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1. Non-invasive ventral cervical magnetoneurography as a proxy of in vivo lipopolysaccharide-induced inflammation.

Author

Bu, Yifeng, Burks, Jamison, Yang, Kun, Prince, Jacob, Borna, Amir, Coe, Christopher, Simmons, Alan, Tu, Xin, Baker, Dewleen, Kimball, Donald, Rao, Ramesh, Shah, Vishal, Huang, Mingxiong, Schwindt, Peter, Coleman, Todd, and Lerman, Imanuel

Subjects
Humans, Lipopolysaccharides, Male, Female, Inflammation, Adult, Action Potentials, Young Adult, Carotid Arteries, Magnetometry
Abstract

Maintenance of autonomic homeostasis is continuously calibrated by sensory fibers of the vagus nerve and sympathetic chain that convey compound action potentials (CAPs) to the central nervous system. Lipopolysaccharide (LPS) intravenous challenge reliably elicits a robust inflammatory response that can resemble systemic inflammation and acute endotoxemia. Here, we administered LPS intravenously in nine healthy subjects while recording ventral cervical magnetoneurography (vcMNG)-derived CAPs at the rostral Right Nodose Ganglion (RNG) and the caudal Right Carotid Artery (RCA) with optically pumped magnetometers (OPM). We observed vcMNG RNG and RCA neural firing rates that tracked changes in TNF-α levels in the systemic circulation. Further, endotype subgroups based on high and low IL-6 responders segregate RNG CAP frequency (at 30-120 min) and based on high and low IL-10 response discriminate RCA CAP frequency (at 0-30 min). These vcMNG tools may enhance understanding and management of the neuroimmune axis that can guide personalized treatment based on an individuals distinct endophenotype.

Published
2024

3. Machine learning based DNA melt curve profiling enables automated novel genotype detection.

Author

Boussina, Aaron, Langouche, Lennart, Obirieze, Augustine, Sinha, Mridu, Mack, Hannah, Leineweber, William, Aralar, April, Pride, David, Coleman, Todd, and Fraley, Stephanie

Subjects
16S rRNA, Emerging pathogens, Machine learning, Melt curve, Novelty detection, Pathogen identification, Machine Learning, Genotype, DNA, Bacterial, Algorithms, Nucleic Acid Denaturation
Abstract

Surveillance for genetic variation of microbial pathogens, both within and among species, plays an important role in informing research, diagnostic, prevention, and treatment activities for disease control. However, large-scale systematic screening for novel genotypes remains challenging in part due to technological limitations. Towards addressing this challenge, we present an advancement in universal microbial high resolution melting (HRM) analysis that is capable of accomplishing both known genotype identification and novel genotype detection. Specifically, this novel surveillance functionality is achieved through time-series modeling of sequence-defined HRM curves, which is uniquely enabled by the large-scale melt curve datasets generated using our high-throughput digital HRM platform. Taking the detection of bacterial genotypes as a model application, we demonstrate that our algorithms accomplish an overall classification accuracy over 99.7% and perform novelty detection with a sensitivity of 0.96, specificity of 0.96 and Youden index of 0.92. Since HRM-based DNA profiling is an inexpensive and rapid technique, our results add support for the feasibility of its use in surveillance applications.

Published
2024

5. Non-Nutritive Suckling System for Real-Time Characterization of Intraoral Vacuum Profile in Full Term Neonates

Author

Truong, Phuong, Walsh, Erin, Scott, Vanessa P, Coleman, Todd, Tilvawala, Gopesh, and Friend, James

Subjects
Health Services and Systems, Engineering, Health Sciences, Biomedical Engineering, Pediatric, Good Health and Well Being, Female, Humans, Infant, Infant, Newborn, Breast Feeding, Eating, Mouth, Sucking Behavior, Vacuum, Pacifiers, Pediatrics, Pressure measurement, Electron tubes, Vacuum systems, Instruments, Safety, Pressure sensors, Breastfeeding, diagnostics, instrument, pacifier, pressure sensor, intraoral vacuum, Biomedical engineering, Health services and systems
Abstract

Infant breastfeeding diagnostics remain subjective due to the absence of instrumentation to objectively measure and understand infant oral motor skills and suckling characteristics. Qualitative diagnostic exams, such as the digital suck assessment which relies upon a clinician's gloved finger inserted into the infant's mouth, produce a diversity of diagnoses and intervention pathways due to their subjective nature. In this paper, we report on the design of a non-nutritive suckling (NNS) system which quantifies and analyzes quantitative intraoral vacuum and sucking patterns of full-term neonates in real time. In our study, we evaluate thirty neonate suckling profiles to demonstrate the technical and clinical feasibility of the system. We successfully extract the mean suck vacuum, maximum suck vacuum, frequency, burst duration, number of sucks per burst, number of sucks per minute, and number of bursts per minute. In addition, we highlight the discovery of three intraoral vacuum profile shapes that are found to be correlated to different levels of suckling characteristics. These results establish a framework for future studies to evaluate oromotor dysfunction that affect the appearance of these signals based on established normal profiles. Ultimately, with the ability to easily and quickly capture intraoral vacuum data, clinicians can more accurately perform suckling assessments to provide timely intervention and assist mothers and infants towards successful breastfeeding outcomes.

Published
2023

6. A flexible adhesive surface electrode array capable of cervical electroneurography during a sequential autonomic stress challenge

Author

Bu, Yifeng, Kurniawan, Jonas F, Prince, Jacob, Nguyen, Andrew KL, Ho, Brandon, Sit, Nathan LJ, Pham, Timothy, Wu, Vincent M, Tjhia, Boris, Shin, Andrew J, Wu, Tsung-Chin, Tu, Xin M, Rao, Ramesh, Coleman, Todd P, and Lerman, Imanuel

Subjects
Information and Computing Sciences, Engineering, Biomedical Engineering, Neurosciences, Bioengineering, Clinical Research, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Humans, Adhesives, Electrodes, Neurons, Signal-To-Noise Ratio, Autonomic Nervous System
Abstract

This study introduces a flexible, adhesive-integrated electrode array that was developed to enable non-invasive monitoring of cervical nerve activity. The device uses silver-silver chloride as the electrode material of choice and combines it with an electrode array consisting of a customized biopotential data acquisition unit and integrated graphical user interface (GUI) for visualization of real-time monitoring. Preliminary testing demonstrated this electrode design can achieve a high signal to noise ratio during cervical neural recordings. To demonstrate the capability of the surface electrodes to detect changes in cervical neuronal activity, the cold-pressor test (CPT) and a timed respiratory challenge were employed as stressors to the autonomic nervous system. This sensor system recording, a new technique, was termed Cervical Electroneurography (CEN). By applying a custom spike sorting algorithm to the electrode measurements, neural activity was classified in two ways: (1) pre-to-post CPT, and (2) during a timed respiratory challenge. Unique to this work: (1) rostral to caudal channel position-specific (cephalad to caudal) firing patterns and (2) cross challenge biotype-specific change in average CEN firing, were observed with both CPT and the timed respiratory challenge. Future work is planned to develop an ambulatory CEN recording device that could provide immediate notification of autonomic nervous system activity changes that might indicate autonomic dysregulation in healthy subjects and clinical disease states.

