Data Driven Prognosis And Diagnosis Of Event Occurrences With Applications In Manufacturing And Healthcare Systems

Data-driven Prognosis and Diagnosis of Event Occurrences with Applications in Manufacturing and Healthcare Systems

Author : Junbo Son

Publisher :

Page : 0 pages

File Size : 39,62 MB

Release : 2016

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ISBN :

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Book Description

Information technology revolution is turning modern engineering systems into smart and connected systems and such systems have become increasingly available in practice. Due to the advances in implementation of smart and connected systems, we now have massive data with rich condition monitoring signals of in-situ systems and detailed records of critical events. This unprecedented data availability realized by the smart and connected systems provides significant opportunities for sophisticated data-driven prognosis and diagnosis for the underlying health status of a system in various fields. Successful prognosis and diagnosis can prevent catastrophic consequences in advance and provide meaningful information about the underlying health status of a system. However, at the same time, it also creates new challenges for research in data analytics as to how this vast and complex data could be utilized to retrieve accurate prognosis and meaningful diagnosis. Many existing techniques fall short of addressing this issue because most of them are for the cases where the data were collected in a well-controlled experimental setting. The critical event records and condition monitoring data obtained from the complex smart and connected systems often involve many factors that are uncontrollable and inevitably exhibit severe heterogeneity. This thesis addresses multiple challenges for prognosis and diagnosis based on such data by establishing a series of data-driven methodologies. (a) To build a joint model framework for both time-to-failure data and condition monitoring signals by integrating Cox regression and mixed-effects model. (b) To extend the joint model framework to address various issues in the prognosis based on the monitoring data. (c) Establishing a joint prognostic model for recurrent events by hierarchically integrating logistic regression and mixed-effects models. (d) To establish a diagnostic model based on recurrent event data using correlated Gamma-based hidden Markov model. The proposed methods can be applied to a broad range of data analytics applications, and the emerging challenges in monitoring data obtained from smart and connected systems can be effectively addressed.



Data-driven Prognosis and Diagnosis of Event Occurrences with Applications in Manufacturing and Healthcare Systems

Author :

Publisher :

Page : 190 pages

File Size : 12,58 MB

Release : 2016

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ISBN :

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Book Description

Information technology revolution is turning modern engineering systems into smart and connected systems and such systems have become increasingly available in practice. Due to the advances in implementation of smart and connected systems, we now have massive data with rich condition monitoring signals of in-situ systems and detailed records of critical events. This unprecedented data availability realized by the smart and connected systems provides significant opportunities for sophisticated data-driven prognosis and diagnosis for the underlying health status of a system in various fields. Successful prognosis and diagnosis can prevent catastrophic consequences in advance and provide meaningful information about the underlying health status of a system. However, at the same time, it also creates new challenges for research in data analytics as to how this vast and complex data could be utilized to retrieve accurate prognosis and meaningful diagnosis. Many existing techniques fall short of addressing this issue because most of them are for the cases where the data were collected in a well-controlled experimental setting. The critical event records and condition monitoring data obtained from the complex smart and connected systems often involve many factors that are uncontrollable and inevitably exhibit severe heterogeneity. This thesis addresses multiple challenges for prognosis and diagnosis based on such data by establishing a series of data-driven methodologies. (a) To build a joint model framework for both time-to-failure data and condition monitoring signals by integrating Cox regression and mixed-effects model. (b) To extend the joint model framework to address various issues in the prognosis based on the monitoring data. (c) Establishing a joint prognostic model for recurrent events by hierarchically integrating logistic regression and mixed-effects models. (d) To establish a diagnostic model based on recurrent event data using correlated Gamma-based hidden Markov model. The proposed methods can be applied to a broad range of data analytics applications, and the emerging challenges in monitoring data obtained from smart and connected systems can be effectively addressed.



