Selective Focus Photography

The majority of my latest posts were quite techy. Now, to something completely different!
Let's get artsy!

You have seeing me experimenting with pinholes, creating not only creamy focus with infinite depth of field, but also weird colors.

Today, I would like to show the opposite, going selective with very shallow depth of field. The name of the game "selective focus", the mother of it all, the Lensbaby system (mama!).

Actually, when you open the box, the first you see is a manual leaflet with the friendly imprint "mama!" on it. Nearly as comforting as the words "don't panic" printed in friendly letters of a very important guide book.

Back to Lensbabies! The basic idea behind this system is to give artistic freedom to photographers beyond the commonly used better than the rest lenses everyone uses.
Usually, objective lenses aim for creating a perfectly flat focus plane. Not so the basic lenses of the lensbaby system, which create more like a focus-sphere, resulting in what lensbaby calls a "sweet-spot".
Let's stay at idea of the sweet-spot for the moment (other stuff to follow). Said sweet-spot can be moved across the image plane of your (d)SLR or mirror-less camera. Depending on what aperture is used, various depths of field can be selected... of course you want to go really shallow, right?!
Selecting the aperture is somewhat manual, at least in the system that I got. Changing aperture means literally changing disks with an aperture. The benefit of this is that at all stops have a perfectly round shape, for beautiful bokeh-balls!

Interesting about the system Lensbaby is the availability of different optical units to be placed in a lens body allowing for tilt in all directions. There are mechanical and manual options to perform such tilting action. Things of course come with 2 sides, as medals... Mechanical tilt operation, which is slow, allows for mechanical focusing, which is precise. Manual tilt operation, really fast and hence good for street photography, comes with manual focusing, i.e. using fingers of both hands to achieve focus at the desired tilt.

Presently I own 2 different lens-bodies, the "Spark" for my trusty Digital Rebel Xt and the "Composer with Tilt Transformer" for the micro-4/3 system (Olympus PEN E-PM2). The Spark is a pure manual system, while the Composer is a fully mechanical system.

The optics of lensbaby are said to have a focal distance of 50mm. On a full-frame (d)SLR, that would be a normal objective.
The 350D (Rebel Xt) carries an APSC sensor, resulting the lens to be 80mm equivalent, i.e. a short telephoto lens.
The micro-4/3 system has a crop-factor of 2, 50mm is therefore equivalent to a telephoto lens of 100mm.

Right... techy again... let's get artsy and look at some pictures!


Lensbaby Spark @ Canon EOS-350D

Hoofvijfer, Den Haag

Tuning violin player (Gevangenenpoort, Den Haag)

As said before, the Spark is a lens with is focused and pointed with the might of fingers. These are first experiments. It is clear that this type of photography requires a lot of practicing.
The fountain and island of the Hoofvijfer are pretty much in the sweet spot. Although I like the photo of the violinist, the sweet spot is behind him at the wall. As a lame excuse I claim that I was walking, trying to not bump into tourists, while trying to get the sweet-spot on the guy...


Lensbaby Composer w/ Tilt Transformer @ Olympus E-PM2

This combo, although being much more precise, is a lot slower. I missed (blew!) quite some shots due to the mechanics.
First of all, there are 2 very different activities going on. The lens body, which is held by a ball hinge, has to be tilt into the desired direction. Then, the focus ring of the body is used to bring the optics into the desired focus.
It seems the Composer is more for studio work... maybe architecture... something that does not move, or at least not too quickly.

Here's a lesson to learn have a look:

Composer w/ double glass @ f2.8

This guy, sitting about 1m apart from me on the same bench, was very very patient with me! I took 3 shots, this is the last of the series. Yep, the sweet-spot is on his claw, not on his eye... I tried to correct, which created some weird noise... and he was gone! Note: for close-up wildlife, better use manual action Lensbabies, such as the Spark or the Muse!
Don't know why the bokeh is so crappy....

One learns from mistakes. (Mind you, this was the very first day I was in possession of the composer.) Hence, I adopted my workflow to first determine where in the frame the sweet-spot is, contrary what lensbaby.com tells in their manual.

This is what I do:

• point the camera right to the ground, as parallel as possible
• find the focus of the sweet-spot
• now: slightly de-focus towards infinity, the creates a sharp ring around the sweet-spot (*)
• move the ring to circle around some feature in the live-view, e.g. a crossing of golden ratio lines
• lock the ball-joint
• move your "subject" (I hate that word) into the region of the sweet-spot
• focus
• shoot!

