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High Definition Video: Acquisition to Broadcast. Overview. Defining the term “High Definition” Pixel, frame and video formats Image acquisition Storage media Compression Post production Transmission and the digital switchover Reception and “HD Ready” Home entertainment HD. What is HD?.
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Overview • Defining the term “High Definition” • Pixel, frame and video formats • Image acquisition • Storage media • Compression • Post production • Transmission and the digital switchover • Reception and “HD Ready” • Home entertainment HD
What is HD? • Anything providing more resolution than current standard definition (SD) video. • It is a generic term for “better” • It doesn’t specify how much better.
Standard definition • For the UK, a system known as PAL • Broadcast systems comprising 625 lines • 25 frames per second • After signalling and data removed, a frame resolution of 768x576 pixels • Frame aspect of 4:3 (768:576 simplified to it’s lowest common factor)
Standard definition SD, 4:3 3 576 4 768
Standard definition • 768x576 assumes a square pixel • Pixels don’t have to be square and in SD video, they usually aren’t! • 4:3 PAL uses a pixel aspect of 1.066666:1 • Your TV “stretches” the frame horizontally • Anything that increases the size of a pixel reduces resolution
Standard definition Standard definition 3 4
Widescreen • A further extension of this kludge • Very un-square pixels • 16:9 broadcasts take the 720x576 frame and stretch it even more horizontally
Standard definition Widescreen standard definition 3 9 16 4
Standard definition • Uses anamorphic pixels • 4:3 – 1.0666:1 • 16:9 – 1.4222:1 • Results in resolution being lost due to the stretching process
High Definition • Two common formats • 720p • 1080i • SD frame: 720 x 576 • 720p frame: 1280 x 720 (2.2 x SD) • 1080i frame: 1920 x 1080 (5 x SD)
High Definition 1920x1080i, 16:9 1280x720p, 16:9 SD 720x576, 4:3
High Definition(or “what all the fuss is about”) • 1080i provides almost five times the resolution of Standard Definition • Unencumbered by legacy technology • Native 16:9 aspect ratio • True 720p and 1080i are square pixel formats – no resolution-killing scaling when displayed
Image Acquisition • Professional: anything with mechanical manual focus • “Prosumer” – Servo-operated focus / fixed lenses that provide similar functionality to pro cameras • Consumer - point-and-shoot cameras that do all of the hard work for you!
Professional cameras Unlimited budget ARRI 320D • Can shoot film resolutions • CCD is the same size as a 35mm frame • Needs a huge amount of peripherals • Camera alone starts at £200,000 • Lenses £20,000 upwards
Professional cameras Top-end HDC-1500L444 • Native 1080p • Variable frame rates (1 to 60fps) • Still needs lots of peripherals • Camera alone starts at £80,000
Professional cameras Mainstream HD HDW-F900R • Native 1080i • Integral HDCAM recorder • More realistic price: £40,000
Professional cameras Optical storage PDW-F350 • Native 1080i • Integral ProDisc recorder • £10,000
Professional cameras Budget professional JVC GY-HD251E • Native 1080i • Integral 720p HDV recorder • Still uses “proper” lenses • £5000
“Prosumer” cameras Canon XHA1 • Native 1080i • Integral 1080i HDV recorder • Internal focus lens • £2200
“Prosumer” cameras Sony HVR-V1E • Native 1080i • Integral 1080i HDV recorder • Internal focus lens • £1500
Consumer cameras Sony HDR-HC7E • Native 1080i • Integral 1080i HDV recorder • Internal focus lens • £800
Consumer cameras Canon HV20 • Native 1080i • Integral 1080i HDV recorder • Internal focus lens • £650
Consumer cameras Sanyo DMX-HD1000 • Native 1080i • Uses standard SD flash storage • 4.2 megapixel stills • £450
Image Acquisition • For home use, size and convenience are generally more important than features • “More expensive” doesn’t necessarily mean “better” or “more suited” • The manual functions on pro cameras just get in the way when you’re simply trying to shoot something
Lens Image sensor Processing electronics Storage Image Acquisition
Video storage • Tape • Optical disc • Hard drives • Flash memory
Tape: pros • Relatively cheap • Universally accepted for interchange • Long shelf life when stored correctly • Long recording durations
Tape: cons • Linear by nature • Limited record / playback cycles • No warning during recording of drop-out • Easily damaged if handled carelessly • Easily damaged by deck malfunction • Easily damaged by incorrect storage • Decks can be very expensive to maintain
Tape: cons Deck malfunction Incorrect storage
Tape: cons • Linear by nature • Limited record / playback cycles • No warning during recording of drop-out • Easily damaged if handled carelessly • Easily damaged by deck malfunction • Easily damaged by incorrect storage • Decks can be very expensive to maintain
Video storage: Tape Q:Who won the VHS vs. Beta format war? A: Sony’s Beta! • Betacam SP • Betacam SX • MPEG IMX • Digital Betacam • HDCAM • HDCAM SR
Optical disc: pros • Robust • High number of read/write cycles • Non-linear: near instant access • Easy ingest to editing systems • Improved workflow • Supports multiple formats (SD & HD)
Optical disc: cons • Read/write cycles not as high as expected • Harsh conditions can upset recording • Limited shelf-life – data degrades with time
Hard drives: pros • Fast – capable of recording uncompressed • Non-linear – instant access • Capacity – multi-terrabyte • Unlimited read/write cycles • Immediate ingest
Hard drives: cons • Not portable • Camera-to-drive interfaces can be costly • Failures often catastrophic • Not practical for long-term storage • Can be noisy