Data-Driven Remaining Useful Life Prognosis Techniques

Author : Xiao-Sheng Si

Publisher : Springer

Page : 436 pages

File Size : 17,16 MB

Release : 2017-01-20

Category : Technology & Engineering

ISBN : 3662540304

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Book Description

This book introduces data-driven remaining useful life prognosis techniques, and shows how to utilize the condition monitoring data to predict the remaining useful life of stochastic degrading systems and to schedule maintenance and logistics plans. It is also the first book that describes the basic data-driven remaining useful life prognosis theory systematically and in detail. The emphasis of the book is on the stochastic models, methods and applications employed in remaining useful life prognosis. It includes a wealth of degradation monitoring experiment data, practical prognosis methods for remaining useful life in various cases, and a series of applications incorporated into prognostic information in decision-making, such as maintenance-related decisions and ordering spare parts. It also highlights the latest advances in data-driven remaining useful life prognosis techniques, especially in the contexts of adaptive prognosis for linear stochastic degrading systems, nonlinear degradation modeling based prognosis, residual storage life prognosis, and prognostic information-based decision-making.



Healthcare Analytics

Author : Hui Yang

Publisher : John Wiley & Sons

Page : 632 pages

File Size : 48,85 MB

Release : 2016-10-13

Category : Business & Economics

ISBN : 1119374642

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Book Description

Features of statistical and operational research methods and tools being used to improve the healthcare industry With a focus on cutting-edge approaches to the quickly growing field of healthcare, Healthcare Analytics: From Data to Knowledge to Healthcare Improvement provides an integrated and comprehensive treatment on recent research advancements in data-driven healthcare analytics in an effort to provide more personalized and smarter healthcare services. Emphasizing data and healthcare analytics from an operational management and statistical perspective, the book details how analytical methods and tools can be utilized to enhance healthcare quality and operational efficiency. Organized into two main sections, Part I features biomedical and health informatics and specifically addresses the analytics of genomic and proteomic data; physiological signals from patient-monitoring systems; data uncertainty in clinical laboratory tests; predictive modeling; disease modeling for sepsis; and the design of cyber infrastructures for early prediction of epidemic events. Part II focuses on healthcare delivery systems, including system advances for transforming clinic workflow and patient care; macro analysis of patient flow distribution; intensive care units; primary care; demand and resource allocation; mathematical models for predicting patient readmission and postoperative outcome; physician–patient interactions; insurance claims; and the role of social media in healthcare. Healthcare Analytics: From Data to Knowledge to Healthcare Improvement also features: • Contributions from well-known international experts who shed light on new approaches in this growing area • Discussions on contemporary methods and techniques to address the handling of rich and large-scale healthcare data as well as the overall optimization of healthcare system operations • Numerous real-world examples and case studies that emphasize the vast potential of statistical and operational research tools and techniques to address the big data environment within the healthcare industry • Plentiful applications that showcase analytical methods and tools tailored for successful healthcare systems modeling and improvement The book is an ideal reference for academics and practitioners in operations research, management science, applied mathematics, statistics, business, industrial and systems engineering, healthcare systems, and economics. Healthcare Analytics: From Data to Knowledge to Healthcare Improvement is also appropriate for graduate-level courses typically offered within operations research, industrial engineering, business, and public health departments.



Data-driven Modeling, Analysis, and Optimization of Sensor-integrated Complex Systems

Author : Rui Zhu

Publisher :

Page : pages

File Size : 13,84 MB

Release : 2021

Category :

ISBN :

