i.e., 30 years) as well as a long-term planning horizon is distinguished.

Decision-making processes and models

• Simulation (with and without stochasticity)
• Multiple criteria/ranking

Output

Types of outputs

Results can be viewed on the screen, stored in the database of DSD, and be printed in a comprehensive report.

System

System requirements

• Operating Systems: Microsoft® Windows® OS
• Development status: v1.1 has been released

Architecture and major DSS components

DSD was implemented in Borland® C++™ as a client/server architecture, with Oracle(R) as the relational database system. Thus, the inteface component of the program resides on the desktop computer of the user, and the application logic is on the central server of the forest region authorities.

The GUI is completely based on Borland's VCL (Visual C Library), and the generation of reports is based on Quickreport™, which uses components of the Borland® C++™ programming environment.

Usage

DSD has been developed to support the staff of forestry extension services in the Dobrova region in preparing informed recommendations for forest management to small private landowners based on the owner's goal preferences.

Documentation and support

More information about DSD can be found at the DSD website, where e-mail directions of the responsible researchers are given.

References

External resources

• http://www.wabo.boku.ac.at/dsd.html (in German and in English)
• REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: Decision Support Systems in Forest Management IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): Handbook on Decision Support Systems 2: Variations. Springer Berlin Heidelberg. 800 pp.