Hazard assessment module

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Revision as of 09:27, 3 January 2014 by Pascal (talk | contribs) (Step 1: Avalanche problems (Fig. 1))
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REQUIREMENTS
Permission Submission moderator and higher
Connectivity Online and partial offline

This document describes the functionality of the 'hazard assessment' workflow module and how to properly configure if for a workflow.

Required permissions:

Required connectivity:

  • You need to be online to create a new or edit an existing workflow template.
  • You need to be online to initiate a workflow instance for the fields to be properly prefilled from the last workflow instance with the same location(s). Once the workflow instance has been loaded, you can complete the workflow on an offline mode.
  • You can initiate a workflow instance when you are offline, but none of the fields will be prefilled and you will start with an completely blank copy.
  • You need to be online to submit your observations and assessments to the InfoEx at the end of your workflow.

Functionality

The hazard assessment workflow module allows users to assessment avalanche hazard according to the conceptual model of avalanche hazard developed by Grant Statham and his colleagues. The hazard assessment process consists of two steps:

  1. Identifying the present avalanche problems and characterizing their condition using a hazard chart
  2. Assessing the overall hazard given the existing avalanche problems

If you are not interested in the highly structured approach of the conceptual model of avalanche hazard, the Hazard comment module offers a low-tech alternative that allows you to enter a free-form description of the current avalanche problems and the resulting avalanche hazard. It is only possible to have either a single hazard assessment or a single hazard comment step in your workflow, not both.

The data entry fields of this workflow module are automatically pre-populated with the last snowpack and PWL information that was submitted to the InfoEx for the location(s) associated with the workflow.

NOTE If you have multiple workflows for a location (e.g., AM and PM meetings), the information is pre-populated from the last time you submitted any workflow for the location. For example, in a regular rotation, the snowpack step in the PM meeting is pre-populated with information from the AM meeting and the next AM meeting is pre-populated with information from the PM meeting of the previous day.

Any workflow template with a hazard assessment module step will automatically have a Context module step added at the beginning of the workflow.

Any workflow template with a hazard assessment module step will automatically have a Workflow summary step added at the end of the workflow. This summary allows users to review their observations and assessments before they are submitted to the InfoEx.

The assessments submitted to the InfoEx via the hazard assessment module are associated with the location specified in the entry form of the individual observation.

It is possible to complete the hazard assessment step in a workflow without internet connectivity.

Layout

The hazard assessment workflow module consists of two steps:

Step 1: Avalanche problems (Fig. 1)

The first step of the hazard assessment module allows you to identify and characterize the current avalanche problems according the the Conceptual model of avalanche hazard developed by Grant Statham and his colleagues.

1. Click on Add Av Problem to add a new avalanche problem. The new problem is added to the top of the list of existing avalanche problems.
2.
Fig. 1: Hazard assessment workflow module step 1: Avalanche problems
Characterize the avalanche problem:
  • Character (mandatory)
    Select the character of the avalanche problem from the available options in the dropdown list.
    See Avalanche character definition table for more information on avalanche problems.
  • Location (mandatory)
    Indicate in which elevation band and aspect sectors the particular avalanche problem is present using the aspect-elevation rose diagram. The most inner circle represents the alpine, the most outer circle below treeline, and the circle in the middle treeline. Turn the segments on or off by clicking on them.
NOTE Right-click on the segments to access the additional options for filling out the diagram (e.g., all aspect for an elevation band; all elevation band for an aspect; all segments)
  • Failure Plane (mandatory)
    Indicate the failure plane typically associated with this avalanche problem. The dropdown list includes all of the Operation PWLs that have not been flagged as inactive in the Snowpack module step for the location of the workflow plus an 'Non-peristent' option.
NOTE See Persistent weak layer overview for more information on the PWL functionality of the InfoEx system]]
  • Color (mandatory)
    Click on the color swatch to the right of the failure plane dropdown to open the color picker dialog. This color will be used in the subsequent hazard assessment page and the InfoEx reports to color in the charts for this avalanche problem. The default color is black.
NOTE If you chose an existing PWL in the Failure Plane downdown list, the color of the PWL is automatically used for the color swatch and coloring in any subsequent associated charts.
ISSUE We are hoping to implement standardized colors for the different avalanche problems (e.g., wind slab are blue; wet slabs are green, ...) in the near future.
JIRA: -Issue Number (Date)
  • Sensitivity to Trigger (mandatory)
    Determine the Sensitivity to Triggers based on what kind of triggering will initiate avalanches of any size within the defined location.
    See Sensitivity to triggers definition table for more information on sensitivity to triggers.
  • Spatial Distribution (mandatory)
    Determine the density and distribution of the instability within the defined location.
    See Spatial distribution definition table for more information on spatial distribution.
  • Fig. 2: Hazard chart with handles for minimum, typical and maximum values for likelihood of triggering and destructive size.
    Likelihood of Triggering and Destructive Size (mandatory)
    Use the blobber on the hazard chart (Fig. 2) to indicate:
    • Likelihood of Triggering (vertical axis):
      This is a judgmental combination of both sensitivity of triggering and spatial distribution.
      See Likelihood of triggering definition table for more information on likelihood of triggering.
    • Destructive size (horizontal axis):
      This is the destructive potential of the avalanche(s) resulting from the specific avalanche problem within the defined location.
      See Destructive size definition table for more information on destructive size.
Click on the blobber and drag to move the entire shape around on the chart. Click on the individual handles and drag to change the locations of the minimum, typical and maximum values for likelihood of triggering and destructive size. The handles automatically snap to the grid points of the chart.

