The 18% misunderstanding

[Doug Kerr]

In connection with the discussion of exposure metering and the like, we often hear that "the standard exposure meter is calibrated to 18% gray", or other phrases using a lot of those words and the number 18%.

That phrase, unfortunately, doesn't really say something explicit, and so it can't really be either correct or incorrect. But what many people take it to mean isn't really true anyway.

I thought I would talk a little about the facts of the topic that this statement is supposed to address.

If:

-- we have an exposure meter that is calibrated in accordance with the ISO standard for automatic exposure control systems, and

-- we set the ISO setting of the meter to the sensitivity of the camera as determined according to the ISO standard for the sensitivity of digital cameras, then:

A metered exposure of a uniform-luminance scene will produce on the digital sensor a photometric exposure that is 12.8% of the "saturation" photometric exposure (that is, the photometric exposure that produces the largest possible digital output number).

If in fact the camera truly follows the sRGB color space, then for "neutral" light, this would correspond to R,G,B = 100,100,100. This would in turn correspond to L*=42.5 (in L*a*b*).

This can be interpreted in various ways. One interesting way to interpret it, which relates directly to the reason this relationship is established by these two standards, is this:

If we have a uniformly illuminated scene whose average reflectance is 18% (considered, arbitrarily, to be the "typical scene"), then an object whose reflectance is 100% (the brightest possible "natural, non-specular" object) would be 1/2 stop below saturation.

This can be thought of as providing 1/2 stop of headroom against clipping for such a "typical" scene (this is the strategy described, clumsily, by the standards).

Is RGB 100,100,100 "mid-range gray"? Well, there is no real definition of that.

It is often believed that a metered exposure of a uniform-luminance scene would produce a photometric exposure of 18% of saturation. (The statement at the top is probably intended to say this, although it doesn't.)

That would be true if either:

-- The exposure meter read 1/2 stop "high" compared to the calibration prescribed by the ISO standard, or

-- The ISO speed we set into the meter was 1/2 stop low compared to the value that would have been determined under the ISO standard and we used it at face value. (Many Canon models come close to this.)

In this case, for a camera that truly followed the sRGB color space, for neutral light this would produce an image in which R,G,B = 118,118,118. This would correspond to L*=49.5.

Many people consider L*=50 to represent "mid-range gray".

Thus we can see where some of the ingredients of the "common wisdom" come from.

Note that I don't use the expression "18% gray" or "12.8% gray". "18% gray" is a graphic term that refers to a printed or displayed color whose luminance is 82% of "white" - it is 18% of the way from white toward black. The result of the "standard" metered exposure I described above is 87.2% gray.

Some may wonder why I mentioned an exposure meter calibrated in accordance with the ISO standard for automatic exposure control systems (that is, "inbuilt" exposure meters). Why do I not cite the ISO standard for (free-standing) exposure meters? Because that provides for a substantial amount of "wiggle" in the calibration. The standard for automatic exposure control system, does not. The calibration it prescribes is "within the range" allowed by the standard for exposure meters.

 

[Cem_Usakligil]

Hi Doug,

As usual, this is an excellent article. It really amazes me that no one has had the chance to reply to it yet, including myself :-(.

Nevertheless, please know that I appreciate the incredible effort and know-how you put into your articles/posts, which you share with us selflessly. Thank you very, very much!

Cheers,

 

[Doug Kerr]

Hi, Cem,

Thank you so much.

Best regards,

Doug

 

[Will_Perlis]

As I remember them, the instructions for using an 18% gray card include "and open up 1/2 stop". Then, at some point, that phrase got left off for a while, thus creating the confusion.

 

[Doug Kerr]

Hi, Will,

As I remember them, the instructions for using an 18% gray card include "and open up 1/2 stop". Then, at some point, that phrase got left off for a while, thus creating the confusion.

Indeed!

Best regards,

Doug

 

[Deleted member 55]

Hi Doug!

I am even worse than that.

I misunderstand 82% of everything!

I do understand the other 18%.

 

[Jack_Flesher]

I've always thought the term "18% reflectance" was pretty darn clear all by itself... And yes, we've never had a true "standard" since some meters calibrated to 12% and others to 22, but at the end of the day what does it matter now that we have a histogram? <GRIN>

I still own and use two meters: A Zone VI modified Pentax Digital spot meter for the rare occasion I shoot film, and a Sekonic 508 flash/ambient meter for studio lighting or mixed strobe ambient ratios. If I shoot film, I calibrate it's true ISO to my meter (possibly different than you would get with your meter) so for me, I have *my* true ISO with it. Since the Sekonic is primarily used for flash and in that, only needs to get me in the ballpark for the histo to take over.

