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The Internet of Things is spreading significantly in every sector, including the household, a variety of industries, healthcare, and emergency services, with the goal of assisting all of those infrastructures by providing intelligent means of service delivery. An Internet of Vulnerabilities (IoV) has emerged as a result of the pervasiveness of the Internet of Things (IoT), which has led to a rise in the use of applications and devices connected to the IoT in our day-to-day lives. The manufacture of IoT devices are growing at a rapid pace, but security and privacy concerns are not being taken into consideration. These intelligent Internet of Things devices are especially vulnerable to a variety of attacks, both on the hardware and software levels, which leaves them exposed to the possibility of use cases. This master’s thesis provides a comprehensive overview of the Internet of Things (IoT) with regard to security and privacy in the area of applications, security architecture frameworks, a taxonomy of various cyberattacks based on various architecture models, such as three-layer, four-layer, and five-layer. The fundamental purpose of this thesis is to provide recommendations for alternate mitigation strategies and corrective actions by using a holistic rather than a layer-by-layer approach. We discussed the most effective solutions to the problems of privacy and safety that are associated with the Internet of Things (IoT) and presented them in the form of research questions. In addition to that, we investigated a number of further possible directions for the development of this research.
Die akustischen Emissionen von Wasserinstallationsgeräten, insbesondere während der nächtlichen Ruhezeit in angrenzenden Räumen, können erhebliche Störungen verursachen. Die primäre Ursache dieser Belästigungen liegt in der spezifischen Funktionsweise von Wasserarmaturen, welche somit als Hauptquelle der Lärmemissionen identifiziert werden können. Hydrodynamische und -akustische Simulationen erweisen sich in diesem Zusammenhang als wertvolle Werkzeuge zur Identifikation von kritischen Bereichen, welche für die Schallabstrahlung verantwortlich sind.
In dieser vorliegenden Arbeit werden die hydrodynamischen und -akustischen Eigenschaften eines Installationsgeräuschnormals mithilfe numerischer Methoden untersucht, wobei gleichzeitig ein kommerzielles Berechnungswerkzeug zur Vorhersage von akustischen Schallfeldern in Bezug auf ein hybrides Verfahren evaluiert und validiert wird. Das Installationsgeräuschnormal dient dabei als Testfall, um die Leistungsfähigkeit des hybriden Akustikmodells in Verbindung mit einem RANS- sowie RANS/LES-Ansatz zu überprüfen. Es werden verschiedene Varianten des Installationsgeräuschnormals untersucht und mit experimentellen Messdaten validiert.
Die hydrodynamischen Simulationsergebnisse der verschiedenen Varianten zeigen eine hervorragende Übereinstimmung mit den experimentellen Daten bei der Verwendung eines RANS/LES-Ansatzes. Der Einsatz eines solchen Hybrid-Modells zur Turbulenzmodellierung hat gezeigt, dass eine verbesserte Wiedergabe von zeitabhängigen Phänomenen in der Strömung erreicht werden kann, welche in direktem Zusammenhang mit der Vorhersage der Schallausbreitung stehen und somit eine bedeutende Auswirkung darauf haben.
Die akustische Untersuchung der verschiedenen Varianten des Installationsgeräuschnormals zeigt, dass die Schallabstrahlung ausschließlich in breitbandigen Frequenzspektren erfolgt. Im Rahmen des Vergleichs mit den Messdaten lässt sich erkennen, dass eine akustische Analyse auf Basis eines hybriden Modells in Verbindung mit dem Akustikmodell vielversprechende Ergebnisse bezüglich der Vorhersage des Schallfelds liefern kann und dabei im Vergleich zu einfachen RANS-Modellen Vorteile aufweist.
As cyber threats continue to evolve, it is becoming increasingly important for organizations to have a Security Operations Center (SOC) in place to effectively defend against them. However, building and maintaining a SOC can be a daunting task without clear guidelines, policies, and procedures in place. Additionally, most current SOC solutions used by organizations are outdated, lack key features and integrations, and are expensive to maintain and upgrade. Moreover, proprietary solutions can lead to vendor lock-in, making it difficult to switch to a different solution in the future.
To address these challenges, this thesis proposes a comprehensive SOC framework and an open-source SOC solution that provides organizations with a flexible and cost-effective way to defend against modern cyber threats. The research methodology involved conducting a thorough literature review of existing literature and research on building and maintaining a SOC, including using SOC as a service. The data collected from the literature review was analyzed to identify common themes, challenges, and best practices for building and maintaining a SOC.
