 | | Figure 5.1: A selection of example characters in Braille |
| | | Figure 5.2: Transforming a two-dimensional image |
| | | Figure 5.3: Two sine waves |
| | | Figure 5.4: Audio from a commercial CD |
| | | Figure 5.5: Comparison of analog and digital audio signals |
| | | Figure 5.6: The result of compressing and re-expanding a 440 Hz tone |
| | | Figure 5.7: Audio Books and Poetry collection |
| | | Figure 5.8: Encoding and decoding processes in baseline JPEG |
| | | Figure 5.9: Transform-coded images reconstructed from a few coefficients. University of Southern California Image Processing Institute (USC-IPI) image database |
| | | Figure 5.10: Zigzag encoding sequence |
| | | Figure 5.11: Images reconstructed from different numbers of bits (USC-IPI image database) |
| | | Figure 5.12: Progressive versus raster transmission. USC-IPI image database |
| | | Figure 5.13: 8 × 8 tiled template used to generate a PNG interlaced file |
| | | Figure 5.14: Comparison of visual quality of JPEG and JPEG-2000 compression |
| | | Figure 5.15: The Historic Campus Architecture project |
| | | Figure 5.16: The Welcome text example expressed using SVG |
| | | Figure 5.17: Style properties used with basic shapes in SVG |
| | | Figure 5.18: SVG line types |
| | | Figure 5.19: SVG advanced features |
| | | Figure 5.20: MPEG frames |
| | | Figure 5.21: Open Video project |
| | | Figure 5.22: SMIL example |
| | | Figure 5.23: Structure of a SWF file |
| | | Figure 5.24: Chopin digital library from the University of Chicago |
