Difference between revisions of "MTD2 class 11"
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The eyes resolution is much higher that that of a digital camera or video camera. | The eyes resolution is much higher that that of a digital camera or video camera. | ||
− | The human retina has about 6,000,000 color sensing cone cells and more | + | The human retina has about 6,000,000 color sensing cone cells and more than 100,000,000 rods that perceive light and dark. |
− | The rod cells are sensitive enough to | + | The rod cells are sensitive enough to detect single particle of light (photon) and fire off an signal to the brain. As few as six of these single photon signals is enough for the brain to perceive a light flash. |
http://photo.net/photo/edscott/vis00010.htm | http://photo.net/photo/edscott/vis00010.htm | ||
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RGB Red Green Blue | RGB Red Green Blue | ||
− | 8Bits each [3(RGB) *8(Bits) = 24 Bit color] or 2^24 = 16777216 colors Color Video uses [http://en.wikipedia.org/wiki/YCbCr]YCC ([http://en.wikipedia.org/wiki/YUV YUV](PAL)/[http://en.wikipedia.org/wiki/YIQ YIQ](NTSC)) to be | + | 8Bits each [3(RGB) *8(Bits) = 24 Bit color] or 2^24 = 16777216 colors Color Video uses [http://en.wikipedia.org/wiki/YCbCr]YCC ([http://en.wikipedia.org/wiki/YUV YUV](PAL)/[http://en.wikipedia.org/wiki/YIQ YIQ](NTSC)) to be compatible with Black and White Broadcast |
− | Y is luminance (same luminace used in B&W broadcast). | + | Y is luminance (same luminace used in B&W broadcast). Luminance determines the brightness of the pixel |
The Two C's (the c's are known as chrominance) determine the hue. | The Two C's (the c's are known as chrominance) determine the hue. | ||
==Analog Video== | ==Analog Video== | ||
'''Composite''' | '''Composite''' | ||
− | :One Cable. The luminance and color signals are merged onto one cable because of this mergin some information will be lost due to | + | :One Cable. The luminance and color signals are merged onto one cable because of this mergin some information will be lost due to interference. |
'''S-Video (beter)''' | '''S-Video (beter)''' | ||
− | :Separated the | + | :Separated the luminance and color signal onto separate cables that are encased in one cable |
'''Component (best)''' | '''Component (best)''' | ||
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|VHS ||Composite || Good || Home Video | |VHS ||Composite || Good || Home Video | ||
|- | |- | ||
− | |S-VHS, Hi-8 ||S-Video|| Better || | + | |S-VHS, Hi-8 ||S-Video|| Better || pro-sumer, industrial video |
|- | |- | ||
|BetaSP || Component || Best || broadcast | |BetaSP || Component || Best || broadcast | ||
|} | |} | ||
− | Chroma | + | Chroma Sub sampling http://en.wikipedia.org/wiki/Chroma_subsampling |
− | Because the human eye is less sensitive to color than luminance the chroma is often recorded with lower | + | Because the human eye is less sensitive to color than luminance the chroma is often recorded with lower definition. 4:2:2 color http://en.wikipedia.org/wiki/4:2:2 |
4:1:1 color | 4:1:1 color | ||
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*Read Adobe [http://www.adobe.com/motion/primers.html DV Primer ] | *Read Adobe [http://www.adobe.com/motion/primers.html DV Primer ] | ||
*Practice and demonstrate motion tweening and onion skin animations in two different flash files save as .swf | *Practice and demonstrate motion tweening and onion skin animations in two different flash files save as .swf | ||
− | *Animate on frame of you boards | + | *Animate on frame of you boards using motion tweening or onion skinning |
Revision as of 23:11, 7 November 2006
The Eye
The eyes resolution is much higher that that of a digital camera or video camera. The human retina has about 6,000,000 color sensing cone cells and more than 100,000,000 rods that perceive light and dark.
The rod cells are sensitive enough to detect single particle of light (photon) and fire off an signal to the brain. As few as six of these single photon signals is enough for the brain to perceive a light flash.
http://photo.net/photo/edscott/vis00010.htm
http://en.wikipedia.org/wiki/Eyes
Dynamic Range
- Light contrast of 100:1 or 1,000,000:1 over time
Color Vision
http://en.wikipedia.org/wiki/Color_vision
Digitizing Video
Helical Head recording Toshiba Firsts
RGB Red Green Blue
8Bits each [3(RGB) *8(Bits) = 24 Bit color] or 2^24 = 16777216 colors Color Video uses [1]YCC (YUV(PAL)/YIQ(NTSC)) to be compatible with Black and White Broadcast
Y is luminance (same luminace used in B&W broadcast). Luminance determines the brightness of the pixel The Two C's (the c's are known as chrominance) determine the hue.
Analog Video
Composite
- One Cable. The luminance and color signals are merged onto one cable because of this mergin some information will be lost due to interference.
S-Video (beter)
- Separated the luminance and color signal onto separate cables that are encased in one cable
Component (best)
- Each of of the YCC are given their own cable
Tape Format | Video Format | Quality | Applications |
VHS | Composite | Good | Home Video |
S-VHS, Hi-8 | S-Video | Better | pro-sumer, industrial video |
BetaSP | Component | Best | broadcast |
Chroma Sub sampling http://en.wikipedia.org/wiki/Chroma_subsampling
Because the human eye is less sensitive to color than luminance the chroma is often recorded with lower definition. 4:2:2 color http://en.wikipedia.org/wiki/4:2:2 4:1:1 color
Digital Video(DV)
- DV25 DVCAM, DVPRO DV50, DV100
Digital Cameras
Cameras us a Charge Coupled Device (CCD) to convert light into electicty. [How Digital Cameras Work] A 3CCD camera splits the incoming light into three beam and uses three CCD's to capture each of the RGB values. A 1 CCD Camera can use a color filter array like the Bayer filter pattern to record the RGB color information.
Bayer filters have twice as many green pixels
Homework
- Read Adobe DV Primer
- Practice and demonstrate motion tweening and onion skin animations in two different flash files save as .swf
- Animate on frame of you boards using motion tweening or onion skinning
Links