HDR photography captures a wide range of tones from highlights to shadows by taking multiple bracketed exposures of the same scene and merging them into a composite photo. It boosts creativity by allowing shooting at midday or in overcast conditions. Users include landscape, architectural, and product photographers. To get started, you need a camera that can shoot RAW or JPEG files, a tripod, remote shutter, HDR software like Photomatix, and photo editing software. When shooting HDR photos, set the camera to aperture priority, enable auto exposure bracketing at +/-2 stops, continuous shooting mode, and ISO 100-200 for low noise. Histograms can help determine how many bracketed exposures are needed based on the scene's dynamic range
3. Benefits of HDR Photography Boosts Creativity Can Shoot Mid-Day Overcast is OK The Sun is OK Many Options A Closer Reproduction of Your Eye
4. User’s of HDR Architectural Photography Landscape/Nature Photography Automobile/Product Photography Just being Creative & having FUN
5. What you need to get started Camera that can take **Raw or Jpeg files Good Tripod Remote cable release. (recommended) HDR Software ( Photomatix, NIK, etc. ) Photo Editing Software (Photoshop/ Photo Elements, LR/Aperture, etc
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7. Depress the shutter buttonVoila We now have our 3 , 5, or more images ready to bring into our software . PHOTOMATIX LET’S DO A DEMO!
8. HDR & Histograms Have you ever wondered how many photos to take when capturing your images for HDR. Some will tell you 3, some will say 5 and some people will even tell you 9. The answer is that everyone is correct. When bracketing for HDR you need to consider how large the dynamic range is, the larger the dynamic range the more photos you will need to take. The object of bracketing photos is to capture the entire dynamic range of a scene. So the question is, how do you know what kind of dynamic range you're working with? A great way to judge this is to make use of a histogram which is a tool that can be found on most modern D-SLR cameras.A histogram gathers information about the individual pixels of an images and maps them on to a chart based on the brightness of the each pixel. The bright pixels are mapped to the right and the dark pixels are mapped on the left. The taller portions of the histogram shows that their are more pixels in your photo at that particular brightness.When you photograph a scene with a large dynamic range you will find that some data is clipped on the left and the right of the histogram. This is because the dynamic range exceeds the limits of your cameras sensor. When data is clipped on the left or the right you will have unexposed shadows or blown highlights. When this happens their will be no information saved to your camera for those pixels, so it is basically impossible to correct this post processing.Now when you are capturing your photos to be merged into your HDR you can use the histogram to ensure that you have captured the entire dynamic range. When capturing your photos follow these simple rules:Never space out your exposures more than 2 stops.Have one photo that shows your shadows to be exposed on your histogram.Have one photo that shows your highlights in be exposed on your histogram.