Sensing, Computing, Actuating · Sensing, Computing, Actuating. 2 DISPLAYS (not covered in the...
Transcript of Sensing, Computing, Actuating · Sensing, Computing, Actuating. 2 DISPLAYS (not covered in the...
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2
DISPLAYS(not covered in the book, slide courtesy of Gerard de Haan)
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3 Displays
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4 Emissive matrix-type display
We need an array of lamps that we can control individually:
Yes, we can! It is called an LED display
▪ Can we make them small enough?
▪ A lot of dimmers…
▪ What about color? Separate lamp for every color?
▪ Will they react quickly enough?
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5 The LED display
Huge array of individual solid-state lamps
Screen detail
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6 Not necessarily emissive…
With a physical phenomenon that allows us to modulate the transparency of a layer we do not need many individual lamps
This is called a transmissive matrix-type display (also: light-valve)
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7 LCD principle - a transmissive matrix-type display
▪ A layer of liquid crystals can change the polarization of light passing through it
▪ Depends on voltage across the layer
▪ When sandwiched between polarizing filters the amount of light from a backlight can be modulated
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8 We can even imagine a display without a lamp
▪ Reflective matrix-type displays use the ambient light and a spatial modulator (light-valve panel)
▪ Using a half-transparent mirror AND a backlight, we get a transflective matrix-type display, e.g. used in mobile phones and cars
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9 We do not need a matrix of lamps or modulators
2D Scanning with a single powerful modulated light source
Should be quick though to prevent flickering…
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10 And we do not need 2D scanning either…
▪ 1D array with 9 LEDs rotating
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11 Many physical phenomena to generate light
▪ Black-body radiation (Incandescent lamp)
▪ Photoluminescence (FL-lamp)
▪ Phosphorescence (glow-in-the-dark toys)
▪ Electroluminescence (LED, OLED, SS-laser)
▪ Many more…
All applicable in matrix and scanning type of display
….
But how do we make adjustable color?
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12 Color definition
▪ Color is that aspect of visual perception that allows us to distinguish differences between two fields of view caused by differences in the spectral composition of the radiant energy emitted by these fields of view
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13 Only part of the spectrum is visible
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14 Relation wavelength and colour
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15 The human eye
▪ the retina has two type of receptors, rods and cones
▪ we perceive color only with the cones, at higher brightness levels
▪ rods and cones are at the back of the retina, the nerves are at front
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16 Cones and rod vision (Ferwerda et al, 1996)
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17 It is a continuum…, and also resolution changes
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18
Three types of cones: L (63%), M (32%) and S (5%)
Spectral sensitivity of rods and cones
S M L
The human eye, perception of colour
We perceive the same colour whenever the different types of cones are stimulated in the same ratio. The spectrum can then be different!
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19 Relative response of the 3 types of cones
The eye’s response to blue much weaker than to red and green
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20 Color vision
▪ Illumination, e.g. by sunlight
▪ Reflection by object
▪ Spectrum of daylight
▪ Convolution of daylight with colored object and…
▪ Color sensitivity of cones…
▪ Gives perceived color▪7
▪6
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21 Color vision
▪ The perceived color is determined by the number of photons on each of the three types of cones
▪ Cones are photon-counters with build in spectral filter
▪ Specific spectral distribution already lost at retina
▪ Two different spectral distributions may appear as the same color under a given illuminant
▪ Species with more (birds, retiles) or less (most mammals) primaries exist
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22 To see yellow, no wavelength of 575nm is necessary
The same colour perception is caused by a mix of light with 650nmand 530nm and no 440nm
Ratio of red, green and blue
determines perceived colour
strength
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23
▪ Used in displays and in fluorescent lamps
▪ Based on red, green and blue primary = RGB-model, sometimes white added for improved efficiency (RGBY)
▪ Primaries defined by emission of phosphors or LEDs (lamps, CRT, PDP, OLED), or color filters (LCD)
▪ Only 3 primary colors required to create every color sensation
Additive colour mixing
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24
▪ Used in printing and photography
▪ Based on cyan, magenta and yellow primary = CMY-model
▪ Sometimes black primary added because combination of C, M and Y often results in dark brown instead of black = CMYK-model
Subtractive colour mixing
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25 Color synthesis – Optical superposition (projection)
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26 Color synthesis – temporal synthesis (color sequential)
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27 Color synthesis – spatial synthesis (CRT, LCD, PDP)
Shadow-mask (colour CRT) Matrix display panel
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28 The same can be used at the camera side
▪ Superposition in the high-end camera:
▪ Split the light from the lens with a prism and…
▪ Use separate (CCD-) sensors for the red, green and blue image
▪ Colour sequential used in slide scanners
▪ Scan the slide with red, green and blue light (filters) successively
▪ Spatial synthesis in economy cameras (home-video)
▪ Deposit colour filters on individual cells of a (CCD-) imaging device (Bayer pattern)
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29 The human eye – resolution (how many pixels?)
