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Technical File
Sam Gregory-Haigh
Pixel and Resolution
• Image resolution is the detail an image holds. The term applies to
raster digital images, film images, and other types of images. Higher
resolution means more image detail.
• Image resolution can be measured in various ways. Basically,
resolution quantifies how close lines can be to each other and still
be visibly resolved. Resolution units can be tied to physical sizes
(e.g. lines per mm, lines per inch), to the overall size of a picture
(lines per picture height, also known simply as lines, TV lines, or
TVL), or to angular subtenant. Line pairs are often used instead of
lines; a line pair comprises a dark line and an adjacent light line. A
line is either a dark line or a light line. A resolution 10 lines per
millimeter means 5 dark lines alternating with 5 light lines, or 5 line
pairs per millimeter (5 LP/mm). Photographic lens and film
resolution are most often quoted in line pairs per millimeter.
Vector and Raster Images
• The difference between vector and raster graphics is that raster
graphics are composed of pixels, while vector graphics are
composed of paths. A raster graphic, such as a gif or jpeg, is an
array of pixels of various colours, which together form an image. A
vector graphic, such as an .eps file or Adobe Illustrator? file, is
composed of paths, or lines, that are either straight or curved. The
data file for a vector image contains the points where the paths
start and end, how much the paths curve, and the colours that
either border or fill the paths. Because vector graphics are not
made of pixels, the images can be scaled to be very large without
losing quality. Raster graphics, on the other hand, become "blocky,"
since each pixel increases in size as the image is made larger. This is
why logos and other designs are typically created in vector format --
the quality will look the same on a business card as it will on a
billboard.
File Formats and Uses
• TIFF is, in principle, a very flexible format that can be lossless or lossy. The details of the image storage algorithm are included as part of the file. In practice, TIFF is used almost exclusively
as a lossless image storage format that uses no compression at all. Most graphics programs that use TIFF do not compression. Consequently, file sizes are quite big. (Sometimes a lossless
compression algorithm called LZW is used, but it is not universally supported.)
• PNG is also a lossless storage format. However, in contrast with common TIFF usage, it looks for patterns in the image that it can use to compress file size. The compression is exactly
reversible, so the image is recovered exactly.
• GIF creates a table of up to 256 colors from a pool of 16 million. If the image has fewer than 256 colors, GIF can render the image exactly. When the image contains many colors, software
that creates the GIF uses any of several algorithms to approximate the colors in the image with the limited palette of 256 colors available. Better algorithms search the image to find an
optimum set of 256 colors. Sometimes GIF uses the nearest color to represent each pixel, and sometimes it uses "error diffusion" to adjust the color of nearby pixels to correct for the
error in each pixel.
• GIF achieves compression in two ways. First, it reduces the number of colors of color-rich images, thereby reducing the number of bits needed per pixel, as just described. Second, it
replaces commonly occurring patterns (especially large areas of uniform color) with a short abbreviation: instead of storing "white, white, white, white, white," it stores "5 white."
• Thus, GIF is "lossless" only for images with 256 colors or less. For a rich, true color image, GIF may "lose" 99.998% of the colors.
• JPG is optimized for photographs and similar continuous tone images that contain many, many colors. It can achieve astounding compression ratios even while maintaining very high
image quality. GIF compression is unkind to such images. JPG works by analyzing images and discarding kinds of information that the eye is least likely to notice. It stores information as
24 bit color. Important: the degree of compression of JPG is adjustable. At moderate compression levels of photographic images, it is very difficult for the eye to discern any difference
from the original, even at extreme magnification. Compression factors of more than 20 are often quite acceptable. Better graphics programs, such as Paint Shop Pro and Photoshop, allow
you to view the image quality and file size as a function of compression level, so that you can conveniently choose the balance between quality and file size.
• RAW is an image output option available on some digital cameras. Though lossless, it is a factor of three of four smaller than TIFF files of the same image. The disadvantage is that there is
a different RAW format for each manufacturer, and so you may have to use the manufacturer's software to view the images. (Some graphics applications can read some manufacturer's
RAW formats.)
• BMP is an uncompressed proprietary format invented by Microsoft. There is really no reason to ever use this format.
• PSD, PSP, etc. , are proprietary formats used by graphics programs. Photoshop's files have the PSD extension, while Paint Shop Pro files use PSP. These are the preferred working formats
as you edit images in the software, because only the proprietary formats retain all the editing power of the programs. These packages use layers, for example, to build complex images,
and layer information may be lost in the nonproprietary formats such as TIFF and JPG. However, be sure to save your end result as a standard TIFF or JPG, or you may not be able to view
it in a few years when your software has changed.
