Pre-IFA 2009: Panasonic has announced the LUMIX G 20mm F1.7 ASPH, a pancake type lens that has been designed to complement its latest GF1 Micro Four Thirds camera. With a 40mm-equivalant field of view, the lens measures just 25.5 mm (1 inch) in length and weighs only 100 grams. The optical design comprises seven elements in five groups, including two aspherical elements to minimize distortion and chromatic aberration.
Panasonic introduces LUMIX G 20mm / F1.7 ASPH. lens
Comments Off
Pre-IFA 2009: Panasonic has announced the LUMIX G 20mm F1.7 ASPH, a pancake type lens that has been designed to complement its latest GF1 Micro Four Thirds camera. With a 40mm-equivalant field of view, the lens measures just 25.5 mm (1 inch) in length and weighs only 100 grams. The optical design comprises seven elements in five groups, including two aspherical elements to minimize distortion and chromatic aberration.
Panasonic Leica 45mm F2.8 Macro lens with OIS
Comments Off
Pre-IFA 2009: Panasonic has also announced the Leica DG MACRO-ELMARIT 45mm F2.8 ASPH. MEGA O.I.S. macro lens. This optically stabilized lens is bundled into a compact body measuring approximately 2.5 inches x 2.5 inches, with an inner focus mechanism that keeps the overall length constant on focusing. The optical construction consists of fourteen elements in ten groups, including one aspherical and one ED element, and the aperture mechanism uses 7 rounded blades for smoothly blurred backgrounds. The minimum focus distance is 15cm, and a switch on the lens barrel allows this to be limited to 50cm for longer range work.
Tamron launches stabilized 17-50mm F2.8 zoom
Comments Off
Pre-IFA 2009: Tamron has announced a revised version of its popular 17-50mm F2.8 fast standard zoom for APS-C/DX SLRs, which now incorporates optical image stabilization (or as the company calls it, Vibration Compensation). The SP AF 17-50mm F/2.8 XR Di II VC LD Aspherical [IF] offers a useful wide angle to short telephoto range of 26-78mm (35mm equivalent) in a compact design scarcely larger than its unstabilized predecessor. The 19 element / 14 group optical design employs a host of special elements to minimize aberrations, and features a minimum focusing distance of 0.29m over the entire zoom range, with a maximum magnification of 0.21x. It will be available in Nikon mount (with a built-in focusing motor) from mid-September, with a Canon version to follow.
The Magical Magaliesburg
With views stretching forever and a day across the North West Province and some of the most magical sunsets anywhere in South Africa, it’s no wonder that the Magaliesburg is one of Gauteng’s top weekend getaways, the Magaliesburg is a truly magical place. South African Photographer Mitchell Krog who resides in Magaliesburg has spent the last four years photographing the beautiful environments of Magaliesburg and has achieved much acclaim with his photography.
You Can See Forever and a Day. The views from Magaliesburg stretch far into the North West province. From Mitchell Krog's Magaliesburg Photography Portfolio. (Copyright Mitchell Krog - All Rights Reserved)
The Magaliesberg Range has a very long geological history. Its quartzites, shales, chert and dolomite were deposited as sediments in an inland basin on top of the 3 billion year old Archaean Basement Complex. This process of sedimentation lasted for about 300 million years. About 2 billion years ago a massive upwelling of molten magma resulted in what is now known as the Bushveld Igneous Complex. The enormous weight of this intrusion depressed the sediments that lay beneath and tilted the sediments along the edges so that the broken scarps faced outward and upward, and the gentler dip slopes inward. During the same period these sediments were fractured and igneous intrusions of dolerite filled the cracks. With the passage of time these intrusions eroded, especially on the dip slopes, forming deep kloofs or ravines providing excellent rock-climbing potential to modern man. This large dogbone-shaped area is now termed the Transvaal Basin and includes the lofty escarpment of the Transvaal Drakensberg overlooking the Lowveld in the eastern part of the country. Massive outpourings of igneous material of the much younger Karroo System later covered the Transvaal Basin, but this was subsequently eroded so that it only remains along the Transvaal Basin’s southern rim.
