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Posts Tagged ‘Real’

RED and Lucid unveil 8K 3D camera that produces 4V holographic video in real time

26 May

Computer vision company Lucid and cinema camera maker RED have partnered to create an 8K 3D camera that can capture 4-view (4V) holographic images and video in real-time. The camera is designed to work with RED’s upcoming holographic Hydrogen One smartphone—both by shooting holographic content that can be viewed on the phone’s 4V screen, and by using the modular phone as a “viewfinder.”

The camera itself (which has yet to be named) will be made by RED, but it will be powered by Lucid’s “real-time 3D Fusion Technology.” This tech generates 3D/4V footage in real-time, promising to turn a processing-intensive task into “an instantaneous point-and-shoot experience.”

The camera looks like any other RED cinema camera… sort of. Except instead of one 8K sensor the camera uses two “perfectly hardware-synced” 4K sensors and a beam splitter to capture and output 8K 4-view footage. That footage can be viewed after the fact or even live using the upcoming RED Hydrogen One smartphone, which will be able to integrate directly into the RED 3D/4V and act as a 3D viewfinder.

It’s important to not that this isn’t just a concept. RED and Lucid had a working prototype shooting scenes at the Hydrogen One launch party on May 19th.

If you see this as a gimmick—and an expensive one at that—you’re probably not alone. But Lucid CEO and Co-Founder Han Jin has faith the world is ready for, and in fact craving, 3D/4V content you can digest without goggles or glasses.

“This partnership allows us for the first time to deliver the highest-quality 3D capture to our customers, and now they can view the content immediately in 3D/4V without headsets,” says Jin via press release. “At a time when two of the biggest challenges in the industry have been resolution and easy viewing of 3D content, we believe this is the solution everyone has been waiting for.”

We don’t have official pricing and release date information just yet. All Lucid and RED will reveal is that the camera—colloquially called the RED 3D/4V but still officially unnamed—will “be rolled out” in Q4 of 2018. To learn more about Lucid’s tech or this strange new camera, read the full press release below or visit the Lucid website.

Press Release

Lucid Partners with RED to Build 8K 3D/4V Camera for Hydrogen One

Collaboration will result in the first camera to convert full 8K 3D/4-View (4V) holographic images and videos in real time and the capability to dynamically adjust lens distances for the best 3D focus and zoom

Santa Clara, CA – May 22, 2018 Lucid, the maker of the first VR180 3D camera, LucidCam, announces today it is working with Hollywood camera maker RED to build the next generation prosumer 3D/4-View (4V) camera for 8K video and image capture. The new camera is the first dual camera to give users full 8K video and picture capabilities converting to 4V in real-time while allowing them to shoot like professionals with dynamically adjustable lens distances for the best 3D focus and zoom. By attaching the soon-to-be-released modular holographic phone–RED Hydrogen One–to the camera, users will be able to view 3D/4V content in post and live as if it were the viewfinder.

The new RED camera is powered by Lucid’s real-time 3D Fusion Technology, transforming the time and processing-intensive 3D/4V workflow into an instantaneous point-and-shoot experience users crave. The look and feel of the new camera sticks to RED’s previous designs, but this time it has two perfectly hardware-synced 4K cameras which leverage a beam splitter to capture and convert the output to 8K 4V (.h4v) files. Once the content is created, all the high resolution 3D/4V videos and images can be distributed on YouTube and Facebook as well as through RED’s curated content universe.

“Having RED as a partner allows us to combine the best of both worlds – the highest resolution and quality hardware from RED with the most advanced software, our 3D Fusion Technology,” said Han Jin, CEO and co-founder, Lucid.

The RED and Lucid partnership enables both companies to extend their customer reach. Over the past year, Lucid has shipped and sold thousands of its VR180 3D LucidCams through Amazon and Best Buy as well as direct to consumers online, confirming the market interest and demand for creating and consuming such content. With Lucid’s solid consumer base and RED’s base of independent filmmakers and Hollywood producers, the new camera meets the need of a large, combined audience. The magic of 3D, VR and AR videos and images created by both the LucidCam and the RED 3D/4V camera can be enjoyed on the Hydrogen One without the hassle of wearing headsets.

The unique functions of the Hydrogen One phone in combination with the new 3D camera were showcased with a live 3D/4V preview at RED’s launch party on May 19th. Many people came to experience the holographic display capabilities, which provide a unique ability to let users look around and behind objects through 4-Views, and allow for viewing 3D, VR and AR content without any glasses or goggles. This phone also attaches easily to RED’s new camera and can act as a 3D viewfinder.

“This partnership allows us for the first time to deliver the highest-quality 3D capture to our customers, and now they can view the content immediately in 3D/4V without headsets,” said Jin. “At a time when two of the biggest challenges in the industry have been resolution and easy viewing of 3D content, we believe this is the solution everyone has been waiting for.”

The camera will be rolled out in Q4. Exact pricing is to be announced, as is the name of the camera. It will be sold through RED and its reseller channels.

For more information about Lucid, visit www.lucidcam.com.

Articles: Digital Photography Review (dpreview.com)

 
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Real Estate Photography Tips For Beginners

25 May

Some amateurs think that photographing real estate is as easy as walking into a room and taking a photo. Unfortunately, that’s not how it works. It’s a skill you must practice so you can master it. That is if you want to succeed in this competitive field.  In real estate photography, one of the questions asked by amateurs is the Continue Reading

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Tips for Photographing Real Estate Interiors

17 Apr

In this article, we’ll address the challenges you may face when photographing real estate interiors and a few ways to combat the issues. Shooting bracketed images is the most common and effective way to handle high contrast interiors. Read on below for tips on how to shoot and process interiors.

The problem

Most real estate photographers have entered a room at some stage in their career and thought, “Ah… a dark room with a bright window. Just what I do NOT need!”

Using straightforward post-production techniques to fix either over or underexposed parts of a photograph is practically impossible. So walking into this kind of scene can make your heart sink. The good news is that it’s not so hard to get around the problem posed by these scenes once you are equipped with the right techniques.

Achieving a well-exposed photograph of a dark room with a bright window initially seems impossible. Expose for the interior and the windows are blown out. Expose for the windows and the darker parts of the room are plunged into shadow.