There are a lot of helper lines available in modern cameras, e.g. rule of thirds or golden ratio, which btw. are not the same!
Now that you now where the sweet-spot is located, it is surprisingly simple to focus, since the focus-action of the composer is super-smooth.
Have a look at result obtained by this technique

Family Supper - LB Composer @ Olympus E-PM2 (f2.8)

(*) The trick of finding the sweet-spot easily is by making use of the fact that focus is formed on a sphere, rather than a plane. Cut trough a sphere, and you will get a circle... In this case, a circle of focus around the center which will be the sweet-spot when focused upon.

Sheep are slow moving domestic animals. But what about wildlife, well, as wild as it gets in one of the most densely populated areas of Europe, if not the World.

Speaking of wildlife, it seems that selective focus defies the lack of a long telephoto lens.

Takeoff! (f2.8)

Here is some Fulica atra, who had enough of being stalked by a bloody human with a camera... so, he took off. I had arranged the sweet-spot and focus was achieved easily.

Interestingly enough, in the photo of the sheep family and the taking off coot, the selective focus seems to be substituting a really long lens.

The selective focus seems to be pulling the viewer into the image, which seems to be more natural than pushing the subject into the viewer's face by a long lens!
Also, the selective focus automatically provides context to the image.
The last example shows that even a center placed subject can look somewhat interesting, provided blur gives sufficient guidance to the eye.
The last example also shows how the focus-sphere works. The branch in the upper left golden ratio is similarly in focus like the waves in the center, although there are several meters between the two items. You will feel, that, now that I said it, the branch will actually disturb you... Yep, that's how difficult is it to get a decent shot with selective focus. Nevertheless fun, I promise!

Heavy Metal for Bokeh!

New glass, well, old glass, new however to my collection of lenses, arrived today.
For not too much, I was able to obtain a COSINON 55mm F=1.4 lens, made by Cosina. Just for the sake of completeness, this lens has got an M42 mount.

Two different plans for this lens: 1) digital photography with the EOS M or the EOS 350D, 2) astro photography with the "bellow cam" webcam adaptation.

Concerning the first plan, of course this will be all manual. Remember the M (manual mode) and metering for exposure?

- With the EOS 350D, this works like charm. The front selector next to the shutter release sets the shutter speed, aperture, old skool, at the lens' aperture ring. Focusing with the 350D is a bit tricky. It seems that the light paths to the sensor and through the viewfinder are not matched in the entry level DSLR, hence, the focus on the sensor is a bit closer than the one in the viewfinder. The very shallow depth of field makes it therefore difficult to get sharp images right away.

- As to the EOS M, in manual mode, the selector wheel at the back can be set to shutter speed. Since there is no mirror involved in the M, focusing is really easy. Due to the shallow depth of field, you can literally see the focus rolling over the sensor.

Of course, both cameras employ aperture priority, just in case you are tired of metering.

With both cameras, the center of the old lens shows beautiful circular bokeh. Moving towards the edges, of course, this get a bit distorted...

The second plan, the bellow-cam, my bellow-cam. This is a QuickCam QC4000pro, modified for long exposures, see earlier posts on this blog. The macro photography bellow is actually designed for M42 lenses, hence the F=1.4 lens could be a very good light collector.

Of course, the also in plan B for using the lens together with the EOS M for wide-field astro photography.

Light and Bokeh!

I got lucky lately. The action site ebay made me winner on a Cosinon F=1.4 f=55mm M42 lens. There are some options to use that lens:

• on any of my old M42 film SLR bodies
• with the bellow-cam astro-webcam
• on the Rebel XT in manual mode
• with the EOS M (in manual mode)

You can imagine that I can't wait to receive the lens ;-)

Shoot - Develop - Enlarge (the modern times)

The title might be misleading. We are not talking old-skool chemical photography here. However, more and more analogies reveal themselves to me.
Let's have a look what is possible today!

You may have seen that many photo-studios show near-live images to their clients. This is called tethering. A raw image is presented on a large screen, just a moment after the shot has been taken.
This is very cool, however, not every amateur setup is able to do that... not every, but some!

Mine does! And here are the specs which enable me to tether to either to my workstation or to my laptop.

First of all, the camera. I am using a Canon EOS 350D (aka. Rebel XT). A camera I really love! Thought of replacing it over the years, however, up to now, I was unable to find any reason to retire this fine piece of technology.

On the computer side of things, 3 main players are to be mentioned. First of all my trusty GA-Z77N-WiFi i5-3570k running OS-X 10.9.1, which serves as an everyday image processing machine.
On a secondary basis, I am using an HP ProBook 4540s (i3 SandyBridge), running OS-X 10.8.5.
Speaking "Apple", we are looking at Mavericks and Mountain Lion in terms of operation systems.
And last to not least, my AMD FX-6100 based debian machine.

