Asynchronous Design Investigation for a 16-Bit Microprocessor

Kalish, William

12 May 2012

Asynchronous design is an alternative to the more widely used synchronous design which allows for the elimination of a global clock network and associated design issues such as clock skew. Uncle is a toolflow that provides automated assistance for transforming a synchronous system specified in Verilog RTL to an asynchronous system. With assistance from Uncle an asynchronous delay-insensitive microprocessor is implemented using NULL Convention Logic (NCL) and verified to function properly. An advantage of asynchronous design is that it can be data-driven. Data-driven design allows specific blocks of logic to only be active when they are needed. Data-driven design is implemented to bypass parts of the asynchronous microprocessor. These parts included the ALU and the peripheral hardware multiplier. This resulted in a reduction of total power consumed and an increase in speed. Overall, it was concluded that asynchronous design with Uncle was a viable alternative to synchronous design.

delay insensitive systems

NULL convention logic

data-driven design

Development of Hybrid Inexact Optimization Models for Water Quality Management under Uncertainty

Zhang, Qianqian

January 2021

Water quality management (WQM) significantly affects water use and ecosystem health, which is helpful for achieving sustainability in environmental and economic aspects. However, the implementation of water quality management is still challenging in practice due to the uncertainty and nonlinearity existing in water systems, as well as the difficulty of the integration of simulation and optimization analyses. Therefore, effective optimization frameworks for handling nonlinearity, various uncertainties, and integrated complex water quality simulation models are highly desired. This dissertation tries to address such challenges by proposing new efficient hybrid inexact optimization models for water quality management under uncertainty through: i) developing an interval quadratic programming (IQP) model for handling both nonlinearity and uncertainty expressed as intervals for water quality management, and solving the developed model by three algorithms to compare and investigate the most effective and straightforward solution algorithm for IQP-WQM problems; ii) developing a simulation-based interval chance-constrained quadratic programming model, which is able to deal with nonlinearity and uncertainties with multiple formats, and implementing a real-world case study of phosphorus control in the central Grand River, Ontario, Canada; iii) proposing a data-driven interval credibility constrained quadratic programming model for water quality management by utilizing a data-driven surrogate model (i.e., inexact linear regression) to incorporate a complex water quality simulation model with the optimization framework to overcome challenges from the integrated simulation-optimization. The performance of the proposed frameworks/models was tested by different case studies and various mathematical techniques (e.g., sensitivity analysis). The results indicate the proposed models are capable of dealing with nonlinearity and various uncertainties, and significantly reducing the computational burden from simulation-optimization analysis. Coupling such efforts in developing efficient hybrid inexact optimization models for water quality management under uncertainty can provide useful tools to solve large-scale complex water quality management problems in a robust manner, and further provide reliable and effective decision supports for water quality planning and management. / Thesis / Doctor of Philosophy (PhD) / Water quality management plays a key role in facilitating environmental and economic sustainability. However, many challenges still exist in practical water quality management problems, such as various uncertainties and complexities, as well as complicated integrated simulation-optimization analysis. Therefore, the goal of this dissertation is to address such challenges by developing a set of efficient hybrid inexact optimization models for water quality management under uncertainty through: i) developing an interval quadratic programming model for water quality management, and investigating its effective and straightforward solution algorithms; ii) leveraging the power of data-driven modeling and proposing efficient data-driven optimization models based on hybrid inexact programming for water quality management. Robust and effective water quality planning schemes for large-scale water quality management problems can be obtained based on the proposed frameworks/models.

water quality management

uncertainty

simulation and optimization

data-driven modeling

Crafting and Conveying a Meaningful Message of Change : A Case Study of How Data-Driven Change Communication Can Drive Change Readiness in a Swedish Rental Services Company / Att formulera och kommunicera ett meningsfullt förändringsbudskap

