Antu Roy
Independent Researcher, Khulna, Bangladesh

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Enhancing Transparency in Decision-Making Systems Using Explainable Artificial Intelligence Models Amit Kumar; Raisul Khan; Md. Rashid; Antu Roy
The Eastasouth Journal of Information System and Computer Science Vol. 1 No. 02 (2023): The Eastasouth Journal of Information System and Computer Science (ESISCS)
Publisher : Eastasouth Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58812/esiscs.v1i02.1073

Abstract

The increasing reliance on artificial intelligence (AI) in decision-making systems has raised critical concerns regarding transparency, interpretability, and trust. Many advanced AI models, particularly deep learning techniques, operate as opaque “black-box” systems, making it difficult for users to understand how decisions are derived. This lack of explainability limits user confidence, hinders accountability, and poses ethical and regulatory challenges. This study addresses these issues by exploring the role of Explainable Artificial Intelligence (XAI) in enhancing transparency in decision-making systems. The research is conceptually supported by three key stages illustrated in the figures. First, opaque AI systems are examined, highlighting the limitations of black-box models that provide output without meaningful explanations. Second, an XAI framework is introduced, demonstrating how interpretability techniques such as feature importance analysis, rule-based reasoning, and model-agnostic explanation methods can reveal the internal logic of AI systems. These techniques enable users to understand the reasoning behind predictions, thereby improving system interpretability. Third, the study presents the outcome of integrating XAI into decision-making processes, emphasizing transparent and accountable systems that foster trust, fairness, and user engagement. A comparative methodological approach is adopted, evaluating both traditional black-box models and explainable models using interpretability and performance metrics. The findings indicate that while there may be trade-offs between accuracy and interpretability, the inclusion of XAI significantly enhances user understanding and trust in AI-driven decisions. In conclusion, this study demonstrates that explainable AI plays a vital role in transforming opaque decision-making systems into transparent and accountable frameworks. By bridging the gap between complex algorithms and human understanding, XAI supports the development of trustworthy and ethically aligned AI systems suitable for real-world applications.
Integration of DevOps Practices for Continuous Delivery and System Optimization Afrin Zaman; Khalilur Rahman; Amit Dhali; Jhon Kabir; Antu Roy
The Eastasouth Journal of Information System and Computer Science Vol. 2 No. 02 (2024): The Eastasouth Journal of Information System and Computer Science (ESISCS)
Publisher : Eastasouth Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58812/esiscs.v2i02.1076

Abstract

The growing demand for rapid software delivery and efficient system performance has led to the widespread adoption of DevOps practices in modern software engineering. This study evaluates the integration of DevOps practices for achieving continuous delivery and system optimization by comparing traditional development models, Agile methodologies, DevOps, and DevOps combined with continuous delivery (CD). The analysis is supported by three figures illustrating key performance metrics, including deployment frequency, lead time, change failure rate, mean time to recovery (MTTR), response time, throughput, resource utilization, and system availability. The findings indicate that traditional development approaches exhibit low deployment frequency, high lead time, and poor system performance due to limited automation and rigid processes. Agile methodologies improve flexibility and reduce development cycles; however, they provide only moderate improvements in operational performance. In contrast, DevOps practices significantly enhance system efficiency by integrating development and operations, enabling continuous integration, automated testing, and faster deployment cycles. The results highlight the importance of automation, collaboration, and continuous monitoring in achieving system optimization. By enabling rapid and reliable software releases, DevOps practices contribute to improved system reliability and scalability in dynamic environments. This study provides valuable insights for organizations seeking to optimize their software development processes and adopt modern DevOps practices to achieve continuous delivery and high system performance.