Three Essays on Price Dynamics and Causations among Energy Markets and Macroeconomic Information

Hong, Sung Wook 1977-

14 March 2013

This dissertation examines three important issues in energy markets: price dynamics, information flow, and structural change. We discuss each issue in detail, building empirical time series models, analyzing the results, and interpreting the findings. First, we examine the contemporaneous interdependencies and information flows among crude oil, natural gas, and electricity prices in the United States (US) through the multivariate generalized autoregressive conditional heteroscedasticity (MGARCH) model, Directed Acyclic Graph (DAG) for contemporaneous causal structures and Bernanke factorization for price dynamic processes. Test results show that the DAG from residuals of out-of-sample-forecast is consistent with the DAG from residuals of within-sample-fit. The result supports innovation accounting analysis based on DAGs using residuals of out-of-sample-forecast. Second, we look at the effects of the federal fund rate and/or WTI crude oil price shock on US macroeconomic and financial indicators by using a Factor Augmented Vector Autoregression (FAVAR) model and a graphical model without any deductive assumption. The results show that, in contemporaneous time, the federal fund rate shock is exogenous as the identifying assumption in the Vector Autoregression (VAR) framework of the monetary shock transmission mechanism, whereas the WTI crude oil price return is not exogenous. Third, we examine price dynamics and contemporaneous causality among the price returns of WTI crude oil, gasoline, corn, and the S&P 500. We look for structural break points and then build an econometric model to find the consistent sub-periods having stable parameters in a given VAR framework and to explain recent movements and interdependency among returns. We found strong evidence of two structural breaks and contemporaneous causal relationships among the residuals, but also significant differences between contemporaneous causal structures for each sub-period.

Price Dynamics

Directed Acyclic Graph

Causality

Causal Connection Search and Structural Demand Modeling on Retail-Level Scanner Data

Lai, Pei-Chun

2010 December 1900

Many researchers would be interested in one question: If a change of X is made, will Y be influenced in response? However, while a lot of statistical methods are developed to analyze association between variables, how to find a causal relationship among variables is relatively neglected. The PC algorithm, developed on the basis of Pearl, Sprites, Glymour, and Scheines‟s studies, is used to find the causal pattern of the real-world observed data. However, PC in Tetrad produces a class of directed acyclic graphs (DAGs) that are statistically equivalent under a normal distribution, and therefore such a distributional assumption causes a series of unidentifiable DAGs because of the same joint probability. In 2006 Shimizu, Hoyer, Hyvärinen, and Kerminen developed the Linear Independent Non-Gaussian Model (LiNGAM) to do a causal search based on the independently non-Gaussian distributed disturbances by applying higher-order moment structures. The research objective of this dissertation is to examine whether the LiNGAM is helpful relative to the PC algorithm, to detect the causal relation of non-normal data. The LiNGAM algorithm is implemented by first doing independent component analysis (ICA) estimation and then discovering the correct ordering of variables. Thus, the procedures of ICA estimation and the process of finding the correct causal orderings in LiNGAM are illustrated. Next, we do a causal search on the retail-level scanner data to investigate the pricing interaction between the manufacturer and the retailer by applying these two algorithms. While PC generates the set of indistinguishable DAGs, LiNGAM gives more exact causal patterns. This work demonstrates the algorithm based on the non-normal distribution assumption makes causal associations clearer. In Chapter IV, we apply a classical structural demand model to investigate the consumer purchase behavior in the carbonated soft drink market. Unfortunately, when further restrictions are imposed, we cannot get reasonable results as most researchers require. LiNGAM is applied to prove the existence of endogeneity for the brand‟s retail price and verify that the brand‟s wholesale price is not a proper instrument for its retail price. Therefore, consistent estimates cannot be derived as the theories suggest. These results imply that economic theory is not always found in restriction applied to observational data.

Directed Acyclic Graph

LiNGAM

Pricing Interaction

Mapping Unstructured Parallelism to Series-Parallel DAGs

Pan, Yan, Hsu, Wen Jing

01 1900

Many parallel programming languages allow programmers to describe parallelism by using constructs such as fork/join. When executed, such programs can be modeled as directed graphs, with nodes representing a computation and edges representing the sequence and dependency. However, because it does not coerce regularity in the computation, the general model is not amenable to efficient execution of the resulting program. Therefore, a more restrictive model called Series-Parallel DAG (Directed Acyclic Graph) has been proposed and adopted by several major parallel languages. As reported by the Cilk developers, many parallel computations can be easily expressed in the series-parallel model, and there are provably efficient scheduling algorithms for the SP DAGs. Nevertheless, it remains open how much inherent parallelism will be lost when conforming to the model, because expressing a computation in the series-parallel model may also induce performance losses. We will show that any general DAG can be converted into an SP DAG without violating the original precedence relations; moreover, the conversion can be carried out in essentially linear time and space, and the resulting DAG exhibits little loss in the parallelism. Since the resulting SP DAG can then be executed with high efficiency, it implies that the languages based on SP DAGs are not as restrictive as they were thought to be. / Singapore-MIT Alliance (SMA)

