Why don’t airplanes use turn signals like cars do? Would this improve safety for ground operations at uncontrolled airports? Could a similar concept be used to indicate in air maneuvers?

For example: a specific color could denote a right turn, a left turn, a climb or a descent.


8 Answers 8


At uncontrolled airports, there is rarely enough traffic for signals to be needed, and pilots should (though are not required to) communicate with each other on CTAF—an option that cars do not have.

In the air, if you're close enough to see a turn signal, you are way too close and need to immediately follow the collision avoidance procedure.

More generally, aircraft are a lot more like boats than cars, and boats don't have turn signals either.

  • $\begingroup$ Comments are not for extended discussion; this conversation has been moved to chat. $\endgroup$
    – fooot
    Commented Mar 2, 2021 at 17:56
  • 4
    $\begingroup$ I suspect, like boats, planes do have turn signals. One is red, and the other is green. Both are always on. If you see the red one, you need to turn. If you see the green one, you don't need to turn....at least that is how boats work... $\endgroup$
    – Aron
    Commented Mar 3, 2021 at 6:26
  • 1
    $\begingroup$ Turn signals for boats thamesvisitormoorings.co.uk/information/boating/sound-signals $\endgroup$
    – Rodney
    Commented Mar 3, 2021 at 11:55
  • 4
    $\begingroup$ @Aron those navigation lights are only required to be on during the nighttime. They also don't tell you the pilot's intent, only the plane's orientation vis-a-vis your head. $\endgroup$ Commented Mar 4, 2021 at 16:10

I think the points raised in other answers are good, but they miss the essential difference. Cars choose from a discrete set of options, but planes do not.

When you indicate left when driving you are communicating to other traffic that either you are taking the next left turn, or that you're changing lanes (depending on context). In some situations the exact intention may be slightly ambiguous (is he indicating left for that driveway, or the next road?) but there are never more than a handful of possibilities which means that other drivers are able to transform the indication into the future behaviour by interpreting the information in context.

Contrast this with a plane with a hypothetical left indicator: where is it going? Is it going to turn by 2 degrees? 10 degrees? 50 degrees? More? Is it going to turn slow or fast? The indicator can't tell you, and the information in the sky can't tell you either. Add to that the complexities of communicating changes of direction in three dimensional space and you can see that the information communicated by an indicator - even if it was visible in time - wouldn't provide sufficient information to other planes to be useful.

  • 5
    $\begingroup$ On the ground might you suggest planes tend to have similar discrete options? $\endgroup$ Commented Mar 2, 2021 at 18:31
  • $\begingroup$ @JeopardyTempest I would think they have even fewer, no? That, together with lower usage, would probably render them pointless even without the many other systems that airports use to guide planes on the ground. $\endgroup$ Commented Mar 3, 2021 at 20:48

Aircraft have radios with which to communicate their intent. Cars do not. Pilots should be utilizing these radios even at uncontrolled airfields. A good mantra to have is that there are no uncontrolled airfields. Just pilot-controlled airfields. I will communicate my intent on the Common Traffic Advisory Frequency before entering the movement area of any pilot-controlled airfield. That includes before takeoff and after landing taxiing.

Aircraft have position lights, taxi lights, landing lights, anti-collision rotating beacons, anti-collision strobe lights, ground control, ground marshals, tower, TCAS, ADS-B, sterile cockpit rules (and recommendations for Part 91), runway incursion lighting, etc. with the limited traffic at Class G airports, a couple of more lights will not help.

On the ground, any pilot, aircraft or ground crew should remain well clear of an aircraft displaying all of its lights. And, by regulation, no aircraft should be in motion without displaying at least one of its anti-collision lighting systems. Even in the daytime (unless it was certified without a system). This is unlike a car. Cars can drive around in the daytime without headlights or taillights being on (not counting brake lights and turn signals).

In the air, red, white, and green lights are very distinguishable. Especially when close together at the wattage aircraft use. You would have to have high intensity lights to be able to distinguish between other colors like between red, orange and yellow; or between blue and green. When two aircraft are approaching one another at a closing rate between 100 knots and 1000 knots, pilots do not have the luxury of time to decipher light colors. Instead, pilots rely on the items I mentioned above as well as an explicitly spelled out right-of-way directive found in Title 14 of the Code of Federal Regulations Part 91.113.

