Bohus Stickning: En analys av den kreativa processen och dess aktörer / Bohus Stickning: An Analysis of the Creative Process and its Actors

Holmgren, Isa

January 2023

This study investigates the meaning of the creative process within Bohus Stickning. With the use of Actor-Network-Theory in combination with Material Culture Theory, a framework of actors and networks has been made. By utilizing different forms of material and spoken sources, the study uses specifically tailored methods to make sure to unlock the pieces that, the material can bring to the puzzle. To give a contextualized answer to how and why the creative process took the form it did, the investigative part takes the form of a chronological presentation of the actors that played an important part for the creative process. The results of the studies have shown that Bohus Stickning’s founder and creative director, Emma Jakobsson’s background played a significant part in the direction of the company and its creative output. Her choice to lead Bohus Stickning towards a more modern approach close to the way continental fashion and art was produced, gave the organization a unique brand unlike anything else in Sweden at the time. Not only did their unique stans make Bohus Stickning a worldwide known brand, but also their level of quality, a result of highly competent staff, who worked within the company, made a big difference.

Bohus Stickning

Bohuslän

Stickning

Textil

Mode

Actor-Network-Theory

ANT

Cultural Studies

Kulturstudier

Close Encounters and the Role of Information and Communication Technology in Science Fiction Cinema

Paredes Guzman, Christian

January 2023

Science Fiction movies have in recent decades become sources of information and interpretation, in other words, a window that reflects the time period in which they were made. While the role of technology has been researched in science fiction material, not much focus has been put into researching specific types of technology. This paper attempts to do just that by investigating the role of information and communication technologies (ICT) in the two science fiction movies, Close Encounters of the Third Kind and Arrival. Primarily using the Actor-Network Theory (ANT), complemented by aspects of the Communication Accommodation Theory (CAT) and the theory of Social Construct of Technology (SCOT), this paper highlights the role of ICTs as active agents. Through a comparative method, selected scenes featuring examples of technologies whose purpose depends on the intentions of non-technological agents such as humans are given, adding an interpretative angle. The generational differences are highlighted throughout the analysis by the networks they create, as well as the power dynamics between civilian and military actors. We find that the Actor-Network Theory can be a great framework to use with science fiction cinema to investigate these subjects.

Technology

History

Science Fiction

ICT

Aliens

Actor-Network Theory

History

Historia

VULNERABILITY ASSESSMENT AND RESILIENCE ENHANCEMENT OF CRITICAL INFRASTRUCTURE NETWORKS

Salama, Mohamed

January 2022

Modern societies are fully dependent on critical infrastructures networks to support the economy, security, and prosperity. Energy infrastructure network is of paramount importance to our societies. As a pillar of the economy, it is necessary that energy infrastructure networks continue to operate safely and be resilient to provide reliable power to other critical infrastructure networks. Nonetheless, frequent large-scale blackouts in recent years have highlighted the vulnerability in the power grids, where disruptions can trigger cascading failures causing a catastrophic regional-level blackout. Such catastrophic blackouts call for a systemic risk assessment approach whereby the entire network/system is assessed against such failures considering the dynamic power flow within. However, the lack of detailed data combining both topological and functional information, and the computational resources typically required for large-scale modelling, considering also operational corrective actions, have impeded large-scale resilience studies. In this respect, the research in the present dissertation focuses on investigating, analyzing, and evaluating the vulnerability of power grid infrastructure networks in an effort to enhance their resilience. Through a Complex Network Theory (CNT) lens, the power grid robustness has been evaluated against random and targeted attacks through evaluating a family of centrality measures. The results shows that CNT models provide a quick and potential indication to identify key network components, which support regulators and operators in making informed decisions to maintain and upgrade the network, constrained by the tolerable risk and allocated financial resources. Furthermore, a dynamic Cascade Failure Model (CFM) has been employed to develop a Physical Flow-Based Model (PFBM). The CFM considers the operational corrective actions in case of failure to rebalance the supply and demand (i.e., dispatch and load shedding). The CFM was subsequently utilized to construct a grid vulnerability map function of the Link Vulnerability Index (LVI), which can be used to rank the line maintenance priority. In addition, a Node Importance Index (NII) has been developed for power substations ranking according to the resulting cascade failure size. The results from CNT and CFM approaches were compared to address the impact of considering the physical behavior of the power grid. The comparison results indicate that relying solely on CNT topology-based model could result in erroneous conclusions pertaining to the grid behavior. Moving forward, a systemic risk mitigation strategy based on the Intentional Controlled Islanding (ICI) approach has been introduced to suppress the failure propagation. The proposed mitigation strategy integrated the operation- with structure-guided strategies has shown excellent capabilities in terms of enhancing the network robustness and minimizing the possibility of catastrophic large-scale blackouts. This research demonstrates the model application on a real large-scale network with data ranging from low to high voltage. In the future, the CFM model can be integrated with other critical infrastructure network systems to establish a network-of-networks interaction model for assessing the systemic risk throughout and between multiple network layers. Understanding the interdependence between different networks will provide stakeholders with insight on enhancing resilience and support policymakers in making informed decisions pertaining to the tolerable systemic risk level to take reliable actions under abnormal conditions. / Thesis / Doctor of Philosophy (PhD)

