video surveillance is useless peter kovesi school of computer science & software engineering the...
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Video Surveillance is Useless
Peter KovesiSchool of Computer Science & Software Engineering
The University of Western Australia
Video Surveillance is Useless
Peter KovesiSchool of Computer Science & Software Engineering
The University of Western Australia
for Identification
Questions
• What image quality do we need for identification?
• How do you measure image quality?
• What is the image quality from a video camera?
• What is the effect on image quality when you: • record to video tape? • use frame grabbers of different quality?• use image compression?
Humans are very bad at recognizing unfamiliar faces
• Kemp, Towell and Pike (1997) tested the value of having photos on credit cards. When a user presented a card with a photograph of someone else that had some resemblance to the user, they were challenged less than 40% of the time.
• Bruce et al. (1999, 2001) have tested the ability of people to match good quality CCTV images of unfamiliar faces under a variety of scenarios. Correct recognition rates are typically only 70-80%.
Good quality photograph of target
Array of 10 good quality CCTV images
Bruce et al (1999).
Is this person in the array?If they are present match the person.
Good quality photograph of target
Array of 10 good quality CCTV images
When target was present in the array. 12% picked wrong person and 18% said they were not present (overall only 70% correct).
When target was not present in the array 70% still matched the target to someone in the array.
Bruce et al (1999).
Is this person in the array?If they are present match the person.
Automated Face Recognition is improving, but there is some way to go.
Face Recognition Vendor Test 2002 Identification performance results:
~ 90% for a database of about 100 individuals
~ 65-75% for a database of about 37,000 individuals
(US visa application photos taken with standardized equipment and with white backgrounds)
Identification performance appears to decline with database size in a log-linear manner.
€
PI (G) =1−α logGdatabase size
system performance parameter
• Even with good quality images face recognition performance, by human or machine, is poor.
• Surveillance video rarely provides good quality images.
• Even with good quality images face recognition performance, by human or machine, is poor.
• Surveillance video rarely provides good quality images.
What image quality is needed for face identification?
Image quality is defined by many attributes
• Minimum feature size that can be resolved
• Noise level
• Quality of luminance reproduction
• Quality of colour reproduction.
It is possible to build up any waveform by adding up a series of sine waves.
The human visual system analyses many aspects of images in terms of different frequency components.
Frequency Analysis of images
Minimum feature size that can be resolved…
(Nasanen 1999)
In humans it has been found that face recognition is tuned to a set of spatial frequencies ranging from about 20 cycles per face width down to about 5 cycles per face width.
The most important spatial frequency for face recognition corresponds to about 10 cycles/face width.
To be able to recognize with some confidence you need to be able to resolve 20 cycles/face width
20 cycles
10 cycles
5 cycles
Human Face Recognition
(Nasanen 1999)
In humans it has been found that face recognition is tuned to a set of spatial frequencies ranging from about 20 cycles per face width down to about 5 cycles per face width.
~ 160mm
20 cycles
10 cycles
5 cycles
Human Face Recognition
8mm
16mm
The most important spatial frequency for face recognition corresponds to about 10 cycles/face width.
To be able to recognize with some confidence you need to be able to resolve 20 cycles/face width
1951 USAF Chart
Groupings of 6 pairs of bars. Each successive set is half the size of the previous.
16mm
8mm
20/20 Vision…
… or in metric, 6/6 vision
Snellen fraction66
Distance at which you should be able to read the line
Distance at which you can read the line on the chart
Minimum Angle of Resolution
88mm
72mm
58mm
36mm
44mm
6/6
6/12
6/24
6/48
Snellenfraction
Letter height
Number plate letters 80mm
Average eye spacing 65mm
logMAR Chart
9mm
18mm
Tests conducted with Pulnix TM6CN 1/2” CCD camera positioned 6m from the target.
Images were digitized directly from the camera using a Data Translation 3155 frame grabber (a good quality monochrome digitizer).
C-mount lenses: 4mm6mm8.5mm12.5mm 16mm
Camera image recorded to video, then played back and digitized. (Look at the USAF chart)
Camera image digitized directly.
Expect to lose quality when images are recorded to video
(cropped images taken with 12.5mm lens)
Compression is problematic.
Test targets survive compression well, but faces do not.
JPEG image quality 0 (14kB) JPEG image quality 4 (24kB)
Original PNG image (190kB)
JPEG images compressed using Photoshop. Image ‘quality’ can range from 0 - 12
Image quality is defined by many attributes
• Minimum feature size that can be resolved
• Noise level
• Quality of luminance reproduction
• Quality of colour reproduction.
Luminance and colour cues are at least as important as shape cues
People perform about equally well using just shape information or just pigmentation cues.
O’Toole et al 1999see also Russell et al 2004
Fixed shapevarying
pigmentation
Fixed pigmentationvarying shape
Original faces
Luminance and colour cues are at least as important as shape cues
People perform about equally well using just shape information or just pigmentation cues.
Image compression typically quantizes colour information very heavily…
O’Toole et al 1999also Russell et al 2004
Fixed shapevarying
pigmentation
Fixed pigmentationvarying shape
Original faces
Conclusions
• Surveillance video, as it is currently used, is almost useless for identification.
• Surveillance cameras should be sited strategically to capture close ups of people as they pass through a constrained point, such as a doorway.
• Image quality standards should be developed for surveillance camera installations.
• Work is needed to develop measures of image degradation caused by compression.
Conclusions
• Identification errors will occur in biometric systems. As database sizes grow this will be an increasing problem.
Claims of misidentification have to be taken seriously.
• Face recognition performance is poor. It should probably only be used for verification of identity (one to one test), and not for identification (one to many test).
Conclusions
• Identification errors will occur in biometric systems. As database sizes grow this will be an increasing problem.
Claims of misidentification have to be taken seriously.
• Face recognition performance is poor. It should probably only be used for verification of identity (one to one test), and not for identification (one to many test).
Conan O’BrienUS talk show host
Tarja HalonenPresident of Finland
Conclusions
• Identification errors will occur in biometric systems. As database sizes grow this will be an increasing problem.
Claims of misidentification have to be taken seriously.
• Face recognition performance is poor. It should probably only be used for verification of identity (one to one test), and not for identification (one to many test).
Conclusions
• Identification errors will occur in biometric systems. As database sizes grow this will be an increasing problem.
Claims of misidentification have to be taken seriously.
• Face recognition performance is poor. It should probably only be used for verification of identity (one to one test), and not for identification (one to many test).