Published
2022

7. Peripheral Nerve Magnetoneurography With Optically Pumped Magnetometers

Author

Bu, Yifeng, Prince, Jacob, Mojtahed, Hamed, Kimball, Donald, Shah, Vishal, Coleman, Todd, Sarkar, Mahasweta, Rao, Ramesh, Huang, Mingxiong, Schwindt, Peter, Borna, Amir, and Lerman, Imanuel

Subjects
Pain Research, Peripheral Neuropathy, Neurodegenerative, Neurosciences, optically pumped magnetometer, magnetoneurography, magnetoencephalography, H-Reflex, sensory nerve action potentials, magnetospinography, super conducting quantum interference devices, Η-Reflex, Physiology, Medical Physiology, Psychology
Abstract

Electrodiagnosis is routinely integrated into clinical neurophysiology practice for peripheral nerve disease diagnoses, such as neuropathy, demyelinating disorders, nerve entrapment/impingement, plexopathy, or radiculopathy. Measured with conventional surface electrodes, the propagation of peripheral nerve action potentials along a nerve is the result of ionic current flow which, according to Ampere's Law, generates a small magnetic field that is also detected as an "action current" by magnetometers, such as superconducting quantum interference device (SQUID) Magnetoencephalography (MEG) systems. Optically pumped magnetometers (OPMs) are an emerging class of quantum magnetic sensors with a demonstrated sensitivity at the 1 fT/√Hz level, capable of cortical action current detection. But OPMs were ostensibly constrained to low bandwidth therefore precluding their use in peripheral nerve electrodiagnosis. With careful OPM bandwidth characterization, we hypothesized OPMs may also detect compound action current signatures consistent with both Sensory Nerve Action Potential (SNAP) and the Hoffmann Reflex (H-Reflex). In as much, our work confirms OPMs enabled with expanded bandwidth can detect the magnetic signature of both the SNAP and H-Reflex. Taken together, OPMs now show potential as an emerging electrodiagnostic tool.

Published
2022

8. Statistical uncertainty quantification to augment clinical decision support: a first implementation in sleep medicine.

Author

Kang, Dae Y, DeYoung, Pamela N, Tantiongloc, Justin, Coleman, Todd P, and Owens, Robert L

Subjects
Bioengineering, Sleep Research
Abstract

Machine learning has the potential to change the practice of medicine, particularly in areas that require pattern recognition (e.g. radiology). Although automated classification is unlikely to be perfect, few modern machine learning tools have the ability to assess their own classification confidence to recognize uncertainty that might need human review. Using automated single-channel sleep staging as a first implementation, we demonstrated that uncertainty information (as quantified using Shannon entropy) can be utilized in a "human in the loop" methodology to promote targeted review of uncertain sleep stage classifications on an epoch-by-epoch basis. Across 20 sleep studies, this feedback methodology proved capable of improving scoring agreement with the gold standard over automated scoring alone (average improvement in Cohen's Kappa of 0.28), in a fraction of the scoring time compared to full manual review (60% reduction). In summary, our uncertainty-based clinician-in-the-loop framework promotes the improvement of medical classification accuracy/confidence in a cost-effective and economically resourceful manner.

Published
2021

9. Miniaturized wireless gastric pacing via inductive power transfer with non-invasive monitoring using cutaneous Electrogastrography.

Author

Perley, Andrew, Roustaei, Mehrdad, Aguilar-Rivera, Marcelo, Kunkel, David C, Hsiai, Tzung K, Coleman, Todd P, and Abiri, Parinaz

Subjects
Electrogastrogram, Electrogastrography, Gastric pacemaker, Gastric pacing, Gastroparesis, Wireless electrical stimulation, Wireless pacing, Neurosciences, Digestive Diseases, Neurodegenerative
Abstract

BackgroundGastroparesis is a debilitating disease that is often refractory to pharmacotherapy. While gastric electrical stimulation has been studied as a potential treatment, current devices are limited by surgical complications and an incomplete understanding of the mechanism by which electrical stimulation affects physiology.MethodsA leadless inductively-powered pacemaker was implanted on the gastric serosa in an anesthetized pig. Wireless pacing was performed at transmitter-to-receiver distances up to 20 mm, frequency of 0.05 Hz, and pulse width of 400 ms. Electrogastrogram (EGG) recordings using cutaneous and serosal electrode arrays were analyzed to compute spectral and spatial statistical parameters associated with the slow wave.ResultsOur data demonstrated evident change in EGG signal patterns upon initiation of pacing. A buffer period was noted before a pattern of entrainment appeared with consistent and low variability in slow wave direction. A spectral power increase in the EGG frequency band during entrainment also suggested that pacing increased strength of the slow wave.ConclusionOur preliminary in vivo study using wireless pacing and concurrent EGG recording established the foundations for a minimally invasive approach to understand and optimize the effect of pacing on gastric motor activity as a means to treat conditions of gastric dysmotility.

Published
2021

10. Data-driven noise modeling of digital DNA melting analysis enables prediction of sequence discriminating power.

Author

Langouche, Lennart, Aralar, April, Sinha, Mridu, Lawrence, Shelley, Fraley, Stephanie, and Coleman, Todd

Abstract

MOTIVATION: The need to rapidly screen complex samples for a wide range of nucleic acid targets, like infectious diseases, remains unmet. Digital High-Resolution Melt (dHRM) is an emerging technology with potential to meet this need by accomplishing broad-based, rapid nucleic acid sequence identification. Here, we set out to develop a computational framework for estimating the resolving power of dHRM technology for defined sequence profiling tasks. By deriving noise models from experimentally generated dHRM datasets and applying these to in silico predicted melt curves, we enable the production of synthetic dHRM datasets that faithfully recapitulate real-world variations arising from sample and machine variables. We then use these datasets to identify the most challenging melt curve classification tasks likely to arise for a given application and test the performance of benchmark classifiers. RESULTS: This toolbox enables the in silico design and testing of broad-based dHRM screening assays and the selection of optimal classifiers. For an example application of screening common human bacterial pathogens, we show that human pathogens having the most similar sequences and melt curves are still reliably identifiable in the presence of experimental noise. Further, we find that ensemble methods outperform whole series classifiers for this task and are in some cases able to resolve melt curves with single-nucleotide resolution. AVAILABILITY AND IMPLEMENTATION: Data and code available on https://github.com/lenlan/dHRM-noise-modeling. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.

