Stick-Breaking Dependent Beta Processes with Variational Inference
Authors: 
Zehui Cao, Jing Zhao, Shiliang SunAuthors Info & Claims
Pages 339 - 353
Abstract
The beta processes (BP) is a powerful nonparametric tool in feature learning, which is often used as the prior of Bernoulli process for choosing features from a feature dictionary. However, it still shows a limitation in processing some real-world data, as the stood and BP is independent of data. In practice, the probabilities of selecting features in the latent space for different observed data are different, and they are usually dependent on some information from data, such as the location or time information. For example, data with closer distances usually have similar features. This kind of information (location or time) often called covariates, which are ignored in most BP-related literature. To account this problem, we propose a variational inference based dependent beta processes (VDBP), in which the dependent beta process is constructed using the stick-breaking representation and the dependency on the covariates is captured by a Gaussian process prior. An elegant representation of variational inference for with VDBP prior is obtained, which offers the efficient training method for the models using VDBP as priors. Through instantiating a Bayesian factor analysis model with VDBP, we verify the effectiveness of the proposed VDBP in image denoising and image inpainting tasks.
References
[1]
Kim J, Bukhari W, and Lee M Feature analysis of unsupervised learning for multi-task classification using convolutional neural network Neural Process Lett 2018 47 3 783-797
[2]
Ren W and Han M Classification of EEG signals using hybrid feature extraction and ensemble extreme learning machine Neural Process Lett 2019 50 2 1281-1301
[3]
Sen S, Mitra M, Bhattacharyya A, Sarkar R, Schwenker F, and Roy K Feature selection for recognition of online handwritten Bangla characters Neural Process Lett 2019 50 3 2281-2304
[4]
Hjort NL Nonparametric Bayes estimators based on beta processes in models for life history data Ann Stat 1990 18 1259-1294
[5]
Ghahramani Z, Griffiths TL, and Sollich P Bayesian nonparametric latent feature models Bayesian Stat 2007 8 201-226
[6]
Thibaux R, Jordan MI (2007) Hierarchical beta processes and the Indian buffet process. In: Artificial intelligence and statistics, pp 564–571
[7]
Knowles D, Ghahramani Z (2007) Infinite sparse factor analysis and infinite independent components analysis. In: International conference on independent component analysis and signal separation, pp 381–388
[8]
Gershman SJ and Blei DM A tutorial on Bayesian nonparametric models J Math Psychol 2012 56 1-12
[9]
Paisley J, Carin L (2009) Nonparametric factor analysis with beta process priors. In: International conference on machine learning, pp 777–784
[10]
Zhou M, Chen H (2009) Non-parametric Bayesian dictionary learning for sparse image representations. In: Advances in neural information processing systems, pp 2295–2303
[11]
Ghahramani Z, Griffiths TL (2006) Infinite latent feature models and the Indian buffet process. In: Advances in neural information processing systems, pp 475–482
[12]
Wang Y, Carin L (2012) Lévy measure decompositions for the beta and gamma processes. In: International conference on international conference on machine learning, pp 499–506
[13]
Foti NJ and Williamson SA A survey of non-exchangeable priors for Bayesian nonparametric models IEEE Trans Pattern Anal Mach Intell 2015 37 359-371
[14]
Ren L, Wang Y, Carin L (2011) The kernel beta process. In: Advances in neural information processing systems, pp 963–971
[15]
Zhou M, Yang H (2011) Dependent hierarchical beta process for image interpolation and denoising. In: International conference on artificial intelligence and statistics, pp 883–891
[16]
Wang Y (2014) Gaussian beta process. Master’s thesis, Duke University
[17]
Williamson S, Orbanz P (2010) Dependent Indian buffet processes. In: International conference on artificial intelligence and statistics, pp 924–931
[18]
James LF Bayesian Poisson calculus for latent feature modeling via generalized Indian buffet process priors Ann Stat 2017 45 2016-2045
[19]
Xuan J and Lu J Doubly nonparametric sparse nonnegative matrix factorization based on dependent Indian buffet processes IEEE Trans Neural Netw Learn Syst 2018 29 1835-1849
[20]
Paisley JW, Zaas AK, Woods CW, Ginsburg GS, Carin L (2010) A stick-breaking construction of the beta process. In: International conference on machine learning, pp 847–854
[21]
Paisley JW, Carin L, Blei DM (2011) Variational inference for stick-breaking beta process priors. In: International conference on machine learning, pp 889–896
[22]
Sethuraman J A constructive definition of Dirichlet priors Stat Sin 1994 4 2 639-650
[23]
Paisley J, Jordan MI (2016) A constructive definition of the beta process. arXiv preprint arXiv:1604.00685
[24]
Sun S, Paisley J, Liu Q (2017) Location dependent Dirichlet processes. In: International conference on intelligent science and big data engineering, pp 64–76
[25]
Serra JG and Testa M Bayesian K-SVD using fast variational inference IEEE Trans Image Process 2017 26 3344-3359
[26]
Zhang K, Zuo W, Gu S, Zhang L (2017) Learning deep CNN denoiser prior for image restoration. In: Conference on computer vision and pattern recognition, pp 3929–3938
[27]
Yang J, Qi Z, Shi Y (2020) Learning to incorporate structure knowledge for image inpainting. In: Association for the advancement of artificial intelligence
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© Springer Science+Business Media, LLC, part of Springer Nature 2020.
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Kluwer Academic Publishers
United States
Publication History
Published: 01 February 2021
Accepted: 05 November 2020
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- National Natural Science Foundation of China
- Shanghai Knowledge Service Platform Project
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