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IEEE International Conference on Image Processing 2013. KINSHIP CLASSIFICATION B Y MODELING FACIAL FEATURE HEREDITY. Ruogu Fang 1 , Andrew C. Gallagher 1 Tsuhan Chen 1 , Alexander Loui 2 1 Cornell University 2 Eastman Kodak Company.
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IEEE International Conference on Image Processing 2013 KINSHIP CLASSIFICATION BYMODELING FACIAL FEATURE HEREDITY Ruogu Fang1, Andrew C. Gallagher1 Tsuhan Chen1, Alexander Loui2 1 Cornell University 2 Eastman Kodak Company
KINSHIP CLASSIFICATION BYMODELING FACIAL FEATURE HEREDITY Problem Definition: Recognizethe family that a query person belongs to from a set of families. Solution: Reconstruct the query face from a mixture of parts from a set of family members for the recognition. Motivation: Geneticmodelofreproductionusingthemathematicaltoolofsparsity.
A genetic perspective • Why do we look like the way that we do? • DNA • How are our appearances affected by ancestors? • Inheritance and mutation • Facial features are part of the appearance. DNA Thefacialfeatureheredityalsofollowthemodelofgenetics.
Mendel’s LawsI • Law of Random Segregation: For every particular trait, one randomly selected allele from each parent is passed down to the offspring. B: Brown eyes (dominant) b: blue eyes (recessive) Each facialfeature ofanindividualcan be represented by a sparse combination of the relatives with this feature. b b B b B b B b Bb Bb BB Bb Bb bb bb bb
family sparsity Few families are selected. ?
Energy function • For one family, given sufficient training samples ofafamily (m = feature length, n = number of training samples) • A new sample from the same family • Approximately lies in the linear span of the family member samples associated with this family • For all unrelated families, L2,1 norm: Family sparsity term N= # families L1 norm: Individual sparsity term (illumination, pose and expression)
Mendel’s LawsII • Law of Independent Assortment: Genes of separate traits are passed down independently from parents to offspring. Thefacialfeaturesshouldbeanalyzedindependently. Credit:NortheastMedicalSchool
Independence of facial parts For each part, a part-based dictionary is built.
Reconstruction error for part p from family j classification Error Remove outliers due to recessive genes … • Choose three representative parts with smallest possible residues R. • Rank the normalized residues for all families on these three parts. • Sum the ranks and use the highest rank. # families Error … Byproduct: Find the three most distinguishable features # families … Error … # families
Potential applications Family Image Retrieval Family Photo Album Distillation Tag Your Family Members From Sara Lee’s family? From Kelly Ng’s family? Social Websites: Auto Family Tagging Find Lost Relatives
Family 101 database • 607 Individuals • 14,816 Images Download: http://tinyurl.com/kinshipclassification • 101 Different Families Kennedy 27 (410) # people # images
family database Collection Kennedy Family 27 Individuals 48 Images of Caroline Kennedy
Related databases • Facts about Family101 Database • Multiple generations • Every nuclear family has 6 family members on average • Every individual has 24 images on average
Experiment setup • Feature: Dense SIFT 16x16 • Baseline • K nearest neighbors (KNN) • Support vector machine (SVM) • Sparse representation based recognition (SRC) • Unless specified in each scenario: • 3 family members for training, 2 for testing. • 20 families randomly selected for evaluation. • 30 images/person for both training and testing. • Evaluation metric: Mean per-family accuracy
Exp 1: No. of families 3 family members for training 2 family members for testing 30 images/person for training/testing
Exp 2: No. of people for training 20 families randomly selected 30 images/person for training/testing
Facial Feature Matching • Task: Find the people with similar facial features to the query person. Martin Sheen High coefficients Martin Sheen Hair Eyes Nose Test Images Mouth Training Images Low
conclusion • Motivation: biological process of inheritance • Mendel’s laws of random segregation and independent assortment • A new challenge: kinship classification • A new framework: reconstruct the query face from a mixture of parts from a set of families • A new dataset: Family 101
Future work • Use family tree structure • Hallucination • Hallucinate what the appearance of the father might be, just by looking at the differences between a child and her mother.
KINSHIP CLASSIFICATION BYMODELING FACIAL FEATURE HEREDITY Ruogu Fang Andrew C. Gallagher Q & A Thank you! ProjectPageandDatasetDownload: http://tinyurl.com/kinshipclassification Tsuhan Chen Alexander Loui
Face detection & alignment Face Alignment: 6 Fiducial Points Active Shape Model: 82 Facial Points Face Detection