Based on the data collected, a comprehensive framework for building and maintaining a SOC was developed. The framework addresses essential areas such as the scope and purpose of the SOC, governance and leadership, staffing and skills, technologies and tools, processes and procedures, service level agreements (SLAs), and evaluation and measurement. This framework provides organizations with the necessary guidance and resources to establish and effectively operate a SOC, as well as a reference for evaluating the service provided by SOC service providers.
In addition to the SOC framework, a modern open-source SOC solution was developed, which emphasizes several key measures to help organizations defend against modern cyber threats. These measures include real-time, actionable threat intelligence, rapid and effective incident response, continuous security monitoring and alerting, automation, integration, and customization. The use of open-source technologies and a modular architecture makes the solution cost-effective, allowing organizations to scale it up or down as needed.
Overall, the proposed SOC framework and open-source SOC solution provide organizations with a comprehensive and systematic approach for building and maintaining a SOC that is aligned with the needs and objectives of the organization. The open-source SOC solution provides a flexible and cost-effective way to defend against modern cyber threats, helping organizations to effectively operate their SOC and reduce their risk of security incidents and breaches.
Cloud computing has revolutionized the way businesses operate by providing them with access to scalable, cost-effective, and flexible IT resources. This technology has enabled businesses to store, manage, and process data more efficiently, leading to improved competitiveness and increased revenue. The purpose of this thesis is to explore the impacts of using cloud computing from a business perspective. The research employs both primary and secondary sources of data, including a literature review, interviews with employees who have more than 5 years of experience, a questionnaire, and observations from Billwerk+ company.
The findings of this research indicate that cloud computing has had a significant impact on businesses, providing them with cost savings, improved agility and flexibility, and enhanced access to data and applications. However, it has been revealed that the benefits of cloud computing for companies may vary according to the departments of the employees. The results of this research contribute to the existing body of knowledge on the topic of cloud computing and its impact on businesses. The findings of this thesis can be used by business owners, managers, technology professionals, and students to make informed decisions about the adoption and use of cloud computing technology.
In conclusion, this thesis provides a comprehensive understanding of the impacts of using cloud computing from a business perspective, highlighting the factors that companies consider when deciding to use cloud environments and the views from different departments. The results of this research will be valuable to a wide range of individuals interested in exploring the implications of cloud computing for businesses.
Wie können sich Unternehmen erfolgreich im Social-Media-Umfeld ihrer Kunden platzieren? Mit dieser Fragestellung beschäftigt sich die vorliegende Forschungsarbeit. Die sozialen Netzwerke bieten viele Möglichkeiten, um potenzielle und bestehende Kunden zu erreichen, bringen aber gleichzeitig verschiedene Herausforderungen mit sich. Der Fokus dieser Arbeit liegt auf der Plattform Instagram. Dabei wird der Nutzer fokussiert, denn der Trend im Marketing geht zur Customer Centricity.
Maßnahmen, die Nutzer zum Abonnieren animieren, können nicht eindeutig benannt werden. Sie sind individuell vom Nutzer, aber auch vom Unternehmen und den jeweiligen Inhalten abhängig. Die Probanden der Umfragenstichprobe verhalten sich nach eigener Angabe beim Konsum, der Interaktion und dem Abonnieren zurückhaltend. Lediglich 8,94 Prozent gaben an, sich regelmäßig Profile von Unternehmen anzuschauen. Noch seltener als der Konsum findet die Interaktion mit Unternehmensinhalten statt. Die Hürde zur Interaktion und dem Abonnieren ist scheinbar hoch. Die Ergebnisse zeigen, dass es keine signifikanten Unterschiede im Nutzungsverhalten zwischen den Geschlechtern, den Beschäftigungsarten oder dem Budget gibt. Das lässt darauf schließen, dass das Handeln individuell und von anderen Faktoren abhängig ist. Jedoch bestätigt dies auch, dass der Trend des Content Marketings und der Customer Centricity weiterhin eine wichtige Rolle spielen. Der Nutzer möchte individuell angesprochen werden. Dabei sollen die Inhalte sinnvoll und inspirierend sein sowie nicht werblich wirken. Es bleibt die größte Herausforderung für Unternehmen in das private Umfeld der Nutzer auf Instagram einzutreten, ohne als „störend“ empfunden zu werden. Aus diesen Gründen ist eine weitere Forschung im Bereich „Unternehmen auf Instagram“ nötig. Die Schattenseite dieses Themenbereichs ist die Schnelllebigkeit und die fehlende Transparenz, beispielsweise zum Instagram-Algorithmus. Die vorliegende Forschung dient lediglich einer ersten Einschätzung des Themas, die ein möglichst breites Bild der Wahrnehmung von Unternehmen auf Instagram sowie vom Beispiel-Unternehmen Deinzigartig abbilden soll.
