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102 results on '"Fisher III, John W."'

1. Robotic Planning under Uncertainty in Spatiotemporal Environments in Expeditionary Science

Author

Preston, Victoria, Flaspohler, Genevieve, Michel, Anna P. M., Fisher III, John W., and Roy, Nicholas

Subjects
Computer Science - Robotics
Abstract

In the expeditionary sciences, spatiotemporally varying environments -- hydrothermal plumes, algal blooms, lava flows, or animal migrations -- are ubiquitous. Mobile robots are uniquely well-suited to study these dynamic, mesoscale natural environments. We formalize expeditionary science as a sequential decision-making problem, modeled using the language of partially-observable Markov decision processes (POMDPs). Solving the expeditionary science POMDP under real-world constraints requires efficient probabilistic modeling and decision-making in problems with complex dynamics and observational models. Previous work in informative path planning, adaptive sampling, and experimental design have shown compelling results, largely in static environments, using data-driven models and information-based rewards. However, these methodologies do not trivially extend to expeditionary science in spatiotemporal environments: they generally do not make use of scientific knowledge such as equations of state dynamics, they focus on information gathering as opposed to scientific task execution, and they make use of decision-making approaches that scale poorly to large, continuous problems with long planning horizons and real-time operational constraints. In this work, we discuss these and other challenges related to probabilistic modeling and decision-making in expeditionary science, and present some of our preliminary work that addresses these gaps. We ground our results in a real expeditionary science deployment of an autonomous underwater vehicle (AUV) in the deep ocean for hydrothermal vent discovery and characterization. Our concluding thoughts highlight remaining work to be done, and the challenges that merit consideration by the reinforcement learning and decision-making community., Comment: 5 pages, 1 figure, as submitted to The Multi-disciplinary Conference on Reinforcement Learning and Decision Making

Published
2022

2. CPU- and GPU-based Distributed Sampling in Dirichlet Process Mixtures for Large-scale Analysis

Author

Dinari, Or, Zamir, Raz, Fisher III, John W., and Freifeld, Oren

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

In the realm of unsupervised learning, Bayesian nonparametric mixture models, exemplified by the Dirichlet Process Mixture Model (DPMM), provide a principled approach for adapting the complexity of the model to the data. Such models are particularly useful in clustering tasks where the number of clusters is unknown. Despite their potential and mathematical elegance, however, DPMMs have yet to become a mainstream tool widely adopted by practitioners. This is arguably due to a misconception that these models scale poorly as well as the lack of high-performance (and user-friendly) software tools that can handle large datasets efficiently. In this paper we bridge this practical gap by proposing a new, easy-to-use, statistical software package for scalable DPMM inference. More concretely, we provide efficient and easily-modifiable implementations for high-performance distributed sampling-based inference in DPMMs where the user is free to choose between either a multiple-machine, multiple-core, CPU implementation (written in Julia) and a multiple-stream GPU implementation (written in CUDA/C++). Both the CPU and GPU implementations come with a common (and optional) python wrapper, providing the user with a single point of entry with the same interface. On the algorithmic side, our implementations leverage a leading DPMM sampler from (Chang and Fisher III, 2013). While Chang and Fisher III's implementation (written in MATLAB/C++) used only CPU and was designed for a single multi-core machine, the packages we proposed here distribute the computations efficiently across either multiple multi-core machines or across mutiple GPU streams. This leads to speedups, alleviates memory and storage limitations, and lets us fit DPMMs to significantly larger datasets and of higher dimensionality than was possible previously by either (Chang and Fisher III, 2013) or other DPMM methods., Comment: 33 pages, 9 figures,4 tables

Published
2022

4. Lightweight Data Fusion with Conjugate Mappings

Author

Dean, Christopher L., Lee, Stephen J., Pacheco, Jason, and Fisher III, John W.