Published
2021

11. Passive longitudinal weight and cardiopulmonary monitoring in the home bed

Author

Harrington, Nicholas, Bui, Quan M, Wei, Zhe, Hernandez-Pacheco, Brandon, DeYoung, Pamela N, Wassell, Andrew, Duwaik, Bayan, Desai, Akshay S, Bhatt, Deepak L, Agnihotri, Parag, Owens, Robert L, Coleman, Todd P, and King, Kevin R

Subjects
Lung, Bioengineering, Heart Disease, Cardiovascular, Clinical Research, Behavioral and Social Science, Good Health and Well Being, Algorithms, Beds, Body Weight, Cardiomyopathies, Chronic Disease, Coronary Artery Bypass, Heart Failure, Heart Rate, Humans, Longitudinal Studies, Monitoring, Physiologic, Myocardial Ischemia, Polysomnography, Sleep
Abstract

Home health monitoring has the potential to improve outpatient management of chronic cardiopulmonary diseases such as heart failure. However, it is often limited by the need for adherence to self-measurement, charging and self-application of wearables, or usage of apps. Here, we describe a non-contact, adherence-independent sensor, that when placed beneath the legs of a patient's home bed, longitudinally monitors total body weight, detailed respiratory signals, and ballistocardiograms for months, without requiring any active patient participation. Accompanying algorithms separate weight and respiratory signals when the bed is shared by a partner or a pet. Validation studies demonstrate quantitative equivalence to commercial sensors during overnight sleep studies. The feasibility of detecting obstructive and central apneas, cardiopulmonary coupling, and the hemodynamic consequences of non-sustained ventricular tachycardia is also established. Real-world durability is demonstrated by 3 months of in-home monitoring in an example patient with heart failure and ischemic cardiomyopathy as he recovers from coronary artery bypass grafting surgery. BedScales is the first sensor to measure adherence-independent total body weight as well as longitudinal cardiopulmonary physiology. As such, it has the potential to create a multidimensional picture of chronic disease, learn signatures of impending hospitalization, and enable optimization of care in the home.

Published
2021

12. Social Support, Discrimination, and Self-Esteem in LGBTQ+ High School and Post-Secondary Students

Author

Taylor, Kirstie, Coulombe, Simon, Coleman, Todd A., Cameron, Ruth, Davis, Charlie, Wilson, Ciann L., Woodford, Michael R., and Travers, Robb

Abstract

LGBTQ+ (lesbian, gay, bisexual, transgender, queer, plus) people, compared to their heterosexual and/or cisgender (non-transgender) counterparts, are more likely to be discriminated against based on their gender or sexual identities. Drawing on data from The OutLook Study in Waterloo Region, Ontario, Canada this paper examines discrimination and social support among high school and post-secondary students, and how they are related to self-esteem. We found that transgender students in high school reported significantly higher levels of direct transphobia and of victimization compared to transgender post-secondary students. We found indirect homophobia and indirect transphobia had a significant adverse relationship to self-esteem. Further, social support from friends was related to higher self-esteem for cisgender LGBQ students, but not for transgender students. These findings have the potential to inform school-based policies and mental health interventions in support of improved wellbeing for LGBTQ+ students.

Published
2022
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13. Direct and Indirect Effects -- An Information Theoretic Perspective

Author

Schamberg, Gabriel, Chapman, William, Xie, Shang-Ping, and Coleman, Todd P.

Subjects
Computer Science - Information Theory, Statistics - Applications
Abstract

Information theoretic (IT) approaches to quantifying causal influences have experienced some popularity in the literature, in both theoretical and applied (e.g. neuroscience and climate science) domains. While these causal measures are desirable in that they are model agnostic and can capture non-linear interactions, they are fundamentally different from common statistical notions of causal influence in that they (1) compare distributions over the effect rather than values of the effect and (2) are defined with respect to random variables representing a cause rather than specific values of a cause. We here present IT measures of direct, indirect, and total causal effects. The proposed measures are unlike existing IT techniques in that they enable measuring causal effects that are defined with respect to specific values of a cause while still offering the flexibility and general applicability of IT techniques. We provide an identifiability result and demonstrate application of the proposed measures in estimating the causal effect of the El Ni\~no-Southern Oscillation on temperature anomalies in the North American Pacific Northwest.

Published
2019
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14. On the Bias of Directed Information Estimators

Author

Schamberg, Gabriel and Coleman, Todd P.

Subjects
Computer Science - Information Theory
Abstract

When estimating the directed information between two jointly stationary Markov processes, it is typically assumed that the recipient of the directed information is itself Markov of the same order as the joint process. While this assumption is often made explicit in the presentation of such estimators, a characterization of when we can expect the assumption to hold is lacking. Using the concept of d-separation from Bayesian networks, we present sufficient conditions for which this assumption holds. We further show that the set of parameters for which the condition is not also necessary has Lebesgue measure zero. Given the strictness of these conditions, we introduce a notion of partial directed information, which can be used to bound the bias of directed information estimates when the directed information recipient is not itself Markov. Lastly we estimate this bound on simulations in a variety of settings to assess the extent to which the bias should be cause for concern.

Published
2019

15. Construction and Analysis of Posterior Matching in Arbitrary Dimensions via Optimal Transport

Author

Mesa, Diego A., Ma, Rui, Gorantla, Siva K., and Coleman, Todd P.

Subjects
Computer Science - Information Theory
Abstract

The posterior matching scheme, for feedback encoding of a message point lying on the unit interval over memoryless channels, maximizes mutual information for an arbitrary number of channel uses. However, it in general does not always achieve any positive rate; so far, elaborate analyses have been required to show that it achieves any positive rate below capacity. More recent efforts have introduced a random "dither" shared by the encoder and decoder to the problem formulation, to simplify analyses and guarantee that the randomized scheme achieves any rate below capacity. Motivated by applications (e.g. human-computer interfaces) where (a) common randomness shared by the encoder and decoder may not be feasible and (b) the message point lies in a higher dimensional space, we focus here on the original formulation without common randomness, and use optimal transport theory to generalize the scheme for a message point in a higher dimensional space. By defining a stricter, almost sure, notion of message decoding, we use classical probabilistic techniques (e.g. change of measure and martingale convergence) to establish succinct necessary and sufficient conditions on when the message point can be recovered from infinite observations: Birkhoff ergodicity of a random process sequentially generated by the encoder. We also show a surprising "all or nothing" result: the same ergodicity condition is necessary and sufficient to achieve any rate below capacity. We provide applications of this message point framework in human-computer interfaces and multi-antenna communications., Comment: Submitted to the IEEE Transactions on Information Theory

Published
2019

16. Direct and Indirect Effects-An Information Theoretic Perspective.

Author

Schamberg, Gabriel, Chapman, William, Xie, Shang-Ping, and Coleman, Todd P

Subjects
El Niño–Southern oscillation, KL divergence, causality, mediation analysis, specific information, El Nino-Southern oscillation, Fluids & Plasmas, Mathematical Sciences, Physical Sciences
Abstract

Information theoretic (IT) approaches to quantifying causal influences have experienced some popularity in the literature, in both theoretical and applied (e.g., neuroscience and climate science) domains. While these causal measures are desirable in that they are model agnostic and can capture non-linear interactions, they are fundamentally different from common statistical notions of causal influence in that they (1) compare distributions over the effect rather than values of the effect and (2) are defined with respect to random variables representing a cause rather than specific values of a cause. We here present IT measures of direct, indirect, and total causal effects. The proposed measures are unlike existing IT techniques in that they enable measuring causal effects that are defined with respect to specific values of a cause while still offering the flexibility and general applicability of IT techniques. We provide an identifiability result and demonstrate application of the proposed measures in estimating the causal effect of the El Niño-Southern Oscillation on temperature anomalies in the North American Pacific Northwest.