Total Cost of Ownership (TCO) is a key tool to have a complete understanding of the costs associated with an investment, as it allows to analyze not only the initial acquisition costs, but also the long-term costs related to operation, maintenance, depreciation, and other factors. In the context of the cement industry, TCO is especially important due to the complexity of the production processes and the wide variety of components and machinery involved in the process.
For this reason, a TCO analysis for the cement industry has been conducted in this study, with the objective of showing the different components of the cost of production. This analysis will allow the reader to gain knowledge about these costs, in the industrial model will be to make informed decisions on the adoption of technologies and practices that will allow them to reduce costs in the long run and improve their operational efficiency.
In particular, this study pursues to give visibility to technologies and practices that enable the reduction of carbon emissions in cement production, thus contributing to the sustainability of industry and the protection of the environment. By being at the forefront of sustainability issues, the cement industry can contribute to the achievement of environmentally friendly technologies and enable the development of people and industry.
The Oxyfuel technology has been selected as a carbon capture solution for the cement industry due to its practical application, low costs, and practical adaptation to non-capture processes. The adoption of this technology allows for a significant reduction in CO2 emissions, which is a crucial factor in achieving sustainability in the cement manufacturing process.
Carbon capture storage technologies represent a high investment, although these technologies increase the cost of production, the application of Oxyfuel technology is one of the most economically viable as the cheapest technology per capture according to the comparison. However, this price increase is a technical advantage as the carbon capture efficiency of this technology reaches 90%. This level of efficiency leads to a decrease in taxes for the generation of CO2 emissions, making the cement manufacturing process sustainable.
The goal of this thesis is to thoroughly investigate the concepts of stand-alone and decarbonization of optical fiber networks. Because of their dependability, fast speed, and capacity, optical fiber networks are vital inmodern telecommunications. Their considerable energy consumption and carbon emissions, on the other hand, constitute a danger to global sustainability objectives and must be addressed.
The first section of the thesis presents a summary of the current state of optical fiber networks, their
components, and the energy consumption connected with them. This part also goes over the difficulties of lowering energy usage and carbon emissions while preserving network performance and dependability.
The second section of the thesis focuses on the stand-alone idea, which entails powering the optical fiber network with renewable energy sources and energy-efficient technology. This section investigates and explores the possibilities of renewable energy sources like solar and wind power to power the network. It also investigates energy-efficient technologies like virtualization and cloud computing, as well as their potential to minimize network energy usage.
The third section of the thesis focuses on the notion of decarbonization, which entails lowering carbon emissions linked with the optical fiber network. This section looks at various carbon-reduction measures, such as employing low-carbon energy sources and improving energy efficiency. It also covers the relevance of carbon offsets and the difficulties associated with adopting decarbonization measures in the context of optical fiber networks.
The fourth section of the thesis compares the ideas of stand-alone and decarbonization. It investigates the advantages and disadvantages of each strategy, as well as their potential to minimize energy consumption and carbon emissions in optical fiber networks. It also explores the difficulties in applying these notions as well as potential hurdles to their wider adoption.
Finally, the need of addressing the energy consumption and carbon emissions connected with optical fiber networks is emphasized in this thesis.
It outlines important obstacles and potential impediments to adopting these initiatives and gives insights into potential ways for decreasing them.
It also makes suggestions for further study in this area.
Mit der Corona-Krise ist die digitale Bildung sehr stark in den Vordergrund gerückt. damit einhergehend wurde verstärkt E-Learning eingesetzt. Meistens wurde allerdings das volle Potenzial von E-Learning Plattformen nicht genutzt. Häufig wurden solche Systeme als Dateiablagen, Wissensdatenbanken oder nur für die Kollaboration Fähigkeiten benutzt. Aber darüber hinaus besitzen E-Learning Plattformen die Fähigkeit, eine Learning-Experience für die Lernenden zu erzeugen.