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

We present an approach to data fusion that combines the interpretability of structured probabilistic graphical models with the flexibility of neural networks. The proposed method, lightweight data fusion (LDF), emphasizes posterior analysis over latent variables using two types of information: primary data, which are well-characterized but with limited availability, and auxiliary data, readily available but lacking a well-characterized statistical relationship to the latent quantity of interest. The lack of a forward model for the auxiliary data precludes the use of standard data fusion approaches, while the inability to acquire latent variable observations severely limits direct application of most supervised learning methods. LDF addresses these issues by utilizing neural networks as conjugate mappings of the auxiliary data: nonlinear transformations into sufficient statistics with respect to the latent variables. This facilitates efficient inference by preserving the conjugacy properties of the primary data and leads to compact representations of the latent variable posterior distributions. We demonstrate the LDF methodology on two challenging inference problems: (1) learning electrification rates in Rwanda from satellite imagery, high-level grid infrastructure, and other sources; and (2) inferring county-level homicide rates in the USA by integrating socio-economic data using a mixture model of multiple conjugate mappings.

Published
2020

5. Efficient Data Association and Uncertainty Quantification for Multi-Object Tracking

Author

Hayden, David S., Zheng, Sue, and Fisher III, John W.

Subjects
Computer Science - Machine Learning
Abstract

Robust data association is critical for analysis of long-term motion trajectories in complex scenes. In its absence, trajectory precision suffers due to periods of kinematic ambiguity degrading the quality of follow-on analysis. Common optimization-based approaches often neglect uncertainty quantification arising from these events. Consequently, we propose the Joint Posterior Tracker (JPT), a Bayesian multi-object tracking algorithm that robustly reasons over the posterior of associations and trajectories. Novel, permutation-based proposals are crafted for exploration of posterior modes that correspond to plausible association hypotheses. JPT exhibits more accurate uncertainty representation of data associations with superior performance on standard metrics when compared to existing baselines. We also show the utility of JPT applied to automatic scheduling of user-in-the-loop annotations for improved trajectory quality.

Published
2020

6. Bayesian Nonparametric Modeling of Driver Behavior using HDP Split-Merge Sampling Algorithm

Author

Smolyakov, Vadim, Straub, Julian, Zheng, Sue, and Fisher III, John W.

Subjects
Statistics - Machine Learning
Abstract

Modern vehicles are equipped with increasingly complex sensors. These sensors generate large volumes of data that provide opportunities for modeling and analysis. Here, we are interested in exploiting this data to learn aspects of behaviors and the road network associated with individual drivers. Our dataset is collected on a standard vehicle used to commute to work and for personal trips. A Hidden Markov Model (HMM) trained on the GPS position and orientation data is utilized to compress the large amount of position information into a small amount of road segment states. Each state has a set of observations, i.e. car signals, associated with it that are quantized and modeled as draws from a Hierarchical Dirichlet Process (HDP). The inference for the topic distributions is carried out using HDP split-merge sampling algorithm. The topic distributions over joint quantized car signals characterize the driving situation in the respective road state. In a novel manner, we demonstrate how the sparsity of the personal road network of a driver in conjunction with a hierarchical topic model allows data driven predictions about destinations as well as likely road conditions.

Published
2018

7. Adaptive Scan Gibbs Sampler for Large Scale Inference Problems

Author

Smolyakov, Vadim, Liu, Qiang, and Fisher III, John W.

Subjects
Statistics - Machine Learning
Abstract

For large scale on-line inference problems the update strategy is critical for performance. We derive an adaptive scan Gibbs sampler that optimizes the update frequency by selecting an optimum mini-batch size. We demonstrate performance of our adaptive batch-size Gibbs sampler by comparing it against the collapsed Gibbs sampler for Bayesian Lasso, Dirichlet Process Mixture Models (DPMM) and Latent Dirichlet Allocation (LDA) graphical models.