• Currently, GIF and JPG are the formats used for nearly all web images. PNG is supported by most of the latest generation browsers. TIFF is not widely supported by web browsers, and
should be avoided for web use. PNG does everything GIF does, and better, so expect to see PNG replace GIF in the future. PNG will not replace JPG, since JPG is capable of much greater
compression of photographic images, even when set for quite minimal loss of quality.
Image Compression
• Image compression may be lossy or lossless. Lossless
compression is preferred for archival purposes and
often for medical imaging, technical drawings, clip art,
or comics. This is because lossy compression methods,
especially when used at low bit rates, introduce
compression artifacts. Lossy methods are especially
suitable for natural images such as photographs in
applications where minor (sometimes imperceptible)
loss of fidelity is acceptable to achieve a substantial
reduction in bit rate. The lossy compression that
produces imperceptible differences may be called
visually lossless.
Image Capture Devices
• A digital camera (or digicam) is a camera that takes video or still
photographs by recording images on an electronic image sensor.
Most cameras sold today are digital,[1] and digital cameras are
incorporated into many devices ranging from PDAs and mobile
phones (called camera phones) to vehicles.
• Digital and film cameras share an optical system, typically using a
lens with a variable diaphragm to focus light onto an image pickup
device. The diaphragm and shutter admit the correct amount of
light to the imager, just as with film but the image pickup device is
electronic rather than chemical. However, unlike film cameras,
digital cameras can display images on a screen immediately after
being recorded, and store and delete images from memory. Many
digital cameras can also record moving video with sound. Some
digital cameras can crop and stitch pictures and perform other
elementary image editing.
Image Optimisation
• Image optimization is using the most compressed (smallest
file size) yet visually acceptable image in the proper file
format for the specific role of the image.
• There are two immediately prevalent reasons for image
optimization: download time and bandwidth used. These may
seem interrelated, but they are important for different
reasons. Hardware storage space is a third reason that many
only really apply in some cases.
Asset Management
• Asset management, broadly defined, refers to any system that
monitors and maintains things of value to an entity or group. It may
apply to both tangible assets such as buildings and to intangible
concepts such as intellectual property and goodwill. Asset
management is a systematic process of operating, maintaining,
upgrading, and disposing of assets cost-effectively, (American
Association of State Highway and Transportation Officials).
Alternative views of asset management in the engineering
environment are: The practice of managing assets to achieve the
greatest return (particularly useful for productive assets such as
plant and equipment), and the process of monitoring and
maintaining facilities systems, with the objective of providing the
best possible service to users (appropriate for public infrastructure
assets).

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Technical file

  • 2. Pixel and Resolution • Image resolution is the detail an image holds. The term applies to raster digital images, film images, and other types of images. Higher resolution means more image detail. • Image resolution can be measured in various ways. Basically, resolution quantifies how close lines can be to each other and still be visibly resolved. Resolution units can be tied to physical sizes (e.g. lines per mm, lines per inch), to the overall size of a picture (lines per picture height, also known simply as lines, TV lines, or TVL), or to angular subtenant. Line pairs are often used instead of lines; a line pair comprises a dark line and an adjacent light line. A line is either a dark line or a light line. A resolution 10 lines per millimeter means 5 dark lines alternating with 5 light lines, or 5 line pairs per millimeter (5 LP/mm). Photographic lens and film resolution are most often quoted in line pairs per millimeter.
  • 3. Vector and Raster Images • The difference between vector and raster graphics is that raster graphics are composed of pixels, while vector graphics are composed of paths. A raster graphic, such as a gif or jpeg, is an array of pixels of various colours, which together form an image. A vector graphic, such as an .eps file or Adobe Illustrator? file, is composed of paths, or lines, that are either straight or curved. The data file for a vector image contains the points where the paths start and end, how much the paths curve, and the colours that either border or fill the paths. Because vector graphics are not made of pixels, the images can be scaled to be very large without losing quality. Raster graphics, on the other hand, become "blocky," since each pixel increases in size as the image is made larger. This is why logos and other designs are typically created in vector format -- the quality will look the same on a business card as it will on a billboard.