Diese Thesis beschäftigt sich mit KI-basierten Empfehlungssystemen im E-Learning Bereich. Dabei werden wissenschaftliche Arbeiten anhand der Methodik analysiert, welche Programmiersprachen, Algorithmen und Bibliotheken verwendet werden. Abhängig davon werden verschiedene prototypische Empfehlungsprogramme erstellt, wobei verschiedene Algorithmen ausprobiert werden. Diese Algorithmen werden bereinigte Tabellendateien verarbeiten, welche zuvor aus Moodle generiert werden. Dadurch sollen dann konkrete Empfehlungen erzeugt werden, die anschließend evaluiert und bewertet werden. Anschließend wird ein Fazit gezogen, worauf unter anderem auf die Probleme der verschiedenen Algorithmen hingewiesen wird und in welcher Hinsicht man das Empfehlungssystem verbessern könnte.
Diese Arbeit beschäftigt sich mit der Einführung von Digital Asset Management Systemen in einem Unternehmen. Ein Digital Asset Management dient der Verwaltung von digitalen Dateien von besonderer Bedeutung, sogenannte digitale Assets. Meist handelt es sich dabei um Bilder, aber auch Videos, Textdokumente und viele andere Dateitypen können in einem solchen System verwaltet werden. Unternehmen verfolgen dabei in der Regel das Ziel, einen zentralen Speicherort für alle relevanten Assets zu schaffen, um von dort aus die Verteilung steuern und die Dateien aktuell halten zu können. Systeme dieser Art werden beispielsweise in Marketingabteilungen eingesetzt, um Markeninhalte zentral verwalten und verteilen zu können. Die Einführung eines solchen Systems erfordert aufgrund der damit verbundenen Komplexität ein strukturiertes Vorgehen. Hierzu wird in dieser Arbeit ein mehr phasiges Vorgehen vorgeschlagen, das zu einer erfolgreichen Einführung eines Digital Asset Management Systems führt. Darüber hinaus werden auf Basis dieses Phasenansatzes Erfolgsfaktoren identifiziert und vorgestellt, auf die bei der Einführung besonders zu achten ist. Die Fallstudie einer tatsächlichen Einführung aus der Praxis beleuchtet die theoretisch erarbeiteten Erkenntnisse nochmals aus praktischer Sicht und erlaubt Rückschlüsse auf das vorgestellte theoretische Vorgehen.
Licht war für die Menschheit schon immer ein Hilfsmittel zur Orientierung. Das Zusammenspiel zwischen hellen und schattierten Oberflächen macht eine räumliche Wahrnehmung erst möglich. Die Lokalisierung von Lichtquellen bietet darüber hinaus für zahlreiche Anwendungsfelder, wie beispielsweise Augmented Reality, ein großes Potential.
Das Ziel der vorliegenden Arbeit war es, ein neuronales Netzwerk zu entwickeln, welches mit Hilfe eines selbst generierten, synthetischen Datensatzes eine Lichtsetzung parametrisiert. Dafür wurden State-of-the-Art Netzwerke aus der digitalen Bildverarbeitung eingesetzt.
Zu Beginn der Arbeit mussten die Eigenschaften der Lichtsetzung extrahiert werden. Eine weitere fundamentale Anforderung war die Aufbereitung des Wissens von Deep Learning.
Für die Generierung des synthetischen Datensatzes wurde eigens ein Framework entwickelt, welches auf der Blender Engine basiert.
Anschließend wurden die generierten Bilder und Metadaten in einem abgewandelten VGG16- und ResNet50-Netz trainiert, validiert und evaluiert.
Eine gewonnene Erkenntnis ist, dass sich künstlich generierte Daten eignen um ein neuronales Netz zu trainieren. Des Weiteren konnte gezeigt werden, dass sich mit Hilfe von Deep Learning Lichtsetzungsparameter extrahieren lassen.
Eine weiterführende Forschungsaufgabe könnte mit dem vorgeschlagenen Ansatzdie Lichtinszenierung von Augmented Reality Anwendungen verbessern.
