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

What is claimed is: 1. A method comprising receiving, 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: ( C 1 + C 2 ⁢ Y n 1 + c 3 ⁢ Y n ) m , and n, m, c 1 , c 2 , and c 3 are predetermined values. 2. The method of claim 1 , wherein: n = 2610 4096 × 1 4 ≃ 0.1593017578125 ⁢ ; ⁢ m = 2523 4096 × 128 ≃ 78.84375 ⁢ ; c 1 = c 3 - c 2 + 1 = 3424 4096 ≃ 0.8359375 ⁢ ; c 2 = 2413 4096 × 32 ≃ 18.8515625 ⁢ ; and c 3 = 2392 4096 × 32 ≃ 18.6875 . 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: ( c 1 + c 2 ⁢ Y n