Turns in the vector network analysis

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Headline text

The turntable module (v.net.turntable) is one of vector network analysis modules. It creates a turntable with the costs for every possible turn on every possible node (intersection, crossroad) in given layer. U-turns are taken in account too.

For better handling, a linegraph is created. In this linegraph, every line is represented by two nodes. These nodes have positive and negative values respectively, with their absolute values identical. Every node corresponds to opposite line direction. The positive node matches the direction of line. The negative node matches the opposite direction. For better understanding, let's have a travelling subject standing on a line (road) before an intersection wanting to cross it. This line's direction is TOWARDS the intersection. Travelling from this line through the intersection means that the subject is currently standing on the POSITIVE node representation of the line. After crossing to this line from any permitted direction, the subject gets to the NEGATIVE point representation of the line.

These two nodes (corresponding to the same line) are connected with two U-turns (for both directions). Every U-turn direction belongs to another intersection. U-turn from the POSITIVE node to the NEGATIVE one belongs to the intersection we are going to cross. The other U-turn belongs to the intersection at the opposite end of this line.

Turntable description (the table itself)

Every record in the turntable represents one turn.

Columns description:

cat – category in tlayer (layer with turntable), which corresponds to both lines in turn

ln_from – unique category in tucats layer assigned to the line

ln_to – unique category in tucats layer assigned to the line

cost – cost for turn in forward direction from ln_from to ln_to (integer or double)

isec – point category in tucats layer, which represents the intersection, where the turn belongs

angle – angle between the lines before and after the intersection (radians)

Turntable.png

Every possible turn on any possible intersection is represented by unique record (line). In the picture above you can see the turntable and part of vector layer with highlighted turn from the line with unique category 289 through the node (intersection) 561 to the line with unique category 234. In other words the given subject travels from intersection 564 through intersection 561 to intersection 527.

Arrows show orientation of each line. Note that in case of the line 289 the subject travels in BACKWARDS direction and therefore the In_from value is NEGATIVE (-289) while in case of the line 234 the travelling is in FORWARD direction, so the In_from value is POSITIVE (234). The category of this turn can be seen in the cat column and the value is 1817 (this kind of category is stored in tlayer). This category value belongs only to the lines with unique category values 234 and 289 (stored in tuclayer).

In the angle column for this record the value is -1.373597 radians which is roughly -80°. This perfectly makes sense since left turns have negative values and right turns have positive. The angle is measured as deviance from straight direction (which is 0°).

Specific parameters

  • alayer - Name or number of the arc layer that will be expanded by turntable.
  • nlayer - Name or number of the node (points) layer, which will be copied into output layer. By default all points are copied.
  • tlayer - Name or number of the layer to which the turntable will be attached.
  • tuclayer - Name or number of the layer with unique categories for every line and point. The points are placed on every node.

Further Reading

Modeling Costs of Turns in Route Planning