Weather routing tips

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Revision as of 03:19, 11 October 2014 by Mclean (talk | contribs) (Wind forecast Age)
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VRTool weather routing has a many parameters, to allow flexibility in all possible situations and scales. But this also gives ample opportunities to mess up. If weather routing is not properly configured, the calculation can quickly scale out of control, taking a lot of memory and cpu power.

Wind forecast Age

ConfigTime.gif
One important configuration that affects both the Track designer and Weather Routing is the forecast age. This tells the program how old the current wind forecasts are. To configure that, go the the Other tab in the main program form, locate the Track Designer Settings Panel.

Select CtrlOption.gifGrid Timestamp + Time Zone and set your system time zone (e.g. 3 for GMT+3). Note the Forecast Age value. If you are 10h into the current wind shift, it must show 10:00:00.

Tip: Click on the computer icon to import the time zone from system settings.


Weather routing module parameters explained

  • Start and destination positions - Weather routing calculation is always done between two end points. The Start must be set to the current boat position.

Click the target button and point your current boat position in the chart, or type lat/lon. The Destination can be either the final leg destination or the next leg mark. If the leg has intermediate marks, you must go one segment at a time.

  • isochrone interval - Time between successive isochrones, in hours.

Note that, when crossing a isochrone, the software does the tree pruning, reducing the point count. Longer intervals will result in large number of points and sluggish calculation. Use 1 or 0.5 hours.

  • up to isochrone - This sets the time horizon of the calculation, in hours.

The best route will be the one that ends up closest to the destination in the specified time. If you set this to 0h the routing will continue until it reaches the destination or runs out of weather.

Note that using long term forecasts (120 to 384h) can be deceiving. Short term forecasts are more reliable than long term ones. You may perform a long term calculation (say 120h) and a short term (say 36). If both best routes (short and long term) point in the same direction, one can be confident. If they differ a lot, the situation requires a more detailed analysis. This time is always in relation to the last wind shift, so if you are 10h into the current wind shift, using up-to-isochrone=12 will only calculate a 2h route.

  • number of branches - Number of branches added at each point.

The software adds a center branch towards the destination, and a number branches on each side of this center branch.

The angular spacing of the branches is set by the polar database in use. Classic polars have 62 records at 5 degree intervals of true wind angle (a little less in close hauled direction). So if you choose to test 21 branches for example, the routing will test a center branch in the destination direction plus 10 branches each side spaced at 5 degrees (covering a total arc of some 50 degrees).

When setting this value you must keep in mind the relationship with the polar database. Some games have polars available with a record spacing closer than 5 degrees TWA. If you use one of these polars you need to increase the number of branches to test the same total arc.

Example: With a fast PC it is practical to use a "full" polar with records from 0-180 degrees TWA at 1 degree intervals (181 records). Using a polar like this, set the number of branches to 121 to test branches 60 degrees either side of the destination. The computer will work hard doing the calculations but the results are nice!

Setting this parameter too high causes the calculation to take too long. On the other hand, a low value ignores routes that may be good.

Tip: A good way to check if the number of branches is appropriate is to add the isochrones to the chart. If the best track is going through the outer end of an isochrone it indicates the routing is selecting the outermost branch. If you increase the number of branches it may uncover a better track.
  • Max angle to the destination - removes branches that point more than this angle to the destination. Use between 90 and 120.
  • iso point spacing - This is the density of points kept in the isochrone.

Default is 1 (for 1% of the distance to start or destination). If you increase to 2, for example, you will keep fewer points, more spaced, resulting in a faster calculation, but with a little less detail.

BranchingPoints.gif
branching parameters

  • [ ] Add branches at isochrones - When the boat reaches the isochrone,

add branches in several directions. (should be checked for VORG and Sailonline races. unchecked for VR)

  • [ ] Add branches at full degrees - Has to do with the wind rectangles in VR races.

Do a round of branching when the boat crosses a rectangle border (Unchecked for VORG and Sailonline. Checked for VR) ( Parameter is misnamed, it is actually when the boat crosses the 30' lat/lon boundary )

  • [ ] Collision Detection - When set, program avoids routes that go over land.

This should be checked most of the time. In some cases when the best route passes trough narrow channels, the weather routing may fail to find it. In such cases, disabling collision detection may help (of course you still have to avoid routes that go over land).

  • Show isochrones - This controls which isochrones are displayed on the chart when you click the [Add isochrones] button. This setting has no effect on the routing calculations. Default = 6h.
Tip: You don't have to restart the calculation if you change that, because the track tree is still in the memory. You can change it and insert the isochrones again.

Fine tuning WR parameters

Tuning WR parameters if the calculation is too slow or too fast. Slow calculations are boring. Fast calculations may not reveal the best possible route.

If the calculation is too slow, you may:

  • Reduce the number of branches - Always use an odd number.
  • Increase iso point spacing (say from 1 to 1.5 or 2). This spaces the isochrone points.


Weather routing parameters for games

The following configurations are suggestions. Actual values depend on the CPU power and memory of the computer. Adjust the configuration as needed (see below).

VORGLogo.gif For VORG you may use the following parameters:

  • Use the polars database provided with version 2.0.
  • Use NOAA winds.
  • Interval= 1 (or 0.5)
  • Up to isochrone=24 to 384 (make sure the correspondent wind forecasts are loaded)
  • number of branches=29 to 41
  • max angle to destination=120
  • show isochrones=6h
  • wake angle=35
  • Iso point spacing=1.5 (%)
  • [x] Collision detection (checked)
  • [x] Add branches at isochrones (checked)
  • [ ] Add branches at full degrees (unchecked)

VRLogo.gif For Virtual Regatta you may use the following parameters:

  • Use the polars from vrtoutoulz [1]. The site provides two sets of polars for each race. Download the Classic polars (the full polars is not suited for Weather Routing)
  • Use game winds, vrtoutoulz or NOAA winds.
  • Interval= 1 (or 0.5)
  • Up to isochrone=24 to 384 (up to 72 for game winds, 108 for vrtoutoulz winds, 384 for NOAA)
  • number of branches=19
  • max angle to destination=100
  • show isochrones=6h
  • wake angle=40
  • Iso point spacing=1 (%)
  • [x] Collision detection (checked)
  • [ ] Add branches at isochrones (unchecked)
  • [x] Add branches at full degrees (checked)

Each isochrone set is marked with a time label (p.e. 12h, 24h) This is the point closest to the WR destination. Note that you cannot connect these points, because they don't belong to the same route. If you want to know the route that will take you to a certain isochrone best point (for example 48h), set "Up to isochrone" parameter to 48 and recalculate.