Photo exposed for the interior (1/4 second at f/8), notice the windows are overly bright.

The difference between the brightest and darkest areas, known as dynamic range, is just too great. This is a High Dynamic Range scene, or HDR for short.

Photo exposed for the windows (1/125th at f/8), now you can see the inside is almost completely black.

Our eyes cope with HDR scenes by adjusting the size of our pupils, letting in more or less light as we encounter darker or brighter areas. The brain balances it all out and everything seems well lit.

Unfortunately, when it comes to a dark interior with a bright view, even the best DSLR cameras can’t capture the entire brightness range with a single exposure.

Photo at normal exposure (1/30th at f/8), here you can see some areas are too dark, and the windows are too bright. The camera cannot hold detail in the entire scene, the contrast is too great.

There are two ways you can resolve this issue

  1. You can add light to brighten the room and reduce the dynamic range.
  2. You can take multiple exposures and combine them using software to emulate what our eyes and brain do.

Adding light

To brighten the room, you’ll generally need to supply extra lighting. Just turning on all the available lights is unlikely to solve the problem.

One option is to bring along portable lighting. However, this is another skill to master, another thing to carry, and even though the cost of lighting is falling it’s still another expense. You may also need to bring an extension cable, and hope that the property has power.

You could also use professional flash units, mounted off-camera and triggered remotely. The term professional is important here because less powerful flash units rarely deliver enough light to solve this particular problem.

Effective use of flash units also requires skill. You’ll probably need several flashguns, and the knowledge of which units to use and where to put them. Again, it’s more expense and a lot more kit to carry, especially when you include stands for the units too.

Taking multiple exposures

So what about multiple exposure approaches? One method is the Photoshop approach where you take only two photographs, one correctly exposed for the room and one for the windows, and open them in separate layers in Photoshop.

Once you have manually aligned the two layers (using the Difference blending mode to guide you, zooming in may help as well), with the darker image on the bottom, you then select the blown-out windows on the top layer (the image exposed for the inside of the room). Using a layer mask, make the window areas transparent, and the properly exposed windows in the second shot will show through from underneath.

Unfortunately, this approach rarely results in a convincing and realistic looking image, as two exposures are not enough to cover the entire range of brightness that our eyes perceive. Additionally, the photo exposed for the window will underexpose the window frame and any ornaments on the windowsill, making them look darker than they should be.

A more effective approach involves taking multiple exposures to capture different lighting levels (bracketed photographs) and using HDR software to merge them into an image that’s well-exposed throughout. Shadows are corrected without additional lighting, and bright areas are pulled back without appearing artificial.

Bracketing is very popular with real estate photographers because it overcomes the problems associated with the alternative approaches. All without the cost and inconvenience of more equipment on location – except for one good quality tripod!

Bracketing exposures

Correctly capturing the exposures is key to obtaining the best results with this approach. So let’s look more closely at how professionals do this when photographing real estate interiors so that you can master it yourself.

Essentially, you take a series of identical shots at the same aperture – but using different shutter speeds. A constant aperture keeps the depth of field the same while changing the exposure allows you to capture well-exposed images for all the different lighting levels in the scene.

It is called exposure bracketing because the varying exposure settings are “bracketed” between the slowest and fastest shutter speeds needed.

The Automatic Exposure Bracketing (AEB) function, built into most DSLR and mirrorless cameras, greatly simplifies the process, allowing you to take three or more bracketed exposures with just one shutter release.

In many situations, especially outdoors, it will also save you having to use a tripod. Any camera movements during shooting (inevitable in hand-held shots) are small enough that software with robust alignment features can automatically correct them.

Camera settings

You start the AEB setup by selecting Aperture Priority (Av) mode.

The rest varies between camera models, but typically involves three steps: selecting AEB and continuous shooting mode, choosing the number of bracketed frames, and choosing the number of EV steps between each shot.

Your camera’s user manual will cover the steps needed for your model.

 

Exposure bracketing techniques for interiors

Lighting differences in an interior scene with views through the windows are so great, that taking bracketed exposures may involve more than just setting up AEB and taking the shots, especially when you want the highest quality results.

The main problem comes from the camera’s choice of shutter speed for the baseline or “normal” exposure (0 EV). Bright light through a window can influence a camera’s automatic exposure, resulting in a photo set that is skewed towards underexposure.

Another problem is that capturing the scene could demand more exposures than your camera’s AEB provides. Also, since a low ISO is best to minimize noise in the shadows, you may need quite long exposures. Without a tripod, that will result in blurred images that could ruin the shot.

Quick technique

Even though exposure bracketing is more involved when photographing interiors with window views, you can use a relatively quick technique when the lighting differences aren’t too great and your camera offers a broad AEB exposure range. This is how it works.

After selecting Aperture Priority (Av) mode, point the camera at an area of the room that is neither too dark nor too bright, just ‘average’, and well away from the windows.

Note that the shutter speed when the camera is pointed at the sofa is 1/10th.

Take note of the shutter speed your camera displays for that area. Then switch to Manual mode, make sure the shutter speed is the one you noted, activate the AEB function and take the photos.

While this will certainly be better than a single exposure, you lack control with this technique and you can’t always select the right number of photographs to be taken.

Advanced bracketing technique

When you want to maximize output quality, use this advanced bracketing exposure technique to ensure that you take all the exposures needed to cover the entire lighting range. This gives you far more control, although it takes a little longer and the process is slightly more complex.

This video steps you through the technique, from camera setup to determining what exposures to use, through to taking the photos themselves.

One of the main advantages of this technique is that it establishes precise shutter speeds that match the maximum levels of darkness and brightness in the room. It does this by determining the shutter speeds for both extremes of the lighting range.

This is important because misjudging the correct exposure for the darkest areas can result in an image where the interior isn’t bright enough. While failing to capture the brightest areas results in washed-out looking windows.

How to find the shutter speed for both extremes

You can choose between two methods to find the shutter speeds for the darkest and brightest parts of the scene:

  • Spot Metering method.
  • Histogram check method.

Spot metering method

This is the quickest way to find your needed shutter speeds. Start by selecting Aperture priority, or Av mode, then choose the Spot Metering option from the camera menu.