Lundeberg, Mathilda, Lundgren, Tilda

January 2019

In today’s turbulent business environment, an increasing number of businesses and organizations are finding themselves confronted with a crushing pressure to constantly reinvent themselves. Given such a business environment, coupled with high stakes and fierce competitiveness, it is quite unsurprising that most change efforts are reported to fail. Change communication, or rather the lack thereof, has been pointed out as one of the most important reasons. In recent years, many scholars have started to differentiate between participatory and programmatic change communication, elicited by a reconceptualization of change as continuous and emergent rather than episodic and planned. Participatory and programmatic are two diametrically different ways to approach change communication, and thus, they each require different tools, techniques and strategies. Several scholars have called attention to the shortage of tools, techniques and strategies suitable for participatory change communication in particular, however, empirical research remain scarce. At the same time, the data revolution is right upon us. Businesses that fail to harness the true potential of their data see themselves outcompeted by those who do. Even though data since long has been prophesied to transform management altogether, it is only in recent years that its application within the various subfields of management research has received serious attention by academia. However, the application of data in change management in general, and change communication in particular, has largely been left unaddressed.  In this thesis, we are exploring the role of data in the context of change communication through a case study at Skanska Rental, one of Sweden’s largest construction equipment rental companies. We delimit our study to only treat one of the most important aspects of data-driven communication; namely, data visualization. Our findings indicate that data visualization can facilitate change communication by encouraging it to be participatory. In particular, we find that data visualization has the merit of enthusing its audience, aligning the perception of the current state of affairs, reinforcing a data-driven culture, and facilitating interpersonal communication. We also call attention to three important considerations; (1) the democratization of data requires transparency trade-offs, (2) data visualization cannot replace interpersonal communication, but at most facilitate it, and (3) communication, although one of the most important, is not the sole precursor of successful change. We conclude our thesis by addressing the practical and theoretical implications of our conclusions, and lastly, by suggesting directions for future research in data-driven change communication. / I dagens turbulenta omvärld utsätts företag och organisationer för ett ständigt förändringstryck som inte visar några tecken på att avta. Givet ett sådant klimat, där mycket står på spel och där konkurrensen är förkrossande, är det inte förvånande att de flesta förändringsinitiativ misslyckas. Förändringskommunikation, eller snarare bristen därav, har ofta pekats ut som en av de viktigaste orsakerna till detta. På senare tid har många forskare börjat göra skillnad mellan två olika typer av förändringskommunikation: deltagande respektive programmatisk. Att betrakta förändringskommunikation genom denna dikotomi har föranletts av en ny syn på förändring i stort; snarare än att se förändring som episodisk och planerad har många forskare istället konceptualiserat förändring som kontinuerlig och framväxande. Olika tekniker, verktyg och strategier lämpar sig olika väl för de två olika typerna av förändringskommunikation. Många forskare har varnat för en bristande förståelse för i synnerhet de tekniker, verktyg och strategier som lämpar sig för den deltagande typen av förändringskommunikation. Under de senare åren har det förändringstryck många företag och organisationer står inför snarast ökat i styrka på grund av den datarevolution vi befinner oss mitt upp i. Trots att det sedan länge har förutspåtts att data har potentialen att vända spelplanen för företagsledning upp och ner, så är det bara på senare år som ämnet har åtnjutit företagsledningsforskningens fulla uppmärksamhet. Däremot finns det fortfarande ett underskott på akademisk forskning som adresserar hur data kan användas inom förändringsledning i allmänhet och förändringskommunikation i synnerhet. I denna masteruppsats utforskar vi den roll som data kan spela inom förändringskommunikation. Vårt empiriska material inhämtar vi genom en case-studie hos Skanska Rental, ett av Sveriges största uthyrningsföretag inom byggbranschen. Vi avgränsar vår studie genom att endast behandla en utav de viktigaste aspekterna av data-driven kommunikation, nämligen datavisualisering. Våra resultat indikerar att datavisualisering kan underlätta förändringskommunikation genom att göra den deltagande. I synnerhet finner vi att datavisualisering har potential att entusiasmera dess publik, linjera bilden av nuläget, förstärka en data-driven organisationskultur och fungera som en utgångspunkt för mellanmänsklig kommunikation. Vi identifierar också tre viktiga reservationer mot denna slutsats; (1) demokratisering av data fordrar ställningstagande gällande transparens, (2) datavisualisering kan inte ersätta mellanmänsklig kommunikation, och (3) kommunikation, om än viktig, är inte den enda förutsättningen för framgångsrik förändring. Vi avslutar vår uppsats med att adressera de praktiska och teoretiska implikationer som vår slutsats resulterar i, samt föreslår inriktningen för framtida forskning inom data-driven förändringskommunikation.

change readiness

data-driven change communication

participatory change communication

visualization

data-driven organization

Power BI

förändringsmognad

data-driven förändringskommunikation

deltagande förändringskommunikation

visualisering

data-driven organisation

Power BI

Engineering and Technology

Teknik och teknologier

Data Driven Learning of Dynamical Systems Using Neural Networks

Mussmann, Thomas Frederick

04 October 2021

No description available.