The image is spatially sampled by the retina!
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30 Resolution not constant over field of vision
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31 Measuring the limits of vision
▪ “Contrast grating” used to analyze contrast sensitivity . Can vary:
▪ Spatial frequency (bar spacing) - cycles per deg (c/deg)
▪ Contrast (amplitude)
▪ Orientation
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32 What is the required sampling grid? (V-dimension)
▪ We can resolve about 30 cycles/degree
▪ At 6 times picture height, viewing angle is about 10 degrees
▪ The finest pattern on the screen is 10*30=300 cycles
▪ Sampling theorem: we need at least 600 samples (lines)
▪ Is this conclusion correct?
▪ What is the sampling theorem?
▪~10o▪H
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33 The sampling theorem
time
We have a continuous signal
fsfs
2
0 frequency
Sampling theorem: we can reconstruct the continuous signal from its discrete representation, provided it contained no frequencies above half the sampling frequency
We sample it to obtain a discrete representation
Ts
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34 How many (brightness) levels required for digital processing?
Experiments: we can distinguish about 200 levels in an image
We shall use 8 bit representation of luminance
▪8 bit ▪4 bit ▪2 bit
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35 Video is time discrete in the temporal domain
time
More pictures/second affects:
▪ Motion portrayal
▪ Flicker
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36 Frequency response in the temporal domain
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37 Depends on the brightness level, and viewing angle
▪ The flicker threshold shifts to higher frequencies in the periphery of the vision field
▪ Allows us to rapidly recognize approaching danger
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38 Consequences for the design of a video system
▪ The upper limit of the temporal contrast sensitivity curve determines how many pictures/second we need
▪ To prevent visible flicker
▪ For motion portrayal a lower threshold
▪ TV needs less pictures/second than a PC-monitor
▪ Because of smaller viewing angle
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39 Video is time discrete in the temporal domain
time
More pictures/second affects:
▪ Motion portrayal
▪ Flicker
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40 The retina of the eye has a slow response (integration effect)
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41 If we do not track the motion, objects get blurred
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42 Object tracking with the eye
Position on screen
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43 A moving ball on the retina of the tracking eye
Position on screen
picture number
Po
siti
on
on
ret
ina
n-1 n n+1 n+2
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44 With correct tracking, sharp object
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45 Consequences of motion tracking of the eye
▪ A display image is projected on a moving target (retina of the eye)
▪ If the eye moves substantially while the pixel is shown, the pixel size increases (blur)
▪ A pixel is only valid at a single point in space AND time, spatial or temporal spreading or mis-positioning degrades quality
▪ If pixels are not shown simultaneously, there relative position is modified by the eye movement
▪ A single TV-image need not be complete, if soon enough complementary information is shown (interlace, colour sequential display)
▪ The quality of individual images is irrelevant: Photography ≠ Video!
