Perceptual luminance nonlinearity-based image data exchange across different display capabilities

US 9,521,419 B2
Filed: 10/28/2015
Issued: 12/13/2016
Est. Priority Date: 12/06/2011
Status: Active Grant

First Claim

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1. A method comprisingreceiving, by a data encoder, image data to be encoded;

accessing, via the data encoder, a reference data conversion function which determines a mapping between a set of reference digital code values and a set of reference levels based on contrast sensitivity of human vision;

based on the receiving and the accessing, encoding, via the data encoder, the received image data into reference encoded image data; and

outputting, via the data encoder, the reference encoded image data,wherein;

color component values in the received image data are represented by the set of reference digital code values, the reference digital code values having a bit depth of 10 or 12 bits,the mapping is based at least in part on a functional model of;

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Abstract

A handheld imaging device has a data receiver that is configured to receive reference encoded image data. The data includes reference code values, which are encoded by an external coding system. The reference code values represent reference gray levels, which are being selected using a reference grayscale display function that is based on perceptual non-linearity of human vision adapted at different light levels to spatial frequencies. The imaging device also has a data converter that is configured to access a code mapping between the reference code values and device-specific code values of the imaging device. The device-specific code values are configured to produce gray levels that are specific to the imaging device. Based on the code mapping, the data converter is configured to transcode the reference encoded image data into device-specific image data, which is encoded with the device-specific code values.

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18 Claims

1. A method comprisingreceiving, by a data encoder, image data to be encoded;
- accessing, via the data encoder, a reference data conversion function which determines a mapping between a set of reference digital code values and a set of reference levels based on contrast sensitivity of human vision;
  
  based on the receiving and the accessing, encoding, via the data encoder, the received image data into reference encoded image data; and
  
  outputting, via the data encoder, the reference encoded image data,wherein;
  
  color component values in the received image data are represented by the set of reference digital code values, the reference digital code values having a bit depth of 10 or 12 bits,the mapping is based at least in part on a functional model of;
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method of claim 1, wherein:
  - 3. The method of claim 1, wherein the color component is at least one of R, G and B color components.
  - 4. The method of claim 1, wherein the color component is normalized luminance (Y).
  - 5. The method of claim 1, further comprising a step of mapping, via the data encoder, of a digital code value D in the image data to a normalized value V, wherein 0≦
    - V≦
      
      1.
  - 6. The method of claim 5, wherein the digital code value D represents a sampled value of a component of the image data comprised in a serial digital interface (SDI) signal.
  - 7. The method of claim 5, wherein the bit depth is 10 bits and the mapping of the digital code value D to the normalized value V is provided by Table 4 of the specification.
  - 8. The method of claim 1, wherein the image data comprises digital code values D which represent sampled values of a component of the image data, the image data being encoded in one of a high-resolution high dynamic range (HDR) image format, a RGB color space associated with the Academy Color Encoding Specification (ACES) standard of the Academy of Motion Picture Arts and Sciences (AMPAS), a P3 color space standard of the Digital Cinema initiative, a Reference Input Medium Metric/Reference Output Medium Metric (RIMM/ROMM) standard, an sRGB color space, or a RGB color space associated with the BT.709 Recommendation standard of the International Telecommunications Union (ITU).

9. A data encoder configured to encode received image data to reference encoded image data, the data encoder comprising:
- a receiver unit receiving image data to be encoded;
  
  a mapping unit mapping digital code values in a received image data to reference digital code values in the reference encoded image data based on contrast sensitivity of human vision;
  
  an encoding unit encoding, based on the receiving and mapping, the image data into the reference encoded image data; and
  
  a transmission unit transmitting the reference encoded image data;
  
  wherein the mapping unit maps the digital code values based at least in part on a functional model of;
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 10. The data encoder of claim 9, wherein:
  - 11. The data encoder of claim 9, wherein the reference digital code values have a bit depth of 10 or 12 bits and represent color component values in the received image data.
  - 12. The data encoder of claim 11, wherein the color component is at least one of R, G and B color components.
  - 13. The data encoder of claim 11, wherein the color component is normalized luminance (Y).
  - 14. The data encoder of claim 11, wherein the mapping unit is further configured to map a digital code value D in the image data to a normalized value V, wherein 0≦
    - V≦
      
      1.
  - 15. The data encoder of claim 14, wherein the digital code value D represents a sampled value of a component of the image data comprised in a serial digital interface (SDI) signal.
  - 16. The data encoder of claim 14, wherein the bit depth is 10 bits and the mapping unit maps the digital code D to the normalized value V according to a mapping scheme that is provided by Table 4 of the specification.
  - 17. The data encoder of claim 14, wherein the mapping unit is further configured to exclude at least a lowest three and a highest three reference digital code values from the mapping.
  - 18. The data encoder of claim 17, wherein a relationship between the normalized value V and the digital code value D is provided by the function:

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Current Assignee
Dolby Laboratories Licensing Corporation (Dolby Laboratories Incorporated)
Original Assignee
Dolby Laboratories Licensing Corporation (Dolby Laboratories Incorporated)
Inventors
Miller, Jon Scott, Daly, Scott, Nezamabadi, Mahdi, Atkins, Robin
Primary Examiner(s)
MOYER, ANDREW M

Application Number

US14/925,596
Publication Number

US 20160119634A1
Time in Patent Office

412 Days
Field of Search

None
US Class Current

1/1
CPC Class Codes

G06F 3/14   Digital output to display d...

G09G 2320/0276   for the purpose of adaptati...

G09G 2320/0285   using tables for spatial co...

G09G 2320/04   Maintaining the quality of ...

G09G 2340/0428   Gradation resolution change

G09G 2340/0435   Change or adaptation of the...

G09G 2340/06   Colour space transformation

G09G 2340/14   Solving problems related to...

G09G 2370/04   Exchange of auxiliary data,...

G09G 2370/08   Details of image data inter...

G09G 2380/08   Biomedical applications

G09G 5/005   Adapting incoming signals t...

G09G 5/10   Intensity circuits

H04N 19/40   using video transcoding, i....

Perceptual luminance nonlinearity-based image data exchange across different display capabilities

First Claim

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Abstract

73 Citations

18 Claims

Specification

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Perceptual luminance nonlinearity-based image data exchange across different display capabilities

First Claim

1 Assignment

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0 Petitions

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Abstract

73 Citations

18 Claims

Specification

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