AI-Driven ITSM for Enhancing Content Delivery in the Entertainment Industry: A Machine Learning Approach to Predict and Automate Service Requests

Authors

  • Priya Ranjan Parida Universal Music Group, USA Author
  • Rama Krishna Inampudi Independent Researcher, Mexico Author
  • Anil Kumar Ratnala Albertsons Companies Inc, USA Author

Keywords:

AI-driven ITSM, machine learning, automation, content delivery, entertainment industry

Abstract

This paper explores the transformative role of artificial intelligence (AI) and machine learning (ML) in optimizing IT service management (ITSM) within the entertainment industry, particularly focusing on enhancing content delivery mechanisms and automating service requests. The entertainment sector, characterized by the constant demand for high-quality content and seamless user experience, has experienced significant challenges related to managing IT services effectively. Traditional ITSM models, which rely heavily on manual intervention and static workflows, have become insufficient in meeting the dynamic requirements of content providers, particularly in areas of speed, efficiency, and scale. With the exponential growth in content consumption across various digital platforms, coupled with increased consumer expectations for instant delivery, the need for advanced ITSM solutions has become more pressing. This paper argues that the integration of AI-driven ITSM frameworks is not only advantageous but essential for improving operational efficiencies, enhancing user satisfaction, and maintaining competitive advantage in the entertainment industry.

AI-driven ITSM leverages advanced machine learning models to predict service requests, automate routine tasks, and proactively manage incidents. These capabilities are particularly relevant in the context of the entertainment industry, where uninterrupted content delivery and the rapid resolution of technical issues are critical. Through predictive analytics, AI can anticipate potential system failures or content delivery bottlenecks, enabling preemptive interventions that minimize downtime. Machine learning algorithms, trained on historical data from IT service logs and user behavior, allow for the identification of patterns in service requests, enabling systems to autonomously resolve common issues or escalate complex problems to human operators only when necessary. This automation reduces the dependency on manual oversight, significantly accelerating response times while also freeing up IT personnel to focus on more strategic initiatives.

A key focus of this research is the automation of service requests within ITSM systems. In traditional setups, service requests—ranging from basic technical support to complex content delivery optimizations—are typically processed manually. This approach is time-consuming and prone to human error, both of which are detrimental in an industry where delays can lead to substantial revenue loss and customer dissatisfaction. The implementation of AI-based automation can mitigate these issues by using natural language processing (NLP) to interpret user queries and machine learning models to recommend and execute appropriate actions. Automated ITSM systems can triage incoming service requests, classify them based on urgency, and assign them to the relevant resolution mechanisms without human intervention. Furthermore, the system’s ability to learn from previous incidents ensures continuous improvement, as the models evolve to handle an increasing range of service issues autonomously.

The paper also addresses the optimization of content delivery systems, which are integral to the entertainment industry’s digital infrastructure. With the rise of streaming platforms, content delivery networks (CDNs) must handle vast amounts of data in real time, requiring a highly responsive and reliable IT backend. AI-driven ITSM frameworks can enhance these systems by predicting network congestion, adjusting resource allocation dynamically, and ensuring that content is delivered smoothly to users across different geographies. Machine learning models can analyze data traffic patterns and user behavior to optimize content caching strategies, reducing latency and improving overall user experience. Additionally, AI can be used to monitor the health of content delivery systems, automatically diagnosing and resolving issues that may impair the performance of streaming services or delay content uploads.

Moreover, this research delves into the integration challenges that come with implementing AI-driven ITSM systems in the entertainment industry. While the benefits are substantial, organizations often face difficulties related to the scalability of machine learning models, data privacy concerns, and the need for robust AI governance frameworks. The deployment of AI in ITSM also requires large volumes of high-quality data to train machine learning models effectively. In the entertainment industry, this data often includes sensitive information about user preferences, viewing habits, and content consumption patterns, which raises significant privacy and security issues. The paper discusses methods to address these challenges, including the implementation of federated learning techniques, which allow for decentralized model training without compromising data privacy, and the use of advanced encryption algorithms to secure data at rest and in transit.

Case studies of successful AI-driven ITSM implementations in the entertainment industry are examined to provide practical insights into the operational and strategic benefits of these systems. These case studies highlight how leading entertainment companies have harnessed AI to streamline their IT operations, reduce operational costs, and enhance the quality of their content delivery. For instance, the adoption of AI-based predictive maintenance systems has enabled some organizations to foresee potential system failures before they impact content delivery, while others have used AI to optimize network resource allocation, resulting in faster streaming speeds and reduced buffering times for end-users. The paper evaluates these case studies not only from a technical perspective but also in terms of business impact, demonstrating that AI-driven ITSM can contribute to significant cost savings, improved customer retention, and better overall service delivery.

Finally, the paper discusses future trends in AI-driven ITSM for the entertainment industry, projecting the continued evolution of machine learning models toward greater autonomy and intelligence. As AI technology advances, future ITSM systems are expected to possess even more sophisticated predictive capabilities, enabling them to forecast not only technical issues but also shifts in user demand and content preferences. The convergence of AI with other emerging technologies, such as edge computing and 5G, is also expected to play a crucial role in further optimizing content delivery systems. These developments will likely lead to more decentralized IT infrastructures, where content delivery systems are managed through highly distributed AI models that can process data and make decisions in real time, closer to the user.

This paper demonstrates the immense potential of AI-driven ITSM to revolutionize content delivery in the entertainment industry. By automating service requests, optimizing IT operations, and enhancing content delivery, AI offers a powerful toolset for addressing the unique challenges of this fast-paced and data-intensive sector. While there are significant challenges to be addressed, particularly in terms of data privacy and scalability, the long-term benefits of AI integration in ITSM are undeniable. As the entertainment industry continues to evolve, AI-driven ITSM systems will be instrumental in ensuring that content providers can meet the growing demands of users while maintaining high standards of efficiency, security, and innovation.

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Published

13-06-2023

How to Cite

[1]
P. R. Parida, R. K. Inampudi, and A. K. Ratnala, “AI-Driven ITSM for Enhancing Content Delivery in the Entertainment Industry: A Machine Learning Approach to Predict and Automate Service Requests ”, J. of Artificial Int. Research and App., vol. 3, no. 1, pp. 759–799, Jun. 2023, Accessed: Nov. 25, 2024. [Online]. Available: https://aimlstudies.co.uk/index.php/jaira/article/view/286

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