The Beautiful Golden Winter Colours of a Winter Sunset Over the Magaliesburg Mountains. From Mitchell Krog's Magaliesburg Photography Collection. (Copyright Mitchell Krog - All Rights Reserved)
The Magaliesburg Mountain range forms a natural barrier between the lower lying Bushveld to the north and the cooler Highveld to the south. The range receives rainfall in summer in the form of thunderstorms, with an average of 650mmm annually. In winter frost occurs frequently in the valleys on the southern side of the mountain, but almost never on the northern slopes. Mitchell Krog, a specialist and award winning lightning photographer has produced some incredible lightning images from Magaliesburg.
Fire and Ice. The First Electrical Storm of Summer Sets The Grass Lands Alight. From Mitchell Krog's Lightning Photography Portfolio. (Copyright Mitchell Krog - All Rights Reserved)
Watch our for more in photos and articles in this series about Magaliesburg.
Landscape Photography of South Africa and Scotland
South African Fine Art Landscape Photographer Mitchell Krog has quickly risen to become one of South Africa’s top Landscape Photographers. His breathtaking images have captured the attention of audiences around the world and he never fails to produce bleeding edge photography no matter where he travels to. Mitchell has been published on a number of occasions and has become a regular contributor of article and images to photographic and lifestyle magazines.
Mitchell regularly travels to all corners of South Africa and abroad to keep bringing high class quality images to the Photographic Market Place. He is regularly featured on a number of internet forums and communities and has contributed thousands of hours to helping budding photographers to improve their game.
The Wild Waters of Kogel Bay in the Western Cape. From Mitchell Krog's Western Cape Landscape Photography Series (Copyright Mitchell Krog - All Rights Reserved)
Mitchell has also developed a very fine eye for black and white photography and has produced a number of spectacular black and white seascape images on his trips around South Africa. Black and White photography, says Mitchell, despite this colourful world we live in, remains to be one of the most powerful mediums of photography. When the colour is stripped away we get down to the basics and simplicity of life. Black and white photographers have to have a keen eye for tones, contrasts, textures and especially light, without which a black and white image would be dull and dreary. Black and white or sometimes referred to as Monotone or Monochrome, captures the very soul and essence of nature.
Secluded. A fisherman braves the cold morning weather. From the South Coast Landscape Photography Series by Mitchell Krog. (Copyright Mitchell Krog - All Rights Reserved)
Mitchell also travels abroad and captured a variety of magical images on his trip to Scotland earlier in 2009. Covering over 2700 kilometres by vehicle and approximately 30-40 kilometers on foot, well lets just say this trip was not one of resting and Mitchell showed his total dedication to going the extra “mile” to find those incredible images he keeps producing. Mitchell was awarded First Runner Up for his image Sentinels in the first South African PIX Awards of 2009.
Sentinels. Ancient Trees stand guard over the Forest Floor. From Mitchell Krog's Scotland Landscape Photography Series. (Copyright Mitchell Krog - All Rights Reserved)
Miles from Nowhere, Isle of Skye, Scotland. From Mitchell Krog's Scotland Landscape Photography Series. (Copyright Mitchell Krog - All Rights Reserved)
This is the first edition of a series of articles on Landscape Photography by Mitchell Krog.
The Mapogo Lions of Sabi Sands
Mitchell Krog on a recent photographic safari to the Sabi Sands Reserve, had the pleasure of meeting some of the infamous Mapogo Male Lions of the Sabi Sands. Based at the luxurious Elephants Plains Game Lodge and hosted by Wim van den Heever and Greg du Toit of OutdoorPhoto, our photographic safari was nothing short of spectacular and an experience that will be quite hard to top.
Our group first encountered two of the male’s and three of their females catching a late afternoon nap and then shortly after dark we followed the two males to a water hole and captured some magic images of the one Mapogo male drinking. Mitchell’s image “The Ghost in the Darkness” below was born.