Published
2018

8. Direction-Aware Semi-Dense SLAM

Author

Straub, Julian, Cabezas, Randi, Leonard, John, and Fisher III, John W.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

To aide simultaneous localization and mapping (SLAM), future perception systems will incorporate forms of scene understanding. In a step towards fully integrated probabilistic geometric scene understanding, localization and mapping we propose the first direction-aware semi-dense SLAM system. It jointly infers the directional Stata Center World (SCW) segmentation and a surfel-based semi-dense map while performing real-time camera tracking. The joint SCW map model connects a scene-wide Bayesian nonparametric Dirichlet Process von-Mises-Fisher mixture model (DP-vMF) prior on surfel orientations with the local surfel locations via a conditional random field (CRF). Camera tracking leverages the SCW segmentation to improve efficiency via guided observation selection. Results demonstrate improved SLAM accuracy and tracking efficiency at state of the art performance.

Published
2017

9. A Nonparametric Model for Multimodal Collaborative Activities Summarization

Author

Rosman, Guy, Fisher III, John W., and Rus, Daniela

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Ego-centric data streams provide a unique opportunity to reason about joint behavior by pooling data across individuals. This is especially evident in urban environments teeming with human activities, but which suffer from incomplete and noisy data. Collaborative human activities exhibit common spatial, temporal, and visual characteristics facilitating inference across individuals from multiple sensory modalities as we explore in this paper from the perspective of meetings. We propose a new Bayesian nonparametric model that enables us to efficiently pool video and GPS data towards collaborative activities analysis from multiple individuals. We demonstrate the utility of this model for inference tasks such as activity detection, classification, and summarization. We further demonstrate how spatio-temporal structure embedded in our model enables better understanding of partial and noisy observations such as localization and face detections based on social interactions. We show results on both synthetic experiments and a new dataset of egocentric video and noisy GPS data from multiple individuals.

Published
2017

10. Small-Variance Nonparametric Clustering on the Hypersphere

Author

Straub, Julian, Campbell, Trevor, How, Jonathan P., and Fisher III, John W.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Mathematics - Statistics Theory, Statistics - Applications
Abstract

Structural regularities in man-made environments reflect in the distribution of their surface normals. Describing these surface normal distributions is important in many computer vision applications, such as scene understanding, plane segmentation, and regularization of 3D reconstructions. Based on the small-variance limit of Bayesian nonparametric von-Mises-Fisher (vMF) mixture distributions, we propose two new flexible and efficient k-means-like clustering algorithms for directional data such as surface normals. The first, DP-vMF-means, is a batch clustering algorithm derived from the Dirichlet process (DP) vMF mixture. Recognizing the sequential nature of data collection in many applications, we extend this algorithm to DDP-vMF-means, which infers temporally evolving cluster structure from streaming data. Both algorithms naturally respect the geometry of directional data, which lies on the unit sphere. We demonstrate their performance on synthetic directional data and real 3D surface normals from RGB-D sensors. While our experiments focus on 3D data, both algorithms generalize to high dimensional directional data such as protein backbone configurations and semantic word vectors.

Published
2016
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11. Efficient Global Point Cloud Alignment using Bayesian Nonparametric Mixtures

Author

Straub, Julian, Campbell, Trevor, How, Jonathan P., and Fisher III, John W.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Point cloud alignment is a common problem in computer vision and robotics, with applications ranging from 3D object recognition to reconstruction. We propose a novel approach to the alignment problem that utilizes Bayesian nonparametrics to describe the point cloud and surface normal densities, and branch and bound (BB) optimization to recover the relative transformation. BB uses a novel, refinable, near-uniform tessellation of rotation space using 4D tetrahedra, leading to more efficient optimization compared to the common axis-angle tessellation. We provide objective function bounds for pruning given the proposed tessellation, and prove that BB converges to the optimum of the cost function along with providing its computational complexity. Finally, we empirically demonstrate the efficiency of the proposed approach as well as its robustness to real-world conditions such as missing data and partial overlap.