Vulnerability Analysis

Complex Network Theory

Robustness

Centrality Measures

Dynamic Cascade Failure

Power Infrastructure Networks

Complex network theoretical approach to investigate the interdependence between factors affecting subsurface radionuclide migration

Narayanan, Brinda Lakshmi

January 2022

Mining of uranium ore and its extraction using the milling process generates solid and liquid waste, commonly termed uranium mine tailings. Uranium mine tailings is radioactive, as it consists of residual uranium, thorium, and radium, which amounts to 85% of the original ore’s radioactivity. Due to the extensively long half-lives of uranium (4.5x109 years), thorium (75,400 years), and radium (1,620 years) and their harmful radioactive, it is imperative to isolate uranium mine tailings from the environment for a longer period. Containment of uranium mine tailings in dam-like structures, called uranium mine tailings dam (UMTD), is the most followed disposal and storage method. Like a conventional water retention dam, UMTDs are also susceptible to failure, mainly due to adverse weather conditions. Once the UMTD fails, a fraction of the radioactive tailings infiltrates and migrate through the vadose zone contaminating the groundwater sources underlying it. Radionuclide behavior and migration in the subsurface are affected by several environmental factors. To minimize the uncertainty and improve current radionuclide fate and transport models, it is vital to study these factors and any interdependence existing between them. This study aims to understand these environmental factors by i) enlisting the factors affecting subsurface radionuclide migration through scoping review of articles and reports, and ii) analyzing the interdependence existing between the factors using the complex network theory (CNT) approach and identifying the dominant factors among them. Factors such as chemical and biological characteristics of soil stratigraphy, groundwater, and radioactive tailings plume, meteorological, and hydrogeological are found to influence radionuclide behavior and transport mechanisms in the vadose zone. CNT approach described soil microorganisms, fraction of organic carbon, infiltration rate of the soil, transmissivity, clay fraction in the soil, particulates in groundwater, and infiltrating rainwater as dominant factors in the NoF based on their centrality measures and sensitivity analysis of the network of factors (NoF). Any uncertainty associated with these factors will affect and propagate through the model. Hence, sufficient resources should be directed in the future to characterize these factors and minimize their uncertainty, which will lead to developing reliable fate and transport models for radionuclides. / Thesis / Master of Applied Science (MASc) / Waste products from uranium mining and milling operations are called uranium mine tailings, which are radioactive. Generally, uranium mine tailings are disposed of and isolated in dam-like structures referred to as uranium mine tailings dams (UMTD). One of the most common causes of UMTD failure is extreme weather conditions. When a UMTD fails, a part of tailings, consisting of radionuclides uranium, thorium, and radium, infiltrate into the subsurface through the vadose zone. Radionuclide behavior and transport in the subsurface is influenced by several environmental factors. The objective of the present study is to understand the factors affecting radionuclide migration by i) conducting a scoping review on radionuclide migration in the subsurface to describe the factors studied in the literature, and ii) understanding and analyzing any relation among the factors and deriving the most dominant factors based on their relation. This study can be used further to develop accurate and reliable radionuclide fate and transport models with minimal uncertainty.