  • 4. File Formats and Uses • TIFF is, in principle, a very flexible format that can be lossless or lossy. The details of the image storage algorithm are included as part of the file. In practice, TIFF is used almost exclusively as a lossless image storage format that uses no compression at all. Most graphics programs that use TIFF do not compression. Consequently, file sizes are quite big. (Sometimes a lossless compression algorithm called LZW is used, but it is not universally supported.) • PNG is also a lossless storage format. However, in contrast with common TIFF usage, it looks for patterns in the image that it can use to compress file size. The compression is exactly reversible, so the image is recovered exactly. • GIF creates a table of up to 256 colors from a pool of 16 million. If the image has fewer than 256 colors, GIF can render the image exactly. When the image contains many colors, software that creates the GIF uses any of several algorithms to approximate the colors in the image with the limited palette of 256 colors available. Better algorithms search the image to find an optimum set of 256 colors. Sometimes GIF uses the nearest color to represent each pixel, and sometimes it uses "error diffusion" to adjust the color of nearby pixels to correct for the error in each pixel. • GIF achieves compression in two ways. First, it reduces the number of colors of color-rich images, thereby reducing the number of bits needed per pixel, as just described. Second, it replaces commonly occurring patterns (especially large areas of uniform color) with a short abbreviation: instead of storing "white, white, white, white, white," it stores "5 white." • Thus, GIF is "lossless" only for images with 256 colors or less. For a rich, true color image, GIF may "lose" 99.998% of the colors. • JPG is optimized for photographs and similar continuous tone images that contain many, many colors. It can achieve astounding compression ratios even while maintaining very high image quality. GIF compression is unkind to such images. JPG works by analyzing images and discarding kinds of information that the eye is least likely to notice. It stores information as 24 bit color. Important: the degree of compression of JPG is adjustable. At moderate compression levels of photographic images, it is very difficult for the eye to discern any difference from the original, even at extreme magnification. Compression factors of more than 20 are often quite acceptable. Better graphics programs, such as Paint Shop Pro and Photoshop, allow you to view the image quality and file size as a function of compression level, so that you can conveniently choose the balance between quality and file size. • RAW is an image output option available on some digital cameras. Though lossless, it is a factor of three of four smaller than TIFF files of the same image. The disadvantage is that there is a different RAW format for each manufacturer, and so you may have to use the manufacturer's software to view the images. (Some graphics applications can read some manufacturer's RAW formats.) • BMP is an uncompressed proprietary format invented by Microsoft. There is really no reason to ever use this format. • PSD, PSP, etc. , are proprietary formats used by graphics programs. Photoshop's files have the PSD extension, while Paint Shop Pro files use PSP. These are the preferred working formats as you edit images in the software, because only the proprietary formats retain all the editing power of the programs. These packages use layers, for example, to build complex images, and layer information may be lost in the nonproprietary formats such as TIFF and JPG. However, be sure to save your end result as a standard TIFF or JPG, or you may not be able to view it in a few years when your software has changed. • Currently, GIF and JPG are the formats used for nearly all web images. PNG is supported by most of the latest generation browsers. TIFF is not widely supported by web browsers, and should be avoided for web use. PNG does everything GIF does, and better, so expect to see PNG replace GIF in the future. PNG will not replace JPG, since JPG is capable of much greater compression of photographic images, even when set for quite minimal loss of quality.
  • 5. Image Compression • Image compression may be lossy or lossless. Lossless compression is preferred for archival purposes and often for medical imaging, technical drawings, clip art, or comics. This is because lossy compression methods, especially when used at low bit rates, introduce compression artifacts. Lossy methods are especially suitable for natural images such as photographs in applications where minor (sometimes imperceptible) loss of fidelity is acceptable to achieve a substantial reduction in bit rate. The lossy compression that produces imperceptible differences may be called visually lossless.
  • 6. Image Capture Devices • A digital camera (or digicam) is a camera that takes video or still photographs by recording images on an electronic image sensor. Most cameras sold today are digital,[1] and digital cameras are incorporated into many devices ranging from PDAs and mobile phones (called camera phones) to vehicles. • Digital and film cameras share an optical system, typically using a lens with a variable diaphragm to focus light onto an image pickup device. The diaphragm and shutter admit the correct amount of light to the imager, just as with film but the image pickup device is electronic rather than chemical. However, unlike film cameras, digital cameras can display images on a screen immediately after being recorded, and store and delete images from memory. Many digital cameras can also record moving video with sound. Some digital cameras can crop and stitch pictures and perform other elementary image editing.
  • 7. Image Optimisation • Image optimization is using the most compressed (smallest file size) yet visually acceptable image in the proper file format for the specific role of the image. • There are two immediately prevalent reasons for image optimization: download time and bandwidth used. These may seem interrelated, but they are important for different reasons. Hardware storage space is a third reason that many only really apply in some cases.
  • 8. Asset Management • Asset management, broadly defined, refers to any system that monitors and maintains things of value to an entity or group. It may apply to both tangible assets such as buildings and to intangible concepts such as intellectual property and goodwill. Asset management is a systematic process of operating, maintaining, upgrading, and disposing of assets cost-effectively, (American Association of State Highway and Transportation Officials). Alternative views of asset management in the engineering environment are: The practice of managing assets to achieve the greatest return (particularly useful for productive assets such as plant and equipment), and the process of monitoring and maintaining facilities systems, with the objective of providing the best possible service to users (appropriate for public infrastructure assets).