Mr T of the Mapogo Male Lion Coalition At a Drinking Hole At Night, Appearing like a Ghost in the Darkness. (Copyright Mitchell Krog - All Rights Reserved)
The following morning on our 6am game drive we arrived at a different water hole to find the two Mapogo male’s again with their three females but this time we were in real luck to find all their cubs around for their morning play time too. Arriving on this sighting just as the sun was rising gave us some magical “golden light” photographic opportunities.
Two of the Mapogo lion cubs of the Sabi Sands at a water hole in the golden light of the sunrise. (Copyright Mitchell Krog - All Rights Reserved)
Shortly after returning from his trip, Mitchell did some more online research into the Mapogo Male Lion Coalition and came across some great information. First off this group of lions has their own Facebook Group Page and it has already attracted a bit of a fan base. Through finding this group Mitchell learned that the image of the Mapogo male below is one of the coalition called “Mr T”.
A male lion of the Mapogo coalition of the Sabi Sands Reserve who has come to be known as Mr T. (Copyright Mitchell Krog - All Rights Reserved)
The Mapogo are a coalition of 6 male lion warriors. They are known in some areas of the reserve as The Eyrefield Males, the Sparta Males and in some areas as “The Cannibals”. It is said they were named Mapogo after a security company that utilizes rather harsh methods in dealing with offenders. There appears to be several different meanings for Mapogo. Ulusaba refers to it as meaning “Vigilantes“ and Savanna Lodge refers to the Mapogo name being a Zulu word meaning “Rogues”. Whatever the meaning, they are Bad News! The Mapogo males have been known to kill and eat other lions, even cubs that they have fathered. They seem to kill and eat just about anything in their path which may sound rather gruesome but nature has its ways and some things we will never understand. I can say one thing you certainly do not want to be on foot and cross paths with these guys.
You can read more about the Mapogo Lions here.
Another insert from this Photographic Safari coming soon.
What is a ‘standard’ lens?
Comments Off
Our discussion forums are a great resource for people looking to learn about photography, and it's therefore not surprising that certain topics are raised time after time. In many cases they are answered quickly and correctly, but certain topics are still subject to a great deal of confusion. One of these is the deceptively simple question of what the word 'standard' means in relation to lenses. It appears that there are certain misconceptions associated with this topic which reappear time after time, so in a bid to put the record straight, here's my attempt at an (almost) definitive answer.
At the simplest level, a standard lens is defined as one which produces images with a natural-looking perspective (the word 'normal' is often used synonymously in this context). This concept is perhaps best illustrated with regard to what it's not, that is to lenses which clearly don't meet this criterion. A telephoto lens, for example, renders distant objects larger in the frame, and has the effect of compressing the apparent spatial relationship between objects. A wideangle does precisely the opposite; in squeezing more content into the image, objects appear smaller and more distant. It's in the happy medium between these two extremes that the standard lens lies; the apparent sizes and spatial relationships between image elements appear natural, and much as they did in real life. So the question is, how de we define which lenses show these characteristics?
The answer lies in considering how we view images, and is perhaps easiest understood with respect to prints. Everything hinges on the fact that (with the exception of small prints) the most comfortable viewing distance is approximately equal to the print diagonal. For example, a 12" x 16" print has a diagonal of about 20", and it turns out that most viewers will choose to look at it from about 20". This allows them to take in the whole of the picture, while still being able to see fine detail.
So how does this relate to the focal length of a 'standard' lens? To understand this, let's conduct a thought experiment in which we take a picture, make a print on the spot, then see how it compares to the scene in front of us. Simple geometry (using the concept of similar triangles) states that a print viewed from a distance equal to it's diagonal will exactly match the subject in perspective when the focal length of the lens that was used to make the picture is equal to the diagonal of the sensor.
When we use this approach to calculate the focal lengths of 'theoretically correct' standard lenses for various sensor sizes, the results are slightly surprising. Full frame works out as 43mm, 1.5x APS-C as 29mm, and Four Thirds, 21mm. This flies in the face of received wisdom (and convention), which suggests 50mm, 35mm and 25mm respectively. How did that happen?
