| Highton-Ridley noticed a branch on the left. Thx man!|
“Heaven knows we need never be ashamed of our tears, for they are rain upon the blinding dust of earth, overlying our hard hearts.”
Perhaps this image looks a bit dark, but I feel it is appropriate for the time being.
EXIF. ISO: 100, Exposure: 1/200 sec, Aperture: 5.6, Focal Length: 135mm, SW: gimp.
R.I.P. MICHAEL JACKSON, the world will never forget your legacy.
“Learn from yesterday, live for today, hope for tomorrow.”
EXIF. ISO: 100, Exposure: 1/60 sec, Aperture: 10, Focal Length: 25mm.
“By three methods we may learn wisdom: First, by reflection, which is noblest; second, by imitation, which is easiest; and third by experience, which is the bitterest.”
“The difficulties you meet will resolve themselves as you advance. Proceed, and light will dawn, and shine with increasing clearness on your path.”
As you can see this image is somehow related with THIS one. Now I present you a pretty dark backlight photo... but for some reason I like the way it resulted after a bit of processing with gimp, hope you like it too. As usual, comments are welcomed!
“Every time you wake up and ask yourself, "What good things am I going to do today?”, remember that when the sun goes down at sunset, it will take a part of your life with it.”
I want to dedicate this image to google for its magic! Why today? Google will know the answer, it knows it all!
EXIF. ISO: 100, Exposure: 1/250 sec, Aperture: 9.0, Focal Length: 21mm, Flash Used: No
Enjoy! This tango performers are dancing just for you!
This is the last set of Fall images, please again pick your fav! BTW: you can vote on previous post too if you want (please! :)
“Winter is an etching, spring a watercolor, summer an oil painting and autumn a mosaic of them all.”
~ Stanley Horowitz
Off-topic: I've got the 8th position on FotoRevista.com.ar with Countryside. There were 637 works!
Fall in Argentina (almost ending (9 days left!)) so I wanted to capture some moments before it's too late. Can you please pick your fav of the series? Thanks!
“Autumn is a second spring when every leaf is a flower”.
This photography is dedicated to Rafa, owner of an office really close to this beautiful place! :)
“Peace comes from being able to contribute the best that we have, and all that we are, toward creating a world that supports everyone. But it is also securing the space for others to contribute the best that they have and all that they are”.
-- Hafsat Abiola
Possibly the most useful tool available in digital photography is the histogram. It could also well be the least understood. In this article we will look at what a camera histogram tells the photographer and how best to utilize that information.
The 21st Century Light Meter
I am frequently asked why I frequently look at the LCD of my DSLR after taking a shot. The answer is that I’m barely even aware of the image on the LCD, it’s the histogram that commands my attention.
Canon EOS 1Ds with 16-35mm f/2.8L lens @ 24mm. ISO 200
This histogram shows an almost perfect distribution of tones covering about a 4 stop dynamic range — from deep shadows on the left to just short of bright highlights on the right. This fits comfortably within the approximately 5 stop dynamic range capability of most digital imaging chips.
A light meter reading tells you what exposure will render a standard 18% gray reference card as a mid tone. This reading may have been made because the camera read a variety of areas of the scene and averaged them out, or because you read the highlights, the shadows and some other areas and decided that a particular setting would yield the best compromise exposure for that scene.
This setting, like every other that you or your automated camera makes, is a compromise. In most real world situations there is no such thing as an ideal or “perfect” exposure. There is simply one that places the tonal values found in the scene most appropriately within the capability range of the camera’s imaging chip. And “most appropriately” means that the mid-tones found in the image fall roughly half way between the darkest and the brightest values. Hold that thought while we digress for a moment and look at the concept of dynamic range.
The digital imaging chip in your camera is very similar to colour transparency film when it comes to its sensitivity to light.
Like slide film, if a part of the image receives too much light it becomes burned out, and if too little light it is rendered as black. A recognizable image is only recorded if the light hitting the chip falls within a range of about 5 F stops. (Remember — each F stop is a doubling or halving of the amount of light hitting the film). With digital things are much the same and even the dynamic range is about the same as for slide film; about 5 stops. Also keep in mind that the total range of brightness values encountered in the real world is only about 10 stops — from the dimmest light that you can read in to the brightest beach or snow scene in which you might find yourself).
Canon EOS 1Ds with 135mm f/2.0L lens @ ISO 100
In an image recorded in 8 bit mode (we’ll ignore 12 , 14 and 16 bit modes for this tutorial) there are 256 discrete brightness levels between absolute black (0) and absolute white (255). 18% gray (the point that all exposure metering measures) has a numeric value of about 128, half way between black and white. If you think about it this is fairly logical. This means that if you are exposing for an average subject, say something like a scene with people, trees, grass etc, these subjects will be exposed at about the mid point of the camera’s dynamic range. Why is this important?