Published
2016

12. Streaming, Distributed Variational Inference for Bayesian Nonparametrics

Author

Campbell, Trevor, Straub, Julian, Fisher III, John W., and How, Jonathan P.

Subjects
Computer Science - Learning, Statistics - Machine Learning
Abstract

This paper presents a methodology for creating streaming, distributed inference algorithms for Bayesian nonparametric (BNP) models. In the proposed framework, processing nodes receive a sequence of data minibatches, compute a variational posterior for each, and make asynchronous streaming updates to a central model. In contrast to previous algorithms, the proposed framework is truly streaming, distributed, asynchronous, learning-rate-free, and truncation-free. The key challenge in developing the framework, arising from the fact that BNP models do not impose an inherent ordering on their components, is finding the correspondence between minibatch and central BNP posterior components before performing each update. To address this, the paper develops a combinatorial optimization problem over component correspondences, and provides an efficient solution technique. The paper concludes with an application of the methodology to the DP mixture model, with experimental results demonstrating its practical scalability and performance., Comment: This paper was presented at NIPS 2015. Please use the following BibTeX citation: @inproceedings{Campbell15_NIPS, Author = {Trevor Campbell and Julian Straub and John W. {Fisher III} and Jonathan P. How}, Title = {Streaming, Distributed Variational Inference for Bayesian Nonparametrics}, Booktitle = {Advances in Neural Information Processing Systems (NIPS)}, Year = {2015}}

Published
2015

13. Dreaming More Data: Class-dependent Distributions over Diffeomorphisms for Learned Data Augmentation

Author

Hauberg, Søren, Freifeld, Oren, Larsen, Anders Boesen Lindbo, Fisher III, John W., and Hansen, Lars Kai

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Data augmentation is a key element in training high-dimensional models. In this approach, one synthesizes new observations by applying pre-specified transformations to the original training data; e.g.~new images are formed by rotating old ones. Current augmentation schemes, however, rely on manual specification of the applied transformations, making data augmentation an implicit form of feature engineering. With an eye towards true end-to-end learning, we suggest learning the applied transformations on a per-class basis. Particularly, we align image pairs within each class under the assumption that the spatial transformation between images belongs to a large class of diffeomorphisms. We then learn a class-specific probabilistic generative models of the transformations in a Riemannian submanifold of the Lie group of diffeomorphisms. We demonstrate significant performance improvements in training deep neural nets over manually-specified augmentation schemes. Our code and augmented datasets are available online.

Published
2015

14. Efficient Topology-Controlled Sampling of Implicit Shapes

Author

Chang, Jason and Fisher III, John W.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Sampling from distributions of implicitly defined shapes enables analysis of various energy functionals used for image segmentation. Recent work describes a computationally efficient Metropolis-Hastings method for accomplishing this task. Here, we extend that framework so that samples are accepted at every iteration of the sampler, achieving an order of magnitude speed up in convergence. Additionally, we show how to incorporate topological constraints.

Published
2012

15. Atypical behaviour and connectivity in SHANK3-mutant macaques

Author

Zhou, Yang, Sharma, Jitendra, Ke, Qiong, Landman, Rogier, Yuan, Jingli, Chen, Hong, Hayden, David S., Fisher, III, John W., Jiang, Minqing, Menegas, William, Aida, Tomomi, Yan, Ting, Zou, Ying, Xu, Dongdong, Parmar, Shivangi, Hyman, Julia B., Fanucci-Kiss, Adrian, Meisner, Olivia, Wang, Dongqing, Huang, Yan, Li, Yaqing, Bai, Yanyang, Ji, Wenjing, Lai, Xinqiang, Li, Weiqiang, Huang, Lihua, Lu, Zhonghua, Wang, Liping, Anteraper, Sheeba A., Sur, Mriganka, Zhou, Huihui, Xiang, Andy Peng, Desimone, Robert, Feng, Guoping, and Yang, Shihua

Published
2019
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20. Coresets for visual summarization with applications to loop closure

Author

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Volkov, Mikhail, Rosman, Guy, Feldman, Dan, Fisher III, John W., Rus, Daniela L., Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Volkov, Mikhail, Rosman, Guy, Feldman, Dan, Fisher III, John W., and Rus, Daniela L.

