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51. Statistical model of natural stimuli predicts edge-like pooling of spatial frequency channels in V2

Author

Gutmann Michael, Hyvärinen Aapo, and Hoyer Patrik O

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495
Abstract

Abstract Background It has been shown that the classical receptive fields of simple and complex cells in the primary visual cortex emerge from the statistical properties of natural images by forcing the cell responses to be maximally sparse or independent. We investigate how to learn features beyond the primary visual cortex from the statistical properties of modelled complex-cell outputs. In previous work, we showed that a new model, non-negative sparse coding, led to the emergence of features which code for contours of a given spatial frequency band. Results We applied ordinary independent component analysis to modelled outputs of complex cells that span different frequency bands. The analysis led to the emergence of features which pool spatially coherent across-frequency activity in the modelled primary visual cortex. Thus, the statistically optimal way of processing complex-cell outputs abandons separate frequency channels, while preserving and even enhancing orientation tuning and spatial localization. As a technical aside, we found that the non-negativity constraint is not necessary: ordinary independent component analysis produces essentially the same results as our previous work. Conclusion We propose that the pooling that emerges allows the features to code for realistic low-level image features related to step edges. Further, the results prove the viability of statistical modelling of natural images as a framework that produces quantitative predictions of visual processing.

Published
2005
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52. DirectLiNGAM: A Direct Method for Learning a Linear Non-Gaussian Structural Equation Model

Author

Hoyer, Patrik O., Inazumi, Takanori, Bollen, Kenneth, Washio, Takashi, Hyvarinen, Aapo, Kawahara, Yoshinobu, Sogawa, Yasuhiro, Hoyer, Patrik, and Shimizu, Shohei

Abstract

Structural equation models and Bayesian networks have been widely used to analyze causal relations between continuous variables. In such frameworks, linear acyclic models are typically used to model the data-generating process of variables. Recently, it was shown that use of non-Gaussianity identifies the full structure of a linear acyclic model, i.e., a causal ordering of variables and their connection strengths, without using any prior knowledge on the network structure, which is not the case with conventional methods. However, existing estimation methods are based on iterative search algorithms and may not converge to a correct solution in a finite number of steps. In this paper, we propose a new direct method to estimate a causal ordering and connection strengths based on non-Gaussianity. In contrast to the previous methods, our algorithm requires no algorithmic parameters and is guaranteed to converge to the right solution within a small fixed number of steps if the data strictly follows the model.

Published
2011
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53. Telling cause from effect based on high-dimensional observations

Author

Janzing, Dominik, Hoyer, Patrik O., and Schoelkopf, Bernhard

Subjects
FOS: Computer and information sciences, Statistics - Machine Learning, Machine Learning (stat.ML)
Abstract

We describe a method for inferring linear causal relations among multi-dimensional variables. The idea is to use an asymmetry between the distributions of cause and effect that occurs if both the covariance matrix of the cause and the structure matrix mapping cause to the effect are independently chosen. The method works for both stochastic and deterministic causal relations, provided that the dimensionality is sufficiently high (in some experiments, 5 was enough). It is applicable to Gaussian as well as non-Gaussian data., Comment: 13 pages, 5 figures

Published
2010

54. Combining Experiments to Discover Linear Cyclic Models with Latent Variables

Author

Scheines, Richard, Eberhardt, Frederick, Hoyer, Patrik O., Helsinki Institute for Information Technology, and Department of Computer Science

Subjects
Philosophy, FOS: Philosophy, ethics and religion
Abstract

We present an algorithm to infer causal relations between a set of measured variables on the basis of experiments on these variables. The algorithm assumes that the causal relations are linear, but is otherwise completely general: It provides consistent estimates when the true causal structure contains feedback loops and latent variables, while the experiments can involve surgical or `soft' interventions on one or multiple variables at a time. The algorithm is `online' in the sense that it combines the results from any set of available experiments, can incorporate background knowledge and resolves conflicts that arise from combining results from different experiments. In addition we provide a necessary and sufficient condition that (i) determines when the algorithm can uniquely return the true graph, and (ii) can be used to select the next best experiment until this condition is satisfied. We demonstrate the method by applying it to simulated data and the flow cytometry data of Sachs et al (2005).

Published
2010
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55. Discovering cyclic causal models with latent variables: a general SAT-based procedure

Author

Nicholson, Ann, Smyth, Padhraic, Hyttinen, Antti, Hoyer, Patrik O., Eberhardt, Frederick, Järvisalo, Matti, Nicholson, Ann, Smyth, Padhraic, Hyttinen, Antti, Hoyer, Patrik O., Eberhardt, Frederick, and Järvisalo, Matti

Abstract

We present a very general approach to learning the structure of causal models based on d-separation constraints, obtained from any given set of overlapping passive observational or experimental data sets. The procedure allows for both directed cycles (feedback loops) and the presence of latent variables. Our approach is based on a logical representation of causal pathways, which permits the integration of quite general background knowledge, and inference is performed using a Boolean satisfiability (SAT) solver. The procedure is complete in that it exhausts the available information on whether any given edge can be determined to be present or absent, and returns "unknown" otherwise. Many existing constraint-based causal discovery algorithms can be seen as special cases, tailored to circumstances in which one or more restricting assumptions apply. Simulations illustrate the effect of these assumptions on discovery and how the present algorithm scales.