Spot Metering mode.

Find the longest shutter speed by focusing on the darkest part of the room. While watching the exposure meter in the camera’s viewfinder, adjust the shutter speed until the camera shows it to be the best exposure for that part of the room. Make a note of the recommended shutter speed.

Find the shortest shutter speed by focusing on the brightest part of the room, and repeat the process to find the best shutter speed. Again, note the recommended speed.

Histogram method

The second method to determine the two shutter speeds is more precise and works like this:

  • Set the camera’s LCD screen or image preview to display the brightness histogram.
  • Take a test shot of the darkest area of the room, then examine the histogram.
  • If the left side of the histogram shows a vertical line at the start of the graph, then there are dark areas you’ve not yet captured.
  • Take another shot with a longer shutter speed and repeat the process until the histogram trails off to a flat line on the left. When you see that, you’ve identified the slowest shutter speed needed.

  • Now take a test shot of the brightest part of the room, and again examine the histogram.
  • This time look for a vertical line on the right of the histogram. If you see one, then you’ve not yet captured the brightest parts of the scene.
  • Keep taking shorter exposures, checking the histogram after each one until it shows a flat line to the right of the graph. When you see that, you know the shortest shutter needed.

Many DSLR cameras have a feature that shows overexposed parts of an image. When activated, the highlight warning system makes overexposed areas blink or flash when viewed on the LCD screen. If you see this, increase the shutter speed until the blinking areas stop flashing.

How to bracket your exposures

Once you know these two shutter speeds you can use them in two different ways – one that uses the camera’s built-in Auto Exposure Bracketing (AEB) option, and one that does not.

The full manual method

  • Switch the camera to Manual mode
  • Set the shutter speed to the shortest of your measured shutter speeds and take a photograph.
  • Decrease the shutter speed by one stop (EV) and take the next photograph.
  • Keep reducing the shutter speed by one (EV) stop for each photograph until you reach the longest of the two shutter speeds you measured.

The semi-automated method

  • Open the HDR Exposures Calculator app from HDRsoft.
  • Enter the shortest and longest shutter speeds into the app.
  • Select the maximum number of bracketed frame your camera supports.
  • Select an EV Spacing of 2 if your camera supports it, otherwise go with the highest EV spacing it offers, then click “Get Exposures”.
  • Follow the instructions given by the HDR Exposures Calculator, making sure you have set the camera to AEB mode and selected Continuous Shooting mode before taking a bracketed set.

Additional tips to take the photos

You now know how to measure the longest and shortest exposures you will need, and how to set up your camera to take all exposures between them. Correct technique is important too, so here are some steps to follow to make sure you get good results.

  1. Securely mount the camera on a tripod, and ensure the camera is level.
  2. If the camera is mounted on a tripod, switch off Auto Image Stabilization.
  3. Set the built-in flash to Off if your camera has one.
  4. Attach a remote shutter release to reduce the risk of blur.
  5. Select Manual mode and set an aperture suitable for the lighting and depth of field required.
  6. Set the ISO value, 100 is ideal. Digital noise (the electronic equivalent of grain) increases as the ISO value increases, so keep it as low as possible. Try not to go beyond ISO 400.
  7. Determine the shutter speed required to best expose the darkest part of the room and the shutter speed to best expose the brightest part. See the section above on finding the shutter speeds for both extremes.
  8. Take the exposure bracketed photos as detailed in the previous section.

Once you’ve returned from the shoot, process the images in HDR software. There are various photo applications that can merge multiple exposures to HDR. Photomatix Pro is the first choice among many real estate photographers because it offers presets optimized for interiors, achieving the natural look they strive for.

Using Photomatix Pro with real estate interiors

Photomatix Pro is designed to be easy to use, so you should get comfortable using it pretty quickly.  Here are a few tips to help you get the best out of it for your interior photographs.

Check the Align Source Images option with On Tripod selected (even when you use a tripod, there can be some small camera movement between shots).

Don’t activate the option to remove ghosts. This is important in real estate images as adjusting for ghosting when there isn’t any reduces image quality. If you absolutely must use de-ghosting, for example, because something moved outside a window, be sure to use the selective de-ghosting option, so it can be applied to just the affected window.

When you adjust the merged HDR image, use the drop-down list above the preset thumbnails to show just those related to the Architecture style (or “Real-estate” depending on your Photomatix version).

Lastly, you can use the Finishing Touch panel’s straightening tool to correct sloping floors or walls that aren’t upright. Finally, use the cropping tool to remove edge areas of the photo affected by wide-angle lens distortion or chromatic aberration.

Conclusion

Although getting good photographs of real estate interiors can seem daunting, particularly when bright windows are involved, the right techniques and software make it is achievable without bulky, expensive equipment.

The main points to remember are:

  • Exposure bracketing is the key technique.
  • For simple scenarios, you can bracket based on an average exposure.
  • For other situations, work out the brightest and darkest exposure along with the shots in between.
  • Spot metering or the histogram can help you determine these exposures.
  • You can take the exposures manually, or using AEB and the HDR Exposures Calculator app.

Do you have any questions you’d like to ask about the tips in the article and taking bracketed exposures of interiors? If you do, please let us know in the comments below. If you have any tips of your own, you’re welcome to share them too.

Disclaimer: HDRsoft is a paid partner of dPS

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Shedding Light on the Histogram – 8 Rumors and the Real Facts About this Graph

05 Apr

There have been dozens of articles and many videos published about the purpose and interpretation of the histogram in post-production. It serves a purpose in both the camera capture and post-production processes.

Tons of pulp has been generated about this tiny graph clarifying the general purpose of the histogram. But there is still much to be learned about this graph. This article will clarify some issues while focusing mainly on post-production concerns.

Shedding Light on the Histogram - How to Use it in Post-Production

The individual RGB values are dominant in this image. Only the cracks in the sidewalk and spots of white in the cement cause the spikes on the outside edges of the graph.

Some articles I’ve read portray the histogram as the Holy Grail of digital photography and even describe an ideal histogram shape. Others describe the histogram as an accurate revelation of image health, sort of like a digital EKG. Still, others downplay the value of the statistical feedback completely and totally miss its primary purpose. Listed below are actual quotes from tutorials and articles about the histogram.