parallel computing

Series-Parallel Directed Acyclic Graph

Cilk

SP DAG

Application of dependence analysis and runtime data flow graph scheduling to matrix computations

Chan, Ernie W., 1982-

23 November 2010

We present a methodology for exploiting shared-memory parallelism within matrix computations by expressing linear algebra algorithms as directed acyclic graphs. Our solution involves a separation of concerns that completely hides the exploitation of parallelism from the code that implements the linear algebra algorithms. This approach to the problem is fundamentally different since we also address the issue of programmability instead of strictly focusing on parallelization. Using the separation of concerns, we present a framework for analyzing and developing scheduling algorithms and heuristics for this problem domain. As such, we develop a theory and practice of scheduling concepts for matrix computations in this dissertation. / text

Matrix computation

Directed acyclic graph

Algorithm-by-blocks

Efficient Graph Techniques for Partial Scan Pattern Debug and Bounded Model Checkers

Misra, Supratik Kumar

06 March 2012

Continuous advances in VLSI technology have led to more complex digital designs and shrinking transistor sizes. Due to these developments, design verification and manufacturing test have gained more importance and 70 % of the design expenditure in on validation processes. Electronic Design Automation (EDA) tools play a huge role in the validation process with various verification and test tools. Their efficiency have a high impact in saving time and money in this competitive market. Direct Acyclic Graphs (DAGs) are the backbone for most of the EDA tools. DAG is the most efficient data structure to store circuit information and also have efficient backt traversing structure which help in developing reasoning/ debugging tools. In this thesis, we focus on two such EDA tools using graphs as their underlying structure for circuit information storage • Scan pattern Debugger for Partial Scan Designs • Circuit SAT Bounded Model Checkers We developed a complete Interactive Scan Pattern Debugger Suite currently being used in the industry for next generation microprocessor design. The back end is an implication graph based sequential logic simulator which creates a Debug Implication Graph during the logic simulation of the failing patterns. An efficient node traversal mechanism across time frames, in the DIG, is used to perform the root-cause analysis for the failing scan-cells. In addition, the debugger provides visibility into the circuit internals to understand and fix the root-cause. We integrated the proposed technique into the scan ATPG flow for industrial microprocessor designs. We were able to resolve the First Silicon logical pattern failures within hours, which would have otherwise taken a few days of manual effort for root-causing the failure, understanding the root-cause and fixing it. For our circuit SAT implementation, we replace the internal implication graph used by the SAT solver with our debug implication graph (DIG). There is a high amount of circuit unrolling in circuit SAT/ BMC (Bounded Model Checking) problems which creates copies of the same combinational blocks in multiple time frames. This allows us to use the repetitive circuit structure and club it with the CNF database in the SAT solver. We propose a new data structure to store data in a circuit SAT solver which results up to 90% reduction in number of nodes. / Master of Science

Directed Acyclic Graph

Partial Scan Design

Pattern Debugger

Implication Graphs

A Study of the Application of Chaos to the Genetic Algorithm

Jegede, Olawale

10 April 2014

This work focuses on the use of a genetic algorithm for optimization in a search-based problem. The Genetic Algorithm (GA) is a subset of evolutionary algorithms that models biological processes to optimize highly complex functions. A GA allows a population composed of many individuals to evolve under specified selection rules to a state that maximizes the “fitness” (i.e. minimize the objective function). A major advantage of using GA over most stochastic techniques is its parallelism, which speeds up the simulation results leading to faster convergence. With mutation, the GA is also less likely to get stuck in local minima compared to other stochastic techniques. However, some notable drawbacks of the Standard GA (SGA) include slow convergence and a possibility of being stuck in local optimum solution. The SGA uses a random process to generate parameter values for the initial population generation, crossover and mutation processes. Random number generators are designed to result in either uniform distributions or Gaussian distributions. We conjecture that the evolutionary processes in genetics are driven by a random non-linear deterministic dynamic process rather than a random non-deterministic process. Therefore, in the GA evolutionary process, a chaotic map is incorporated into the initial population generation, the crossover and mutation processes of the SGA; this is termed the Chaotic GA (CGA). The properties of a chaotic system that provides additional benefits over randomly generated solutions are sensitivity to initial conditions, topological density and topological transitivity (robust diversity). These properties ensure that the CGA is able to explore the entire solution space. Introducing chaos into the whole process of a standard genetic algorithm may help improve convergence time and accuracy. Simulation was done using Matlab and Java.