Published
2020

17. Smart Electronic Eyedrop Bottle for Unobtrusive Monitoring of Glaucoma Medication Adherence.

Author

Aguilar-Rivera, Marcelo, Erudaitius, Dieanira T, Wu, Vincent M, Tantiongloc, Justin C, Kang, Dae Y, Coleman, Todd P, Baxter, Sally L, and Weinreb, Robert N

Subjects
Glaucoma, adherence, alerts, clinical decision support, internet of things, monitoring, sensors, glaucoma, Environmental Science and Management, Ecology, Analytical Chemistry, Distributed Computing, Electrical and Electronic Engineering
Abstract

Glaucoma, the leading cause of irreversible blindness, affects >70 million people worldwide. Lowering intraocular pressure via topical administration of eye drops is the most common first-line therapy for glaucoma. This treatment paradigm has notoriously high non-adherence rates: ranging from 30% to 80%. The advent of smart phone enabled technologies creates promise for improving eyedrop adherence. However, previous eyedrop electronic monitoring solutions had awkward medication bottle adjuncts and crude software for monitoring the administration of a drop that adversely affected their ability to foster sustainable improvements in adherence. The current work begins to address this unmet need for wireless technology by creating a "smart drop" bottle. This medication bottle is instrumented with sensing electronics that enable detection of each eyedrop administered while maintaining the shape and size of the bottle. This is achieved by a thin electronic force sensor wrapped around the bottle and underneath the label, interfaced with a thin electronic circuit underneath the bottle that allows for detection and wireless transmission to a smart-phone application. We demonstrate 100% success rate of wireless communication over 75 feet with

Published
2020

18. Measuring Sample Path Causal Influences with Relative Entropy

Author

Schamberg, Gabriel and Coleman, Todd P.

Subjects
Computer Science - Information Theory
Abstract

We present a sample path dependent measure of causal influence between time series. The proposed causal measure is a random sequence, a realization of which enables identification of specific patterns that give rise to high levels of causal influence. We show that these patterns cannot be identified by existing measures such as directed information (DI). We demonstrate how sequential prediction theory may be leveraged to estimate the proposed causal measure and introduce a notion of regret for assessing the performance of such estimators. We prove a finite sample bound on this regret that is determined by the worst case regret of the sequential predictors used in the estimator. Justification for the proposed measure is provided through a series of examples, simulations, and application to stock market data. Within the context of estimating DI, we show that, because joint Markovicity of a pair of processes does not imply the marginal Markovicity of individual processes, commonly used plug-in estimators of DI will be biased for a large subset of jointly Markov processes. We introduce a notion of DI with "stale history", which can be combined with a plug-in estimator to upper and lower bound the DI when marginal Markovicity does not hold.

Published
2018

19. A Sample Path Measure of Causal Influence

Author

Schamberg, Gabriel and Coleman, Todd P.

Subjects
Computer Science - Information Theory
Abstract

We present a sample path dependent measure of causal influence between two time series. The proposed measure is a random variable whose expected sum is the directed information. A realization of the proposed measure may be used to identify the specific patterns in the data that yield a greater flow of information from one process to another, even in stationary processes. We demonstrate how sequential prediction theory may be leveraged to obtain accurate estimates of the causal measure at each point in time and introduce a notion of regret for assessing the performance of estimators of the measure. We prove a finite sample bound on this regret that is determined by the regret of the sequential predictors used in obtaining the estimate. We estimate the causal measure for a simulated collection of binary Markov processes using a Bayesian updating approach. Finally, given that the measure is a function of time, we demonstrate how estimators of the causal measure may be extended to effectively capture causality in time-varying scenarios., Comment: Written for the IEEE International Symposium on Information Theory, June 2018

Published
2018
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20. A Distributed Framework for the Construction of Transport Maps

Author

Mesa, Diego A., Tantiongloc, Justin, Mendoza, Marcela, and Coleman, Todd P.

Subjects
Statistics - Machine Learning
Abstract

The need to reason about uncertainty in large, complex, and multi-modal datasets has become increasingly common across modern scientific environments. The ability to transform samples from one distribution $P$ to another distribution $Q$ enables the solution to many problems in machine learning (e.g. Bayesian inference, generative modeling) and has been actively pursued from theoretical, computational, and application perspectives across the fields of information theory, computer science, and biology. Performing such transformations, in general, still leads to computational difficulties, especially in high dimensions. Here, we consider the problem of computing such "measure transport maps" with efficient and parallelizable methods. Under the mild assumptions that $P$ need not be known but can be sampled from, and that the density of $Q$ is known up to a proportionality constant, and that $Q$ is log-concave, we provide in this work a convex optimization problem pertaining to relative entropy minimization. We show how an empirical minimization formulation and polynomial chaos map parameterization can allow for learning a transport map between $P$ and $Q$ with distributed and scalable methods. We also leverage findings from nonequilibrium thermodynamics to represent the transport map as a composition of simpler maps, each of which is learned sequentially with a transport cost regularized version of the aforementioned problem formulation. We provide examples of our framework within the context of Bayesian inference for the Boston housing dataset and generative modeling for handwritten digit images from the MNIST dataset., Comment: Submitted to Neural Computation

Published
2018

21. Bayesian Lasso Posterior Sampling via Parallelized Measure Transport

Author

Mendoza, Marcela, Allegra, Alexis, and Coleman, Todd P.

Subjects
Statistics - Computation
Abstract

It is well known that the Lasso can be interpreted as a Bayesian posterior mode estimate with a Laplacian prior. Obtaining samples from the full posterior distribution, the Bayesian Lasso, confers major advantages in performance as compared to having only the Lasso point estimate. Traditionally, the Bayesian Lasso is implemented via Gibbs sampling methods which suffer from lack of scalability, unknown convergence rates, and generation of samples that are necessarily correlated. We provide a measure transport approach to generate i.i.d samples from the posterior by constructing a transport map that transforms a sample from the Laplacian prior into a sample from the posterior. We show how the construction of this transport map can be parallelized into modules that iteratively solve Lasso problems and perform closed-form linear algebra updates. With this posterior sampling method, we perform maximum likelihood estimation of the Lasso regularization parameter via the EM algorithm. We provide comparisons to traditional Gibbs samplers using the diabetes dataset of Efron et al. Lastly, we give an example implementation on a computing system that leverages parallelization, a graphics processing unit, whose execution time has much less dependence on dimension as compared to a standard implementation., Comment: 20 pages, 6 figures

Published
2018

22. Spatial Patterns From High-Resolution Electrogastrography Correlate With Severity of Symptoms in Patients With Functional Dyspepsia and Gastroparesis

Author

Gharibans, Armen A, Coleman, Todd P, Mousa, Hayat, and Kunkel, David C

Subjects
Digestive Diseases, Biomedical Imaging, Clinical Research, Adult, Aged, Aged, 80 and over, Case-Control Studies, Dyspepsia, Electrodiagnosis, Female, Gastric Emptying, Gastroparesis, Humans, Male, Middle Aged, Severity of Illness Index, Spatial Analysis, Stomach, Surveys and Questionnaires, Young Adult, Electrogastrogram, GCSI, Biomarker, Clinical Sciences, Gastroenterology & Hepatology
Abstract