The answer goes all the way back to the earliest 35mm cameras, such as Oscar Barnack's Leica. For practical reasons of lens design as much as anything else, these were often fitted with 5cm lenses, and for various reasons this became a convention which firmly stuck. Oddly enough, the 35mm format counts as something of an outlier in this regard; the various 'medium' formats (such as 6 x 4.5cm) all stuck stubbornly to the 'frame diagonal' convention. Still even for 35mm there were honourable exceptions; many fixed-lens rangefinders (the progenitors of modern compacts) used lenses in the 40-45mm range, and Pentax famously launched its 'Limited' range of premium primes with a 43mm standard lens, which is still on sale today. And while it may sound like there's little difference between 43mm and 50mm, in reality it's the same as that between 28mm and 35mm, or 85mm and 100mm. There is, in fact, a fairly well-developed school of thought (which I must admit I personally subscribe to) that for a standard lens, that 40mm region is 'about right'.
 |
|
The Olympus 35RC ca. 1971, with its 42mm F2.8 standard lens |
Now that we've established what a standard lens really is, we can dispense with some of the misconceptions which continually reappear. A standard lens is not one which makes object appear the same size in the camera's viewfinder as they appear from the same position with the naked a eye; this is a function of both focal length and viewfinder magnification (indeed with a 50mm lens focused to infinity, it's used as the definition of viewfinder magnification). And a standard lens is not - quite - a lens with the same angle of view as the human eye; peripheral vision extends well beyond the angle of view occupied by the print at that 'comfortable' viewing distance.
So there we have it, the definition of a standard lens. Of course the punchline (and there always has to be one) follows on from my previous blog post, in which I decried the lack fast 'portrait' primes for APS-C, with the much-touted 50mm lens being a bit short for this role. Well to be honest, I wish manufacturers wouldn't build 50mm lenses for full frame either, but instead make their standard primes in that 43mm region instead (likewise rather than 35mm for Nikon's new DX prime, I'd have preferred 28mm). But at least for once I know this is an eccentricity, and I'm firmly in the minority in this regard.
Where are the portrait lenses?
Comments Off
There's something that's been troubling me a bit recently, and I want to get it off my chest. It's an irritation about the photographic equipment available today, and its fitness for the purpose for which it's most likely to be used. It has germinated over the course of testing an array of 50mm prime lenses, developed further with the recent arrival at the dpreview offices of an array of new fast primes, and finally crystallized with the relative lack of interesting new products and ideas at PMA. And it's this; most manufacturers seem be be thinking very conservatively, treating digital as though nothing's changed from the days of 35mm film, and simply aren't making the right lenses for photographers today.
My line of reasoning goes like this. Through the long history of photography, there's always been one constant; the most popular subject is people. The hardware, materials and techniques may have changed beyond all recognition, especially in the past decade, but when all is said and done our lenses are overwhelmingly trained on our family, friends and loved ones. And possibly the biggest advance over those ten years is the ability of the latest breed of DSLRS to operate effectively in low light, with such remarkable high ISO capabilities that it's now perfectly feasible to shoot indoors without the potentially ruinous effects of flash. This is in marked contrast to the days of film, as anyone who shot even ISO 800 colour negatives will attest; we can now use ISO 1600 or 3200 as a matter of course and achieve previously undreamed-of quality (remember Ilford Delta 3200 anyone?). Just throw on a fast prime, and Bob's your uncle.
The problem is though, which fast prime? The new age of the DSLR has certainly seen a resurgence in popularity of 50mm lenses, mainly because they are relatively cheap and gather lots of light. And the manufacturers appear to have cottoned on to this, with a new breed of 'fast fifties' appearing recently from Sigma, Nikon and Pentax (likewise Sony has been showing a 50mm F1.8 DT ‘concept lens’ at PMA).
