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The original text provided by Waze staff which inspired this page (and may be slightly inaccurate) is [[How Waze determines turn / keep / exit maneuvers|preserved here]].
The original text provided by Waze staff which inspired this page (and may be slightly inaccurate) is [[How Waze determines turn / keep / exit maneuvers|preserved here]].


An interactive version if this page is [[User:PesachZ/Interactive junction instruction algorithm|available here]].
An interactive version of this page is [[User:PesachZ/Interactive junction instruction algorithm|available here]].


== General comments ==
== General comments ==

Revision as of 12:21, 8 June 2014

This revision of the page is currently undergoing modifications. The information and guidance is currently considered accurate enough to be followed now. Content is being prepared by one or more users. Do not make any changes before you post a message in this forum.

A somewhat simplified description of this is covered in the Junction Style Guide. Additional routing information is covered in the article Routing server.

The original text provided by Waze staff which inspired this page (and may be slightly inaccurate) is preserved here.

An interactive version of this page is available here.

General comments

The description below fits a right turn in a Right-hand traffic country (e.g. the USA). Left turns are symmetrical to right turns.

Definitions

To better be able to put the algorithm into words, we have to name each of the road segments that connect to a junction. These are subjective names, they are relative to which segment the junction is being approached from, and which segment the routing server wants to navigate to after passing through the junction.

Start with the junction in the middle.

  1. s-in: The segment the vehicle is on as it approaches the junction will be called s-in.
  2. s-out: The segment the vehicle is being routed onto after it passes through the junction will be called s-out. This can be any of the other segments connected to the junction, which will also be one of the segments named below as s1, s2, ... etc..
  3. s1, s2, s3, s4, etc.: All the segments connected to the same junction, (including s-out) will each be named consecutively as s1, s2, etc., for as many segments as there are… sN. One of these numbered segments will also be s-out.
  4. Best Continuation: One of the segments leaving the junction will be considered the 'Best Continuation'. This is the segment that Waze determines is what drivers would consider the "no turning path" or "going straight" through the intersection. This segment will get a 'continue' instruction, which is ignored by the client app. The criteria Waze uses to determine which segment is the 'Best Continuation' is explained below.
  5. Primary road: refers to a highway segment ( Freeway ,  Major Highway , or  Minor Highway ), not a  Primary Street .
Visulaize how segments are subjectively named in the 'Best Continuation' Algorithm
Visulaize how segments are subjectively named in the 'Best Continuation' Algorithm

Best Continuation

In order to determine if s-out is the 'real' continuation of s-in, Waze does the following:

  1. If s-out has the same segment type & segment name it is selected as the real continuation.
  2. If not, we look at the other segments: s1, s2, sN (excluding s-out). One of those will be chosen as a better continuation than s-out if both following conditions are met:
    • This segment has a better match segment name & segment type wise than s-out (e.g. it has the same segment name and s-out doesn't; it has the same segment type as s-in, and s-out doesn't). Segment name is more important than segment type.
    • The angle between this segment and s-in is smaller than the angle between s-out and s-in
  3. If both conditions are not met, then s-out is considered to be the 'best continuation'.
Flowchart defining the steps the algorithm runs through.
Flowchart defining the steps the algorithm runs through.

Special Considerations

  • In some situations at a Y-Intersection (where there are more than one segment leaving the junction node at less than a 45° angle), navigation to either segment will generate a 'KEEP RIGHT/LEFT" instruction. This will happen if none of the segments leading out at less than 45° are a better match for name or segment type, even if one of those has a departure angle of 0° from s-in. This is also mentioned in the wayfinder section.
  • A segment (s1, s2, ...sN) leaving the junction at less than a 45° angle, which has the turn into it from s-in restricted in WME will not be considered in this algorithm as a 'best continuation', or as a sN, even if it has a departure angle of 0° from s-in.

The algorithm / list of conditions

The algorithm iterates over a list of conditions. As soon as a condition is met, the relevant instruction is determined, and the algorithm terminates.

The list of conditions:

  1. If the junction has only 2 segments, the instruction is: 'CONTINUE'. By design the client does not give this instruction.
    • In some cases, T junctions could be considered as only 2 segments. See explanation on 'T junctions' below.
  2. If the angle between s-out and the best continuation is larger than 45 and 180 degrees, the instruction is: 'TURN RIGHT'. This is because we assume that on primary roads (minor highways, major highways and freeways), turn angles are no more than 45 degrees (no sharp turns on higher-throughput roads); therefore, you never have something called an "exit" that has such an angle, and the instruction should be TURN, not EXIT.
  3. If s-out is determined to be the best continuation of s-in (see explanation on 'best continuation' above), the instruction is: 'CONTINUE', which implies that the driver is not turning (i.e., going straight through the junction). By design the client does not give this instruction.
  4. If s-in is a primary road and s-out is not a primary road ( FW ,  MH ,  mH ), the instruction is: 'EXIT RIGHT'.
  5. If s-in is a  ramp/exit  and s-out is neither a primary road ( FW ,  MH ,  mH ), nor a  ramp/exit , the instruction is: 'EXIT RIGHT'.
  6. If none of the above conditions is met, the instruction is: 'KEEP RIGHT'.

Special considerations

  • In some cases, a junction node could have more than two segments, but the routing server will only consider two of them as valid and therefore, the maneuver will be 'Continue straight'. This happens when turns into some of the segments are restricted, the routing server then skips those segments and ingores them when determining the 'Best Continuation'.
    • At the time of this writing, neither the author or anyone involved in the discussion has ever experienced this unless the restricted segment has a turn angle of less than 45°.
  • Turns can be restricted or unrestricted. In specific scenarios you may not be able to see this in WME - see RevCons for more information. There are external scripts which show this information (and some allow it to be easily corrected).
  • The original text mentions special behavior for locked nodes. For example, in this case (image below) - assuming the node is locked - heading south, the right turn will be considered 'Continue straight' as the routing server has no other option and there's only one possible segment to be s-out.
    • If the node was not locked, it is most likely that Waze would tell you to turn right. Driving against the direction is a high penalty, and so is a left turn where a turn is not allowed. However, it would still have been an option, which is why the routing server would have called it 'turn right'.

    • This could be confusing, especially since there's no external indication on whether or not a node is locked at the moment.

The author and those involved in the discussion have never experienced a locked node which didn't follow the algorithm for determining the instruction.