ADICT: Accurate Direct and Inverse Color Transformation

Sajadi, Behzad; Lazarov, Maxim; Majumder, Aditi

doi:10.1007/978-3-642-15561-1_6

Cited by 23 publications

(30 citation statements)

References 22 publications

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“…Therefore, our method can also be used in conjunction with previous approaches, for example ADICT [7].…”

Section: Discussionmentioning

confidence: 87%

“…They use a sparse sampling of 13 3 measurements (with a higher density at lower intensities to accommodate for the nonlinear nature of the function) and linearly interpolate in between them. Sajadi, Lazarov and Majumder suggest using 3D Bézier volumes [7] for interpolation and report that using their method with 9 3 sample points yields comparable results to 16 3 samples with linear interpolation. They further report that highend DSLR cameras' color gamuts are wide enough to directly capture the color transfer function of most projectors, so that a 3×3 matrix may be applied to convert the camera's (RAW) sRGB images to XYZ.…”

Section: Related Workmentioning

confidence: 85%

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Dense sampling of 3D color transfer functions using HDR photography

Heinz

Brunnett

2015

2015 IEEE Conference on Computer Vision and Pattern Recognition Workshops (CVPRW)

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To apply brightness and color adjustments to projected images, the color transfer function (CTF) of the projector has to be known. We propose a novel approach to determine the CTF using a high sampling density, which is suitable for modern DLP projectors working with color wheels with additional primaries. Our approach is based on the principle of measuring patterns consisting thousands of color samples at once, using a DSLR camera and high dynamic range photography. To ensure high accuracy, additional correction patterns are introduced to compensate for the influence of the dynamic background light caused by displaying the patterns itself. Furthermore, several permutations of the samples in the patterns are captured to address spatial variances of both the projector and the camera. We show that our method achieves comparable accuracy to existing methods, but is one to two orders of magnitude faster. A 64 3 sampling of the CTF can be acquired in a few hours, compared to several weeks that sequential spot measurements would take. Additionally, we demonstrate that a different configuration of our method can be used to capture 17 3 samples extremely fast, indicating the applicability for cases where sparse sampling is sufficient.

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“…Therefore, our method can also be used in conjunction with previous approaches, for example ADICT [7].…”

Section: Discussionmentioning

confidence: 87%

Section: Related Workmentioning

confidence: 85%

Dense sampling of 3D color transfer functions using HDR photography

Heinz

Brunnett

2015

2015 IEEE Conference on Computer Vision and Pattern Recognition Workshops (CVPRW)

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“…Our system acquires a model, calibrates the projectors and camera, and captures projector-to-camera light transport similar to [ALY08]. Radiometric calibration is performed using [SLM10] or [ALY08]. Then, a compliant appearance A c is computed for a given target appearance.…”

Section: Resultsmentioning

confidence: 99%

“…Radiometric calibration is used in AE as a means to increase the accuracy of reproducing colours (e.g. [NPGB03, GPNB04, WB07, GB08, SLM10]). However, radiometric calibration cannot compensate for strong colour changes where an insufficient amount of projector light radiance makes achieving a target colour fundamentally impossible.…”

Section: Previous Workmentioning

confidence: 99%

Perceptually Based Appearance Modification for Compliant Appearance Editing

Law¹,

Aliaga²,

Sajadi³

et al. 2011

Computer Graphics Forum

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“…The number of required samples can be minimized by sparsely sampling the colors and applying interpolation methods to compute the remaining values. While tri-linear interpolation obviously won't generate satisfying results, more complex interpolation methods as, for example, presented in [17], are able to minimize the errors significantly. This method, however, still requires more than 700 images to be acquired and thus is still not practical, especially if the data has be calculated and stored for each individual pixel.…”

Section: Uncalibrated Photometric Projector Compensationmentioning

confidence: 98%

Practical Non-linear Photometric Projector Compensation

Grundhöfer

2013

2013 IEEE Conference on Computer Vision and Pattern Recognition Workshops

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We propose a novel approach to generate a high quality photometric compensated projection which, to our knowledge, is the first one, which does not require a radiometrical pre-calibration of cameras or projectors. This improves the compensation quality using devices which cannot be easily linearized, such as single chip DLP projectors with complex color processing. In addition, the simple workflow significantly simplifies the compensation image generation. Our approach consists of a sparse sampling of the projector's color gamut and a scattered data interpolation to generate the per-pixel mapping from projector to camera colors in real-time. To avoid out-of-gamut artifacts, the input image is automatically scaled locally in an optional off-line optimization step maximizing the achievable luminance and contrast while still preserving smooth input gradients without significant clipping errors.

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ADICT: Accurate Direct and Inverse Color Transformation

Cited by 23 publications

References 22 publications

Dense sampling of 3D color transfer functions using HDR photography

Dense sampling of 3D color transfer functions using HDR photography

Perceptually Based Appearance Modification for Compliant Appearance Editing

Practical Non-linear Photometric Projector Compensation

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