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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.
It is generally agreed that the development and deployment of an important amount of IoT devices throughout the world has revolutionized our lives in a way that we can rely on these devices to complete certain tasks that may have not been possible just years ago which also brought a new level of convenience and value to our lives.
This technology is allowing us in a smart home environment to remotely control doors, windows, and fridges, purchase online, stream music easily with the use of voice assistants such as Amazon Echo Alexa, also close a garage door from anywhere in the world to cite some examples as this technology has added value to several domains ranging from household environments, cites, industries by exchanging and transferring data between these devices and customers. Many of these devices’ sensors, collect and share information in real-time which enables us to make important business decisions.
However, these devices pose some risks and also some security and privacy challenges that need to be addressed to reach their full potential or be considered to be secure. That is why, comprehensive risk analysis techniques are essential to enhance the security posture of IoT devices as they can help evaluate the robustness and reliability towards potential susceptibility to risks, and vulnerabilities that IoT devices in a smart home setting might possess.
This approach relies on the basis of ISO/IEC 27005 methodology and risk matrix method to highlight the level of risks, impact, and likelihood that an IoT device in smart home settings can have, map the related vulnerability, threats and risks and propose the necessary mitigation strategies or countermeasures that can be taken to secure a device and therefore satisfying some security principles. Around 30 risks were identified on Amazon Echo and the related IoT system using the methodology. A detailed list of countermeasures is proposed as a result of the risk analysis. These results, in turn, can be used to elevate the security posture of the device.
Das Konzept der Thermoaktiven Bauteilsysteme (TABS) zur Heizung und Kühlung von Gebäuden gewinnt aufgrund seiner Kompatibilität mit erneuerbaren Energiequellen an Popularität. Die Steuerung von TABS und somit auch die Gewährleistung eines behaglichen Raumklimas erweist sich allerdings aufgrund der hohen Systemträgheit als komplex. Kurzfristige Witterungsänderungen sorgen für unerwünschte Raumtemperaturänderungen, die nur langsam korrigiert werden können. Bei Nichtwohngebäuden wie dem Regionalen Innovationszentrum für Energie (RIZ Energie) in Offenburg wird dieser Umstand durch die unregelmäßige Gebäudenutzung zusätzlich erschwert, da innere Wärmelasten stark variieren und nicht vorhersehbar sind.
Konventionelle TABS-Steuerungen können Störgrößen im TABS-Betrieb nur bedingt und zeitverzögert berücksichtigen, weswegen eine dauerhafte Gewährleistung des thermischen Komforts im Gebäude oft nicht erreichbar ist – dies ist auch am RIZ Energie der Fall. Als Lösung dient der Einsatz prädiktiver Steuerungsalgorithmen, die Störgrößen prognostizieren und den TABS-Betrieb dementsprechend anpassen können.
Diese Arbeit überprüft das Potenzial von intelligenten TABS-Steuerungsalgorithmen für den Einsatz am RIZ Energie anhand der Umsetzung mit einem digitalen Zwilling des Gebäudes. Dabei konnte unter Verwendung der Algorithmen und Berücksichtigung von inneren und äußeren Störgrößen im TABS-Betrieb ein verbessertes Raumklima simuliert werden. Infolgedessen konnte zudem der digitale Zwilling optimiert werden.
Bei dem deutsch-französischen Kulturkanal ARTE ist die Corporate Social Responsibility (CSR, dt. gesellschaftliche Verantwortung von Unternehmen) ein wichtiger Aspekt ihrer Unternehmensstrategie. Soziale und ökologische Belange sollen in den Unternehmensstrukturen und -tätigkeiten sowie in der Herstellung ihres Programms verbessert werden. Diese CSR-Strategie verfolgt ARTE in einem inkrementellen Prozess, welcher in dieser Arbeit einem organisatorischen Wandel 1. Ordnung (evolutionär, gradual change) zugeordnet wird. Von den Maßnahmen und Veränderungen, welche in der CSR bei ARTE verfolgt werden, sind auch die ARTE-Mitarbeitenden betroffen. Ein organisatorischer Wandel bedeutet nicht nur eine Veränderung auf der Sachebene, er wirkt sich auch auf die psychologische Ebene der betroffenen Mitarbeitenden aus und verlangt Veränderungen in ihren Gewohnheiten. Daher setzen Unternehmen zunehmend auf die Veränderungsbegleitung (Change Management), welche darauf abzielt, eine Veränderung aktiv zu steuern und zu beeinflussen. Eine spezifische Form des Change Managements, die Organisationsentwicklung, hat zum Ziel, bei der Veränderung die Betroffenen zu Beteiligten zu machen. Ein zentraler Aspekt der Organisationsentwicklung bildet daher die Mitarbeitendenbeteiligung (oder Partizipation).