§91.113 Right-of-way rules: Except water operations.
(a) Inapplicability. This section does not apply to the operation of an aircraft on water.

(b) General. When weather conditions permit, regardless of whether an operation is conducted under instrument flight rules or visual flight rules, vigilance shall be maintained by each person operating an aircraft so as to see and avoid other aircraft. When a rule of this section gives another aircraft the right-of-way, the pilot shall give way to that aircraft and may not pass over, under, or ahead of it unless well clear.

(c) In distress. An aircraft in distress has the right-of-way over all other air traffic.

(d) Converging. When aircraft of the same category are converging at approximately the same altitude (except head-on, or nearly so), the aircraft to the other’s right has the right-of-way. If the aircraft are of different categories—

(1) A balloon has the right-of-way over any other category of aircraft;

(2) A glider has the right-of-way over an airship, powered parachute, weight-shift-control aircraft, airplane, or rotorcraft.

(3) An airship has the right-of-way over a powered parachute, weight-shift-control aircraft, airplane, or rotorcraft.

However, an aircraft towing or refueling other aircraft has the right-of-way over all other engine-driven aircraft.

(e) Approaching head-on. When aircraft are approaching each other head-on, or nearly so, each pilot of each aircraft shall alter course to the right.

(f) Overtaking. Each aircraft that is being overtaken has the right-of-way and each pilot of an overtaking aircraft shall alter course to the right to pass well clear.

(g) Landing. Aircraft, while on final approach to land or while landing, have the right-of-way over other aircraft in flight or operating on the surface, except that they shall not take advantage of this rule to force an aircraft off the runway surface which has already landed and is attempting to make way for an aircraft on final approach. When two or more aircraft are approaching an airport for the purpose of landing, the aircraft at the lower altitude has the right-of-way, but it shall not take advantage of this rule to cut in front of another which is on final approach to land or to overtake that aircraft.


Airplanes don't coordinate visually because they can't

The other answers are correct, but they all seem to miss an important point: airplanes barely see each other! Because (and in contrast to e.g. cars):

  • they can be anywhere in 3D, not just 2D on specific streets
  • they are incredibly fast (think of at least 2x the speed of a car on the highway)
  • they are comparably small (around the size of a car)

The difficult part is to spot another airplane. If two slow flying aircrafts (say Cessna 172) fly e.g. head-on, you may have 10-20 seconds to spot each other in reality. Trying to see detailed lights: impossible. But also not necessary: due to that, aviation does not rely on visual signs but uses:

  • radar for larger airplanes (or, in general, IFR when separation by ATC is provided)
  • pre-defined routes (e.g. circuits around an airfield)
  • conventions about on which height to fly into which direction
  • (sometimes) proximity warning systems
  • radio communication telling the position and intention where to go

The last point is especially important: compared to a car, when turning left, you have a continuum of 360 degrees (or 180 if we assume you take the shortest turn). Furthermore, you have up and down.

Actually, it is even not uncommon for VFR aircrafts to request radar guidance instead of relying on visuals.

So what you care about is to know that an airplane, many miles away and not possible to see, is heading from x to y at height z. And this communication is done via radio.

  • 1
    $\begingroup$ I would add to this that VFR aircraft can receive radar advisories in some areas by requesting flight following. More recently, it has become increasingly common for aircraft to receive TIS service via ADS-B. $\endgroup$ Commented Mar 2, 2021 at 21:52

There are pretty strict rules on how planes should travel on the ground. They are generally directed by ground control in the tower, and if they come upon another plane there are guidelines to who has right of way, and unlike car drivers, pilots generally know and follow the rules.