Background & aimsInvasive gastric electrical mapping has revealed spatial abnormalities of the slow wave in subjects with gastroparesis and functional gastrointestinal disorders. Cutaneous high-resolution electrogastrography (HR-EGG) is a non-invasive method that can detect spatial features of the gastric slow wave. We performed HR-EGG in subjects with active foregut symptoms to evaluate associations between gastric myoelectric abnormalities, symptoms (based on a validated questionnaire), and gastric emptying.MethodsWe performed a case-control study of 32 subjects, including 7 healthy individuals (controls), 7 subjects with functional dyspepsia and normal gastric emptying, and 18 subjects with gastroparesis, from a tertiary care program. All subjects were assessed by computed tomography imaging of the abdomen and HR-EGG and completed the PAGI-SYM questionnaire on foregut symptoms, which includes the gastroparesis cardinal symptom index. We performed volume reconstruction of the torso and stomach from computed tomography images to guide accurate placement of the HR-EGG array.ResultsSpatial slow-wave abnormalities were detected in 44% of subjects with foregut symptoms. Moreover, subjects with a higher percentage of slow waves with aberrant propagation direction had a higher total gastroparesis cardinal symptom index score (r = 0.56; P < .001) and more severe abdominal pain (r = 0.46; P = .009). We found no correlation between symptoms and traditional EGG parameters.ConclusionsIn case-control study, we found that the genesis of symptoms of functional dyspepsia and gastroparesis is likely multifactorial, including possible contribution from gastric myoelectric dysfunction. Abnormal spatial parameters, detected by cutaneous HR-EGG, correlated with severity of upper gastrointestinal symptoms, regardless of gastric emptying. This noninvasive, repeatable approach might be used to identify patients for whom gastric myoelectric dysfunction contributes to functional dyspepsia and gastroparesis.

Published
2019

23. Bayesian inverse methods for spatiotemporal characterization of gastric electrical activity from cutaneous multi-electrode recordings

Author

Allegra, Alexis B, Gharibans, Armen A, Schamberg, Gabriel E, Kunkel, David C, and Coleman, Todd P

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Digestive Diseases, Diabetes Complications, Electrodes, Electrophysiological Phenomena, Gastrointestinal Motility, Humans, Models, Biological, Stomach, Stomach Diseases, General Science & Technology
Abstract

Gastrointestinal (GI) problems give rise to 10 percent of initial patient visits to their physician. Although blockages and infections are easy to diagnose, more than half of GI disorders involve abnormal functioning of the GI tract, where diagnosis entails subjective symptom-based questionnaires or objective but invasive, intermittent procedures in specialized centers. Although common procedures capture motor aspects of gastric function, which do not correlate with symptoms or treatment response, recent findings with invasive electrical recordings show that spatiotemporal patterns of the gastric slow wave are associated with diagnosis, symptoms, and treatment response. We here consider developing non-invasive approaches to extract this information. Using CT scans from human subjects, we simulate normative and disordered gastric surface electrical activity along with associated abdominal activity. We employ Bayesian inference to solve the ill-posed inverse problem of estimating gastric surface activity from cutaneous recordings. We utilize a prior distribution on the spatiotemporal activity pertaining to sparsity in the number of wavefronts on the stomach surface, and smooth evolution of these wavefronts across time. We implement an efficient procedure to construct the Bayes optimal estimate and demonstrate its superiority compared to other commonly used inverse methods, for both normal and disordered gastric activity. Region-specific wave direction information is calculated and consistent with the simulated normative and disordered cases. We apply these methods to cutaneous multi-electrode recordings of two human subjects with the same clinical description of motor function, but different diagnosis of underlying cause. Our method finds statistically significant wave propagation in all stomach regions for both subjects, anterograde activity throughout for the subject with diabetic gastroparesis, and retrograde activity in some regions for the subject with idiopathic gastroparesis. These findings provide a further step towards towards non-invasive phenotyping of gastric function and indicate the long-term potential for enabling population health opportunities with objective GI assessment.

Published
2019

24. A flexible likelihood approach for predicting neural spiking activity from oscillatory phase.

Author

Johnson, Teryn D, Coleman, Todd P, and Rangel, Lara M

Subjects
Hippocampus, Neurons, Animals, Rats, Likelihood Functions, Linear Models, Action Potentials, Signal Processing, Computer-Assisted, Information Theory, Brain Waves, CA1, Gamma rhythm, Generalized linear model, Interneuron, L1-regularization, Local field potential, Neural oscillations, Overcomplete basis, Point process modeling, Sparsity, Spike-phase relationship, Theta rhythm, Neurosciences, Behavioral and Social Science, Basic Behavioral and Social Science, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

BackgroundThe synchronous ionic currents that give rise to neural oscillations have complex influences on neuronal spiking activity that are challenging to characterize.New methodHere we present a method to estimate probabilistic relationships between neural spiking activity and the phase of field oscillations using a generalized linear model (GLM) with an overcomplete basis of circular functions. We first use an L1-regularized maximum likelihood procedure to select an active set of regressors from the overcomplete set and perform model fitting using standard maximum likelihood estimation. An information theoretic model selection procedure is then used to identify an optimal subset of regressors and associated coefficients that minimize overfitting. To assess goodness of fit, we apply the time-rescaling theorem and compare model predictions to original data using quantile-quantile plots.ResultsSpike-phase relationships in synthetic data were robustly characterized. When applied to in vivo hippocampal data from an awake behaving rat, our method captured a multimodal relationship between the spiking activity of a CA1 interneuron, a theta (5-10 Hz) rhythm, and a nested high gamma (65-135 Hz) rhythm.Comparison with existing methodsPrevious methods for characterizing spike-phase relationships are often only suitable for unimodal relationships, impose specific relationship shapes, or have limited ability to assess the accuracy or fit of their characterizations.ConclusionsThis method advances the way spike-phase relationships are visualized and quantified, and captures multimodal spike-phase relationships, including relationships with multiple nested rhythms. Overall, our method is a powerful tool for revealing a wide range of neural circuit interactions.

Published
2019

25. A Modularized Efficient Framework for Non-Markov Time Series Estimation

Author

Schamberg, Gabriel, Ba, Demba, and Coleman, Todd P.