Published
2013

56. Causal discovery of linear cyclic models from multiple experimental data sets with overlapping variables

Author

de Freitas, Nando, Murphy, Kevin, Hyttinen, Antti, Eberhardt, Frederick, Hoyer, Patrik O., de Freitas, Nando, Murphy, Kevin, Hyttinen, Antti, Eberhardt, Frederick, and Hoyer, Patrik O.

Abstract

Much of scientific data is collected as randomized experiments intervening on some and observing other variables of interest. Quite often, a given phenomenon is investigated in several studies, and different sets of variables are involved in each study. In this article we consider the problem of integrating such knowledge, inferring as much as possible concerning the underlying causal structure with respect to the union of observed variables from such experimental or passive observational overlapping data sets. We do not assume acyclicity or joint causal sufficiency of the underlying data generating model, but we do restrict the causal relationships to be linear and use only second order statistics of the data. We derive conditions for full model identifiability in the most generic case, and provide novel techniques for incorporating an assumption of faithfulness to aid in inference. In each case we seek to establish what is and what is not determined by the data at hand.

Published
2012

58. Noisy-OR Models with Latent Confounding

Author

Cozman, Fabio, Pfeffer, Avi, Hyttinen, Antti, Eberhardt, Frederick, Hoyer, Patrik O., Cozman, Fabio, Pfeffer, Avi, Hyttinen, Antti, Eberhardt, Frederick, and Hoyer, Patrik O.

Abstract

Given a set of experiments in which varying subsets of observed variables are subject to intervention, we consider the problem of identifiability of causal models exhibiting latent confounding. While identifiability is trivial when each experiment intervenes on a large number of variables, the situation is more complicated when only one or a few variables are subject to intervention per experiment. For linear causal models with latent variables Hyttinen et al. (2010) gave precise conditions for when such data are sufficient to identify the full model. While their result cannot be extended to discrete-valued variables with arbitrary cause-effect relationships, we show that a similar result can be obtained for the class of causal models whose conditional probability distributions are restricted to a 'noisy-OR' parameterization. We further show that identification is preserved under an extension of the model that allows for negative influences, and present learning algorithms that we test for accuracy, scalability and robustness.

Published
2011

64. New Permutation Algorithms for Causal Discovery Using ICA.

Author

Rosca, Justinian, Erdogmus, Deniz, Príncipe, José C., Haykin, Simon, Hoyer, Patrik O., Shimizu, Shohei, Hyvärinen, Aapo, Kano, Yutaka, and Kerminen, Antti J.

Abstract

Causal discovery is the task of finding plausible causal relationships from statistical data [1,2]. Such methods rely on various assumptions about the data generating process to identify it from uncontrolled observations. We have recently proposed a causal discovery method based on independent component analysis (ICA) called LiNGAM [3], showing how to completely identify the data generating process under the assumptions of linearity, non-gaussianity, and no hidden variables. In this paper, after briefly recapitulating this approach, we focus on the algorithmic problems encountered when the number of variables considered is large. Thus we extend the applicability of the method to data sets with tens of variables or more. Experiments confirm the performance of the proposed algorithms, implemented as part of the latest version of our freely available Matlab/Octave LiNGAM package. [ABSTRACT FROM AUTHOR]

Published
2006
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67. Causal Inference by Independent Component Analysis: Theory and Applications*.

Author

Moneta, Alessio, Entner, Doris, Hoyer, Patrik O., and Coad, Alex

Subjects
INDEPENDENT component analysis, VECTOR autoregression model, MACROECONOMICS, ECONOMIC policy, ESTIMATION theory, PERFORMANCE evaluation, DATA analysis
Abstract

Structural vector-autoregressive models are potentially very useful tools for guiding both macro- and microeconomic policy. In this study, we present a recently developed method for estimating such models, which uses non-normality to recover the causal structure underlying the observations. We show how the method can be applied to both microeconomic data (to study the processes of firm growth and firm performance) and macroeconomic data (to analyse the effects of monetary policy). [ABSTRACT FROM AUTHOR]

Published
2013
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68. A Linear Non-Gaussian Acyclic Model for Causal Discovery.

Author

Shimizu, Shohei, Hoyer, Patrik O., Hyvärinen, Aapo, Kerminen, Antti, and Jordan, Michael

Subjects
*CAUSAL models, *GAUSSIAN distribution, *VARIANCES, *CAUSATION (Philosophy), *LOG-linear models
Abstract

In recent years, several methods have been proposed for the discovery of causal structure from non-experimental data. Such methods make various assumptions on the data generating process to facilitate its identification from purely observational data. Continuing this line of research, we show how to discover the complete causal structure of continuous-valued data, under the assumptions that (a) the data generating process is linear, (b) there are no unobserved confounders, and (c) disturbance variables have non-Gaussian distributions of non-zero variances. The solution relies on the use of the statistical method known as independent component analysis, and does not require any pre-specified time-ordering of the variables. We provide a complete Matlab package for performing this LiNGAM analysis (short for Linear Non-Gaussian Acyclic Model), and demonstrate the effectiveness of the method using artificially generated data and real-world data. [ABSTRACT FROM AUTHOR]

Published
2006

69. Statistical model of natural stimuli predicts edge-like pooling of spatial frequency channels in V2.

Author

Hyvärinen, Aapo, Gutmann, Michael, and Hoyer, Patrik O.