{{The size and location of the blobber of an avalanche problem represent the typical expected values (center point) and the expected variability (min-max) in the terrain. The size of the blobber is not intended to represent the confidence of the forecasters.}}

NOTE If multiple handles are collapsed in a single point (e.g., minimum and typical value for destructive size on same grid point), you need to move the handle for the min or max value off before you can can access the handle for the typical values again.
  • Comment
    Add any additional comments that help describe the character of the avalanche problem.
3. Click on the ButtonDelete.png button on the right of an avalanche problem header (Fig. 1) to delete any avalanche problems that have become obsolete.
4. Click on the button to move to the second step of the hazard assessment process.

Step 2: Avalanche hazard (Fig. 3)

Fig. 3: Hazard assessment workflow module step 2: Avalanche hazard

After the identified and characterized the current avalanche problems, the second step of the hazard assessment process allows you to discuss and rate the overall hazard. Depending on your settings, you will be presented with one general or three elevation-specific hazard charts (Fig. 3).

1. Examine the hazard charts with the combined blobbers of the avalanche problems that apply to the specific elevations bands. Each of the blobbers is shown in the color that was specified on the previous page.
NOTE It is not possible to change the location and shape of the blobbers on this page. To modify the blobbers, click on the to get to the first step of the hazard assessment process.
2. Indicate the importance of the avalanche problems by adjusting the order of the avalanche problem labels below the hazard charts. To move an avalanche problem, click on the label and drag it up or down within the list.
ISSUE We hope to properly color code the labels in the future so that the labels can also act as a legend for the blobbers in the hazard chart.
JIRA: -Issue Number (Date)
3. Depending on your settings, specify the following ratings:
4. Indicate the forecasters' degree of confidence in any of the included ratings using the scale of Good, Fair or Poor. Factors affecting the confidence can include anomalies, unusual events, unprecedented events or conditions, amount of available data, quality of available data, spatial scale, temporal scale, spatial variability, temporal variability, lingering instability, state of knowledge, and forecasters’ experience.
5. If necessary add informative comments to describe the particularities of the current hazard situation.
6. Click on the button to move to the next step in your workflow.

Settings

Fig. 4: Hazard assessment workflow module settings

The hazard assessment workflow module has the following settings (Fig. 4):

  • Name
    Name of the workflow step shown in the header of the workflow. It is recommended that you choose a short name (e.g., 'Av Hzd' instead of 'Avalanche Hazard') to keep the navigation bar of the workflow as tidy as possible.
  • Elevation Bands
    Specify whether you want to rate the conditions for each elevation band (alpine, treeline, below treeline) individually or just a single, general rating. With the three elevation band setting you will be presented with three hazard charts in the second step of the assessment process (one for each elevation band); with the general setting only a single general hazard chart.
  • Stability and/or Hazard
    Specify whether you want to include stability ratings, hazard ratings, both types of ratings or no ratings at all in your assessment process.

Information shared within the InfoEx

All of the information entered in this workflow module is shared within the InfoEx in the following manner:

  • The characterisations of the existing avalanche problems is presented in the 'Avalanche Problems' table of the InfoEx report.
  • The overall stability and hazard assessments are presented in the 'Avalanche Hazard' table of the InfoEx report.
  • The assessments are presented in the InfoEx under the location(s) that were associated with the workflow.
  • For a given day, the InfoEx report only shows the last assessments submitted for a workflow location. For example, if you include the snowpack module both in your AM and PM workflow, the InfoEx report will only show one of these assessments. Depending on the time of the day, it will be either the AM or PM assessments.

Other workflow modules

Functionality tested by

  • Dec. 28, 2013: Pascal Haegeli