Organizations striving to achieve success in the long term must have a positive brand image which will have direct implications on the business. In the face of the rising cyber threats and intense competition, maintaining a threat-free domain is an important aspect of preserving that image in today's internet world. Domain names are often near-synonyms for brand names for numerous companies. There are likely thousands of domains that try to impersonate the big companies in a bid to trap unsuspecting users, usually falling prey to attacks such as phishing or watering hole. Because domain names are important for organizations for running their business online, they are also particularly vulnerable to misuse by malicious actors. So, how can you ensure that your domain name is protected while still protecting your brand identity? Brand Monitoring, for example, may assist. The term "Brand Monitoring" applies only to keep tabs on an organization's brand performance, reception, and overall online presence through various online channels and platforms [1]. There has been a rise in the need of maintaining one's domain clear of any linkages to malicious activities as the threat environment has expanded. Since attackers are targeting domain names of organizations and luring unsuspecting users to visit malicious websites, domain monitoring becomes an important aspect. Another important aspect of brand abuse is how attackers leverage brand logos in creating fake and phishing web pages. In this Master Thesis, we try to solve the problem of classification of impersonated domains using rule-based and machine learning algorithms and automation of domain monitoring. We first use a rule-based classifier and Machine Learning algorithms to classify the domains gathered into two buckets – "Parked" and "Non-Parked". In the project's second phase, we will deploy object detection models (Scale Invariant Feature Transform - SIFT and Multi-Template Matching – MTM) to detect brand logos from the domains of interest.
Even though the internet has only been there for a short period, it has grown tremendously. To- day, a significant portion of commerce is conducted entirely online because of increased inter- net users and technological advancements in web construction. Additionally, cyberattacks and threats have expanded significantly, leading to financial losses, privacy breaches, identity theft, a decrease in customers’ confidence in online banking and e-commerce, and a decrease in brand reputation and trust. When an attacker pretends to be a genuine and trustworthy institution, they can steal private and confidential information from a victim. Aside from that, phishing has been an ongoing issue for a long time. Billions of dollars have been shed on the global economy. In recent years, there has been significant progress in the development of phishing detection and identification systems to protect against phishing attacks. Phishing detection technologies frequently produce binary results, i.e., whether a phishing attempt was made or not, with no explanation. On the other hand, phishing identification methodologies identify phishing web- pages by visually comparing webpages with predetermined authentic references and reporting phishing together with its target brand, resulting in findings that are understandable. However, technical difficulties in the field of visual analysis limit the applicability of currently available solutions, preventing them from being both effective (with high accuracy) and efficient (with little runtime overhead). Here, we evaluate existed framework called Phishpedia. This hybrid deep learning system can recognize identity logos from webpage screenshots and match logo variants of the same brand with high precision. Phishpedia provides high accuracy with low run- time. Lastly, unlike other methods, Phishpedia does not require training on any phishing sam- ples whatsoever. Phishpedia exceeds baseline identification techniques (EMD, PhishZoo, and LogoSENSE), inaccurately detecting phishing pages in lengthy testing using accurate phishing data. The effectiveness of Phishpedia was tested and compared against other standard machine learning algorithms and some state-of-the-art algorithms. The given solutions performed better than different algorithms in the given dataset, which is impressive.
Technology advancement has played a vital role in business development; however, it has opened a broad attack surface. Passwords are one of the essential concepts used in applications for authentication. Companies manage many corporate applications, so the employees must meet the password criteria, which leads to password fatigue. This thesis addressed this issue and how we can overcome this problem by theoretically implementing an IAM solution. In this, we disused MFA, SSO, biometrics, strong password policies and access control. We introduced the IAM framework that should be considered while implementing the IAM solution. Implementing an IAM solution adds an extra layer of security.
Das Thema dieser Masterthesis lautet „Camera Stream Solution – Marktübersicht, Lösungsansätze, Prototyp“. Mit dieser Arbeit wird eine Videostreaming-Lösung für die Herrenknecht-Plattform CONNECTED realisiert. Dabei geht es um die Bildschirmaufnahme von Navigations- und Steuerungsbildschirmen auf Tunnelbohrmaschinen und die Übertragung dieser Aufnahmen in die Cloud. Letztlich wird ermöglicht die Aufnahmen in nahezu Echtzeit als Videostream in einem Videoplayer wiederzugeben.
Zu Beginn werden die Grundlagen zur Datenübertragung im Internet sowie zum Streaming erläutert. Im Anschluss wird eine Marktübersicht verschiedener Streaming-Komponenten gegeben sowie einige Lösungsansätze vorgestellt und anhand ausgewählter Kriterien verglichen. Im nächsten Schritt wird die Implementierung eines Prototyps behandelt. Dieser nutzt unter anderem ffmpeg für die Bildschirmaufnahme und die Kodierung sowie die Streaming-Protokolle RTMP (Real Time Messaging Protocol) und HLS (HTTP Live Streaming). Zur Realisierung der Architektur gehört auch die Entwicklung einer REST-API und eines REST-Clients in C#.