But really, why 50mm? On an APS-C imager, that's equivalent to around 75mm-80mm in full frame terms. Problem is that this is a strange focal length, too long to be considered ‘normal’ yet just a bit too short for portraits (few manufacturers ever made a 75mm prime for film). The portrait range has classically been considered as being between 85mm and 135mm for comfortable 'head and shoulders' shots; personally in my book, 100mm counts as 'about right'. So it seems to me that manufacturers may be misinterpreting the appeal of those 50mm lenses; they’re popular just because they are fast and cheap, not particularly because of their focal length.
 |
With a classic portrait lens you can shoot indoors in low light, and blur the background to oblivion |
It’s not just the focal length that’s a problem, though, there's another issue with those 50mm primes, and that's the much-misunderstood concept of 'bokeh'. Now contrary to popular belief, a mere ability to blur the background is not enough; the concept of ‘bokeh’ refers to the aesthetic quality of that blur, which ideally needs to be smooth and attractive, not harsh and fussy as rendered by many 50mm lenses (a by-product of the traditional design goal of the 'standard' lens for maximum sharpness). True portrait lenses need a different optimisation, for attractive imaging at large apertures that balances sharpness against bokeh. And quite simply they need a large physical aperture, to achieve both that background blur and proper selective focus; 60mm F2.8 macro lenses don’t quite cut it I'm afraid.
Now the longer end of the portrait range can still be served quite reasonably on APS-C by 85mm lenses designed for full-frame, and at the lower end the Pentax DA* 55mm F1.4 looks like a step in the right direction. The problem is though that there's nothing much in the middle, in that 'just right' 65-70mm region. The only really convincing offering comes from Pentax (the one company, I think, that really understands primes right now, as evidenced by the new 15mm F4 ED AL), in the shape of the 70mm F2.4 AL Limited, although its compact design results in arguably too much compromise over speed.
So what I'd like to see is the other manufacturers join in on the act, and produce a new breed of 70mm lenses optimized for shooting portraits on APS-C. These could perhaps come in two flavors, a ‘cheap and cheerful’ F2 and higher-end F1.4. No need for the manufacturers to obsess over pure sharpness or minimal vignetting wide open; let's just have something small, light and discreet to work in harmony with the new capabilities of our DSLRs.
So Sony, if you're listening; scrap that 50mm F1.8 DT, it's just 'old think' and a hangover from the days of the film. If you're really serious about making an APS-C prime, start afresh and offer something more suited to the digital era. The world will be a better place.
RAW headroom: why it matters
Comments Off
In the Dynamic Range section of our DSLR reviews we usually look at something that we call ‘RAW headroom’. The RAW headroom could probably be described as the highlight and shadow detail that has been captured in the RAW data but gets lost when a camera’s internal software applies a tone-curve to the RAW image data.
As a rule cameras apply a typical 'S' shaped tone curve to JPEGs to give a visually appealing contrast without harsh clipping of the brightest or darkest tones (the 'shoulders' of the S curve provide a more gentle roll-off than a straight line would). The tone curve applied is often quite steep, sacrificing the tones at the the extremes of highlight and shadow in the pursuit of 'punchy', consumer-friendly out-of-camera results. At the shadow end this is rarely a problem (the very darkest tones are mapped to black, which isn't visually unpleasant and helps reduce noise), but at the highlight end it can mean that what should be a very pale blue sky turns white, or that highlights have harsh edges instead of a gentle gradient. There's no way to get back detail that the camera's tone curve left out of a JPEG, but it is possible to tweak more out of a raw file. Having access to the sensor's full dynamic range also means that you can fix mild under or over exposure by reaching into the headroom.
And so it's very useful to understand what raw headroom is and how you can make use of it to get the maximum out of your images. We regularly receive questions regarding this particular section of our reviews via our feedback system and in the forums, so I thought it would be a good idea to provide some detail about the dpreview approach to raw headroom in a blog article. This isn't a deeply technical post; it's more of a primer on what we do, and why you need to know about the dynamic range hidden away in your raw files.
JPEG vs ‘ACR Best’
For our Dynamic Range test we take an image of a calibrated Stouffer Step Wedge (13 stops total range) which is backlit using a daylight balanced lamp (98 CRI). The exposure is carefully fixed so that wedge no 18 produces the same middle gray. We then feed this image into our in-house software which gives us a Dynamic Range value in stops (EV).