Subjects
Mathematics - Optimization and Control, Computer Science - Numerical Analysis
Abstract

We present a compartmentalized approach to finding the maximum a-posteriori (MAP) estimate of a latent time series that obeys a dynamic stochastic model and is observed through noisy measurements. We specifically consider modern signal processing problems with non-Markov signal dynamics (e.g. group sparsity) and/or non-Gaussian measurement models (e.g. point process observation models used in neuroscience). Through the use of auxiliary variables in the MAP estimation problem, we show that a consensus formulation of the alternating direction method of multipliers (ADMM) enables iteratively computing separate estimates based on the likelihood and prior and subsequently "averaging" them in an appropriate sense using a Kalman smoother. As such, this can be applied to a broad class of problem settings and only requires modular adjustments when interchanging various aspects of the statistical model. Under broad log-concavity assumptions, we show that the separate estimation problems are convex optimization problems and that the iterative algorithm converges to the MAP estimate. As such, this framework can capture non-Markov latent time series models and non-Gaussian measurement models. We provide example applications involving (i) group-sparsity priors, within the context of electrophysiologic specrotemporal estimation, and (ii) non-Gaussian measurement models, within the context of dynamic analyses of learning with neural spiking and behavioral observations., Comment: Made correction to residuals in Section III.D., fixed typos, and added information on the official published version

Published
2017
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27. A State Space and Density Estimation Framework for Sleep Staging in Obstructive Sleep Apnea

Author

Kang, Dae Y, DeYoung, Pamela N, Malhotra, Atul, Owens, Robert L, and Coleman, Todd P

Subjects
Engineering, Biomedical Engineering, Information and Computing Sciences, Electronics, Sensors and Digital Hardware, Computer Vision and Multimedia Computation, Neurosciences, Sleep Research, Lung, Bioengineering, Algorithms, Electroencephalography, Humans, Markov Chains, Signal Processing, Computer-Assisted, Sleep Apnea, Obstructive, Sleep Stages, Density estimation, electroencephalography, hidden Markov model, obstructive sleep apnea, sleep scoring, Artificial Intelligence and Image Processing, Electrical and Electronic Engineering, Biomedical engineering, Electronics, sensors and digital hardware, Computer vision and multimedia computation
Abstract

ObjectiveAlthough the importance of sleep is increasingly recognized, the lack of robust and efficient algorithms hinders scalable sleep assessment in healthy persons and those with sleep disorders. Polysomnography (PSG) and visual/manual scoring remain the gold standard in sleep evaluation, but more efficient/automated systems are needed. Most previous works have demonstrated algorithms in high agreement with the gold standard in healthy/normal (HN) individuals-not those with sleep disorders.MethodsThis paper presents a statistical framework that automatically estimates whole-night sleep architecture in patients with obstructive sleep apnea (OSA)-the most common sleep disorder. Single-channel frontal electroencephalography was extracted from 65 HN/OSA sleep studies, and decomposed into 11 spectral features in 60 903 30 s sleep epochs. The algorithm leveraged kernel density estimation to generate stage-specific likelihoods, and a 5-state hidden Markov model to estimate per-night sleep architecture.ResultsComparisons to full PSG expert scoring revealed the algorithm was in fair agreement with the gold standard (median Cohen's kappa = 0.53). Further, analysis revealed modest decreases in median scoring agreement as OSA severity increased from HN (kappa = 0.63) to severe (kappa = 0.47). A separate implementation on HN data from the Physionet Sleep-EDF Database resulted in a median kappa = 0.65, further indicating the algorithm's broad applicability.ConclusionResults of this work indicate the proposed single-channel framework can emulate expert-level scoring of sleep architecture in OSA.SignificanceAlgorithms constructed to more accurately model physiological variability during sleep may help advance automated sleep assessment, for practical and general use in sleep medicine.

Published
2018

28. Emerging Technologies for Molecular Diagnosis of Sepsis

Author

Sinha, Mridu, Jupe, Julietta, Mack, Hannah, Coleman, Todd P, Lawrence, Shelley M, and Fraley, Stephanie I

Subjects
Biotechnology, Sepsis, Infectious Diseases, Biodefense, Prevention, Vaccine Related, Clinical Research, Antimicrobial Resistance, Emerging Infectious Diseases, Hematology, 4.2 Evaluation of markers and technologies, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Infection, Inflammatory and immune system, Bacteriological Techniques, Humans, Molecular Diagnostic Techniques, biomedical engineering, DNA sequencing, diagnostic, infectious disease, microbiology techniques, Agricultural and Veterinary Sciences, Medical and Health Sciences, Microbiology
Abstract

Rapid and accurate profiling of infection-causing pathogens remains a significant challenge in modern health care. Despite advances in molecular diagnostic techniques, blood culture analysis remains the gold standard for diagnosing sepsis. However, this method is too slow and cumbersome to significantly influence the initial management of patients. The swift initiation of precise and targeted antibiotic therapies depends on the ability of a sepsis diagnostic test to capture clinically relevant organisms along with antimicrobial resistance within 1 to 3 h. The administration of appropriate, narrow-spectrum antibiotics demands that such a test be extremely sensitive with a high negative predictive value. In addition, it should utilize small sample volumes and detect polymicrobial infections and contaminants. All of this must be accomplished with a platform that is easily integrated into the clinical workflow. In this review, we outline the limitations of routine blood culture testing and discuss how emerging sepsis technologies are converging on the characteristics of the ideal sepsis diagnostic test. We include seven molecular technologies that have been validated on clinical blood specimens or mock samples using human blood. In addition, we discuss advances in machine learning technologies that use electronic medical record data to provide contextual evaluation support for clinical decision-making.

Published
2018

29. Artifact Rejection Methodology Enables Continuous, Noninvasive Measurement of Gastric Myoelectric Activity in Ambulatory Subjects.

Author

Gharibans, Armen A, Smarr, Benjamin L, Kunkel, David C, Kriegsfeld, Lance J, Mousa, Hayat M, and Coleman, Todd P

Subjects
Stomach, Humans, Gastrointestinal Diseases, Electromyography, Monitoring, Ambulatory, Artifacts, Manometry, Gastrointestinal Motility, Signal Processing, Computer-Assisted, Adolescent, Child, Female, Male, Mobile Applications, Smartphone, Wearable Electronic Devices, Digestive Diseases, Rare Diseases, Clinical Research
Abstract

The increasing prevalence of functional and motility gastrointestinal (GI) disorders is at odds with bottlenecks in their diagnosis, treatment, and follow-up. Lack of noninvasive approaches means that only specialized centers can perform objective assessment procedures. Abnormal GI muscular activity, which is coordinated by electrical slow-waves, may play a key role in symptoms. As such, the electrogastrogram (EGG), a noninvasive means to continuously monitor gastric electrical activity, can be used to inform diagnoses over broader populations. However, it is seldom used due to technical issues: inconsistent results from single-channel measurements and signal artifacts that make interpretation difficult and limit prolonged monitoring. Here, we overcome these limitations with a wearable multi-channel system and artifact removal signal processing methods. Our approach yields an increase of 0.56 in the mean correlation coefficient between EGG and the clinical "gold standard", gastric manometry, across 11 subjects (p

Published
2018

30. In-Home Sleep Recordings in Military Veterans With Posttraumatic Stress Disorder Reveal Less REM and Deep Sleep <1 Hz.