Genetic Algorithm

Chaotic Genetic Algorithm

Minimum EST

Maximum EST

Directed Acyclic Graph

Standard Genetic Algorithm

Utilização de diagramas causais em confundimento e viés de seleção. / Using causal diagrams on confounding and selection bias.

Taísa Rodrigues Cortes

14 March 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Apesar do crescente reconhecimento do potencial dos diagramas causais por epidemiologistas, essa técnica ainda é pouco utilizada na investigação epidemiológica. Uma das possíveis razões é que muitos temas de investigação exigem modelos causais complexos. Neste trabalho, a relação entre estresse ocupacional e obesidade é utilizada como um exemplo de aplicação de diagramas causais em questões relacionadas a confundimento. São apresentadas etapas da utilização dos diagramas causais, incluindo a construção do gráfico acíclico direcionado, seleção de variáveis para ajuste estatístico e a derivação das implicações estatísticas de um diagrama causal. A principal vantagem dos diagramas causais é tornar explícitas as hipóteses adjacentes ao modelo considerado, permitindo que suas implicações possam ser analisadas criticamente, facilitando, desta forma, a identificação de possíveis fontes de viés e incerteza nos resultados de um estudo epidemiológico. / Despite the increasing recognition of the potential of causal diagrams by epidemiologists, this technique has not been widely used in epidemiological research. One possible reason is that many research topics require complex causal models. In this article, the relationship between occupational stress and obesity is used as an example of application of causal diagrams on confounding. Some steps are presented, including the construction of the directed acyclic graph, the selection of variables for statistical control and the derivation of the statistical implications of a causal diagram. The main advantage of causal diagrams is to make the assumptions explicit, thus facilitating critical evaluations and the identification of possible sources of bias and uncertainty in the results of an epidemiological study.

Diagrama causal

Gráfico acíclico direcionado

Confundimento

Causal diagram

Directed acyclic graph

Confounding

EPIDEMIOLOGIA

Utilização de diagramas causais em confundimento e viés de seleção. / Using causal diagrams on confounding and selection bias.

Taísa Rodrigues Cortes

14 March 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Apesar do crescente reconhecimento do potencial dos diagramas causais por epidemiologistas, essa técnica ainda é pouco utilizada na investigação epidemiológica. Uma das possíveis razões é que muitos temas de investigação exigem modelos causais complexos. Neste trabalho, a relação entre estresse ocupacional e obesidade é utilizada como um exemplo de aplicação de diagramas causais em questões relacionadas a confundimento. São apresentadas etapas da utilização dos diagramas causais, incluindo a construção do gráfico acíclico direcionado, seleção de variáveis para ajuste estatístico e a derivação das implicações estatísticas de um diagrama causal. A principal vantagem dos diagramas causais é tornar explícitas as hipóteses adjacentes ao modelo considerado, permitindo que suas implicações possam ser analisadas criticamente, facilitando, desta forma, a identificação de possíveis fontes de viés e incerteza nos resultados de um estudo epidemiológico. / Despite the increasing recognition of the potential of causal diagrams by epidemiologists, this technique has not been widely used in epidemiological research. One possible reason is that many research topics require complex causal models. In this article, the relationship between occupational stress and obesity is used as an example of application of causal diagrams on confounding. Some steps are presented, including the construction of the directed acyclic graph, the selection of variables for statistical control and the derivation of the statistical implications of a causal diagram. The main advantage of causal diagrams is to make the assumptions explicit, thus facilitating critical evaluations and the identification of possible sources of bias and uncertainty in the results of an epidemiological study.

