Sunday, May 17, 2009

Of Ground Pods, YouTube, and Codecs

In order to get a bit more familiar with making videos and publishing on YouTube, I put together a short (2 minute) video describing how I made a ground pod and a few ideas on how to use it:



YouTube has recently enhanced their service to support High Definition (HD) videos which is a huge step up from the rather shabby little videos they were previously known for.

It wasn't obvious what mystical combination of tedious steps was required to upload a video that a) worked and b) looked decent. After a few tries, including running into the video darkening that many others have encountered, I finally hit the magic combination. YouTube recommends H.264 encoding using specific bit rates for proper display. My first few attempts packaged the H.264 stream in a Quicktime MOV container which created a huge file that displayed too dark.

Finally, I tried rendering the source video uncompressed into a MOV file and then used a transcoder to produce a H.264 stream in a MPEG-4 container (filetype mp4), creating a file one eighth the size of the MOV/H.264 file and displaying quite nicely given the quality of the original. The alleged experts all say that H.264 (AAV) video and AAC audio are the way to go for the best quality/performance combination and I'm glad I was able to bludgeon one into existence myself.

Friday, May 8, 2009

Vignetting Revisited

After enduring a little confusion and frustration in correcting some images from my Canon G9 camera, I investigated a little more and found that my process needs to be changed. A while back, in Part 2: Vignette Correction, I described a way to mathematically characterize and correct image vignetting. It was fine theoretically but, in practice, I found a little surprise.

To get a better idea of the vignetting characteristics, and not having a proper optical opal glass, I improvised using some nice polyester drafting film I had laying around. I cut 2 pieces and sandwiched them between cardboard mats to create a nice white diffuse window about 3 inches in diameter. I aim the camera up at a dull gray overcast sky, place the diffuser on top of the lens hood, and shoot at the various apertures. This worked pretty well for a quick test.


Image 1 is an example of a shot using this technique with some post-processing to really draw out the shape of the light falloff. (In Photoshop I posterized the image and boosted the contrast.) This particular shot was using a 24 mm lens at f/2.8 on a Nikon D700 dSLR. It shows the expected radial light fall-off. It is this shape of light falloff that responds well to the mathematical corrections I described earlier. Also vignette tools in Photoshop and other image editors would handle this fairly easily if not quite as precisely.


So, what's the problem with the G9? Take a look at image 2 which was shot with the G9 at 7.4mm focal length (the shortest of the zoom range) at f/2.8. It was processed in a manner similar to the other one to draw out the tonal structure. You can see the problems: the brightest part is not in the center of the image, there is less of the well-behaved radial symmetry seen in the first image, and the shape doesn't resemble the neat bullseye we saw earlier.

Sampling readings in various parts of the image show that each corner has a different tonal value (unlike the better-behaved first image). The lightest corner is more than 12% lighter than the darkest corner. These asymmetries make it impossible to use the mathematical technique, based on radial symmetry, that I was trying to use up to this point, at least not with best results.

The solution is to use this flatfield image (without the adjustments used for illustrative purposes) as an adjustment template to precisely match tonal corrections to actual system characteristics. A tool like the fulla command discussed extensively in earlier posts handles this nicely:


fulla -f flatfield_image target_image


We simply use a flatfield image shot at the same focal length and aperture as the target image and fulla will apply corrections to compensate for the vignetting characteristics no matter how odd they may be. Of course now this means that you need flatfield images for each of the focal length and aperture combinations you use. As I've mentioned earlier, this is a bit simpler for the G9 in that I only use f/4 or f/5.6, the sweet spot between lateral chromatic aberration and diffraction limits.

At this point, I've ordered some opal glass (not expensive) so I can do more careful flatfield images to get optimal corrections of vignetting.

So, what's the deal with the odd G9 characteristics? I don't know really. Based on this sample of one camera, I'm guessing that there are manufacturing variations and less-than-perfect alignment in the system but there are other possibilities in the engineering of the system that may help explain the odd behavior. By the way, the off-center vignetting asymmetry moves and changes shape slightly as you go through the zoom range. Go figure. I'll bet these kinds of variations are common in the compact and consumer class of cameras in general.

I have enough of a grasp on reality to know that this level of fussing is way beyond what most people feel there's a need for. Frankly I haven't lost a great deal of sleep over it either but it's fun to try to squeeze out the best images you can from what you're working with.

Tuesday, May 5, 2009

You and Your Metadata

Image metadata is a confusing and obscure topic but, in at least a few respects, it's an important one, even for those who don't have to be meticulous about metadata (like stock photographers). Let's look at the very basics you should know about and manage.

First metadata, or data about data, are pieces of information that are embedded in an image file. The major image formats (JPEG, TIFF, etc.) all have the ability to store the various categories of metadata. Metadata that can be stored in an image file include things like EXIF (technical information such as camera, lens, exposure, etc. when the shutter was clicked), ICC color profile, IPTC information (caption, description, author, keywords, etc.), XMP information (updated and more flexible version of IPTC types of information), thumbnail images, image comment, and others. Most of these major categories of metadata consist of multiple pieces of information and sometimes subcategories of information.

Metadata is placed into an image by your camera, the image editing software you use, and even by you explicitly. The metadata is used by other software that manipulates or displays images, and by people and organizations that need or want information about the image such as what the picture is, when it was taken, where it was taken, who owns it, who has rights to use it, and so on. There is very good practical information about metadata and other topics related to best practices in digital imaging at updig.org. UPDIG is a coalition of the major players in the industry who are establishing guidelines, standards, and recommendations for issues of managing digital images.