Colored Fence - Shedding Light on the Histogram - How to Use it in Post-Production

The two histograms reveal more information than you might think. The RGB graph reveals the same solid yellow and blue colors while the Luminosity graph represents the combined RGB luminosity (effectively, the grayscale equivalent values).

I’ve been adjusting images for decades; long before the graph was publicly introduced and I’ve worked with it every day since so I’d like to weigh-in on rumors and clarify some facts. Once you understand the histogram’s primary function and limitations, you’ll find it to be a solid feedback resource.

The Histogram’s Vertical Lines Defined

RUMOR #1: The histogram is a graphic blueprint of a digital image. The horizontal span represents the image’s tonal range and the vertical lines reflect the contrast of the image; the higher the vertical lines, the more contrast the picture contains.

FACT: The horizontal axis does reflect the image’s tonal range (from the darkest tones to the lightest), though the vertical lines reveal little about its contrast. Actually, the horizontal distribution is what reveals the overall contrast. Tones located mostly on the right reveal very light (or high-key) images while tones favoring the left side are darker (low-key) images.

The extreme right side wall represents white and the extreme left wall of the graph represents solid black. The highest (vertical) peak of the graph merely indicates the highest ratio of pixels containing that particular color tone as it relates to the others. The lowest vertical level on the graph indicates the tone color with the least number of pixels in the image.

Hi Key Low Key Histogram

The left graph represents a high-key or light toned image. The histogram on the right represents a low-key or dark toned image.

Histogram Shape

RUMOR #2: There is a preferred “mountain” shape for a histogram. The ideal shape displays a single peak beginning at the “ground” on one side, reaching upward into a bell shape near the middle, and tapering down to the ground on the other side. An ideal histogram contains information from all channels everywhere, from the left to the right in the graph.

FACT: There are as many histogram shapes as there are images. There is no such thing as a good or bad histogram and there is no such thing as an ideal histogram. Because these graphs reflect each image’s distribution of tones, you’ll be hard-pressed to find any two alike.

Histogram Shapes

Only images containing mostly middle tones will actually display a true bell (mountain) shape on the histogram as in the one top left.

Clipping

RUMOR #3: The extreme left and extreme right sides of the histogram should never hit the “sidewalls” of the graph. If the left or right side hits and travels vertically up the wall, an undesirable effect called “clipping” will occur, indicating that either solid black or solid white “no-detail” areas will be visible in the image. Utilize the warning signs (The Blinkies and triangles) and avoid clipping on either tonal extremes of the graph.

FACT: Depending on whether the image is high-key (medium contrast on a pure white background) or low-key (dramatic lighting with a black background), either side of the mountain may actually resemble a tonal cliff. Real-life lighting dynamics make these wall-climbing graphs quite acceptable. Photos captured against white seamless backdrops are purposely exposed to produce dropout white backgrounds.

Jupiter Air Show - Shedding Light on the Histogram - How to Use it in Post-Production

The U.S. Air Force Thunderbirds screaming across a very bright mid-summer South Florida sky were captured against totally white clouds. The apparent clipping shown in the histogram accurately reports the totally white clouds.

Tone Distribution

RUMOR #4: Histograms that display significant gaps on either side of the graph should be adjusted to distribute the tones more evenly. A well-shaped histogram is a happy histogram.

FACT: Real life lighting doesn’t demand that every scene contain both deep shadows and bright highlights. Images are sometimes brightened or darkened unnecessarily revealing a typical rookie editing mistake. Many times these bookend extremes establish an emotional mood that would be lost if the images were over-corrected in this manner.

Dark Green Leaves2 - Shedding Light on the Histogram - How to Use it in Post-Production

This low-key shaded scene contains very little highlight shades at all.

Corrected Dark Green Leaves2 - Shedding Light on the Histogram - How to Use it in Post-Production

Adjusting the image destroys the rich colors of the low-key scene.

Histogram Gaps

RUMOR #5: The silhouette of the histogram mountain should remain smooth, displaying no gaps or fissures in the mountain shape. These smooth tone transitions are necessary to maintain the photo’s full visual range. Gaps in the histogram’s silhouette indicate an interruption in the gradual tones and will result in banded or posterized stages. These gaps appear because the JPEG image is only 8-bit.

FACT: There are only 256 vertical bars presented in the Histogram. Each horizontal bar represents less than one-half of one percent (0.4%) of the total tonal range (100% / 256 = 0.390625%). Even if a photo contains a very gradual change in tones across a wide area (like an unclouded sky), your eyes will only perceive “banding” if the JPEG image has been degraded by repeated Save functions.

JPEG images contain a maximum of 256 levels (8-bits) of tone between black (solid color) and white (no color). Once JPEG files have been opened and saved a number of times, the number of tone levels can become significantly reduced and tone-banding may occur.

News Journal - Shedding Light on the Histogram - How to Use it in Post-Production

News Journal Gappy - Shedding Light on the Histogram - How to Use it in Post-Production

These two histograms appear quite different though the images are very similar. As you can see, “gappy” pictures rarely interrupt the flowing tones in a photo and often clarify more detail.

Full Range Images

RUMOR #6: 8-bit images (256 levels of tone/color per Grayscale/RGB channel) are required for an image to display the full range of detail contained in a high-resolution digital image.

FACT: The human eye is designed to focus on detail in a scene or image. Detail is a product of contrast, and contrast is only noticeable when adjacent colors display significant differences. For the most part, the fewer colors that are displayed, the more obvious are the differences in those colors. This sounds bad but it is actually quite beneficial. It may fly in the face of popular logic but there is a fundamental truth to be recognized. The picture with the least colors (also known as bit depth) is many times the most detailed picture.

Daytona Beach Bandshell 750px - Shedding Light on the Histogram - How to Use it in Post-Production

Daytona Beach Bandshell 15 Post 750px

The top image contains 256 levels of color per RGB channel; or up to 16,800,000,000 colors. The bottom image contains only 15 levels of color per RGB channel; only 3375 possible colors. This image uses less than 5% of the tones that are used in the top image. Don’t live or die on the issue of bit depth. It is important, but like other issues in life, more isn’t necessarily better.

