VMMISD: An Efficient Load Balancing Model for Virtual Machine Migrations via Fused Metaheuristics With Iterative Security Measures and Deep Learning Optimizations

Abstract: As cloud computing continues to evolve, the need for efficient and secure management of virtual machine (VM) migrations has become increasingly evident. Traditional models often fall short in optimizing load balancing and energy consumption while ensuring a high level of security. In this work, we propose the Load Balancing and Energy-Efficient Migration Model, an innovative approach that leverages bioinspired algorithms and advanced security measures to optimize VM migrations. The initial novelty of our model… Show more

“…However, deploying deep learning algorithms on SBCs presents a unique set of challenges due to the devices' limited computational power and memory capacity. This situation calls for specialized optimization strategies to fully exploit the capabilities of SBCs without compromising performance [2], [3].…”

Improving YOLO Object Detection Performance on Single-Board Computer using Virtual Machine

“…However, deploying deep learning algorithms on SBCs presents a unique set of challenges due to the devices' limited computational power and memory capacity. This situation calls for specialized optimization strategies to fully exploit the capabilities of SBCs without compromising performance [2], [3].…”

Improving YOLO Object Detection Performance on Single-Board Computer using Virtual Machine

Supportive particle swarm optimization with time-conscious scheduling (SPSO-TCS) algorithm in cloud computing for optimized load balancing