Author

Onton, Julie, Matthews, Scott, Kang, Dae, and Coleman, Todd

Subjects
EEG, Lo Deep, PTSD, REM, electrodermal activity, sleep, sleep scoring algorithm, slow wave sleep
Abstract

Veterans with posttraumatic stress disorder (PTSD) often report suboptimal sleep quality, often described as lack of restfulness for unknown reasons. These experiences are sometimes difficult to objectively quantify in sleep lab assessments. Here, we used a streamlined sleep assessment tool to record in-home 2-channel electroencephalogram (EEG) with concurrent collection of electrodermal activity (EDA) and acceleration. Data from a single forehead channel were transformed into a whole-night spectrogram, and sleep stages were classified using a fully automated algorithm. For this study, 71 control subjects and 60 military-related PTSD subjects were analyzed for percentage of time spent in Light, Hi Deep (1-3 Hz), Lo Deep (

Published
2018

33. Grand Challenges for Global Brain Sciences

Author

Vogelstein, Joshua T., Amunts, Katrin, Andreou, Andreas, Angelaki, Dora, Ascoli, Giorgio, Bargmann, Cori, Burns, Randal, Cali, Corrado, Chance, Frances, Chun, Miyoung, Church, George, Cline, Hollis, Coleman, Todd, de La Rochefoucauld, Stephanie, Denk, Winfried, Elgoyhen, Ana Belen, Cummings, Ralph Etienne, Evans, Alan, Harris, Kenneth, Hausser, Michael, Hill, Sean, Inverso, Samuel, Jackson, Chad, Jain, Viren, Kass, Rob, Kasthuri, Bobby, Kiar, Gregory, Kording, Konrad, Koushika, Sandhya, Krakauer, John, Landis, Story, Layton, Jeff, Luo, Qingming, Marblestone, Adam, Markowitz, David, McArthur, Justin, Mensh, Brett, Milham, Michael, Mitra, Partha, Neskovic, Pedja, Nicolelis, Miguel, O'Brien, Richard, Oliva, Aude, Orban, Gergo, Peng, Hanchuan, Picchini-Schaffer, Alyssa, Picciotto, Marina, Poline, Jean-Baptiste, Poo, Mu-ming, Pouget, Alex, Raghavachari, Sri, Roskams, Jane, Sejnowski, Terry, Sommer, Fritz, Spruston, Nelson, Swanson, Larry, Toga, Arthur, Vogelstein, R. Jacob, Yuste, Rafael, Zador, Anthony, Huganir, Richard, and Miller, Michael

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

The next grand challenges for society and science are in the brain sciences. A collection of 60+ scientists from around the world, together with 10+ observers from national, private, and foundations, spent two days together discussing the top challenges that we could solve as a global community in the next decade. We eventually settled on three challenges, spanning anatomy, physiology, and medicine. Addressing all three challenges requires novel computational infrastructure. The group proposed the advent of The International Brain Station (TIBS), to address these challenges, and launch brain sciences to the next level of understanding., Comment: 6 pages

Published
2016

34. Timing Channel: Achievable Rate in the Finite Block-Length Regime

Author

Riedl, Thomas J., Coleman, Todd P., and Singer, Andrew C.

Subjects
Computer Science - Information Theory
Abstract

The exponential server timing channel is known to be the simplest, and in some sense canonical, queuing timing channel. The capacity of this infinite-memory channel is known. Here, we discuss practical finite-length restrictions on the codewords and attempt to understand the maximal rate that can be achieved for a target error probability. By using Markov chain analysis, we prove a lower bound on the maximal channel coding rate achievable at blocklength $n$ and error probability $\epsilon$. The bound is approximated by $C- n^{-1/2} \sigma Q^{-1}(\epsilon)$ where $Q$ denotes the Q-function and $\sigma^2$ is the asymptotic variance of the underlying Markov chain. A closed form expression for $\sigma^2$ is given., Comment: Full technical report on the work originally presented at the Information Theory Workshop (ITW) in 2011

Published
2016

35. Tractable Fully Bayesian Inference via Convex Optimization and Optimal Transport Theory

Author

Kim, Sanggyun, Mesa, Diego, Ma, Rui, and Coleman, Todd P.

Subjects
Statistics - Machine Learning
Abstract

We consider the problem of transforming samples from one continuous source distribution into samples from another target distribution. We demonstrate with optimal transport theory that when the source distribution can be easily sampled from and the target distribution is log-concave, this can be tractably solved with convex optimization. We show that a special case of this, when the source is the prior and the target is the posterior, is Bayesian inference. Here, we can tractably calculate the normalization constant and draw posterior i.i.d. samples. Remarkably, our Bayesian tractability criterion is simply log concavity of the prior and likelihood: the same criterion for tractable calculation of the maximum a posteriori point estimate. With simulated data, we demonstrate how we can attain the Bayes risk in simulations. With physiologic data, we demonstrate improvements over point estimation in intensive care unit outcome prediction and electroencephalography-based sleep staging., Comment: 18 pages, 10 figures

Published
2015

36. Hearing 'That's so Gay' and 'No Homo' on Academic Outcomes for LGBQ + College Students

Author

Mathies, Nicole, Coleman, Todd, McKie, Raymond M., Woodford, Michael R., Courtice, Erin Leigh, Travers, Robb, and Renn, Kristen A.

Abstract

Heterosexist phrases on college campuses can contribute to negative consequences among lesbian, gay, bisexual, queer, and other sexual minority students (LGBQ+), however, their relationship to academic outcomes remains under-researched. This analysis investigates hearing the microaggressions "that's so gay" and "no homo" on academic engagement outcomes among a national sample of cisgender sexual minority college students (n = 574). The multivariable regression analysis suggest that increased exposure to hearing "that's so gay" and "no homo" were both significantly associated with worse academic outcomes in terms of developmental challenge (p = 0.002 and p < 0.001, respectively). Greater instances of hearing "no homo" was also associated with lower college GPA scores (p = 0.015). Strategies for educational institutions, faculty, and students to promote more accepting campus climates and alleviate the harmful effects of hearing these phrases are discussed.

Published
2019
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39. Scalable Microfabrication Procedures for Adhesive-Integrated Flexible and Stretchable Electronic Sensors.

Author

Kang, Dae Y, Kim, Yun-Soung, Ornelas, Gladys, Sinha, Mridu, Naidu, Keerthiga, and Coleman, Todd P

Subjects
Glass, Adhesives, Equipment Design, Biosensing Techniques, Electronics, Elasticity, Pliability, Microtechnology, flexible electronics, flexible sensors, peel-off, roll-to-roll, Analytical Chemistry, Environmental Science and Management, Ecology, Distributed Computing, Electrical and Electronic Engineering
Abstract

New classes of ultrathin flexible and stretchable devices have changed the way modern electronics are designed to interact with their target systems. Though more and more novel technologies surface and steer the way we think about future electronics, there exists an unmet need in regards to optimizing the fabrication procedures for these devices so that large-scale industrial translation is realistic. This article presents an unconventional approach for facile microfabrication and processing of adhesive-peeled (AP) flexible sensors. By assembling AP sensors on a weakly-adhering substrate in an inverted fashion, we demonstrate a procedure with 50% reduced end-to-end processing time that achieves greater levels of fabrication yield. The methodology is used to demonstrate the fabrication of electrical and mechanical flexible and stretchable AP sensors that are peeled-off their carrier substrates by consumer adhesives. In using this approach, we outline the manner by which adhesion is maintained and buckling is reduced for gold film processing on polydimethylsiloxane substrates. In addition, we demonstrate the compatibility of our methodology with large-scale post-processing using a roll-to-roll approach.