Subjects
VISUAL cortex, OCCIPITAL lobe, CELLS, SPATIAL analysis (Statistics), QUANTITATIVE research, CODING theory
Abstract

Background: It has been shown that the classical receptive fields of simple and complex cells in the primary visual cortex emerge from the statistical properties of natural images by forcing the cell responses to be maximally sparse or independent. We investigate how to learn features beyond the primary visual cortex from the statistical properties of modelled complex-cell outputs. In previous work, we showed that a new model, non-negative sparse coding, led to the emergence of features which code for contours of a given spatial frequency band. Results: We applied ordinary independent component analysis to modelled outputs of complex cells that span different frequency bands. The analysis led to the emergence of features which pool spatially coherent across-frequency activity in the modelled primary visual cortex. Thus, the statistically optimal way of processing complex-cell outputs abandons separate frequency channels, while preserving and even enhancing orientation tuning and spatial localization. As a technical aside, we found that the non-negativity constraint is not necessary: ordinary independent component analysis produces essentially the same results as our previous work. Conclusion: We propose that the pooling that emerges allows the features to code for realistic low-level image features related to step edges. Further, the results prove the viability of statistical modelling of natural images as a framework that produces quantitative predictions of visual processing. [ABSTRACT FROM AUTHOR]

Published
2005
Full Text
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71. Estimation of a Structural Vector Autoregression Model Using Non-Gaussianity

Author

Aapo Hyvarinen, Kun Zhang, Shohei Shimizu, and Hoyer, Patrik O.

Abstract

Analysis of causal effects between continuous-valued variables typically uses either autoregressive models or structural equation models with instantaneous effects. Estimation of Gaussian, linear structural equation models poses serious identifiability problems, which is why it was recently proposed to use non-Gaussian models. Here, we show how to combine the non-Gaussian instantaneous model with autoregressive models. This is effectively what is called a structural vector autoregression (SVAR) model, and thus our work contributes to the long-standing problem of how to estimate SVARlsquo;s. We show that such a non-Gaussian model is identifiable without prior knowledge of network structure. We propose computationally efficient methods for estimating the model, as well as methods to assess the significance of the causal influences. The model is successfully applied on financial and brain imaging data.

74. Experiment Selection for Causal Discovery.

Author

Hyttinen, Antti, Eberhardt, Frederick, and Hoyer, Patrik O.

Subjects
*CAUSAL models, *RANKING (Statistics), *MATHEMATICAL variables, *HYPOTHESIS, *COMBINATORICS, *SET theory, *MACHINE learning
Abstract

Randomized controlled experiments are often described as the most reliable tool available to scientists for discovering causal relationships among quantities of interest. However, it is often unclear how many and which different experiments are needed to identify the full (possibly cyclic) causal structure among some given (possibly causally insufficient) set of variables. Recent results in the causal discovery literature have explored various identifiability criteria that depend on the assumptions one is able to make about the underlying causal process, but these criteria are not directly constructive for selecting the optimal set of experiments. Fortunately, many of the needed constructions already exist in the combinatorics literature, albeit under terminology which is unfamiliar to most of the causal discovery community. In this paper we translate the theoretical results and apply them to the concrete problem of experiment selection. For a variety of settings we give explicit constructions of the optimal set of experiments and adapt some of the general combinatorics results to answer questions relating to the problem of experiment selection. [ABSTRACT FROM AUTHOR]

Published
2013

75. Estimation of a Structural Vector Autoregression Model Using Non-Gaussianity.

Author

Hyvärinen, Aapo, Kun Zhang, Shohei Shimizu, and Hoyer, Patrik O.

Subjects
*AUTOREGRESSION (Statistics), *STRUCTURAL equation modeling, *LINEAR statistical models, *GAUSSIAN processes, *MATHEMATICAL models
Abstract

Analysis of causal effects between continuous-valued variables typically uses either autoregressive models or structural equation models with instantaneous effects. Estimation of Gaussian, linear structural equation models poses serious identifiability problems, which is why it was recently proposed to use non-Gaussian models. Here, we show how to combine the non-Gaussian instantaneous model with autoregressive models. This is effectively what is called a structural vector autoregression (SVAR) model, and thus our work contributes to the long-standing problem of how to estimate SVAR's. We show that such a non-Gaussian model is identifiable without prior knowledge of network structure. We propose computationally efficient methods for estimating the model, as well as methods to assess the significance of the causal influences. The model is successfully applied on financial and brain imaging data. [ABSTRACT FROM AUTHOR]

Published
2010

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