Unit 1 Lesson 01
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Transcript of Unit 1 Lesson 01
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Lesson 1Video and Digital Video Basics
Digital Video BASICS
Schaefermeyer
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Schaefermeyer Digital Video BASICS 22
Objectives
Explain persistence of vision Explain scanning Describe a cathode ray tube Describe the difference between interlaced
and progressive scanning Explain the use of fields and frames
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Schaefermeyer Digital Video BASICS 33
Objectives (continued)
Explain time code and how it is used Explain the analog video signal Describe digital video sampling Understand the concept of video formats Explain the differences between DV and
other digital formats Understand the concepts of compression
and color sampling
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Schaefermeyer Digital Video BASICS 44
Vocabulary
Analog Bandwidth Capture card Cathode ray tube
(CRT) Chrominance Codec Color sampling
Compressed Field FireWire Frame Frame accurate editing Frequency High definition (HD)
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Schaefermeyer Digital Video BASICS 55
Vocabulary (continued)
Hue Interlaced video Linear Luminance National Television
System Committee (NTSC)
Noise
Nonlinear Persistence of vision Pixels Progressive scanning Red, green, blue (RGB) Resolution Sampling
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Schaefermeyer Digital Video BASICS 66
Introduction to VideoPersistence of Vision
The persistence of vision theory states that the human eye holds a still image for a fraction of a second, remaining on the retina long enough to blend with the next image.
Film displays 24 still images each second (frames per second or fps).
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Schaefermeyer Digital Video BASICS 77
Introduction to VideoScanning
A cathode ray technology (CRT) has two basic parts—an electron gun in back and a screen in front.
The inside of the screen is covered with thousands of tiny phosphorus dots called pixels.
The back of a color CRT holds three electron guns: red, green, and blue (RGB).
The electron gun receives the input signal and shoots an electron beam at the screen, lighting up the pixels.
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Schaefermeyer Digital Video BASICS 88
Scanning (continued)
National Television System Committee (NTSC) video is made up of 525 lines of pixels across the screen, called scan lines.
The electron beam scans odd scan lines first, to display half a frame called a field.
Then the beam scans even lines. Using two fields to create a complete image is called interlaced video.
NTSC video runs at 30 frames per second.
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Schaefermeyer Digital Video BASICS 99
Scanning (continued)
The delivery methods for video signals have limited bandwidth (size of the “pipe” that information travels through).
Progressive scanning creates each frame by scanning the scan lines in order.
High definition (HD) uses more scan lines.
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Schaefermeyer Digital Video BASICS 1010
Introduction to VideoTime Code
Each video frame has a unique identifying number called a time code.
In the time code 14:54:32:12, 14 represents hours, 54 means minutes, 32 means seconds, and 12 is the frame number.
The type of editing made possible by time code is called frame accurate editing.
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Schaefermeyer Digital Video BASICS 1111
Introduction to VideoAspect Ratio and Resolution
The width of a visible picture is determined by the aspect ratio.
The aspect ratio for standard definition television is 4:3, meaning for every four pixels across, there are three pixels up.
HD uses a 16:9 aspect ratio and digital video uses a 3:2 aspect ratio.
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Aspect Ratio and Resolution (continued)
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Schaefermeyer Digital Video BASICS 1313
Introduction to VideoAnalog Versus Digital Signals
Audio and video signals that replicate sound or light waves are called analog.
Drawbacks to an analog signal:– Little glitches called noise, which get worse with
each copy (“generational loss”)– Linear nature...you can’t jump back and forth– Bandwidth issues because it is hard to make
smaller
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Schaefermeyer Digital Video BASICS 1414
Analog Versus Digital Signals (continued)
Digital video solves the problems with analog:– Uses a process called sampling so it does not
pick up noise in the signal– Nonlinear editing system means you do not have
to go through the middle to get to the end– Can be compressed to get better video quality
using the same bandwidth
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Schaefermeyer Digital Video BASICS 1515
Introduction to Digital VideoDV Format
Each digital format has its own language called a codec (short for compression/ decompression”)
One way digital video formats compress video is through color sampling—the amount of information used to describe the color in the video image.
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Schaefermeyer Digital Video BASICS 1616
DV Format (continued)
Light=luminance Hue=specific color such as red, blue, or
green Chrominance=amount of saturation Digital video stores all the luminance
information and keeps only part of the color information.
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Schaefermeyer Digital Video BASICS 1717
Introduction to Digital VideoFireWire
A capture card converts video into digital information for the computer.
DV uses a FireWire capture card, allowing users to capture video through a standard port.
A great advantage of DV is that the video comes in as a digital signal and stays that way.
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Schaefermeyer Digital Video BASICS 1818
Summary
A television contains a cathode ray rube (CRT) with two basic parts. The electron gun in back shoots a beam that lights up pixels, which are organized in scan lines, on the screen in front.
One interlaced video frame consists of two fields—the first created by scanning odd numbered lines; the second created by scanning even numbered lines. Video is displayed at 30 fps, or 60 fields per second.
A progressive scanned frame of video is scanned in a single pass, with each line scanned in order. Progressive scanned video can be displayed at 24, 30, or 60 fps.
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Schaefermeyer Digital Video BASICS 1919
Summary (continued)
Analog video copies light waves. Digital video captures points along those waves; the number of points is determined by the sampling frequency.
Analog video is linear and cannot be compressed, or made smaller. Digital video is nonlinear and can be compressed.
DV captures the video at 3.6 Mb, uses 4:1:1 color space, and is displayed in a 3:2 aspect ratio with a display resolution of 720 x 480.
The DV format includes miniDV, DVCPRO, and DVCAM. DV connects to editing stations through FireWire,
eliminating the need for expensive capture hardware.