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UNIT 21: UNDERSTAND
ING VIDEO TECHNOLOGY
U 2 1 A 1 : V I D E O R E C O R D I N G , E D I T I N G A N D B R OA D C A S T T E C H N O LO G Y
GRADING CRITERIA FOR U21A1 REPORT:P1 - describe the principles of digital video technology and digital video recording with some appropriate use of subject terminology• Give definitions of all of the terms covered in this presentationM1 - explain the principles of digital video technology and digital video recording with reference to detailed illustrative examples and with generally correct use of subject terminology• Find examples (pictures) that are relevant to the definitionsD1 - comprehensively explain the principles of digital video technology and digital video recording with elucidated examples and consistently using subject terminology correctly• Use secondary sources of information (quotes/articles/screenshots from films) to support
what you are writing about
TELEVISION STANDARDS AND CONNECTION SYSTEMSa) The RGB system
- This is the standard colour system used in TV & Film- The primary additive colours are Red, Green & Blue- The human eye sees all colours as a combination of these colours- The secondary additive colours are Yellow, Cyan and Magenta- Televisions and computers display all colours as a combination of these colours
- Cameras covert these colours
TELEVISION STANDARDS AND CONNECTION SYSTEMSb) TV Standards The following are colour encoding systems for analogue television- PAL – Phase Alternative Line – was used in the UK and parts of Europe- NTSC – was used in the US- SECAM – was used in FranceThe following are colour encoding systems for digital television- DVB – Digital Video Broadcast – used in the UK and many other companies- DTMB - Digital Terrestrial Multimedia Broadcast – used in China- ISDB - Integrated Services Digital Broadcasting - used in Japan
TELEVISION STANDARDS AND CONNECTION SYSTEMSTwo methods used for "painting" an image on a television screen:• Interlace (for example 1080i)
– PAL – scans 50 lines per second (25 odd, 25 even)– Needs to be de-interlaced by televisions and computer monitors– Can create ‘artefacts’.– Signal bandwidth – cheaper as it requires less bandwidth
• Progressive (for example 720p)– All lines are drawn in sequence– Requires more bandwidth
TELEVISION STANDARDS AND CONNECTION SYSTEMS
You need to define and discuss the different types of Digital cinema/TV formats
TELEVISION STANDARDS AND CONNECTION SYSTEMSc) HDTV – High Definition TV
– 1080 lines at 30 frames per second (FPS)– A lot higher and faster than the analogue TV Signal which was 625 lines at 25
FPS– This faster refresh rate of the frames means that the resolution is much higher
d) Aspect Ratio – to do with the width and height of the image– TV and films were traditionally 4:3– Screens with greater width are widescreen – 16:9– Examples are on the next slide
TELEVISION STANDARDS AND CONNECTION SYSTEMSe) Connection Systems:
– Phono Connections have one video line and two audio lines– SCART connections separate luminescence (brightness) and Chrominance
(colour RGB)– Serial/Parallel Port connections are used in digital systems/computers
• Please research the following and explain where they may be used – also look at USB & Firewire
BROADCAST SYSTEMS
A) Terrestrial Broadcasting– The transmission of a TV signal without it leaving the earth’s atmosphere
BROADCAST SYSTEMS
B) Satellite Broadcasting– The transmission of a TV signal which leaves the earths atmosphere and is
beamed back to the earth via satellite
BROADCAST SYSTEMS
C) Multiplexes– Technology that enables several signals to be transmitted at the same time
along the same path – e.g. multichannel television
PRODUCING IMAGES AND SOUND
PRODUCING IMAGES AND SOUND• How images are produced
– Light passes through the camera lens – The image is focussed on the prism– The light is split into its 3 primary colours– The 3 beams of light pass to 3 Charge Coupled Devices (CCDs) or image sensors– The CCDs transform the light into electrical signals– These signals are then converted through a series of microchips into a digital
image– This digital image is then stored (usually on an SD Card)– The amount of light that reaches the CCDs is determined by the Shutter Speed
and Iris Aperture
PRODUCING IMAGES AND SOUND• The Iris
– Can be opened up or closed down– Smaller aperture = less light– Larger aperture = more light
PRODUCING IMAGES AND SOUND• Shutter Speed
– This is the amount of time that light is processed for each frame• Slow shutter speed = more light• Fast shutter speed = less light
PRODUCING IMAGES AND SOUND• White Balance
– a control on the camera that compensates for the colour effect of day light (blue) and artificial light (yellow)
– Different light has different temperatures and will look different on camera
– White balance compensates for this change in temperature/light
PRODUCING IMAGES AND SOUND• Focus
– Focus is adjusted by changing the position of the lens in relation to the prism
– This helps to sharpen or blur the image
PRODUCING IMAGES AND SOUND• Microphones
– How sound is produced• The head of the microphone vibrates a diaphragm around a magnet when it picks up
sound waves• This produces and electrical signal in the coil
RECORDING AND PLAYBACK
• DVDs and CDs (Digital Versatile Disc/Compact Disc)– They are made of several layers of plastic with a spiral track– Data is written to the disc with a laser that burns ‘pits’ into the spiral track– Data is read by a laser and detector that senses pits in the tracks
RECORDING AND PLAYBACK
• CDs were first used in 1982. They can contain 650MB of info• DVDs were first used in 1996. They can contain between 4.7GB (2 hours)
and 17GB (8 hours) of info (this depends on the structure of the disc and how they are used)
DIGITAL EDITING
• A) Analogue to Digital conversion– Equipment can change an analogue signal into a digital signal
and vice versa– This can be useful for capturing analogue video to a PC for
editing• B) Digital compression
– Images can be condensed into a smaller amount of electrical space (bytes)
– MPEG – ‘Moving Picture Experts Group’ is a common form of compression
– AVI files are larger– Look at the following types of Digital compression, define
them and find out about them
• Different types of Digital file formats:
– AVI– MPG– VOB– MP4– MOV– MKV– WMOV
DIGITAL EDITING
• C) Editing Images and Sound– Linear Editing
• Linear edit systems are analogue• Linear editing is shots that are shot one after the other in the
required order• If an edit is to be changed then all of the following shots have to be
re-edited/re-shot as well• What are the positives and negatives of this kind of editing?
DIGITAL EDITING
• C) Editing Images and Sound– Non-Linear Editing
• Non-Linear editing systems are digital• Shots can be taken in any order at any time• A Non-Linear editing system consists of:
– A tape, film or SD Card– A computer– A monitor– Speakers– Software – Adobe Premiere, Final Cut Pro, Avid
DIGITAL EDITING
• C) Editing Images and Sound– Non-Linear Editing
• Recorded footage is captured from the SD Card
• Captured footage is imported into the project
• The individual clips can then be added to the timeline
• Shots can be cut to the right length and are arranged in the appropriate order
• The edited film can be laid off and then uploaded to a website (YouTube, Vimeo, etc)
What are the positives and negatives of this kind of editing?
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