Abstract

In continuously operating robotic systems, efficient representation of the previously seen camera feed is crucial. Using a highly efficient compression coreset method, we formulate a new method for hierarchical retrieval of frames from large video streams collected online by a moving robot. We demonstrate how to utilize the resulting structure for efficient loop-closure by a novel sampling approach that is adaptive to the structure of the video. The same structure also allows us to create a highly-effective search tool for large-scale videos, which we demonstrate in this paper. We show the efficiency of proposed approaches for retrieval and loop closure on standard datasets, and on a large-scale video from a mobile camera., Hon Hai/Foxconn International Holdings Ltd., Lincoln Laboratory, Singapore-MIT Alliance for Research and Technology Center (Future Urban Mobility Project), United States. Office of Naval Research. Multidisciplinary University Research Initiative (Grant N00014-09-1-1051)

Published
2016

21. Sparse Signal Representation in Structured Overcomplete Dictionaries with Application to Synthetic Aperture Radar

Author

Varshney, Kush R., Çetin, Müjdat, Fisher, III, John W., and Willsky, Alan S.

Subjects
Computer Science::Computer Vision and Pattern Recognition, TK Electrical engineering. Electronics Nuclear engineering
Abstract

Sparse signal representations and approximations from overcomplete dictionaries have become an invaluable tool recently. In this paper, we develop a new, heuristic, graph-structured, sparse signal representation algorithm for overcomplete dictionaries that can be decomposed into subdictionaries and whose dictionary elements can be arranged in a hierarchy. Around this algorithm, we construct a methodology for advanced image formation in wide-angle synthetic aperture radar (SAR), defining an approach for joint anisotropy characterization and image formation. Additionally, we develop a coordinate descent method for jointly optimizing a parameterized dictionary and recovering a sparse representation using that dictionary. The motivation is to characterize a phenomenon in wide-angle SAR that has not been given much attention before: migratory scattering centers, i.e. scatterers whose apparent spatial location depends on aspect angle. Finally, we address the topic of recovering solutions that are sparse in more than one objective domain by introducing a suitable sparsifying cost function. We encode geometric objectives into SAR image formation through sparsity in two domains, including the normal parameter space of the Hough transform.

Published
2007

25. Learning Visual Flows: A Lie Algebraic Approach

Author

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Fisher III, John W., Lin, Dahua, Grimson, Eric, Fisher, John W., III, Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Fisher III, John W., Lin, Dahua, Grimson, Eric, and Fisher, John W., III

Abstract

We present a novel method for modeling dynamic visual phenomena, which consists of two key aspects. First, the integral motion of constituent elements in a dynamic scene is captured by a common underlying geometric transform process. Second, a Lie algebraic representation of the transform process is introduced, which maps the transformation group to a vector space, and thus overcomes the difficulties due to the group structure. Consequently, the statistical learning techniques based on vector spaces can be readily applied. Moreover, we discuss the intrinsic connections between the Lie algebra and the Linear dynamical processes, showing that our model induces spatially varying fields that can be estimated from local motions without continuous tracking. Following this, we further develop a statistical framework to robustly learn the flow models from noisy and partially corrupted observations. The proposed methodology is demonstrated on real world phenomenon, inferring common motion patterns from surveillance videos of crowded scenes and satellite data of weather evolution., Heterogeneous Sensor Networks

Published
2010

26. Feature-Enhanced, Model-Based Sparse Aperture Imaging

Author

MASSACHUSETTS INST OF TECH CAMBRIDGE LAB FOR INFORMATION AND DECISION SYSTEMS, Cetin, Mujdat, Willsky, Alan S., Fisher, III, John W., MASSACHUSETTS INST OF TECH CAMBRIDGE LAB FOR INFORMATION AND DECISION SYSTEMS, Cetin, Mujdat, Willsky, Alan S., and Fisher, III, John W.