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Book Description

Advanced sensing is increasingly integrated with complex systems for system informatics and optimization. Rapid advancement of sensing technology brings the data proliferation and provides unprecedented opportunities for data-driven modeling, analysis, and optimization of sensor-integrated complex systems. However, complex-structured sensing data pose significant challenges in data analysis. Realizing full potentials of sensing data depends to a great extent on developing novel analytical methods and tools to address the challenges. The objective of this dissertation is to develop innovative sensor-based methodologies for modeling, analysis, and optimization of complex healthcare and virtual reality (VR) systems. This research will enable and assist in 1) handling high-dimensional spatiotemporal data; 2) extracting pertinent information about system dynamics; 3) exploiting acquired knowledge for system optimization for the cardiovascular system and the human behavior in VR environment. My research accomplishments include: Optimal sensing strategy for the design of electrocardiogram imaging (ECGi) system: In Chapter 2, a new optimal sensor placement strategy is developed for the design of ECGi systems to capture a complete picture of spatiotemporal dynamics in cardiac electrical activity. This investigation provides a viable solution that uses a sparse set of ECG sensors to realize high-resolution ECGi systems. Sensor-based survival analysis of cardiac risks: In Chapter 3, a data-driven survival model is developed to predict the probability that cardiac events occur at a certain time point by integrating variable data, attribute data, with sensor-based ECG data. This research is conducive to improve the early detection of life-threatening cardiac events, thereby reducing the recurrences of cardiac events and improving lifestyle modifications of cardiac patients. Joint SDT-C&E model for quantifying problem-solving skills in sensor-based VR: In Chapter 4, a data-driven model that integrates signal detection theory (SDT) with conflict & error (C&E) is developed to quantify engineering problem-solving skills. The proposed model can be generalized to quantify problem-solving skills in many other disciplines such as healthcare, psychology, and cognitive sciences, by comparing one's problem-solving actions with actions of a subject matter expert. Eye-tracking sensing and modeling in VR: In Chapter 5, a VR learning factory is developed to mimic physical learning factories. Further, data-driven models are integrated with eye-tracking sensing to evaluate and reinforce problem-solving skills of engineering students in a VR learning factory. The VR learning factory and aggregative quantifier developed in this chapter have strong potentials to be incorporated into laboratory demonstration and engineering examinations of manufacturing curriculums.



Artificial Intelligence in Healthcare

Author : Adam Bohr

Publisher : Academic Press

Page : 385 pages

File Size : 23,5 MB

Release : 2020-06-21

Category : Computers

ISBN : 0128184396

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Book Description

Artificial Intelligence (AI) in Healthcare is more than a comprehensive introduction to artificial intelligence as a tool in the generation and analysis of healthcare data. The book is split into two sections where the first section describes the current healthcare challenges and the rise of AI in this arena. The ten following chapters are written by specialists in each area, covering the whole healthcare ecosystem. First, the AI applications in drug design and drug development are presented followed by its applications in the field of cancer diagnostics, treatment and medical imaging. Subsequently, the application of AI in medical devices and surgery are covered as well as remote patient monitoring. Finally, the book dives into the topics of security, privacy, information sharing, health insurances and legal aspects of AI in healthcare. Highlights different data techniques in healthcare data analysis, including machine learning and data mining Illustrates different applications and challenges across the design, implementation and management of intelligent systems and healthcare data networks Includes applications and case studies across all areas of AI in healthcare data



Process Mining in Healthcare

Author : Ronny S. Mans

Publisher : Springer

Page : 99 pages

File Size : 40,4 MB

Release : 2015-03-12

Category : Computers

ISBN : 3319160710

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Book Description

What are the possibilities for process mining in hospitals? In this book the authors provide an answer to this question by presenting a healthcare reference model that outlines all the different classes of data that are potentially available for process mining in healthcare and the relationships between them. Subsequently, based on this reference model, they explain the application opportunities for process mining in this domain and discuss the various kinds of analyses that can be performed. They focus on organizational healthcare processes rather than medical treatment processes. The combination of event data and process mining techniques allows them to analyze the operational processes within a hospital based on facts, thus providing a solid basis for managing and improving processes within hospitals. To this end, they also explicitly elaborate on data quality issues that are relevant for the data aspects of the healthcare reference model. This book mainly targets advanced professionals involved in areas related to business process management, business intelligence, data mining, and business process redesign for healthcare systems as well as graduate students specializing in healthcare information systems and process analysis.



Data-driven Modeling, Prognosis, and Control of Discrete Events in Smart and Connected Systems

Author : Akash Deep (Ph.D.)

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Page : 0 pages

File Size : 27,11 MB

Release : 2022

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ISBN :