There is, of course, a reasonable limit to this reduced color observation. Too few levels of color will lose the smooth transitions between colors and thus will also lose detail.

Try this exercise: open a full-range photo in Photoshop and duplicate the image on another layer. Open the Histogram (Window/Histogram). Now select Image > Adjustments > Posterize, enter the number 15 and view the image as a Preview. Watch the Histogram window as you preview the image. The graph will display only 15 vertical columns instead of 256 but the image will look pretty much the same.

The point I’m making is that “gaps” in a normally smooth histogram doesn’t necessarily indicate a visual disaster. Instead, a few gaps might just inject a little more drama in your images.

Smooth Flowing Tones

RUMOR #7: Digital captures should display the highest number of tones possible in order to preserve the smooth continuous tones.

FACT: While nature provides an extreme level of dynamic range and true continuous tone gradation, there is no such thing as “continuous tone” digital images. The word “digital” affirms this statement. Virtually all digital images are comprised of square pixels displaying individual tone values. The perception of continuous tone is an illusion.

Pixel Patch - Shedding Light on the Histogram - How to Use it in Post-Production

These blue pixels were captured from the sky of the Thunderbirds image above. The patch of sky appears as continuous tone in the original picture although the enlarged individual pixels vary quite a bit in value. The top histogram shows the combined channel luminance while the bottom shows individual RGB channel values. It’s complicated.

Exhaustive Reference

RUMOR #8: A Histogram is an exhaustive systematic and statistical accounting of all the internal colors and tones of an image, from dark to light (100% – 0%).

FACT: Each histogram does reveal the relative placement and distribution of all tones and colors, but due to its size, there is a serious limitation to its accuracy. Since editing software histograms are based on a horizontal graph only 256 pixels wide, each representation is a basic overview at best. If the full range of possible colors were truly represented by a single graph, the chart would occupy the wall of a good size room!

HistoMeasurements

Both the top and bottom tonal adjustments were severe enough to create significant gaps in the histogram and to alter the shift of tones in each range, though there are no visible interruptions in the smoothness of each gradation.

Let me break down the numbers. This 256 pixel-wide graph portrays each image’s potential color range using an 8-bit (256 level) interpolation. This means that all 16.8 million possible colors are represented in a mere 256 horizontal point histogram. Tones change levels in 0.4% increments. The graph significantly exaggerates the difference between minor shifts in tonal value.

256 Pixel Histogram2

Human eyes barely perceive a half-percent (0.5%) difference between tones, which is why 256 levels in a JPEG image provides the illusion of continuous tone. This means the histogram uses less than two vertical columns to represent a single percent of change in value.

57 58 percent

The two bottom patches are separated by only 1% in tone, though your eyes may have trouble seeing the difference. The top band shows a gradual change between the two values.

What does all this mean? Quite simply, the histogram delivers a good estimation of overall tone distribution but cannot be relied on for accurate measurement. A few gaps in the graph will rarely be visible to the human eye.

Wrap Up

The histogram is a valuable instrument intended to deliver a quick overview of the makeup and tonal shape of digital images. It was never intended to be a scary reference tool.

Learn to use the histogram to deliver interactive feedback as you work through your editing steps but appreciate the graph for the information it provides; mostly defining the distribution of tones, highlights, and shadows.

What the histogram does not show is whether the image requires internal adjustments to reveal hidden detail. That’s another topic altogether.

Push pixels around and stay focused.

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Tips for Getting Sharper Real Estate Interior Photographs

23 Feb

Photography is a key part of advertising a property for real estate sales. But just as stunning images show the property looking its best, the opposite is also true. Poor photography, with blurred, sloping rooms, and out of focus images does little to inspire viewings.

Here are some basic, but important, steps to help you improve the quality of your interior photos. You’ll see what causes photographs to turn out blurry, and get some handy tips on equipment and techniques to avoid falling into these traps.

Preparing for the shoot

The best techniques for getting sharp photographs can be let down by poorly working equipment, or badly chosen or untidy scenes. So it’s important to start your session with good preparation and follow your check-list. Here are a few things that should be on your list.

1. Check your equipment

Make sure your equipment is okay, batteries are charged, extra lights working, tripod joints tight and in good condition, and that the lens is completely clean. Loose tripod joints, broken lights, and dirty lenses make problems for you later, so good preparation is worthwhile.

2. Make sure everything is clean and tidy

Dirty windows still look dirty in photographs, so take a household cleaning cloth and some glass cleaner. Cleaning everything is always easier than removing debris in post-production.

3. Set the scene

Tidy and set the scene, removing unwanted items from window sills, adjusting furniture positions and cleaning the windows. Don’t forget to look through the window too – a washing line of underwear probably isn’t what your client wants to see!

Think about the final image and what you want, then keep that in your mind throughout the photography session.

Using a tripod

Three common issues ruin a real estate photograph: blur, poor focus, and sloping rooms.

Blur and bad focus often come from camera movement during the long exposures you need when photographing interiors. Rooms appear sloping when the camera is not level.

You can resolve all three problems by securely mounting the camera on a sturdy tripod, which is why a tripod is highly recommended when photographing interiors.

Here are some pro tips for using a tripod:

  • Hang your camera bag from the center of the tripod (if it has a hook, as seen above) to increase stability.
  • Set the tripod exactly where you’ve decided to take the photographs, and extend the thicker sections of the legs first as they provide most stability. Avoid extending the center column as this is the least stable section and will reduce the stability of the tripod.
  • Give the tripod a gentle prod to make sure it won’t slip on the floor or wobble.
  • Mount the camera on the tripod, ensuring that the base plate and mounting are tight and cannot move around.
  • Adjust the tripod head until the camera is perfectly level and the image doesn’t slope to the left or the right. By getting the camera level, you ensure the room won’t look as if it slopes sideways.

For more on getting sharp images with a tripod, read: 5 Tips to Get Sharp Photos While Using a Tripod.

Eliminating sources of camera shake

There are also other sources of blurriness in photos. One of these is called mirror shake.