Abstract

This report summarizes the research and activities under the Revolutionary Automatic Target Recognition and Sensor Research (RASER) Grant FA8650-04-1-1719 on the topic of Feature-Enhanced, Model-Based Sparse Aperture Imaging. This project has been motivated by a number of emerging military applications where we are faced with sparse apertures. Examples include wide-angle imaging, foliage penetration radar, bistatic imaging, and passive radar imaging. While the possibility of exploiting such rich sensor data presents remarkable opportunities for surveillance, image formation and visualization from sparse aperture data poses significant challenges. The focus of our research effort has been to meet these challenges and develop principled and practical sparse aperture imaging techniques which generate enhanced imagery facilitating visual or automatic interpretation of the underlying scenes. In this report, we provide a picture of the activities and progress that have occurred in this project. In particular, we include both basic factual information on personnel, publications, and interactions, as well as a brief description of our research activities and how they relate to the statement of work included in our proposal. This report summarizes the research and activities under the Revolutionary Automatic Target Recognition and Sensor Research (RASER) Grant FA8650-04-1-1719 on the topic of Feature-Enhanced, Model-Based Sparse Aperture Imaging. This research has been performed at the Massachusetts Institute of Technology. The primary researchers who have led this research program are Dr. Mujdat Cetin, Prof. Alan Willsky, and Dr. John Fisher. This project has been motivated by a number of emerging military applications where we are faced with sparse apertures. Examples include wide-angle imaging, foliage penetration radar, bistatic imaging, and passive radar imaging., The original document contains color images. All DTIC reproductions will be in black and white.

Published
2008

28. Integrated Fusion, Performance Prediction, and Sensor Management for Automatic Target Exploitation

Author

OHIO STATE UNIV RESEARCH FOUNDATION COLUMBUS, Moses, Randolph L., Castanon, David, Cetin, Mujdat, Ertin, Emre, Fisher, III, John W., Hero, III, Alfred O., Karl, Clem, Potter, Lee C., Srivastava, Anuj, Willsky, Alan, OHIO STATE UNIV RESEARCH FOUNDATION COLUMBUS, Moses, Randolph L., Castanon, David, Cetin, Mujdat, Ertin, Emre, Fisher, III, John W., Hero, III, Alfred O., Karl, Clem, Potter, Lee C., Srivastava, Anuj, and Willsky, Alan

Abstract

This report summarizes the research activities of this MURI project during the first year. Significant research advances have been made in the areas of innovative sensor signal processing, information fusion, and sensor management, and several cross-disciplinary problems in these three areas have been addressed. The MURI team has been active in research dissemination via publication and attendance at conferences and workshops, and has engaged in technology transformation via student internships and participation in government workshops and research direction discussions., The original document contains color images.

Published
2007

30. Combining Object and Feature Dynamics in Probabilistic Tracking

Author

Taycher, Leonid, Fisher III, John W., Darrell, Trevor, Taycher, Leonid, Fisher III, John W., and Darrell, Trevor

Abstract

Objects can exhibit different dynamics at different scales, a property that isoftenexploited by visual tracking algorithms. A local dynamicmodel is typically used to extract image features that are then used as inputsto a system for tracking the entire object using a global dynamic model.Approximate local dynamicsmay be brittle---point trackers drift due to image noise and adaptivebackground models adapt to foreground objects that becomestationary---but constraints from the global model can make them more robust.We propose a probabilistic framework for incorporating globaldynamics knowledge into the local feature extraction processes.A global tracking algorithm can beformulated as a generative model and used to predict feature values thatinfluence the observation process of thefeature extractor. We combine such models in a multichain graphicalmodel framework.We show the utility of our framework for improving feature tracking and thusshapeand motion estimates in a batch factorization algorithm.We also propose an approximate filtering algorithm appropriate for onlineapplications, and demonstrate its application to problems such as backgroundsubtraction, structure from motion and articulated body tracking.