Published
2015

40. An Optimizer's Approach to Stochastic Control Problems with Nonclassical Information Structures

Author

Kulkarni, Ankur A. and Coleman, Todd P.

Subjects
Mathematics - Optimization and Control, Computer Science - Information Theory, 93E20, 91A12, 49N10, 93C41, 94A34, 94A05
Abstract

We present an optimization-based approach to stochastic control problems with nonclassical information structures. We cast these problems equivalently as optimization prob- lems on joint distributions. The resulting problems are necessarily nonconvex. Our approach to solving them is through convex relaxation. We solve the instance solved by Bansal and Basar with a particular application of this approach that uses the data processing inequality for constructing the convex relaxation. Using certain f-divergences, we obtain a new, larger set of inverse optimal cost functions for such problems. Insights are obtained on the relation between the structure of cost functions and of convex relaxations for inverse optimal control., Comment: Under review with the IEEE Transactions on Automatic Control

Published
2013

41. Depression and Attempted Suicide among LGBTQ College Students: Fostering Resilience to the Effects of Heterosexism and Cisgenderism on Campus

Author

Woodford, Michael R., Weber, Genevieve, Nicolazzo, Z., Hunt, Renee, Kulick, Alex, Coleman, Todd, Coulombe, Simon, and Renn, Kristen A.

Abstract

Little is known is about the impacts of covert and overt discrimination and the protective factors for depression and suicide among LGBTQ students. Using multivariable regression analyses of a national sample of cisgender lesbian, gay, bisexual, and queer students and trans* students (n = 776), we examined the association between mental health and microaggressions, victimization, psychological resilience, pride, and outness. In models of all risk and protective factors, interpersonal microaggressions was a risk factor for depression and attempted suicide among cisgender LGBQ students and was also a risk factor among trans* students for depression. In all but 1 model, resilience was a protective factor. Resilience moderated the microaggressions-suicide relationship among cisgender LGBQ students, whereas pride moderated the victimization-depression relationship among trans* students.

Published
2018

43. Directed Information Graphs

Author

Quinn, Christopher J., Kiyavash, Negar, and Coleman, Todd P.

Subjects
Computer Science - Information Theory, Computer Science - Artificial Intelligence, Statistics - Machine Learning
Abstract

We propose a graphical model for representing networks of stochastic processes, the minimal generative model graph. It is based on reduced factorizations of the joint distribution over time. We show that under appropriate conditions, it is unique and consistent with another type of graphical model, the directed information graph, which is based on a generalization of Granger causality. We demonstrate how directed information quantifies Granger causality in a particular sequential prediction setting. We also develop efficient methods to estimate the topological structure from data that obviate estimating the joint statistics. One algorithm assumes upper-bounds on the degrees and uses the minimal dimension statistics necessary. In the event that the upper-bounds are not valid, the resulting graph is nonetheless an optimal approximation. Another algorithm uses near-minimal dimension statistics when no bounds are known but the distribution satisfies a certain criterion. Analogous to how structure learning algorithms for undirected graphical models use mutual information estimates, these algorithms use directed information estimates. We characterize the sample-complexity of two plug-in directed information estimators and obtain confidence intervals. For the setting when point estimates are unreliable, we propose an algorithm that uses confidence intervals to identify the best approximation that is robust to estimation error. Lastly, we demonstrate the effectiveness of the proposed algorithms through analysis of both synthetic data and real data from the Twitter network. In the latter case, we identify which news sources influence users in the network by merely analyzing tweet times., Comment: 41 pages, 15 figures

Published
2012

44. Information-Theoretic Viewpoints on Optimal Causal Coding-Decoding Problems

Author

Gorantla, Siva and Coleman, Todd

Subjects
Computer Science - Information Theory
Abstract

In this paper we consider an interacting two-agent sequential decision-making problem consisting of a Markov source process, a causal encoder with feedback, and a causal decoder. Motivated by a desire to foster links between control and information theory, we augment the standard formulation by considering general alphabets and a cost function operating on current and previous symbols. Using dynamic programming, we provide a structural result whereby an optimal scheme exists that operates on appropriate sufficient statistics. We emphasize an example where the decoder alphabet lies in a space of beliefs on the source alphabet, and the additive cost function is a log likelihood ratio pertaining to sequential information gain. We also consider the inverse optimal control problem, where a fixed encoder/decoder pair satisfying statistical conditions is shown to be optimal for some cost function, using probabilistic matching. We provide examples of the applicability of this framework to communication with feedback, hidden Markov models and the nonlinear filter, decentralized control, brain-machine interfaces, and queuing theory., Comment: submitted to IEEE Transactions on Information Theory

Published
2011

45. Causal Dependence Tree Approximations of Joint Distributions for Multiple Random Processes

Author

Quinn, Christopher J., Coleman, Todd P., and Kiyavash, Negar

Subjects
Computer Science - Information Theory
Abstract

We investigate approximating joint distributions of random processes with causal dependence tree distributions. Such distributions are particularly useful in providing parsimonious representation when there exists causal dynamics among processes. By extending the results by Chow and Liu on dependence tree approximations, we show that the best causal dependence tree approximation is the one which maximizes the sum of directed informations on its edges, where best is defined in terms of minimizing the KL-divergence between the original and the approximate distribution. Moreover, we describe a low-complexity algorithm to efficiently pick this approximate distribution., Comment: 9 pages, 15 figures

Published
2011

46. Bit-wise Unequal Error Protection for Variable Length Block Codes with Feedback

Author

Nakiboglu, Baris, Gorantla, Siva K., Zheng, Lizhong, and Coleman, Todd P.

Subjects
Computer Science - Information Theory
Abstract

The bit-wise unequal error protection problem, for the case when the number of groups of bits $\ell$ is fixed, is considered for variable length block codes with feedback. An encoding scheme based on fixed length block codes with erasures is used to establish inner bounds to the achievable performance for finite expected decoding time. A new technique for bounding the performance of variable length block codes is used to establish outer bounds to the performance for a given expected decoding time. The inner and the outer bounds match one another asymptotically and characterize the achievable region of rate-exponent vectors, completely. The single message message-wise unequal error protection problem for variable length block codes with feedback is also solved as a necessary step on the way., Comment: 41 pages, 3 figures

Published
2011
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50. Universal light quark mass dependence and heavy-light meson spectroscopy

Author

Allen, Theodore J., Coleman, Todd, Olsson, M. G., and Veseli, Sinisa

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

Clean predictions are presented for all the spin-averaged heavy-light meson spectroscopies. A new symmetry is identified wherein the energy eigenstates have a universal dependence on both the light and heavy quark masses. This universality is used in an efficient analysis of these mesons within the QCD string/flux tube picture. Unique predictions for all the D, D_s, B, and B_s type mesons in terms of just four measured quantities., Comment: REVTeX4, 6 pages, 9 eps figures

Published
2003
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