Mathematics

Teaching Vocabulary Through Data-Driven Learning

Shaw, Erin Margaret

10 June 2011

The purpose of this master's project was to write a resource book that demonstrates how teachers can use data-driven learning methods to teach vocabulary. First, a brief overview of corpus linguistics, data-driven learning, and the corpus used in this book (COCA) is given. Then, the book presents different aspects of vocabulary learning in the context of a corpus. Topics included are frequency knowledge, part of speech knowledge, morphological knowledge, synonym knowledge, collocational knowledge, and register knowledge with a chapter on each topic. For each aspect of vocabulary learning there is a section that introduces the topic to the teacher, followed by instructions on performing topic related searches in the corpus. Each chapter also includes examples and ideas for application to the vocabulary classroom. Additional chapters provide information on individual language learning, and an evaluation of the project. The goal of this project was to provide teachers with specific knowledge of vocabulary and corpus-linguistics to be able to teach less-frequently addressed aspects of vocabulary instruction and to encourage more use of corpora in the language classroom. It is hoped that after reading this book, teachers will be able to improve their vocabulary teaching and ability to use the Corpus of Contemporary American English and DDL methods in the ESL/EFL classroom. The evaluation of this project will consist of teacher reviews of the book after reading. Specifically, the questionnaire addresses readers' feelings of increased knowledge and understanding of these areas and desire to use them in the classroom.

COCA

data-driven learning

vocabulary teaching

metalinguistic awareness

DDL

Linguistics

Deep Learning of Model Correction and Discontinuity Detection

Zhou, Zixu

26 August 2022

No description available.

Mathematics

A New Era for Wireless Communications Physical Layer: A Data-Driven Learning-Based Approach.

Al-Baidhani, Amer

23 August 2022

No description available.

Electrical Engineering

Wireless Receiver

Deep learning

Data-Driven

Are Artificial Neural Networks the Right Tool for Modelling and Control of Batch and Batch-Like Processes?

Mustafa Rashid

January 2023

The prevalence of batch and batch-like operations, in conjunction with the continued resurgence of artificial intelligence techniques for clustering and classification applications, has increasingly motivated the exploration of the applicability of deep learning for modeling and feedback control of batch and batch-like processes. To this end, the present study seeks to evaluate the viability of artificial intelligence in general, and neural networks in particular, toward process modeling and control via a case study. Nonlinear autoregressive with exogeneous input (NARX) networks are evaluated in comparison with subspace models within the framework of model-based control. A batch polymethyl methacrylate (PMMA) polymerization process is chosen as a simulation test-bed. Subspace-based state-space models and NARX networks identified for the process are first compared for their predictive power. The identified models are then implemented in model predictive control (MPC) to compare the control performance for both modeling approaches. The comparative analysis reveals that the state-space models performed better than NARX networks in predictive power and control performance. Moreover, the NARX networks were found to be less versatile than state-space models in adapting to new process operation. The results of the study indicate that further research is needed before neural networks may become readily applicable for the feedback control of batch processes. / Thesis / Master of Applied Science (MASc)