The topic was tethering... hence, it would be about time to look into some software allowing tethering of DSLRs.
Of course, the first look is into free software. To be found under the GPL is a product called darktable. Very obviously, the name of this particular software reflects a "darkroom" and a "light-table", both being tools of photographer of the chemical age. Also, the name reminds of "LightRoom" (the name of non-free software by Adobe).

I love darktable! However, it is not as easy to use, as one may hoped for. On the positive, it is free and it enables tethering!

On all OS's I experienced that, as soon as the camera is connected, some sort of software takes over the connection. Fair enough, there might be shots on the memory card, which we may want to transfer to the workstation.
However, we are looking into tethering here. So, how do we get darktable accepting the camera for tethering purposes?

Before we start, we have to set the camera into the correct mode. In the settings (some of the wrenges) it says "PC connection"... that's what we want!

When having connected the camer, first of all, we need to close all programs which opend when the camera was connected. Now, let's wait for a bit! Really, this is mandantory!
As soon as everything settled down a bit, we want to open darktable.
In the "light table" mode, click "scan for devices". The camera should show up, in my case as "Canon Rebel XT". If not, try again!
As soon as the camera is detected correctly, there is an option to "tether". Click on this to start a new tethering session.

This may not work the first time, hence, be patient!
For me, this works perfectly under OS-X 10.9.1, OS-X 10.8.5 and Debian-Linux.

As to the title of this post, this would be the "shoot" part. The part that gets the initial data.

From here on, we need to focus on "post-processing", i.e. developing and "enlarging".

As a side remark, the AMD FX-6100 box, under debian, takes a punch in post-production,

We are done with the shooting part of the photo. Now, lets move into the develop part of things. Of course, there are some options to do "development work" in darktable, however, I would strongly recomment to use rawtherapee for further purposes. Tweak your raws as you would tweak your film in the good old days!

For wrapping things up, the tool of my choice is the GIMP. The functionality of the GIMP is very close to what PhotoShop can offer.

This post is not about developing or enlarging, it is about the moment you are shooting, in a studio, with a talent... Tethering will ensure that the talent understands what you, as a photographer, are doing. This is what this post is all about.

=> set up your studio, such that the shots can be seen on a huge screen, just when they were taken.

Shutter Release Cable for Canon Cameras

Some weird coincidence got me into buying a Canon DSLR years ago. The EOS-350D, aka Digital Rebel XT, was top notch at that time... I still love it today.
Today, I am happily choosing Canon cameras for CHDK, Magic Lantern and BaclyardEOS, but this an entirely different story.

Luck had it, that Canon made it very easy to build a remote shutter release cable. The internet is full of decent descriptions. Yet again, I would like to share my solution with you.

First of all, the materials I used where all in my possession, nothing needed to be bought. Actually, all the stuff was lying about since years, unused, and you will see why in the next few lines.

When you search the internet for shutter release cables, you will come across many square of rectangular boxes, which not only look DIY, but also look not following latest ergonomics standards.
About 20 years ago, I bought an analogue joystick for my PC. I really never got into gaming ever, the thing just went into a box and was moved about only when I changed cities.

The same can be said about a pair of headphones, that once came with a first generation digital camera having an MP3 player. What where people thinking?! An MP3 player in a camera?! The player was crap, the camera, for the time, was OK. The developers of this great design had a brain-wave, why not preventing people from using their decent headphones (having a 3.5mm TRS jack)? Hence, the developers added a 2.5mm TRS jack to that particular MP3-player-camera-gadget, just what I needed for the Canon cameras.

And here we have it, 2 useless gadgets can be put together into 1 useful accessory.

the parts, taken apart, and the complex schematics diagram

I used a of perforated PCB to create a stable transition between the flimsy headphone cable and the very sturdy joystick cabling. A knot reduces the length of the latter.
It might be somewhat obvious, I used the blue cables for focus and the white ones for exposure.
In order to prevent the flimsy cable from being pulled off the PCB (not shown), another know secures the external cable to one of the posts of the joystick.

Although I took a picture of the 'not yet closed but functioning' device, I wont post it here, due to the potentially offending shape of said object.

Concluding, a remote shutter release which feels like being built to be held in a fist (actually the joystick is) is a great addition to my bag.
Needless to say that this device works great with either of the two cameras, the EOS-350D and the PowerShot G15.