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Book Description

The rapid advances in data acquisition, communication, storage, and processing technologies in recent years have enabled the transformation of conventional industrial equipment into smart and connected systems as well as the automation of business processes. The wealth of data extracted from these systems presents unprecedented opportunities for applying advanced data analytics to enhance industrial operations and services. Specifically, the data analytics-driven improvements in system performance can be achieved through effective monitoring of the evolution of the system's condition, modeling of complex relationships between industrial processes, accurate and individualized prognosis, and subsequently, using these insights to make intelligent optimal decisions. In this context, the proposed research focuses on a particular kind of data (known as "event data") which are commonly present in data gathered from industrial systems and processes. An event marks the occurrence of an underlying phenomenon in the temporal domain such as critical warnings, failures, maintenance actions, customer interactions, etc. From an analytics perspective, event data present several significant challenges including, but not limited to, non-normality, censoring, heterogeneity, and associations between different processes. This research simultaneously addresses multiple challenges, and the following tasks are pursued. (a) Individualized prognosis of in-field units in presence of unobserved heterogeneity - a method is proposed to dynamically update the heterogeneity parameter and make unit-specific predictions of a succeeding event, (b) Modeling and prognosis in presence of multi-type events - first, a copula-based framework is proposed for prognosis in presence of censoring, and second, a multivariate stochastic process is proposed to capture impact between event-types, (c) Monitoring of event sequences with unknown event-types - an approach utilizing multiple survival models for monitoring is proposed, and (d) Modeling, prognosis, and control of hard failures - a hidden Markov model-based degradation model is proposed for predicting hard failures. Thereafter, a partially observed Markov decision process is employed to recommend optimal maintenance actions. While these methods have been developed in the context of industrial systems and services, they can be generalized and applied to other business contexts as well.



Data-driven Approaches for Condition Monitoring and Predictive Analytics

Author : Abdallah Adnan Chehade

Publisher :

Page : 300 pages

File Size : 46,70 MB

Release : 2017

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ISBN :

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Book Description

The rapid development of sensing and communication technologies has enabled an unprecedented opportunity for condition monitoring, making multiple data streams a commonplace to simultaneously monitor the health status of an operating unit. Such a big data environment poses essential challenges in determining (i) which data streams to use; and (ii) how to fuse/combine those multiple and relevant data streams for better failure diagnosis and prognostics as these multiple data streams are often correlated and each data stream may only contain partial information about the degraded unit. However, it is often hard to physically interpret the dependencies and relations between these data streams due to the complexity of the system. Given the massive amount of data have become available, nowadays many research companies are looking for effective tools to improve failure monitoring and predictive capabilities. As a consequence, my research focuses on developing effective data-driven methodologies to better monitor and infer the condition of an operating unit in real time. Such inference would be very useful for profitable managerial decision-making such as condition-based maintenance scheduling, work in progress distribution, shipment scheduling, and customer satisfaction. This thesis contributes to the field of System Informatics and Data Analytics (SIDA) by developing systematic data-driven methodologies for better condition monitoring and prognostic analysis in complex systems. These developed methodologies enable (i) real time modeling and characterization of the health status of a system, (ii) predicting future measurements, trends and behaviors of the system, and (iii) further diagnosing the reasons for degradation and failure of the system. This research combines advanced statistical methods, data analytics tools, engineering knowledge, and decision science and operations research. The research is highly applicable in many applications such as health care, manufacturing, after sales and services.



Secondary Analysis of Electronic Health Records

Author : MIT Critical Data

Publisher : Springer

Page : 435 pages

File Size : 19,90 MB

Release : 2016-09-09

Category : Medical

ISBN : 3319437429

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Book Description

This book trains the next generation of scientists representing different disciplines to leverage the data generated during routine patient care. It formulates a more complete lexicon of evidence-based recommendations and support shared, ethical decision making by doctors with their patients. Diagnostic and therapeutic technologies continue to evolve rapidly, and both individual practitioners and clinical teams face increasingly complex ethical decisions. Unfortunately, the current state of medical knowledge does not provide the guidance to make the majority of clinical decisions on the basis of evidence. The present research infrastructure is inefficient and frequently produces unreliable results that cannot be replicated. Even randomized controlled trials (RCTs), the traditional gold standards of the research reliability hierarchy, are not without limitations. They can be costly, labor intensive, and slow, and can return results that are seldom generalizable to every patient population. Furthermore, many pertinent but unresolved clinical and medical systems issues do not seem to have attracted the interest of the research enterprise, which has come to focus instead on cellular and molecular investigations and single-agent (e.g., a drug or device) effects. For clinicians, the end result is a bit of a “data desert” when it comes to making decisions. The new research infrastructure proposed in this book will help the medical profession to make ethically sound and well informed decisions for their patients.