Data-Driven Modeling of Tracked Order Vibration in Turbofan Engine

Krishnan, Manu

11 January 2022

Aircraft engines are one of the most heavily instrumented parts of an aircraft, and the data from various types of instrumentation across these engines are continuously monitored both offline and online for potential anomalies. Vibration monitoring in aircraft engines is traditionally performed using an order tracking methodology. Currently, there are no representative and efficient physics-based models with the adequate fidelity to perform vibration predictions in aircraft engines, given various parametric dependencies existing among different attributes such as temperature, pressure, and external conditions. This gap in research is primarily attributed to the limited understanding of mutual interactions of different variables and the nonlinear nature of engine vibrations. The objective of the current study is three-fold: (i) to present a preliminary investigation of tracked order vibrations in aircraft engines and statistically analyze them in the context of their operating environment, (ii) to develop data-driven modeling methodology to approximate a dynamical system from input-output data, and (iii) to leverage these data-driven modeling methodologies to develop highly accurate models for tracked order vibration in a turbo-fan engine valid over a wide range of operating conditions. Off-the-shelf data-driven modeling techniques, such as machine learning methods (eg., regression, neural networks), have several drawbacks including lack of interpretability and limited scope, when applying them to a complex multiscale multi-physical dynamical system. Moreover, for dynamical systems with external forcing, the identified model should not only be suitable for a specific forcing function, but should also generally approximate the input-output behavior of the data source. The author proposes a novel methodology known as Wavelet-based Dynamic Mode Decomposition (WDMD). The methodology entails using wavelets in conjunction with input-output dynamic mode decomposition (ioDMD). Similar to time-delay embedded DMD (Delay-DMD), WDMD builds on the ioDMD framework without the restrictive assumption of full state measurements. The author demonstrates the present methodology's applicability by modeling the input-output response of an Euler-Bernoulli finite element beam model, followed by an experimental investigation. As a first step towards modeling the tracked order vibration amplitudes of turbofan engines, the interdependencies and cross-correlation structure between various thermo-mechanical variables and tracked order vibration are analyzed. The order amplitudes are further contextualized in terms of their operating regime, and exploratory data analyses are performed to quantify the variability within each operating condition (OC). The understanding of complex correlation structures is leveraged and subsequently utilized to model tracked order vibrations. Switching linear dynamical system (SLDS) models are developed using individual data-driven models constructed using WDMD, and its performance in approximating the dynamics of the $1^{st}$ order amplitudes are compared with the state-of-the-art time-delay embedded dynamic mode decomposition (Delay-DMD) and Lasso regression. A parametric approach is proposed to improve the model further by leveraging previously developed WDMD and Delay-DMD methods and a parametric interpolation scheme. In particular, a recently developed pole-residue interpolation scheme is adopted to interpolate between several linear, data-driven reduced-order models (ROMs), constructed using WDMD and Delay-DMD surrogates, at known parameter samples. The parametric modeling approach is demonstrated by modeling the transverse vibration of an axially loaded finite element (FE) beam, where the axial loading is the parameter. Finally, a parametric modeling strategy for tracked order amplitudes is presented by constructing locally valid ROMs at different parametric samples corresponding to each pass-off test. The performance of the parametric-ROM is quantified and compared with the previous frameworks. This work was supported by the Rolls-Royce Fellowship, sponsored by the College of Engineering, Virginia Tech. / Doctor of Philosophy / Vibrations in commercial aircraft engines are of utmost importance as they directly translate to aviation health and safety, and hence are continuously monitored both online and offline for potential abnormalities. Notably, this is of increased interest with the abundance of air transportation in today's world. However, there is limited understanding of the complex higher vibration in aircraft engines. Vibration engineers often face ambiguity when interpreting higher vibrations. This can often lead to a lengthy investigative process resulting in longer downtime and increased testbed occupancy, ultimately leading to revenue loss. It is often hypothesized that prior engine running conditions such as shutdown/cooling time between one engine run to another engine run affect the vibration profile. Nonetheless, there exists a gap in understanding tying together various historical operational conditions, temperature, pressures, and current operational conditions with the expected vibration in the engine. This study aims to fill some of these gaps in our understanding by proposing a data-driven strategy to model the vibrations in commercial aircraft engines. Subsequently, this data-driven model can serve as a baseline model to compare the observed vibrations with the model predicted vibration and supplement physics-based models. The data for the present study is generated by operating a commercial turbofan engine in a testbed. With the advent of machine learning and data fusion, various data-driven techniques exist to model dynamical systems. However, the complexity of the turbofan engine vibrations calls for developing new techniques applicable towards modeling the vibration characteristics of a turbofan engine. Specifically, this dissertation details the development of a novel methodology called Wavelet-based Dynamic Mode Decomposition (WDMD) and applies the technique to model input-output characteristics of various dynamical systems ranging from a numerical finite element (FE) beam to an experimental free-free beam to shaft vibrations in a turbofan engine. The study finally presents an improved modeling framework by incorporating the existing techniques with parametric dependencies. This enables the existing method to consider slight differences existing from one engine run to another, such as the history of the engine, the shutdown time, and the outside environmental parameters.

Turbofan engine vibration

order analysis

DMD

data-driven

ROM

A Data-Driven Algorithm for Parameter Estimation in the Parametric Survival Mixture Model

Zhang, Jin

12 1900

<p> We propose a data-driven estimation algorithm in survival mixture model. The objective of this study is to provide an alternative fitting procedure to the conventional EM algorithm. The EM algorithm is the classical ML fitting of the parametric mixture model. If the initial values for the EM algorithm are not properly chosen, the maximizers might be local or divergent. Traditionally, initial values are given manually according to experience or a gridpoint search. This is a heavy burden for a high-dimensional data sets. Also, specifying the ranges of parameters for a grid-point search is difficult. To avoid the specification of initial values, we employ the random partition. Then, improvement of fitting is adjusted according to model specification. This process is repeated a large number of times, so it is computer intensive. The large repetitions makes the solution more likely to be the global maximizer, and it is driven purely by the data. We conduct a simulation study for three cases of two-component Log-Normal, two-component Weibull, and two-component Log-Normal and Wei bull, in order to illustrate the effectiveness of the proposed algorithm. Finally, we apply our algorithm to a breast cancer study data which follows a cure model. The program is written in R. It calls existing R functions, so it is flexible to use in regression situations where model formula must be specified. </p> / Thesis / Master of Science (MSc)

Data-Driven Algorithm

Parameter Estimation

Parametric Survival

Mixture Model