  • 1
    $\begingroup$ With our friend, Harrison Ford, being a notable exception. $\endgroup$ Commented Mar 2, 2021 at 17:16
  • 1
    $\begingroup$ @RockPaperLz-MaskitorCasket: The phraseology "continue holding" seems poorly chosen, since it's not hard to imagine that radio static could cause it to be misreceived as "continue ...oh...ing" and perceived as "continue going". Unfortunately, there's no way of knowing what any particular transmission sounded like to the recipient unless the sound from the plane's receiver is recorded. $\endgroup$
    – supercat
    Commented Mar 2, 2021 at 23:59
  • 1
    $\begingroup$ @supercat If there's any doubt at all, always ask for clarification. So many mishaps could be prevented by following that simple rule. $\endgroup$ Commented Mar 3, 2021 at 1:10
  • $\begingroup$ @RockPaperLz-MaskitorCasket: True, clarification should be sought in case of doubt, but but radio static can sometimes result in things being obscured without being recognized as such. Whether or not Ford is held to blame, I think the issue would likely have been avoided entirely if the controller's transmission had started with the word "wait" rather than "continue". Phonetic alphabet letters are chosen to have distinct vowel sounds, and I think consistently using words with distinct vowels to distinguish concepts of "go", "wait", and "stop" would avoid confusionif consonants get mangled. $\endgroup$
    – supercat
    Commented Mar 3, 2021 at 15:37
  • $\begingroup$ @supercat I agree! When speaking on a radio, word choice is just as important as accuracy. Many years ago, I had to analyze hundreds of hours of ATC communication as part of research for my thesis. Even in a quiet lab setting with no engine noise, I couldn't understand at least 20% of what ATC was trying to convey. The same was true for what the pilots were trying to convey. $\endgroup$ Commented Mar 3, 2021 at 21:39

Not being in aviation, I would tend to think that the main reason that signals aren't utility for ground taxiing (which seems the most practical\potentially useful place) is that planes movement are generally setup to prevent the short reaction time we regularly have in cars.

"Reasonable" car spacing, and traffic lights, are such that there is often only around 3 seconds of reaction time. This is usually sufficient if the change can be properly identified, because vehicle size and dynamics allow for quick changes (some exceptions apply). Whereas aircraft are primarily designed for flight, and so I would think may not be as setup to be as adept at sharp ground maneuvers compared to even the more challenging vehicles like semi-trucks.

In addition, I would figure there are expectations of complex distractions (flight checklists) for much of the ground travel time on aircraft, and so I'd expect that ample spacing is fundamental.

As such, taxiing doesn't tend to do things like multi-lane traffic or high traffic intersections. And with everything spaced out more, the sudden dangers of traffic slowing to turn or conflicts when moving into new lanes doesn't exist, and turn signals have fairly limited use. Plus there are comparatively few travel ways, with fairly regular movement for most vehicles, such that people know the spots to expect turns and stops.

If anything, maybe brake lights could be of more use, as I'd think planes are more likely to stop in random places than turn in random places (and brake lights would take care of highlighting unexpected stops made to perform a turn).

  • $\begingroup$ I tried to find any rules for taxiing distances, but could not easily do so. If anyone knows where to find those, that would be an interesting addition to test\verify the thinking. $\endgroup$ Commented Mar 2, 2021 at 19:04
  • $\begingroup$ This also got me to thinking how useful variable brake lights might be in driving! Because properly identified being key, a sudden slam of the brakes on an interstate can be a very tough thing to recognize (compared to tapping the brakes). $\endgroup$ Commented Mar 2, 2021 at 19:08

Although all of these answers are very good (and correct), they are missing an important fact: planes try to go on the most direct routes (unless mountains, or other landmarks that affect flight, are in the way). This means that most planes will be traveling in a straight path, so turns aren't applicable. That too planes are given routes that do not travel close to the same point at the same time (to prevent a collision). This means that contact (besides at airports) is rare.

  • 4
    $\begingroup$ Planes (or actually pilots) are in fact not as free to choose their paths as one might think. Only low alt VFR flights enjoy somewhat extended freedom, higher up, not so much. Even low down there are airspace limitation and mandatory entry/exit points, so straight flight between A and B is a rarish treat. $\endgroup$
    – Jpe61
    Commented Mar 2, 2021 at 6:30
  • $\begingroup$ Before travel, pilots must file a flight plan. Unlike cars, drivers can leave anytime, and choose any route without notifying anyone; some drivers even don't follow road rules and ignore traffic lights while some even drive on pavements & traffic islands or turn/change lanes without indicating anyway $\endgroup$
    – Zimba
    Commented Mar 2, 2021 at 12:59
  • 3
    $\begingroup$ @Zimba Flight plans are not required for all flights in all countries. $\endgroup$
    – StephenS
    Commented Mar 2, 2021 at 14:20

Aircraft accidents are not caused by "that plane made an unexpected turn", but by "that plane came out of nowhere".

Also, cars operate on a flat surface. There are 3 choices: Left, Right, Straight.

Aircraft maneuver in 3D. How would turn signals express a climbing turn? A loop?


You must log in to answer this question.

Not the answer you're looking for? Browse other questions tagged .