Difference between revisions of "HMSS"

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The aim of HMSS is to integrate knowledge related to the management of ''Hylobius abietis'' (Pine Weevil) on conifer restock sites.
 
The aim of HMSS is to integrate knowledge related to the management of ''Hylobius abietis'' (Pine Weevil) on conifer restock sites.
  
[[Category: Decision Support Systems|HMSS]]
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[[Category:Decision support system|HMSS]]
 
[[Category:GB Forestry DSS|HMSS]]
 
[[Category:GB Forestry DSS|HMSS]]
 
[[Category:pest management|HMSS]]
 
[[Category:pest management|HMSS]]

Revision as of 13:00, 9 September 2009

General System description

System name: Hylobius Management Support System

Acronym: HMSS

Brief overview

The aim of HMSS is to integrate knowledge related to the management of Hylobius abietis (Pine Weevil) on conifer restock sites.

Scope of the system

This tool allows the user to evaluate the risk of Hylobius abietis attack, helping to schedule the operations of conifer restocking in order to predict and reduce transplant damage, insecticide use and costs of establishment.

System origin

  • Developed by Roger Moore, Andrew Peace and Stephen Bathgate.
  • Used in public and private sector. Usage encouraged by FSC constraints on insecticide usage.

Support for specific issues

Guidance upon effectiveness of site operations and plant specifications in the context of reducing tree losses to Hylobius.

Support for specific thematic areas of a problem type

  • Silvicultural
  • Certification
  • Development choices / land use zoning
  • Policy/intervention alternatives
  • Sustainability impact assessment (SIA)

Capability to support decision making phases

  • Intelligence
gives user optimal planting date.
  • Design
user can define alternate management regimes, e.g. increased insecticide.
  • Choice
allows user to vary species choice and management options.
  • Monitor
users must carry out system specific site based monitoring of insect populations.

Related systems


Data and data models

Typical spatial extent of application

Restock clearfell.

Forest data input

Location via OS GB six figure grid reference, e.g. NT090950. Time of felling and area felled also required.

Type of information input from user (via GUI)

Billet count (insect population) data.


Models

Forest models

Hylobius population dynamics model


Decision Support

Definition of management interventions

Timing of planting, insecticide spraying, nematode treatment, species choice.

Prescription enumerating selected possibilities at stand level.

Point based GIS/Spreadsheet population projection for the 5 year attack period.

Typical temporal scale of application

Upto 5 years of population data if sites are monitored immediately after felling.

Types of decisions supported

  • Management level
    • strategic decisions
    • administrative decisions
    • operating control decisions
  • Management function
  • planning decisions
    • organizing decisions
    • command decisions
    • control decisions
    • coordination decisions
  • decision making situation
    • unilateral
    • collegial
    • Bargaining / participative decision making

Decision-making processes and models

  • Operations research modeling
    • Direct approaches
    • Heuristic manipulation of simulation models
  • Multiple criteria/ranking
  • Other


Output

Types of outputs

Stand version generates tables in HTML or spreadsheet/GIS compatible population projections with insect migration ranges.

Spatial analysis capabilities

  • GIS links via data export.
  • provides standard data import/export formats
  • allows spatial analysis

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

Evaluate interactions between different basic information types (biophysical, economic, social). Produce coordinated results for decision makers operating at different spatial scales facilitate social negotiation and learning

System

System requirements

  • Java library deployed on Linux and Windows. UI available at stand level via web, or batch system via command line.
  • Utilises many open source Java libraries, GIS required for spatial visualisation. Data currently managed in Oracle database.

Architecture and major DSS components

3 tier architecture ( UI, Models, Data)

Web based UI using JSP, HTML, CSS

Models are implemented in java and could be integrated with other DSS libraries.

Modular.

Usage

Used in public and private sector forestry in upland conditions in GB and Ireland.

Computational limitations

Fairly light computationally.

User interface

Web UI requires designed in linear style to guide user through system.

Documentation and support

Training course covering software and field based monitoring. Support available via email.

Installation

  • Prerequisite knowledge: Requires web browser. Server installation requires specialised skills and tools. Batch mode requires some configuration on host machine.
  • Subscription based service


References

External resources

Forest Research Decision Support Portal