Published
2005

31. Independent Components Analysis by Direct Entropy Minimization

Author

CALIFORNIA UNIV BERKELEY DEPT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES, Miller, Erik G, Fisher III, John W, CALIFORNIA UNIV BERKELEY DEPT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES, Miller, Erik G, and Fisher III, John W

Abstract

This paper presents a new algorithm for the independent components analysis (ICA) problem based on efficient entropy estimates. Like many previous methods, this algorithm directly minimizes the measure of departure from independence according to the estimated Kullback-Leibler divergence between the joint distribution and the product of the marginal distributions. We pair this approach with efficient entropy estimators from the statistics literature. In particular, the entropy estimator we use is consistent and exhibits rapid convergence. The algorithm based on this estimator is simple, computationally efficient intuitively appealing, and outperforms other well known algorithms. In addition, the estimator's relative insensitivity to outliers translates into superior performance by our ICA algorithm on outlier tests. We present favorable comparisons to the Kernel ICA, FASTICA JADE, and extended Infomax algorithms in extensive simulations.

Published
2003

39. Probabalistic Models and Informative Subspaces for Audiovisual Correspondence.

Author

Fisher III, John W. and Darrell, Trevor

Abstract

We propose a probabalistic model of single source multi-modal generation and show how algorithms for maximizing mutual information can find the correspondences between components of each signal. We show how non-parametric techniques for finding informative subspaces can capture the complex statistical relationship between signals in different modalities. We extend a previous technique for finding informative subspaces to include new priors on the projection weights, yielding more robust results. Applied to human speakers, our model can find the relationship between audio speech and video of facial motion, and partially segment out background events in both channels. We present new results on the problem of audio-visual verification, and show how the audio and video of a speaker can be matched even when no prior model of the speaker΄s voice or appearance is available. [ABSTRACT FROM AUTHOR]

Published
2002
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50. Reverse-engineering the genetic circuitry of a cancer cell with predicted intervention in chronic lymphocytic leukemia.

Author

Vallat, Laurent, Kemper, Corey A., Jung, Nicolas, Maumy-Bertrand, Myriam, Bertrand, Frédéric, Meyer, Nicolas, Pocheville, Arnaud, Fisher III, John W., Gribben, John G., and Bahram, Seiamak

Subjects
NEURAL circuitry, CANCER cell growth, LYMPHOCYTIC leukemia, ECOLOGICAL disturbances, GENE expression, BIOMEDICAL engineering, DIAGNOSIS
Abstract

Cellular behavior is sustained by genetic programs that are progressively disrupted in pathological conditions—notably, cancer. High-throughput gene expression profiling has been used to infer statistical models describing these cellular programs, and development is now needed to guide orientated modulation of these systems. Here we develop a regression-based model to reverse-engineer a temporal genetic program, based on relevant patterns of gene expression after cell stimulation. This method integrates the temporal dimension of biological rewiring of genetic programs and enables the prediction of the effect of targeted gene disruption at the system level. We tested the performance accuracy of this model on synthetic data before reverse-engineering the response of primary cancer cells to a proliferative (protumorigenic) stimulation in a multistate leukemia biological model (i.e., chronic lymphocytic leukemia). To validate the ability of our method to predict the effects of gene modulation on the global program, we performed an intervention experiment on a targeted gene. Comparison of the predicted and observed gene expression changes demonstrates the possibility of predicting the effects of a perturbation in a gene regulatory network, a first step toward an orientated intervention in a cancer cell genetic program. [ABSTRACT FROM AUTHOR]

Published
2013
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