Machine Teaching. for Personalized Education, Security, Interactive Machine Learning. Jerry Zhu
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1 Machine Teaching for Personalized Education, Security, Interactive Machine Learning Jerry Zhu NIPS 2015 Workshop on Machine Learning from and for Adaptive User Technologies
2 Supervised Learning Review D: training set (x 1, y 1 )... (x n, y n ) Learning algorithm A : A(D) = {θ} Example: regularized empirical risk minimization A(D) = argmin θ n l(θ, x i, y i ) + λω(θ) i=1 Example: version space learner A(D) = {θ consistent with D}
3 Machine Teaching = Inverse Machine Learning Given: learning algorithm A, target model θ Find: the smallest D such that A(D) = {θ } D A A(D) θ 1 Α (θ ) D Α 1 Θ
4 Machine Teaching Example Teach a 1D threshold classifier Given: A = SVM, θ = 0.6 What is the smallest D?
5 Machine Teaching Example Teach a 1D threshold classifier Given: A = SVM, θ = 0.6 What is the smallest D?
6 Machine Teaching as Communication sender = teacher message = θ decoder = A codeword = D
7 Machine Teaching Stronger Than Active Learning Sample complexity to achieve ɛ error: passive learning n = O (1/ɛ)) active learning n = O (log(1/ɛ)): needs binary search machine teaching n = 2: teaching dimension [Goldman + Kearns 1995], the teacher knows θ θ θ θ { O(1/n) O(1/2 ) passive learning "waits" active learning "explores" teaching "guides" { n
8 Why Machine Teaching? Why bother if we already know θ? 1. education 2. computer security 3. interactive machine learning
9 Education Teacher answers three questions: 1. My student s cognitive model A is a (a) SVM (b) logistic regression (c) neural net Student success is defined by (a) learning a target model θ (b) excel on a test set 3. My teaching effort is defined by (a) training set size (b) training item cost... Machine teaching finds the optimal, personalized lesson D for the student.
10 Education Example [Patil et al. 2014] Human categorization task: 1D threshold θ = 0.5 A: kernel density estimator Optimal D: Teaching humans with D: y= 1 y=1 0 θ =0.5 1 human trained on human test accuracy optimal D 72.5% random items 69.8% (statistically significant)
11 Security: Data Poisoning Attack [Alfeld et al. 2016], [Mei + Zhu 2015] Given: learner A, attack target θ, clean training data D 0 Find: the minimum poison δ such that A(D 0 + δ) = {θ }
12 Security: Lake Mendota Data ICE DAYS YEAR Lake Mendota, Wisconsin ice days
13 Security: Optimal Attacks on Ordinary Least Squares min δ, β δ p s.t. β1 0 β = argmin (y + δ) Xβ 2 β ICE DAYS original, β 1 = norm attack, β 1 = YEAR ICE DAYS original, β 1 = norm attack, β 1 = YEAR minimize δ 2 2 minimize δ 1
14 Security: Optimal Attack on Latent Dirichlet Allocation [Mei + Zhu 2015]
15 Optimization for Machine Teaching Bilevel optimization min D D s.t. D θ = argmin θ Θ 1 D (x i,y i ) D l(x i, y i, θ) + Ω(θ) In general min D D TeachingLoss(A(D), θ ) + TeachingEffort(D) Sometimes closed-form solution [Alfeld et al. 2016] [Zhu 2013] Often nonconvex optimization [Bo Zhang, this workshop]
16 Theoretical Question: Teaching Dimension Given: A, θ Find: the smallest D such that A(D) = {θ } Teaching dimension T D = D
17 Theoretical Question: Teaching Dimension Given: A, θ Find: the smallest D such that A(D) = {θ } Teaching dimension T D = D A = version space learner: T D =? [Goldman + Kearns 1995] A = SV M: T D = 2 Learner-specific teaching dimension
18 Teaching Dimension Example: Teaching an SVM Learner A(D) = arg min θ R 2 n i=1 max(1 y ix i θ, 0) θ 2 Target model: θ = ( 1 2, 3 2 ) One training item is necessary and sufficient: T D(θ, A) = 1 x 1 = ( 1 2, 3 2 ), y 1 = 1
19 The Teaching Dimension of Linear Learners [Liu & Zhu 2015] A(D) = argmin θ R d n l(θ x i, y i ) + λ 2 θ 2 2 i=1 goal homogeneous inhomogeneous θ = [w ; b ] ridge SVM logistic ridge SVM logistic parameter 1 λ θ 2 λ θ 2 τ max 2 2 λ w λ w 2 2τ max boundary
20 The Teaching Dimension of Linear Learners [Liu & Zhu 2015] A(D) = argmin θ R d n l(θ x i, y i ) + λ 2 θ 2 2 i=1 goal homogeneous inhomogeneous θ = [w ; b ] ridge SVM logistic ridge SVM logistic parameter 1 λ θ 2 λ θ 2 τ max 2 2 λ w λ w 2 2τ max boundary Teaching Dimension (independent of d) distinct from VC-dimension (d + 1)
21 Interactive Machine Learning You train a classifier Only use item, label pairs (x 1, y 1 )... (x n, y n ) Cost = n to reach small ɛ error
22 Speed of Light [Goldman+Kearns 1995], [Angluin 2004], [Cakmak+Thomaz 2011], [Zhu et al. in preparation] Fundamental Cost of Interactive Machine Learning n Teaching Dimension Optimal teacher achieves n =Teaching Dimension Can be much faster than active learning (recall 2 vs. log 1 ɛ ) Must allow teacher-initiated items (unlike active learning) But some humans are bad teachers...
23 Some Humans are Suboptimal Teachers [Khan, Zhu, Mutlu 2011] Challenge for the computer: make human behave more like the optimal teacher
24 Summary Machine teaching Theory: teaching dimension Algorithm: bilevel optimization Applications: education, security, interactive machine learning
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