What I think the larger and more debatable question: "What makes a 'proper' exposure?"

Keep up the good work!

 

[Doug Kerr]

Hi, Jack,

I've always thought the term "18% reflectance" was pretty darn clear all by itself...

It's very clear, unambiguous, and appropriate (and I never suggested otherwise). What isn't as appropriate, or unambiguous, is a different phrase: "18% gray".

And yes, we've never had a true "standard"

Well, the ISO standard for "free-standing meters" allows considerable latitude in the calibration. I don't find that attractive, but it is a result of the historical evolution.

Note that the specification of calibration in that standard doesn't involve any "percent reflectance". It is in terms of the "exposure equation" that the meter pursues, with the user-set "exposure index" (supposed ISO sensitivity) as a parameter.

The implication on "assumed average scene reflectance" only comes into view when we consider the standard for exposure meter calibration in concert with the standard for the assessment of a sensitivity value ("ISO speed") for a digital camera.

Thus we find that, in some EOS cameras, the expectation of average photometric exposure for a metered shot varies from the "standard" 12.8% of saturation not because the calibration of the automatic exposure system differs from the ISO standard (note that there is no "latitude" in that standard), but because the assessment of ISO sensitivity varies from the ISO standard for that.

What I think the larger and more debatable question: "What makes a 'proper' exposure?"

Indeed!

There are two conceptual bases that seem attractive:

1. Expose such that the brightest element of the scene is given a photometric exposure only slightly below saturation. [We can call this the "full expose to the right" strategy.]

2. Expose such that for each element of the scene, its photometric exposure is that fraction of saturation (or a value slightly below that) corresponding to the reflectance of the element. [Although many may not recognize it, this is essentially a "Zone System" strategy.]

Keep up the good work!

Thanks. I appreciate your support.

Best regards,

Doug

 

[Rhys Sage]

Don't forget that meters don't meter from 18% grey any more unless they're straightforward average meters such as those on the Praktika MTL series or hand-held light meters.

Centre-spot meters will meter 18% grey from the area around the centre spot and 18% grey in the centre spot. The meter will then produce a 2/3rds bias toward the centre-spot.

Matrix metering is more complicated. That's a series of 18% grey squares all working together to produce a mean and standard deviation rather than an average. That's then calculated so that extreme lights and extreme darks don't throw the meter.

Then we have colour-metering. Nikon has been using colour metering for years, starting with the F5. I know nothing about colour metering.

 

[Jack_Flesher]

Thus we find that, in some EOS cameras, the expectation of average photometric exposure for a metered shot varies from the "standard" 12.8% of saturation not because the calibration of the automatic exposure system differs from the ISO standard (note that there is no "latitude" in that standard), but because the assessment of ISO sensitivity varies from the ISO standard for that.

Agree for the most part --- except if we want to get technical:

IF one takes the time to properly "profile" their camera, meaning either a true profile OR a good calibration, (which IMO is relatively easy to do with digital, especially now with many raw processors containing camera calibration settings) then that exposure parameter can be (and usually will be) altered by the capture curve and no longer "standard" for that camera. The biggest point here is that our final "exposure" is NOT a linear function of the light hitting the sensor (or film), but rather one based on a specific response curve of the processing off that sensor (or specific film emulsion chosen). In this, a truly accurate meter would need to mirror the entire response curve of the media we are exposing -- a difficult objective with all of the inherent variables. FWIW, this is one of the things Zone VI attempted to do for traditional B&W emulsions with their meter modification...

Cheers,

 

[Doug Kerr]

Hi, Jack,

The biggest point here is that our final "exposure" is NOT a linear function of the light hitting the sensor (or film), but rather one based on a specific response curve of the processing off that sensor (or specific film emulsion chosen). In this, a truly accurate meter would need to mirror the entire response curve of the media we are exposing -- a difficult objective with all of the inherent variables. FWIW, this is one of the things Zone VI attempted to do for traditional B&W emulsions with their meter modification...

Well said.

Best regards,

Doug