DSLR cameras have a mirror which sits in front of the camera sensor and helps you see the view through the lens by reflecting the image up to the eyepiece (through a prism). The mirror snaps up and out of the way when you take the photo, creating vibrations that can cause blurring.

You can eliminate this problem by setting it in the up position before taking any photographs. Look in your camera menu for the Mirror LockUp setting.

Left: The mirror is down in this image. Right: the mirror is up here exposing the camera’s sensor.

Conclusion

With good preparation and technique, and the right equipment, you can consistently get sharp, crisp interior photographs. When you set out to capture that image, remember:

  • Set the scene by making the room look neat and clean.
  • Make good use of a tripod.
  • Choose an appropriate lens.
  • Keep your camera stable and free from vibration.

The video tutorial expands on some of these tips, as well as showing other helpful hints for getting sharp photographs like choosing an appropriate lens and focusing correctly.

Watch the video to learn more about tripods, lenses, focusing, and keeping the camera steady.

Please share any other tips you have for taking sharper interior photographs of real estate in the comments area below.

Disclaimer: HDRsoft is a paid partner of dPS

The post Tips for Getting Sharper Real Estate Interior Photographs by David Robinson appeared first on Digital Photography School.


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Real Estate Photography Tips For Beginners

25 Jan

Some amateurs think that photographing real estate is as easy as walking into a room and taking a photo. Unfortunately, that’s not how it works. It’s a skill you must practice so you can master it. That is if you want to succeed in this competitive field.  In real estate photography, one of the questions asked by amateurs is the Continue Reading

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Selfitis, the obsessive taking of selfies, may be a real mental disorder

30 Dec

A viral article published in 2014 claimed that the American Psychiatric Association had established a new mental disorder called “selfitis” — that is, the obsessive taking of selfies. That article, though fake, inspired a real exploratory study to determine whether a condition like the one described in the article could exist…and, the research shows, it very well may.

Of note, the fake viral article had claimed that selfitis existed across three levels of severity: borderline, acute, and chronic. To determine whether that could be true, researchers Mark D. Griffiths and Janarthanan Balakrishnan conducted interviews with a focus group of 225 Indian university students to attempt to create what they called the Selfitis Behavior Scale (SBS) based on those three severities.

Having created the SBS, and as explained in the recently published study, the researchers then attempted to validate it using exploratory factor analysis (EFA). For this, they recruited 734 total students, and identified 400 students as belonging to one of the three severity categories they’d outlined — the breakdown being 34% borderline, 40.5% acute, and 25.5% chronic. The most severely affected age group was 16- to 20-years-old at 56%, while 21 to 25 was the next highest age group at 34%. As well, men represented 57.5% of the categories, while women represented 42.5%.

As a result of the EFA, the two researchers were also able to identify half a dozen factors referred to in the study as “selfitis motivations” — they include social competition, seeking attention, modifying mood, boosting self-confidence, conformity, and enhancing one’s environment.

The researchers note that the study has some limitations, including that the data was self-reported and “subject to many well-known biases.” However, it indicates that a mental disorder like “selfitis” could possibly exist and that it is worth further investigation. “As with internet addiction,” the study states, “the concepts of “selfitis” and “selfie addiction” started as a hoax, but recent research including the present paper has begun to empirically validate its existence.”

Via: PetaPixel

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How to Process Real Estate or Architectural Photos with Aurora HDR 2018

21 Nov

If you’ve ever tried your hand at real estate or architecture photography, you know that these are two of the most complicated forms of photography out there. The challenge is due mostly to having to balance out shadows created by harsh or uneven lighting. Thus, it’s no wonder that High Dynamic Range (HDR) photography is one of the most-used techniques for capturing real estate and architecture photos.

Before I go any further, let’s make it clear that this article is not about defining what HDR photography is or debating its merits. There is a myriad of arguments for and against HDR, but let’s save those are for another article. For now, let’s talk about Aurora HDR 2018 and how it might help you capture and process better HDR images.

How to Process Real Estate or Architectural Photos with Aurora HDR 2018

Simple, intuitive interface

If you’ve made HDR images using other photo editing programs such as Adobe Photoshop, you’ve probably had trouble figuring out how to use the software. One of the best features of Aurora HDR is that it is very stripped down, presenting you with only a few essential options that you can select to create your image. This greatly reduces your learning curve and makes it easy to get started immediately.

Use as standalone or with other programs

Speaking of other photo editing programs, you can use them in conjunction with Aurora HDR. It’s very easy to do. When you install Aurora HDR 2018 you can set it up to work both as a standalone program, or as a plugin for Lightroom, Photoshop, and others.

You don’t need a tripod

Historically, you’ve always needed to shoot bracketed images with a tripod to make sure they’re all aligned before merging them into a single HDR image. Not so with Aurora HDR. Thanks to their handy Alignment feature, Aurora HDR can automatically align your bracketed images (more on this in #2 below). This means that you don’t necessarily need to capture brackets with a tripod.

Of course, your images should be relatively aligned beforehand, but you don’t need the pinpoint accuracy that you used to need with other HDR photo editing programs.

Macphun Aurora HDR Photo Editing

Getting started with Aurora HDR

1. Open Aurora HDR and load images

When you first open Aurora HDR, you’re presented with a straightforward dialogue box that offers you three options (as seen in the screenshot above).

a) Open Image – In the very center is a button labeled “Open Image.” You can click on the button to select your images, or drag and drop them.

b) Batch Processing – If you have multiple sets of bracketed shots that you want to process all at once, drag and drop them into the Batch Processing dialogue box! Aurora HDR is intuitive enough to sort through the batch of files for you and automatically detect and match up your bracketed images.

Aurora HDR Batch Processing

c) Open Sample Image – This is a blue hyperlink below the “Open Image” button that you’ll probably only use the very first time you’re getting your feet wet with Aurora HDR. It exists mainly for demonstration purposes.

2. Set additional settings

For now, let’s assume you chose to Open Images (or, in the demo screenshots below, Load Sample Images). After doing so, another dialogue box appears with just a few options. The Alignment option is visible, and the others pop up when you click on the “Additional Settings” button.

Aurora HDR Brackets

Alignment

As mentioned above, checking the Alignment box will make sure all of your bracketed images line up properly. This means that you could possibly hand hold your camera while taking bracketed shots. But if you’re shooting a paid job, I’d still recommend shooting on a tripod to make sure you get the right shots, in perfect registration.