To find out how many extra stops the reviewed camera model is hiding in its raw headroom we measure the dynamic range of a out-of-camera JPEG at default settings and compare the result to the value we get for our ‘ACR Best’ image. The 'ACR Best' image is the test image that gives us the maximum dynamic range result on a particular camera. To create it we tweak the RAW file of our test image (the one of the wedge; whenever possible we shoot RAW+JPEG) in Adobe Camera RAW until we get an output image that measures maximum Dynamic Range. To achieve this we usually reduce exposure between half a stop and one stop, reduce contrast to a minimum, change the tone curve to ‘linear’ and play a little with the Blacks and Brightness sliders. The optimal settings will be slightly different for each camera though.
| When we feed our dynamic range studio test images into our clever software we receive, along with the data, these wedges as an output. The one above illustrates the dynamic range of a Pentax K200D out-of-cam JPEG, the bottom one of the ‘ACR Best’ image. |
Out-of-camera JPG
To illustrate the difference that making use of the raw headroom can make to your images I have picked a sample image from the Pentax K200D review and processed the RAW file with three different sets of parameters in Adobe Camera RAW – ACR 4.6 default settings, our ‘ACR Best’ settings and a set of custom parameters.
Below you can see the original out-of-camera JPG which is very vibrant and saturated with good contrast. On the downside it also shows some fairly large areas of blown highlights on the statue and some minor clipped shadows in the trees to the left (we’ve opened the JPEG in Adobe Camera RAW to make these areas more visible). On this specific image this is as much a metering issue as a dynamic range one. A third of a stop negative exposure compensation when the picture was taken would certainly not have done any harm but on the other hand this makes the image an ideal demonstration object for this blog article. In our K200D review from September this year the camera’s default JPEG gave us a total Dynamic Range of 9.0 stops (3.0 stops highlight range, 6.0 shadow range).
 |
 |
| Out-of-camera JPEG in ACR 4.6 | Click thumbnail for full-size image |
| 100% crop | 100% crop |
Adobe Camera RAW with default settings
For comparison purposes I am also showing the image that is produced out of a RAW file by Adobe Camera RAW using the software’s default settings. The colors are slightly less saturated but the contrast rendition is very similar to the out-of-camera JPEG, showing almost identical amounts of clipped highlights and shadows.
 |
 |
| ACR 4.6 default settings | Click thumbnail for full-size image |
| 100% crop | 100% crop |
RAW conversion using ‘ACR Best’ parameters
Let’s have a closer look at the Pentax K200D’s RAW headroom now. Above I described how we determine the RAW headroom by comparing dynamic range of an out-of-camera JPEG to our ‘ACR Best’ image. In the K200D’s case the parameters used to generate the ‘ACR Best’ image are the following:
- Exposure: –0.85
- Blacks: 1
- Contrast: –50
- Curve: Linear
- All other parameters ACR default.
Using these parameters on our dynamic range test image we managed to generate an ‘ACR Best’ image that gives us one stop additional dynamic range over the out-of-cam JPEG (additional 0.8 in the highlights, 0.2 in the shadow range). This takes the total achievable dynamic range of the Pentax K200D to 10.0 stops.
 |
 |
| ‘ACR Best’ parameters | Click thumbnail for full-size image |
| 100% crop | 100% crop |
What happens if we apply these ‘optimal’ parameters to our real-life sample image? As you can see above the label ‘ACR Best’ is slightly misleading in so far that while the image is optimized in terms of dynamic range – there is maximum detail in both shadows and highlights – it is also very ‘flat’ and dull due to a lack of contrast. It’s obvious that simply applying the parameters that guarantee the optimal dynamic range won't make an image that’s visually pleasing.