This is because if a subject is exposed too close to either extreme you will run into the limitations of the chip’s ability to record the image. Too close to 0 (absolute black) and there won’t be an image at all, or it will be very dark and noisy, and too close to 255 (absolute white) and there will be nothing there except oversaturated pixels with no image information.
This is where the histogram comes in. It is a simple graph that displays where all of the brightness levels contained in the scene are found, from the darkest to the brightest. These values are arrayed across the bottom of the graph from left (darkest) to right (brightest). The vertical axis (the height of points on the graph) shows how much of the image is found at any particular brightness level.
Note that I somewhat arbitrarily labeled each of the five zones (or F stops) containing the dynamic range recordable by the cameras as Very Dark / Dark / Medium / Light / Very Light. But each of these 1 stop ranges contains within it just over 50 discrete brightness levels. (5X50=250 not 256, but who’s counting?) Seriously though, it’s a good idea to consider about 4- 5 points at the very bottom (black) and another 4-5 points at the very top of the scale (white) to be so close to the extremes as to not really be part of the image-forming segment of the graph. (NB: This is an oversimplified explanation. For how the data is really distributed please read Expose to the Right.)
This view of the rear LCD on a Canon 1Ds shows a histogram for a particular shot and also the dotted vertical lines that Canon has engraved on the display separating the 5 stops of dynamic range that are available. As you can see this image has most of its content either in the shadows, or the highlights, with little in the mid-range.
Scanning The Scene. Costa Rica — February, 2003
So now things start to become clearer. The histogram shows us quite a bit, and just as a glance at the hands of an analogue watch instantly tell you the time without your even being conscious of the exact numeric values, similarly once you become proficient at “reading” a histogram you’ll be able to almost instantly evaluate the quality of the exposure that the camera is making. This is especially true when the histogram is superimposed on or just next to the image itself, making the graph that much more meaningful. Lets look at some examples.
As mentioned earlier, with the exception of a histogram that is very heavily bunched up to the right (overexposed) there really isn’t such a thing as a “bad” histogram, or for that matter a “good” one. The histogram simply shows you the way things are, and its then up to you to decide if what it is telling you needs to be acted upon. Here are some examples.
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Here we see the same photograph taken with exposures about three and a half stops apart. Both were at an aperture of f/9. The one on the left was shot at 1/2000 sec and the one on the right at 1/200 sec. The histogram of the one at the left is bunched up at the dark end (underexposed) and the one on the right is bunched up at the light end (overexposed).
There wasn’t an exposure with today’s digital (or transparency film) cameras that could encompass the full dynamic range of this photograph — which is about 8 stops. You therefore have to make some decisions on how to handle such a scene. To stuff 8 stops worth of dynamic range into a recorded image that can only handle 5 stops your choices are….
— use balanced fill flash on the foreground
— use a graduated neutral density filter
— take multiple exposures and merge them digitally
— go home
Fill flash wouldn’t work in this case because the foreground subject was too large and too distant. I didn’t have any graduated neutral density filters with me (I no longer use them), and going home wasn’t what I had in mind. Instead I shot the two frames seen above at about 3 1/2 stops apart and merged them digitally using one of the processes described in Digital Blending. The image below is the result. Not great art, but it illustrates the point.
Histograms Just “Are”
As mentioned earlier, with the possible exception of showing badly blown out highlights there really is no such thing as a bad histogram. They just are.
This low key shot’s histogram shows that almost all of the data in the image is down in the lowest areas (darkest) with just a small amount of data showing the bright moon. But since the dark areas aren’t right up against the left hand side and the light areas aren’t up against the right hand side of the histogram, the subject falls within the dynamic range that can be captured. The detail in the moon is what “makes” this shot.
In this “high key” image we see just the opposite. Almost every value seen is toward the right side of the histogram, in the highlight area. That’s where I wanted it to be to properly reproduce the brightness found in this snow scene. Yet, since it doesn’t bump up against the right hand side of the histogram I know that none of the highlights are blown out.
Not too long ago a histogram was something mysterious. Today it has become a valuable tool for the photographer who wants to gain mastery of their digital camera’s image quality. I hope that this tutorial has helped remove some of the mystery for you.
Start using the histogram review feature of your digital camera. Set your camera to display a combined thumbnail and histogram for 5-10 seconds after every frame. Get in the habit of glancing at it. It’s the greatest invention since the built-in light meter.