Complex network theory

interdependent factors

centrality

sensitivity analysis

radionuclides

vadose zone

Resilient and Sustainable Supply Chain Networks: A Case Study of the Perishable Food Industry in the US

Chiwenga, Kudzai D.

January 2019

Contemporary supply chain management (SCM) issues are multiplex and continually evolving catalysed by complexities and dynamism. The perishable food industry exemplifies this phenomenon, driven by globalisation, technological advancements and a highly competitive business environment. Inescapably, food supply chains are increasingly operating as supply chain networks (SCN). SCNs are typified by a higher level of interdependence and connectivity amongst firms, consequently evolving from dyad and triad relationships, which have dominated SCM research. These changes generate divergent risks and vulnerabilities that perturb perishable food supply chains in unconventional ways. Thus, the purpose of this empirical study is to investigate how firms within a perishable food supply chain network can build resilience and sustainability. The research focuses on advancing the management of fast-moving consumer goods (FMCG). Methodologically, an empirical qualitative study is undertaken within a food manufacturer (focal firm) and 18 independent firms operating across all tiers of its SCN. Applying a pragmatic philosophical positioning, the study draws concepts from key supply chain theories to investigate the phenomena. The investigation uses Nicolini’s Zooming in and Zooming out as an analytical lens. The zooming in and out is established by shifting analytical lenses and re-positioning actors’ praxis, to ensure certain facets of their actions are fore-grounded while others are put in a background position and contrariwise moving the background to the foreground. The purpose of this technique is to draw meaning from everyday practices and trace the actions of actors across the entire SCN. The results uncover four distinct but intertwined main categories; whose subtle and often ignored interplay is crucial in attaining SCN resilience and sustainability. These main categories are Collaboration, Power Dynamics, SCN Culture and Information Systems. Current supply chain literature argues that collaboration is an essential enabler of resilience and sustainability. Building on this, the findings make a significant contribution by teasing out the intangible and predominately unacknowledged antecedents and salient sustaining factors of effective SCN collaboration. Furthermore, the study develops a resilience and sustainability (RS) matrix, which renders different impacts and outcomes of varying levels of SCN collaboration between firms operating in a perishable food SCN. Therefore, this thesis contributes knowledge towards constructing resilient and sustainable perishable food SCNs by proffering pragmatic propositions. These aim to address challenges facing industry stakeholders and ignite pertinent future research avenues for scholars.

Food supply chain

Resilience

Sustainability

Collaboration

Network theory

Perishable food industry

ONE-TO-ONE LAPTOP INITIATIVES: POWERFUL HUBS OF A DISTRIBUTED STUDENT LEARNING NETWORK?

Gunner, James P.

21 May 2007

No description available.

Technology

Laptops

One-to-One

Social Network Theory

Personal Learning Networks

Transformational Leadership

An Ethnographic Study of Translators and Technology

Buttacavoli, Matthew

15 July 2014

No description available.

Linguistics

Technology

Cultural Anthropology

translation

technology

cognitive models

actor-network theory

Searching for Superwoman: a Statewide Analysis on the Pay of Female High School Principals

Schafer, Holly J.

04 June 2018

No description available.

Educational Leadership

Gender

Womens Studies

Feminism

Intersectionality

Social network theory

Gender equality

Knowledge, Truth, and the Challenge of Revisability: A Critique of Actor-Network Theory

Hale, Evan L.

09 July 2012

No description available.

Philosophy of Science

knowledge

truth

metaphysics

ontology

epistemology

actor-network theory

radical empiricism

Seeing Non-humans: A Social Ontology of the Visual Technology Photoshop

Knochel, Aaron D.

20 October 2011

No description available.

Art Education

art education

visual culture

actor-network theory

visuality

digital technology

social ontology

assemblage theory