Ghost Reduction

If you happen to have a moving subject in your HDR brackets, enable the Ghosts Reduction setting. This can minimize the effect of ghosting in which moving objects may appear translucent or ghost-like in your final image. For real estate and architecture photography, you’re unlikely to have moving subjects unless you’re incorporating people in your photo or you can see moving tree branches through a window.

Aurora HDR Options

Get to Ghosts Reduction, Color Denoise, and Chromatic Aberration Removal by clicking on the gear icon (seen here in orange).

Color Denoise

Reduces the low-light noise in color pixels that can sometimes occur when merging photos together. This option is automatically enabled (as seen above), but you can shut it off if you wish.

Chromatic Aberration Reduction

It’s not unusual for real estate or architecture photos to have chromatic aberrations. Luckily, Aurora HDR has an option for minimizing the appearance of the purple and green glow along your image edges that is a clear indication of chromatic aberration.

3. Merge your photos

After checking the settings, click on the blue Create HDR button, and wait for your images to merge. This is perhaps the only downside to Aurora HDR (or, the whole HDR process in general). It takes a minute or two for the images to be merged together, so sit tight!

4. Select a preset or edit with the tools

Once Aurora HDR is done merging your photos, you’ll be presented with a more robust workspace where you can edit your HDR image further.

At the very bottom of the screen are a bunch of presets that you can choose to automatically adjust your image to a certain style. The Basic presets are selected by default, but if you click on the yellow “Categories” hyperlink, a bunch more will appear. For real estate, the Architecture presets are particularly helpful. Once you select a preset, you can adjust the amount to lessen or magnify the effect to your taste.

If you prefer to manually edit the photo with or without presets, use the far right panel where you’ll find basic photo editing tools. Scroll down to find even more editing tools such as Adjustment Layers and Dodge and Burn (more on these below).

aurora HDR

Preset categories here.

Aurora hdr

Lessen the effect of a preset by lowering the slider.

5. Add Adjustment Layers

Another fantastic feature of Aurora HDR is the ability to easily add Adjustment Layers in order to make targeted, non-destructive edits to your image. This is extremely useful in real estate and architecture photography, as you often need to make color and tonal adjustments to your image without inflicting permanent changes on the pixels.

For example, the image below illustrates the addition of an Adjustment Layer that targets the blue tinge in the staircase and chairs in the middle of the image, with the goal of color correction. Adjustment Layers also exist in Photoshop, and they function very similarly in Aurora HDR. The best part is that it is much more intuitive and easier to find in Aurora HDR than they are in Photoshop.

Aurora HDR Adjustment Layers

Adding an Adjustment Layer for local color control in selected areas.

6. Dodge and Burn

If you’ve upgraded to the brand new Aurora HDR 2018 version, you’ll find a couple of essential real estate photo editing tools that are much handier to access: Dodge and Burn Tools! If you’re unfamiliar with dodging and burning, you can read up on these photo editing processes in this dPS article.

In short, dodging helps you brighten targeted areas of an image while burning lets you darken them. Both techniques are essential for real estate photography retouching. In the new version of Aurora HDR, these tools are easily accessible in the right-hand panel. Simply scroll down to the “Dodge and Burn” panel and click on “Start Painting.” This will activate a few settings right above your image.

Aurora HDR Dodge and Burn

Use the Dodge and Burn tools to do special localized tone control in your image.

In Conclusion

If HDR photography sounds interesting to you and you’re looking for an easier way to post-process your images, give Aurora HDR 2018 a shot! Its intuitive, clutter-free interface is relatively easy to learn and you can begin enhancing your real estate photos in no time.

Disclaimer: Macphun is a dPS advertising partner.

Aurora HDR Final

Final image edited with Aurora HDR 2018.

Aurora HDR Sample Images

Before – a single image of a series of brackets.

Before

01 Macphun Aurora HDR Photo Editing

Before

Before

01 Macphun Aurora HDR Photo Editing

01 Macphun Aurora HDR Photo Editing

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Blackmagic unveils DeckLink 8K Pro capture card for ‘real time 8K workflows’

17 Nov

General opinion seems to be that 8K is a long way off, but it’s actually coming much faster than people think, and the industry is gearing up (literally) for it. Case in point: meet the new Blackmagic DeckLink 8K Pro capture card that ‘breaks new ground in high quality’ by supporting formats ranging from SD, to HD, Ultra HD, 4K, 8K and 8K DCI.

Oh, and it can also handle 64 channels of audio, stereoscopic 3D, and high frame rates… you know… just cause.

The card can do all of this because it’s the world’s first to feature quad link 12G?SDI bi-directional connections that Blackmagic says “can be used to either capture or playback quad link 8K, or for the simultaneous capture and playback of single or dual link SDI sources.” And as far as colors go, the DeckLink 8K Pro can work in 12?bit RGB 4:4:4 as well as Rec. 2020, which is, “a massive color space designed for high dynamic range Ultra HD and digital cinema work in 4K and 8K.”

All of this from this little powerhouse of a card:

Photo: Blackmagic

Of course, the bit Blackmagic won’t tell you is that you’ll need a monstrous computer to make any of this work… and an 8K monitor to boot. But if you were paying attention at the beginning of this article you’d already know: 8K is coming and it’s coming fast. Professional videographers and video editors may want to start preparing for it now.

And if that prep involves buying this monster of a card, you should know that the DeckLink 8K Pro will be available starting in early January for $ 645 USD. For more information, check out the full release below or visit Blackmagic’s website for a breakdown of all their DeckLink products.

Press Release

Blackmagic Design Announces DeckLink 8K Pro with Quad Link 12G?SDI

The world’s first quad link 12G-SDI capture and playback card designed for high resolution,?deep color high dynamic range 8K workflows!

