Post on 02-Apr-2015
Camouflage Detection
An introductionPresented by: Ani Starrenburg
General Camouflaging Strategies
Cryptic Camouflage
Little Button Quail Traditional US Army Camouflage Pattern
General Camouflaging Strategies
Mimicry
Dronefly Rose Greenbow,Confederate Spy
General Camouflaging Strategies
Disruption
Sumatran Tiger Dazzle Camouflage
General Camouflaging Strategies
Countershading
Impala Non-Countershaded Warship
Translucence/Transparency
Seawasp Invisibility Cloak
General Camouflaging Strategies
Detecting Camouflaged Objects:
Camouflage Detection Methods
Standard Object Detection Methods Edge Detection Models Contrast Energy Detection Model
Motion Detection Correlation Models Gradient Models Energy Models
Edge Detectors:
Gradient Laplacian LaplacianWith Gaussian
Gaussian
Canny Detector
Optimal Edge Detector Multiple Stage Algorithm
Perform Gaussian smoothing Find edge strengths
|G| = |Gx| + |Gy| Detection of edge direction
theta = invtan(Gy/Gx) Relate edge direction to
a direction that can be traced
in an image Apply non-maximum
suppression Use hysteresis to eliminate streaking
LaPlacian or LoG
Smooth with a Gaussian mask Calculate the second derivatives Search for zero crossings
Or Convolve the image with the
Laplacian of the Gaussian
Contrast Energy (CE) Model
Uses the output signal from similarly-orientedodd o[x] and even e[x] filters.
Energy function is defined as:E2(x) = e2(x) + o2(x)
Always positive
Shows high output when o(x), e(x) or both are high.
Camouflage DetectionMethods to be Discussed
Convexity-Based Detection – exploits the principle of countershading to detect camouflaged objects
Texture Detection – intensive texture analysis distinguishes camouflaged object from background. Also, uses Canny detector to bring up edges
Motion Breaks Camouflage
Region of common velocity is perceivedAs a unit and stands out against the staticbackground
Reichardt Correlation Model
Computes motion as the ratio of the partial derivatives of the input image brightness with respect to space and time.
Two spatially-separate detectors. Output of one of the detectors is delayed. The two outputs are multiplied to determine if there is
a correlation.
Multichannel Gradient Model
Uses multiple channels of higher derivatives
The more derivatives used lowers the chance of that all will be zero at the same time
Uses a least sqaures approximation of the derivatives
Motion Energy Model
Uses two sets of oriented detectors(leftwards and rightwards), each composed of an odd and an even filter.
Energy is calculated by summing the squares of the two similarly-oriented filters.
Calculate opponent energy (difference of leftward and rightward results)
Normalize by dividing by static energy to give velocity estimates
An aside: Research on Active Camouflage
Animals that can escape edge detection
Animals that can camouflage motion
To Do List:
Apply edge detectors and contrast energy detectors to camouflaged and illusory images and view results.
Research visual models developed from observing animal behavior and development.
Research studies in psychology for further understanding of vision process.
Is there a core visual system?
CAMOUFLAGE
ART
Bibliography Motion Illusions and Active Camouflage, Lewis Dartnell
,http://www.ucl.ac.uk/~ucbplrd/motion/motion_middle.html Canny Edge Detection Tutorial, Bill Green,
http://www.pages.drexel.edu/~weg22/can_tut.html Honeybee, http://www.gpnc.org/honeybee.htm Ground-dwelling birds, http://www.birdobservers.org.au/ground_birds.htm Sumatran tiger, http://www.saczoo.com/3_kids/20_camouflage/camouflage_disruptive.htm Biomimicry, http://www.wordspy.com/words/biomimicry.asp Countershading, http://www.shipcamouflage.com/ships2_3_43_countershading.htm Translucence, http://www.gla.ac.uk/ibls/DEEB/teg/project_pages/counter_shading.htm Canny Edge Detection,
http://homepages.inf.ed.ac.uk/rbf/CVonline/LOCAL_COPIES/OWENS/LECT6/node2.html Optical Camouflage, http://projects.star.t.u-tokyo.ac.jp/projects/MEDIA/xv/VRIC2003.pdf Multi-Channel Gradient Model, http://www.psychol.ucl.ac.uk/pmco/McGM.html