Custom parameters for optimized output
What we really want in an image is the best of both worlds, the highlight detail of the ‘ACR Best’ image but also good contrast in the mid-tones and shadows. If you’ve been shooting in RAW that’s not a problem. To achieve the image results you can see below we reduced exposure in RAW conversion by approximately half a stop. This first step brings most of the lost highlight detail back. Then we modified the tone curve to increase contrast in the mid- and darker tones. At the last step we ‘fine-tuned’ the result with a levels correction in Photoshop to make sure we use the entire range of available tones.
 |
 |
| ACR 4.6 Custom parameters | Click thumbnail for full-size image |
| 100% crop | 100% crop |
The table below shows all four images next to each other. You can see that the Custom image shows similar highlight detail to the ‘ACR Best’ image. However, the overall contrast of the picture is much more visually pleasing. Of course, much of this is down to personal taste. If you wanted the Custom image to be more similar to the out-of-camera JPEG for instance, you could simply increase saturation in RAW conversion. However, what these examples are trying to demonstrate is that by shooting in RAW you can preserve highlight detail and with some minor image modifications create an image that has similar contrast rendition in the mid-tones and shadows to an out-of-camera image.
| |
| Out-of-cam JPEG | ACR 4.6 default settings |
| |
| ‘ACR Best’ parameters | ACR 4.6 Custom parameters |
Compact Camera Reviews – they’re coming (in a way)
Comments Off
Around a year ago we had our new reviewers trained to the point where they were ready to produce their own reviews. Before we even started recruiting we knew we'd start them off with compact cameras - partly because a compact camera review is considerably less involved than an SLR, partly because there are so many compact cameras on the market. Perhaps predictably every compact review we released was met with a torrent of complaints suggesting that we shouldn't be wasting time on 'point and shoots' when there were so many SLRs in the queue.
By the time spring arrived two things were obvious; that we were going to struggle to keep up with the flood of new SLRs, and that the compact camera market had reached something of a plateau, with 'new' models being nothing more than 'old' models with marginally bigger screens or vital new features such as smile detection. So we took the decision (and, I should add, not lightly) to concentrate our limited resources on covering all the SLRs in depth before we went back to compacts.
To be honest it wasn't that difficult a decision; we get at least 20x more people reading an SLR review than a compact review (with most compacts sold being in the sub-$150 bracket I think it's safe to assume that the amount of pre-purchase research buyers are doing isn't considerable).
Fast-forward to today and we've finally scaled the mountain of new SLRs and are, save for the couple of models currently mid review (the Panasonic G1, for example), up to date. So what to do about the scores of compact cameras we turned a blind eye to over the last year or so? Compacts still make up the majority of camera sales and we certainly haven't abandoned them (we've already posted our full Panasonic LX3 review and have several others, including the Canon G10, in progress), but the sheer number released each year makes giving them a full review impossible (and, at the entry level, the cameras simply don't warrant a 10 or 12 page review).
We therefore decided to try an idea Phil and I have been toying with for several years now; a roundup/group test that will, we hope, give a snapshot of the compact camera market as we enter the peak holiday buying period. So we spent a couple of days researching and shortlisting, and ended up with a list of 35 or so cameras to include. We've now got them all in the office and I've spent a week in the studio with them doing the first round of tests. We hope, within the next four weeks or so, to publish all five of the group tests (they're split into budget, 'style', 'advanced', 'high end' and 'SLR-style').
To give you a taste of what to expect here's the list of cameras we've picked; don't expect a full review of every one of them (though there are some that will eventually make it to full review state), and don't be too surprised if a few of them change if we can't get hold of them....
- Samsung L210
- Canon A470
- Kodak C1013
- Sony W120
- Nikon CP L18
- Fuji FinePix Z20fd
- Canon A590IS
- Panasonic LZ8
- Olympus FE360
- Canon PowerShot SD790IS / IXUS 90
- Casio EX-S10
- Fujifilm Z200fd
- Nikon CoolPix L210
- Nikon Coolpix S60
- Olympus Stylus 1040
- Panasonic FX37
- Pentax Optio S12
- Sony DSC-T700
- Canon SD880 /IXUS 870
- Fuji F100fd
- Nikon Coolpix S710
- Pansonic FX150
- Samsung NV1000HD
- Sony W300
- Canon G10
- Kodak Z8612 IS
- Nikon P6000
- Panasonic LX3
- Ricoh R10
- Pansonic TZ5
- Canon SX110 IS
- Sony H10
- Canon SX10 IS
- Fujifilm S2000HD
- Fuji S8100FD
- Kodak Z1015 IS
- Nikon P80
- Olympus SP565
- Panasonic FZ28
- Sony H50
Adobe Camera RAW in our reviews
Comments Off
We have a brand new blog which desperately needs some content before it can be launched and following our recent Canon EOS 50D review there has been quite a lot of discussion in the forums about the use of Adobe ACR as a RAW converter in our reviews. These, I thought, were two good reasons to get into blogging mode and write a brief article that explains why Dpreview is using ACR and not proprietary or other third party converters for its tests.