InterBEE 2017, Tokyo, Japan – November 15, 2017 – Blackmagic Design today announced DeckLink 8K Pro, a new high performance capture and playback card featuring quad link 12G?SDI to allow real time high resolution 8K workflows. This new DeckLink 8K Pro breaks new ground in high quality as it supports all film and video formats from SD all the way up to 8K DCI, 12?bit RGB 4:4:4, plus it also handles advanced color spaces such as Rec. 2020 for deeper color and higher dynamic range. DeckLink 8K also handles a massive 64 channels of audio, stereoscopic 3D, high frame rates and more.

DeckLink 8K Pro will be available in early January for US$ 645 from Blackmagic Design resellers worldwide.

In addition, Blackmagic Design has also announced a new low price of US$ 895 for DeckLink 4K Extreme 12G.

DeckLink 8K Pro will be demonstrated at InterBEE in Japan on the Blackmagic Design booth 8211.

DeckLink 8K Pro is the ultimate digital cinema capture and playback card. Featuring four quad link multi rate 12G?SDI connections, DeckLink 8K Pro can work in all SD, HD, Ultra HD, 4K, 8K and 8K DCI formats and is compatible with all existing professional SDI equipment. The 12G?SDI connections are also bi-directional so they can be used to either capture or playback quad link 8K, or for the simultaneous capture and playback of single or dual link SDI sources.

When it comes to quality, DeckLink 8K Pro is better than any other solution because it lets customers work with both more pixels than ever before and better pixels than ever before. The 8K images have 16 times more pixels than a regular 1080 HD image, which lets you reframe or scale shots with incredible fidelity and precision. DeckLink 8K Pro also works in 12?bit RGB 4:4:4 as well as Rec. 2020, which is a massive color space designed for high dynamic range Ultra HD and digital cinema work in 4K and 8K.

The combination of higher resolution, a vastly larger color space and incredible dynamic range means that DeckLink 8K Pro delivers the sharpest and most vivid images customers have ever seen for editing, color and high end visual effects work.

DeckLink 8K Pro supports capture and playback of 8 or 10-bit YUV 4:2:2 video and 10 or 12?bit RGB 4:4:4. Video can be captured as uncompressed or to industry standard broadcast quality ProRes and DNx files. DeckLink 8K Pro lets customers work at up to 60 frames per second in 8K and supports stereoscopic 3D for all modes up to 4K DCI at 60 frames per second in 12?bit RGB.

The advanced broadcast technology in DeckLink 8K Pro is built into an easy to install 8 lane generation 3 PCI Express for Mac, Windows, and Linux workstations. Customers get support for all legacy SD and HD formats, along with Ultra HD, DCI 4K, 8K and DCI 8K, as well as Rec. 601, 709 and 2020 color.

DeckLink 8K Pro is designed to work seamlessly with the upcoming DaVinci Resolve 14.2 Studio for an incredibly seamless editing, color and audio post production workflow that lets you master full resolution high dynamic range projects in full 8K resolution. In addition, DeckLink 8K Pro also works with other professional applications such as Final Cut Pro X, Media Composer, Premiere Pro, After Effects, ProTools, Nuke and more. There’s even a free software development kit so customers and OEMs can build their own custom solutions.

“DeckLink 8K Pro is our most advanced PCIe capture and playback card ever,” said Grant Petty, Blackmagic Design CEO. “It’s exciting because the 8K images have so much clarity and detail that it’s as if you’re looking out a window. Whether it’s for the 2020 Olympics or the next generation of Hollywood blockbusters, DeckLink 8K Pro has the speed, quality and compatibility customers need to do their best work!”

Availability and Price

DeckLink 8K Pro will be available from Blackmagic Design resellers worldwide for US$ 645 in early January. DeckLink 4K Extreme 12G is available now from Blackmagic Design resellers worldwide for US$ 895.

Articles: Digital Photography Review (dpreview.com)

 
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Out of This World Architecture: 16 Real Buildings Inspired by Science Fiction

20 Jul

[ By SA Rogers in Architecture & Public & Institutional. ]

From a Star Wars-inspired house in South Korea to a blob-shaped ‘friendly alien’ museum in Austria, these structures make no attempts to hide the sci-fi sources of their inspiration. All 16 of these futuristic buildings are completed or in progress – not just concept art – including flying saucers, pavilions that quiver in the wind, spaceship houses and even murals of Neo from the Matrix in a Buddhist temple.

Faraday Future Campus by MAD Architects

MAD Architects has designed a science-fiction inspired campus for Faraday Future, a company in the midst of producing “the world’s fastest-accelerating electric car.” Set on a former Navy base in Northern California, the campus features a reflective ‘user experience center’ tower that rises above the low complex of buildings. A bridge shoots the customers’ cars right out of the warehouse and into the showroom to meet them.

Star Wars House in Korea by Moon Hoon

The Star Wars House in suburban South Korea by Moon Hoon pays tribute to the film series with its blocky concrete proportions and horizontally banded windows. Inside, there’s a secret room hidden within the shelving water on a wall, and the top floor is conceived as “a control room for the future Darth Vader or Jedi.”

2010 UK Pavilion for the World Shanghai Expo by Thomas Heatherwick

When the renders were released for this incredible pavilion by Heatherwick Studio, many people thought it could never be built as it was illustrated. Its strange blurred form seemed difficult to translate into a 3D structure. But the architects managed to pull off the ‘Seed Cathedral,’ which is made of 60,000 slender transparent fiber optic rods that move in the wind. Each one contains embedded seeds as well as built-in lighting

The United States Air Force Academy Cadet Chapel

Designed by architecture firm Skidmore, Owings & Merrill (SOM) and built in 1962, the United States Air Force Academy Cadet Chapel in El Paso, Colorado mimics the speaks of the Rocky Mountains in which it’s set, featuring seventeen rows of 150-foot-high spires. A steel frame of 100 identical tetrahedrons makes up the base of the structure, enclosed with aluminum panels, the gaps between them filled with colored glass.

The Atomium by Andre Waterkeyn & Andre and Jean Polak

Originally built for the 1958 Brussels World’s Fair, the Atomium stands 335 feet tall, with nine 60-foot-diameter stainless steel spheres connected into the shape of a unit cell of an iron crystal. Five of the spheres are habitable, containing exhibition halls and other public spaces, and the top sphere holds a restaurant with panoramic views of the city.

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Out Of This World Architecture 16 Real Buildings Inspired By Science Fiction

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