Die vorliegende Arbeit beschäftigt sich mit der Frage, wie die Mitarbeitendenbeteiligung im CSR-Wandel von ARTE erfolgreich eingesetzt werden kann. Im Rahmen eines Praktikums im CSR-Bereich bei ARTE, konnte der Autor durch Beobachtungen, Mitarbeit und Dokumentenanalysen diesen Fragen nachgehen und die Ergebnisse durch fünf qualitative Expert:inneninterviews mit Personen aus dem Top-Management, dem CSR-Bereich und der Herstellungsleitung bei ARTE ergänzen und bekräftigen. Es zeigt sich, dass verschiedene Voraussetzungen erfüllt werden müssen, um eine Partizipation zielführend einsetzen zu können. Zudem kann die Mitarbeitendenbeteiligung in Form von Lösungserarbeitung und/oder in Form der Kommunikation eingesetzt werden. Die Mitarbeitendenbeteiligung wurde bei ARTE im CSR-Bereich bereits punktuell angewendet und es gibt Bestrebungen, künftig in der CSR noch stärker einen partizipativen Ansatz zu verfolgen. Für künftige Anwendungen der Mitarbeitendenbeteiligung im CSR-Wandel bei ARTE werden eine Reihe an Empfehlungen aufgestellt.
Videokonferenzen, überregionale Teamarbeit und ständig mögliche Kommunikation: Durch den in den letzten Jahrzehnten vorangetriebenen technischen Fortschritt sind die Möglichkeiten, global vernetzt zu arbeiten immer weiter gestiegen. Auch die Digitalisierung von Organisationen und die globale Wirtschaft erfordern durch den damit einhergehenden Wandel an Wettbewerb eine verstärkte und sogar notwendige Auseinandersetzung mit virtuellen Unternehmens- und Arbeitsstrukturen. So ergibt sich die Notwendigkeit, virtuelle Teambildung und die damit verbundenen Strukturen zu beleuchten. Ziel dieser Arbeit ist es, ein Modell zur virtuellen Teamentwicklung zu erarbeiten, das als Planungsrahmen für digitale Führungskräfte dienen soll.
Decarbonisation Strategies in Energy Systems Modelling: Biochar as a Carbon Capture Technology
(2022)
The energy system is changing since some years in order to achieve the climate goals from the Paris Agreement which wants to prevent an increase of the global temperature above 2 °C. Decarbonisation of the energy system has become for governments a big challenge and different strategies are being stablished. Germany has set greenhouse gas reduction limits for different years and keeps track of the improvement made yearly. The expansion of renewable energy systems (RES) together with decarbonisation technologies are a key factor to accomplish this objective.
This research is done to analyse the effect of introducing biochar, a decarbonisation technology, and study how it will affect the energy system. Pyrolysis is the process from which biochar is obtained and it is modelled in an open-source energy system model. A sensibility analysis is made in order to assess the effect of changing the biomass potential and the costs for pyrolysis.
The role of pyrolysis is analysed in the form of different future scenarios to evaluate the impact. The CO2 emission limits from the years 2030 and 2045 are considered to create the scenarios, as well as the integration of flexibility technologies. Four scenarios in total are assessed and the result from the sensibility analysis considering pyrolysis are always compared to the reference scenario, where pyrolysis is not considered.
Results show that pyrolysis has a bigger impact in the energy system when the CO2 limit is low. Biochar can be used to compensate the emissions from other conventional power plant and achieve an energy transition with lower costs. Furthermore, it was also found that pyrolysis can also reduce the need of flexibility. This study also shows that the biomass potential and the pyrolysis costs can affect a lot the behaviour of pyrolysis in the energy system.