So why is it then that we use Adobe Camera RAW and not one of the other converters?
Firstly we aim to create a level playing field and to make results - as much as possible - comparable between cameras. For this reason we simply have to use a third party converter that can handle most of the many different RAW formats that are out there rather than a proprietary converter. ACR is used as a plug-in in Adobe Photoshop, Photoshop Elements and Lightroom and has the highest market share of all third party converters which makes it the obvious choice. More importantly though Adobe updates ACR very frequently (and we're involved in early releases) to include the latest camera models. This allows us to review a new model fairly promptly after its launch (we often get the cameras before anyone in the RAW development arena, including Adobe).
We know that Adobe Camera RAW applies different levels of sharpness to different cameras and because of that we use the following workflow when processing our box shots:
Load RAW file into Adobe Camera RAW (Auto mode disabled)
- Set Sharpness to 0 (all other settings default)
- Open file to Photoshop
- Apply a Unsharp mask: 80%, Radius 1.0, Threshold 0
- Save as a TIFF (for cropping) and as a JPEG quality 11 for download
Even by using this workflow we cannot entirely avoid any processing differences between cameras but it's certainly as good as it gets in terms of creating a 'level playing field'.
Secondly, especially when analyzing image noise, we want to show a camera's image output in its 'purest' form, i.e. as captured by the sensor and as little as possible altered by sharpening algorithms, noise reduction or any other forms of image processing. Again, ACR does a pretty good job in this area. To demonstrate this I have included example crops from two images which both have been processed from an ISO 3200 Canon EOS 50D RAW file, one in ACR 4.6, the other in Canon's Digital Photo Pro 3.5. Sharpening and noise reduction were set to zero in both converters, then we applied an identical unsharp mask to both images, so in theory we would expect pretty similar results.
Reality looks slightly different though. The ACR image is less sharpened and shows visibly larger amounts of chroma noise. That tells us two things. Firstly DPP is doing quite a good job at noise reduction and is probably the better choice for cleaning high ISO pictures of the 50D (ACR's NR can't match DPP's even if you turn it up). However, it also means that DPP applies at least some chroma noise reduction (and sharpening) even when NR is set to zero which renders the software pretty much less useless for our purposes.
Nevertheless, if you're interested in results that can be achieved with different RAW converters, you can have a look at the 'Software' page in our DSLR reviews where we usually post images of our resolution chart and the studio scene which have been processed in different RAW converters (if available at the time of the review).
Upcoming lens reviews
Comments Off
The level of interest in our Canon 18-200mm review has persuaded us that we should test a few more superzooms in comparison (the great strength of the widget is that we don't need to have the lenses in-house simultaneously for side-by-side shooting). So expect to see some leading 18-2x0 mm zooms interspersed with our still-ongoing series of 50mm primes. Lenses on the shortlist for reviews in the near future include the following:
50mm Lenses:
- Pentax 50mm F1.4 (on K20D)
- Sony/Minolta 50mm F1.4 (on FF and APS-C)
- Canon 50mm F1.8 II
- Nikon 50mm F1.8
Superzooms:
- Sigma 18-200mm OS
- Tamron 18-270mm VC
- Sony/Pentax/Tamron 18-250mm
(The Panasonic/Leica 14-150mm would be an obvious comparison for Four Thirds users, but its limited availability and high price will necessarily affect the final decision on whether we review it.)
At some point we still hope to test the Sony 70-200mm F2.8G on both FF and APS-C, to see if it can justify its stratospheric price-tag in comparison to the competition from Tamron and Sigma.
