<scp>Energy‐efficient sender‐initiated threshold‐based</scp> load balancing (<scp>e‐STLB</scp>) in cloud computing environment

Malla, Parvaz Ahmad; Sheikh, Sophiya; Shahid, Mohammad; Mushtaq, Sheikh Umar

doi:10.1002/cpe.7943

Cited by 2 publications

(1 citation statement)

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“…The scalability and efficiency of the load balancing techniques in large-scale cloud deployments are critically significant considerations to ensure optimal resource utilization. Scalability considerations involve efficient management incoming requests from multiple data centers, intelligent decisionmaking capability while considering the real-time information of resources, ability to deal with a sudden spike in traffic, and auto-adjust server instances based on the incoming user requests [12,13]. While efficiency considerations entail preventing server overutilization or underutilization, continuously monitoring server health, tracking failed nodes, migrating resources, ensuring high availability for critical applications [14], minimizing overhead, and simplifying algorithm complexity.…”

Section: Introductionmentioning

confidence: 99%

Systematic Review: Load Balancing in Cloud Computing by Using Metaheuristic Based Dynamic Algorithms

Syed,

Muhammad,

Rizvi

2024

IASC

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Cloud Computing has the ability to provide on-demand access to a shared resource pool. It has completely changed the way businesses are managed, implement applications, and provide services. The rise in popularity has led to a significant increase in the user demand for services. However, in cloud environments efficient load balancing is essential to ensure optimal performance and resource utilization. This systematic review targets a detailed description of load balancing techniques including static and dynamic load balancing algorithms. Specifically, metaheuristic-based dynamic load balancing algorithms are identified as the optimal solution in case of increased traffic. In a cloud-based context, this paper describes load balancing measurements, including the benefits and drawbacks associated with the selected load balancing techniques. It also summarizes the algorithms based on implementation, time complexity, adaptability, associated issue(s), and targeted QoS parameters. Additionally, the analysis evaluates the tools and instruments utilized in each investigated study. Moreover, comparative analysis among static, traditional dynamic and metaheuristic algorithms based on response time by using the CloudSim simulation tool is also performed. Finally, the key open problems and potential directions for the state-of-the-art metaheuristic-based approaches are also addressed.

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Section: Introductionmentioning

confidence: 99%

Systematic Review: Load Balancing in Cloud Computing by Using Metaheuristic Based Dynamic Algorithms

Syed,

Muhammad,

Rizvi

2024

IASC

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Auto-Scaling Techniques in Cloud Computing: Issues and Research Directions

Alharthi,

Alshamsi,

Alseiari

et al. 2024

Sensors

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In the dynamic world of cloud computing, auto-scaling stands as a beacon of efficiency, dynamically aligning resources with fluctuating demands. This paper presents a comprehensive review of auto-scaling techniques, highlighting significant advancements and persisting challenges in the field. First, we overview the fundamental principles and mechanisms of auto-scaling, including its role in improving cost efficiency, performance, and energy consumption in cloud services. We then discuss various strategies employed in auto-scaling, ranging from threshold-based rules and queuing theory to sophisticated machine learning and time series analysis approaches. After that, we explore the critical issues in auto-scaling practices and review several studies that demonstrate how these challenges can be addressed. We then conclude by offering insights into several promising research directions, emphasizing the development of predictive scaling mechanisms and the integration of advanced machine learning techniques to achieve more effective and efficient auto-scaling solutions.

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Energy‐efficient sender‐initiated threshold‐based load balancing (e‐STLB) in cloud computing environment

Cited by 2 publications

References 43 publications

Systematic Review: Load Balancing in Cloud Computing by Using Metaheuristic Based Dynamic Algorithms

Systematic Review: Load Balancing in Cloud Computing by Using Metaheuristic Based Dynamic Algorithms

Auto-Scaling Techniques in Cloud Computing: Issues and Research Directions

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