Diagrama causal

Gráfico acíclico direcionado

Confundimento

Causal diagram

Directed acyclic graph

Confounding

EPIDEMIOLOGIA

Transformation of Directed Acyclic Graphs into Kubernetes Deployments with Optimized Latency / Transformation av riktade acykliska grafer till Kubernetes-distributioner med optimerad latens

Almgren, Robert, Lidekrans, Robin

January 2022

In telecommunications, there is currently a lot of work being done to migrate to the cloud, and a lot of specialized hardware is being exchanged for virtualized solutions. One important part of telecommunication networks that is yet to be moved to the cloud is known as the base-band unit, which sits between the antennas and the core network. The base-band unit has very strict latency requirements, making it unsuitable for out-of-the-box cloud solutions. Ericsson is therefore investigating if cloud solutions can be customized in such a way that base-band unit functionality can be virtualized as well. One such customization is to describe the functionality of a base-band unit using a directed acyclic graph (DAG), and deploy it to a cloud environment using Kubernetes. This thesis sets out to take applications represented using a DAG and deploy it using Kubernetes in such a way that the network latency is reduced when compared to the deployment generated by the default Kubernetes scheduler. The problem of placing the applications onto the available hardware resources was formulated as an integer linear programming problem. The problem was then implemented using Pyomo and solved with the open-source solver GLPK to obtain an optimized placement. This placement was then used to generate a configuration file that could be used to deploy the applications using Kubernetes. A mock application was developed in order to evaluate the optimized placement. The evaluation carried out in this thesis shows that the optimized placement obtained from the solution could improve the average round-trip latency of applications represented using a DAG by up to 30% when compared to the default Kubernetes scheduler.

Kubernetes

Container Scheduling

Integer Linear Programming

Baseband Unit

Directed Acyclic Graph

Computer Sciences

Datavetenskap (datalogi)

Micropayments Between IoT Devices : A Qualitative Study Analyzing the Usability of DLT:s in an IoT Environment / Mikrobetalningar mellan IoT enheter : En kvalitativ studie som utreder användbarheten av DLT:s i en IoT miljö

El-Hage, Sebastian, Holst, Gustav

January 2018

Today there exist no standardized payment solution for performing micropayments between Internet of Things (IoT) devices. This study was conducted to examine whether Distributed Ledger Technology (DLT) could be suitable as a micropayment solution for IoT. Also, a more general demand for a scalable micropayment solution was examined, along with its potential. A qualitative study was performed by first conducting eight unstructured interviews regarding the subjects DLT and IoT, to be used as a complement to the literature research. Then, one unstructured and five semi-structured interviews were held to answer the research questions. The Bitcoin blockchain does not work as a micropayment solution, due to scalability issues. This study identified a positive outlook on the idea of Lightning Network, solving the scalability problems with off-chain transactions. However, since a fully functioning network is yet to be implemented, there exist uncertainties, for example regarding how decentralized it will really become. Also, issues considering the usage of DLT:s on small IoT devices arose, stemming from CPU and storage constraints. A demand of a sustainable micropayment solution was identified, possibly being a catalyst of the emergence of pay-per-use business models. Considering more powerful IoT devices, the Lightning Network could function as a micropayment solution. Such a technology is sought after, and its applicability will only increase as IoT devices evolve. / Det finns idag ingen standardiserad betalningslösning för att genomföra mikrobetalningar mellan Internet of Things (IoT) enheter. Denna studie genomfördes för att undersöka huruvida Distributed Ledger Technology (DLT) skulle kunna användas som en mikrobetalningslösning för IoT. En mer generell eterfrågan för en skalbar mikrobetalningslösning, och effekterna av en sådan, undersöktes. En kvalitativ studie genofördes, där åtta ostrukturerade intervjuer gällande ämnena DLT och IoT, hölls för att komplementera litteraturstudierna. Sedan genomfördes en ostrukturerad och fem semi-strukturerade intervjuer för att kunna besvara de frågeställningar som definierats. Bitcoin blockkedjan funderar inte som en mikrobetalningslösning på grund utav dess skalbarhetsproblem. Studien identifierar en positiv syn på Lightning Network, som löserskalbarhetsproblemen genom att använda sig av transaktioner utanför kedjan. Denna lösning är dock inte fullständigt implementerad, vilket leder till flera osäkerheter angående exempelvis hur decentraliserat nätverket verkligen kommer att bli. Utöver detta finns även svårigheter med användandet av DLT:s för små IoT-enheter, vilket härstämmar ifrån deras CPU- och lagringsbegränsningar. En efterfrågan på en hållbar mikrobetalningslösning identifieras, och denna skulle kunna fungera som en katalysator för etablerandet av pay-per-use affärsmodeller. Tittar vi på mer kraftfulla IoT-enheter skulle Lightning Network fungera som en mikrobetalningslösning. En sådan teknologi är eftertraktad och dess användbarhet kommer bara att växa i och med utvecklingen av IoT-enheter.

Blockchain

Directed Acyclic Graph

Distributed Ledger Technology

Internet of Things

Micropayments

Computer and Information Sciences

Data- och informationsvetenskap