Mit dem Projekt wird eine „echte“ Streaming-Lösung für die Kundenplattform CONNECTED entwickelt, die einen Videostream mit 24 Bildern pro Sekunde bietet, um die bisherige Darstellung von Screenshots auf der Plattform zu ersetzen.
Diese Arbeit beschäftigt sich mit der simulativen Untersuchung von Strömung und Wärmeübergang im Kontext von Vorkammerzündsystemen. Dies geschieht im Rahmen der Entwicklung eines Gasmotors mit gasgespülter Vorkammer. Entscheidene Größen für die Strömung und Arbeitsweise in einer Vorkammerzündkerze sind die Geometrie und Anordnung der Überströmbohrungen, das Vorkammervolumen und die Form der Vorkammer. Die Betrachtung wird dafür aufgeteilt in die Themen Spaltströmungen, Wärmeübergang und drallbehaftete Strömungen. Diese werden zunächst isoliert betrachtet und letztendlich in einem Anwendungsfall zusammengeführt. Für die Betrachtung von Spaltströmungen werden unterschiedliche Platten mit Bohrlöchern zu verschiedenen Drücken, Durchmessern und Plattenstärken durchströmt und der Wärmeübergang und der Drall werden mithilfe einer durch Leitbleche gelenkte Strömung in einem beheizten Rohr untersucht. Die Zusammenführung der Themen wird anhand einer Anströmvorrichtung für Brenngase auf Motorzylinder durchgeführt. Dabei erreichen die Gase hohe Temperaturen und aufgrund von hohen Drücken und Spaltströmungen große Geschwindigkeiten.
Für die Simulation werden die Programme Ansys Fluent und Ansys Forte verwendet. Während ersteres primär für die Simulation von Strömungen verwendet wird, ist Forte speziell aufgebaut, um in Verbrennungsmotoren neben der Berechnung der Strömung auch die Einspritzung von Kraftstoff, die Verbrennung dessen und die resultierenden Schadstoffe zu berechnen. Da die Ergebnisse aus Forte eine große Gewichtung in der Beurteilung der Entwicklungsarbeit des Gasmotors hat, muss Forte selbst validiert werden. Dies wird durchgeführt anhand der angesprochenen Teilthemen und verglichen mit Messungen aus der Literatur und Simulationsergebnissen in Fluent.
Server Side Rendering (SSR), Single Page Application (SPA), and Static Site Generation (SSG) are the three most popular ways of making modern Web applications today. If we go deep into these processes, this can be helpful for the developers and clients. Developers benefit since they do not need to learn other programming languages and can instead utilize their own experience to build different kinds of Web applications; for example, a developer can use only JavaScript in the three approaches. On the other hand, clients can give their users a better experience.
This Master Thesis’s purpose was to compare these processes with a demo application for each and give users a solid understanding of which process they should follow. We discussed the step-by-step process of making three applications in the above mentioned categories. Then we compared those based on criteria such as performance, security, Search Engine Optimization, developer preference, learning curve, content and purpose of the Web, user interface, and user experience. It also talked about the technologies such as JavaScript, React, Node.js, and Next.js, and why and where to use them. The goals we specified before the program creation were fulfilled and can be validated by comparing the solutions we gave for user problems, which was the application’s primary purpose.
The rapid pace of innovation and technological advancements has led to the emergence of start-up companies in various sectors. To remain competitive and sustainable, start-ups need to make informed business decisions that can enhance their operations and profitability. Business Intelligence (BI) has become an essential tool for businesses of all sizes in managing their operations and gaining a competitive edge.
This master thesis explores the role of Business Intelligence in start-up companies. The study aims to investigate the use of BI in start-up companies, the drivers and the inhibitors for its adoption and their relationship with price. The research conducted for this thesis involves a review of relevant literature on Business Intelligence, start-up companies, and related topics. The study also includes structured survey with entrepreneurs, start-up company executives, and BI experts to gain data for a quantitative analysis of the topic.