Software, such as image editing programs, are usually a bit confusing about which metadata they are managing and how comprehensively they do it. For example, some software will let you place an IPTC copyright field but not the newer XMP copyright. Some image viewers don't handle XMP data but will display a metadata comment. Software will often include metadata that you have no interest in, potentially bloating the size of the image file.

If you haven't yawned your way away so far, let's get to some practical basics. Anybody putting one of their images on the Web or licensing it for use should, at the bare minimum, include copyright and contact metadata (as well as ICC profile). This makes it easier for someone to find you if they are interested in your image and it helps protect your rights of ownership. Section 1202 of the Digital Millennium Copyright Act of 1998 outlaws, and specifies penalties for, the removal or tampering of identifying copyright ownership information in digital works. So, not only do you get to state your claims of ownership for your image, but image thieves can be prosecuted for violating your ownership or tampering with your copyright metadata. This also may be helpful in defending your rights that Congress is attempting to erode with various "orphan works" legislative proposals intended to aid their fat-cat buddies who don't want to pay big penalties when they violate your copyright.

So, let's say our objective with image metadata is to store our copyright and contact information and remove bloating metadata we have no interest in. One easy and comprehensive way to do this is through the use of Phil Harvey's excellent ExifTool, a Perl library that's available as a command-line tool on Windows and Mac platforms. I won't attempt to provide an overview of everything this powerful tool can do, but I'll give you an example of how I use it to achieve our goals of ripping out extraneous metadata and adding in our contact and copyright information.

Let's say you have an image named example.jpg and you wish to view the metadata that's already resident in the file:


exiftool -G1 -s example.jpg


This will display a (long) list of metadata names and values. It's quite interesting to see all the data stored in what looked like an ordinary image file.

To change the metadata to suit our purposes, we can use a lengthy list of command parameters or, more manageable, use a separate file with all of our command parameters that we tell ExifTool to use:


exiftool -@ mymetadata.txt example.jpg


The "-@" parameter tells ExifTool that the next parameter contains a list of all the command parameters we want to use against our image file. You can get my sample at http://pduncan.com/extras/mymetadata.txt. Edit it so it uses your information rather than mine and try running it on a file. Then use ExifTool to display the updated metadata using the command shown earlier.

If you notice at the bottom of the mymetadata.txt parameter file, I add the copyright statement into 4 places: EXIF, IPTC, XMP, and comment. This maximizes the chance that a given image viewer will recognize at least one of those.

The ExifTool command can, of course, be used to update multiple files:


exiftool -@ mymetadata.txt *.jpg


ExifTool is not the only way to do this work, and perhaps it's not the best for your workflow. The important thing is to find a way to tag your images appropriately that's easy and automatic for you.

Note we haven't covered image-specific metadata like captions, descriptions, keywords, etc. That's a whole other topic entirely.

Of course, none of what we covered here changes the need to register your images with the Copyright Office. It's easy, it's inexpensive, and it gives you the broadest set of options if you need to resort to legal action to protect your rights.

Update 6 April 2010: In a comment, Ed notified us of ExifTool updates that changed some of the example's parameters and he showed how to incorporate the file CreateDate to use as the copyright year. The above entry and example parameter file have been updated to incorporate the changes. Thanks Ed!

Thursday, February 26, 2009

Yay Me!

Bear with me for a moment while do a little self-congratulation. A while back I wrote a brief post called Night Sky Shooting which included an image of the Milky Way over Osgood Pond in the Adirondacks. For the heck of it, I submitted this image and a few others to the Adirondack Life magazine's annual photography contest. This image won the grand prize and is published full-page in the April 2009 issue of the magazine.

In addition, another image I submitted (Mossy Cascade Waterfall) won second prize in the color photo category.



I've been a subscriber to Adirondack Life magazine for many years; I've always admired the quality of the writing, design, and photography; but I never participated in their contest (or any other for that matter) until this past fall. So, as a first-timer, I'm quite pleased.

This concludes the self-congratulation blog post. Thanks for your indulgence.

Tuesday, February 10, 2009

Zenfolio and the Art of Web Maintenance

Over the years I've kept tinkering with the gallery portion of my Web site, adding features, streamlining maintenance, improving usability. But I kept putting off the most daunting task of incorporating print ordering. I realized after a while that as I listed my requirements and plotted my development path, I was slowly and tediously inventing Zenfolio.

After taking the trial version out for a test spin for a few days, I realized that Zenfolio neatly addressed the main issues I was confronting. I occasionally get queries about prints of images and, although flattering, I find it tedious to deal with billing, printing, and shipping. The same issues apply to photos for friends and family. I enjoy doing it but it is very tedious to deal with soliciting print orders, dealing with different size requests, etc. With Zenfolio, I can forget about all that and let the site handle all the billing and fulfillment chores. Plus I like the classy look of some of the Zenfolio site styles as well as the raft of configurable features.

So, I've taken the plunge and bought myself a Zenfolio subscription and retooled my Web site to incorporate Zenfolio for the gallery portion. (Some use Zenfolio for their entire site.) I have a couple images being published in April that I suspect will garner a few print requests so this will be a good test of how this new approach works.

I realize this all comes off like I've become a Zenfolio salesman but that's not the case—I'm just pleased with how well it addresses some of the issues I was dealing with. There are other services that do similar things like Shutterfly. If this sounds like something you would be interested in, take one of them out for a test spin to see if it meets your needs.

Next up for me, I want to fold the blog into my Web site. I'll be converting over to Wordpress hosted on my site and we'll see how that goes. I may even actually put out some more frequent updates. We'll see.