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46 Motion rendering LCD
Previousframe
time
Po
siti
on
(p
ixe
ls)
Current frame
tracking the motion
Nextframe
Result seen by viewer
intensityn n+1 n+2
frame period, T, hold time, ti
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47 Motion blur on display and camera
Camera
The object moves relative to a stationary camera that integrates the image during the shutter time
Hold time
Shutter time
The eye smoothly follows a moving object that remains stationary during the display hold time
Display
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48 Dynamic resolution – Sharpness of moving images
Object moves while shutter of photo-camera is
open…
Eye moves over TV-screen, while image remains the same during picture period…
analogy
Two phenomena with the same result, i.e. motion blur:
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49 Solution 1: Motion rendering, flash backlight when LCD stable
frame period, T
time
Po
siti
on
(p
ixe
ls)
Result seen by viewer tracking the motion
n n+1 n+2
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50
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight, practical implementation
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51
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight
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52
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight
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53
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight
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54
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight
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55
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight
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56
The scanning speed is synchronized with the speed of entering information to the screen.
Flash the backlight when LC reaches desired value
Frame time
Address Flash
Scanning Backlight
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57 Motion rendering, scanning backlight LCD
hold time, ti < frame period, T
time
Po
siti
on
(p
ixe
ls)
Result seen by viewer
n n+1 n+2
Backlight: off on
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58 Motion rendering, scanning backlight LCD
time
Po
siti
on
(p
ixe
ls)
Result seen by viewer tracking the motion
n n+1 n+2
hold time, ti < frame period, T
Backlight: off on
![Page 59: Sensing, Computing, Actuating · Sensing, Computing, Actuating. 2 DISPLAYS (not covered in the book, slide courtesy of Gerard de Haan) 3 Displays. 4 Emissive matrix-type display We](https://reader034.fdocuments.us/reader034/viewer/2022052011/60279c8d55534311a7418bff/html5/thumbnails/59.jpg)
59 This is what it looks like
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60
▪Lamp
driver
▪ 8 light
sources
▪Reflective
polarizer
▪diffuser
▪collimato
r
▪see through view of an Aptura scanning backlight
This is what it looks like
▪See through view of an Aptura scanning backlight
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61 Alternative: Scanning Highlighting Backlight
▪stripe in scattering mode
▪is scanned through
▪the light guide
▪light output
▪common electrode
▪Glass substrates▪row electrodes▪Light source
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62 Solution 2 for motion: change picture rate
Original imageintermediate image: black
Combined image as seen by viewer
input frame periodtime
(frames)
n
n+1
▪ Shortening the light emission time of each frame decreases motion blur (insert black frames)
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63 Motion rendering standard LCD
Previousframe
time
Po
siti
on
(p
ixe
ls)
Current frame
tracking the motion
Nextframe
Result seen by viewer
intensityn n+1 n+2
frame period, T, hold time, ti
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64 Motion rendering, black frame insertion
frame period, T/2 = hold time, ti
time
Po
siti
on
(p
ixe
ls)
Result seen by viewer tracking the motion
n n+1 n+2
Insert black frame
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65 Improved option: Motion compensated picture rate doubling
frame period, T = hold time, ti
time
Po
siti
on
(p
ixe
ls)
n n+1 n+2
Result seen by viewer tracking the motion
motion compensated interpolation
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66 Improvement with MC picture-rate doubling
frame period, T/2
time
Po
siti
on
(p
ixe
ls)
Result seen by viewer tracking the motion
n n+1 n+2
![Page 67: Sensing, Computing, Actuating · Sensing, Computing, Actuating. 2 DISPLAYS (not covered in the book, slide courtesy of Gerard de Haan) 3 Displays. 4 Emissive matrix-type display We](https://reader034.fdocuments.us/reader034/viewer/2022052011/60279c8d55534311a7418bff/html5/thumbnails/67.jpg)
67 Blur of BFI same as MC picture-rate doubling
frame period, T/2
time
Po
siti
on
(p
ixe
ls)
Result seen by viewer tracking the motion
n n+1 n+2
▪ But with half intensity and reduced contrast!
![Page 68: Sensing, Computing, Actuating · Sensing, Computing, Actuating. 2 DISPLAYS (not covered in the book, slide courtesy of Gerard de Haan) 3 Displays. 4 Emissive matrix-type display We](https://reader034.fdocuments.us/reader034/viewer/2022052011/60279c8d55534311a7418bff/html5/thumbnails/68.jpg)
68 Options to improve motion on LCD
1. Pulsing backlight
2. Shorten picture time (more pictures/second)
3. Sharpening dependent on object velocity
50 pictures/
second
100 pictures/
second