The thesis aims to contribute to the existing body of knowledge on Business Intelligence and its role in start-up companies. The research conducted for this thesis can be of value to start-up entrepreneurs, investors, and other stakeholders who seek to improve their understanding of the benefits and challenges of implementing BI in start-up companies.
Encryption techniques allow storing and transferring of sensitive information securely by using encryption at rest and encryption in transit, respectively. However, when computation is performed on these sensitive data, the data needs to be decrypted first and encrypted again after performing the computations. During the computations, the sensitive data becomes vulnerable to attackers as it's in decrypted form. Homomorphic encryption, a special type of encryption technique that allows computation on encrypted data can be used to solve the above-mentioned problem. The best way to achieve maximum security with homomorphic encryption is to perform at least the homomorphic encryption and decryption on the client side (browser) of a web application by not trusting the server. At present time there are many libraries with different homomorphic schemes available for homomorphic encryption. However, there are very few to no JavaScript libraries available to perform homomorphic encryption on the client side of any web application. This thesis mainly focuses on the JavaScript implementation of client-side homomorphic encryption. The fully homomorphic encryption scheme BFV is selected for the implementation. After implementing the fully homomorphic encryption scheme based on the “py-fhe” library, tests are also carried out in order to determine the applicability (in terms of time consumption, security and correctness) of this implementation in a web application by comparing the performance and security for different test cases and different settings.
The effects of climate change, including severe storms, heat waves, and melting glaciers, are highlighted as an urgent concern, emphasising the need to decrease carbon emissions to restrict global warming to 1.5°C. To accomplish this goal, it is vital to substitute fossil fuel-based power plants with renewable energy sources like solar, wind, hydro, and biofuels. Despite some progress being made, the proportion of renewables used in generating electricity is still lower than the levels needed for 2030 and 2050. Decarbonising the power grid is also critical in lowering the energy consumption of buildings, which is responsible for a substantial percentage of worldwide electricity usage. Even though there has been substantial expansion in the worldwide renewable energy market in the past 15 years, the transition to renewable energy sources also requires taking into account the importance of energy trading.
Peer-to-peer (P2P) electricity trading is an emerging type of energy exchange that can revolutionise the energy sector by providing a more decentralised and efficient way of trading energy. This research deals about P2P electricity trading in a carbon-neutral scenario. 'Python for Power System Analysis' (PyPSA) was used to develop models through which the P2P effect was tested. Data for the entire state of Baden-Württemberg (BW) was collected. Three scenarios were taken into consideration while developing models: 2019 (base), 2030 (coal phase-out), and 2040(climate neutral). Alongside this, another model with no P2P trading was developed to make a comparison. In addition, the use case of community storage in a P2P trading network is also presented.
The research concludes that P2P has a significant positive effect on a pathway to achieve climate neutrality. The findings show that the share of renewables in electricity generation is increasing compared to conventional sources in BW, which can be traded to meet the demand. From the storage analysis, it can be concluded that community storage can be effectively utilised in P2P trading. While the emissions are reduced, the operating costs are also reduced when the grid has P2P trading available. By highlighting the benefits of P2P trading, this research contributed to the growing body of research on the effectiveness of P2P trading in an electricity network grid.
Risk-based Cybermaturity Assessment Model - Protecting the company against ransomware attacks
(2023)
Ransomware has become one of the most catastrophic attacks in the previous decade, hurting businesses of all sorts worldwide. So, no organization is safe, and most companies are reviewing their ransomware defensive solutions to avoid business and operational hazards. IT departments are using cybersecurity maturity assessment frameworks like CMMC, C2M2, CMMI, NIST, CIS, CPP, and others to analyze organization security capabilities. In addition to maturity assessment models for the process layer and human pillar, there are much research on the analysis, identification, and defense of cyber threats in product/software layers that propose state-of-the-art approaches.
This motivates a comprehensive ransomware cyber security solution. Then, a crucial question arises: “How companies can measure the security maturity of controls in a specific danger for example for Ransomware attack?” Several studies and frameworks addressed this subject.
Complexity of understanding the ransomware attack, Lack of comprehensive ransomware defense solutions and Lack of cybermaturity assessment model for ransomware defense solutions are different aspects of problem statement in this study. By considering the most important limitations to developing a ransomware defense cybermaturity assessment method, this study developed a cybermaturity assessment methodology and implemented a Toolkit to conduct cyber security self-assessment specifically for ransomware attack to provide a clearer vision for enterprises to analyze the security maturity of controls regardless of industry or size.