Optimization of Quantum Cryptography for Preventing Cyber Attacks in the Banking Sector at United Bank for Africa (UBA), Abuja
- Project Research
- 1-5 Chapters
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- Table of Content: Available
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- NGN 5000
Background of the Study
Cybersecurity is a critical concern for financial institutions globally, especially as the sophistication of cyber-attacks continues to increase. Banks are prime targets for cybercriminals due to the sensitive nature of financial transactions and customer data they handle. Traditional cryptographic techniques, such as RSA and AES, while effective to an extent, are becoming increasingly vulnerable to quantum computing attacks. Quantum cryptography, which leverages the principles of quantum mechanics to provide secure communication, offers a potential solution to these vulnerabilities. By exploiting the unique properties of quantum bits (qubits), quantum cryptography can enable banking institutions to create ultra-secure communication channels that are resistant to even quantum-based attacks.
United Bank for Africa (UBA) is one of Nigeria's leading financial institutions and is increasingly investing in modernizing its technological infrastructure. Given the rising threats to banking systems globally, optimizing quantum cryptography techniques could significantly enhance the security of banking operations in Nigeria, particularly in preventing cyber attacks such as phishing, hacking, and data breaches. This study investigates the potential application of quantum cryptography to prevent cyber-attacks in the banking sector, with a focus on UBA in Abuja.
Statement of the Problem
As banks transition into digital environments, their reliance on electronic communication and data storage increases the risk of cyber-attacks. While quantum computing promises to solve some security challenges, it also introduces new risks, as traditional encryption methods may become obsolete in the presence of quantum computers. Quantum cryptography presents a revolutionary approach to securing data exchanges, but the implementation of such systems requires a detailed exploration of how they can be optimized to prevent cyber attacks in the banking sector. This study seeks to examine how quantum cryptography can be optimized and integrated into UBA’s cybersecurity framework to safeguard against evolving cyber threats.
Objectives of the Study
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To explore the application of quantum cryptography in preventing cyber attacks in the banking sector, specifically within United Bank for Africa (UBA).
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To optimize quantum cryptography methods for effective implementation in securing banking data and transactions.
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To assess the feasibility of integrating quantum cryptography into UBA's existing cybersecurity systems.
Research Questions
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How can quantum cryptography be optimized to prevent cyber attacks in the banking sector?
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What are the challenges involved in implementing quantum cryptography within the banking sector, specifically at UBA?
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How effective is quantum cryptography in securing banking data and preventing cyber threats compared to traditional cryptographic methods?
Significance of the Study
This study is significant because it provides insights into the potential of quantum cryptography to secure financial transactions and sensitive customer data in Nigerian banks. By optimizing these methods, UBA and other Nigerian financial institutions can ensure greater protection against emerging cyber threats, strengthening the country’s banking infrastructure. The findings can also contribute to global advancements in cybersecurity within the financial sector, showcasing Nigeria’s leadership in adopting cutting-edge technologies.
Scope and Limitations of the Study
This study will focus on the application and optimization of quantum cryptography within UBA’s cybersecurity framework. It will assess how quantum cryptography can prevent cyber attacks targeting the banking sector, particularly those related to data breaches and online fraud. Limitations include the nascent stage of quantum computing research and the challenges associated with implementing quantum systems in existing banking infrastructure.
Definitions of Terms
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Quantum Cryptography: A cryptographic method that uses the principles of quantum mechanics, such as superposition and entanglement, to provide secure communication.
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Cyber Attacks: Deliberate efforts to disrupt or damage computer systems, networks, or data, often with malicious intent.
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Banking Sector: The financial industry that involves the management of funds, including services like savings, loans, and financial transactions, provided by banks.
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