Is this project an undergraduate, graduate, or faculty project?

Undergraduate

Project Type

group

Campus

Daytona Beach

Authors' Class Standing

Jessica Christa Wira, Senior Spoorti Nanjamma, Graduate Student

Lead Presenter's Name

Jessica Christa Wira

Lead Presenter's College

DB College of Arts and Sciences

Faculty Mentor Name

Dr. Bryan Watson

Abstract

Optimization problems in mechanical engineering drive advancements in system designs, performance enhancement, and maximizing efficiency across various applications. While conventional methods face limitations with increasingly complex problems, metaheuristic algorithms inspired by nature offer promising solutions. However, many existing algorithms such as the Firefly Algorithm, Particle Swarm Optimization, Generic Algorithm, Bath Algorithm, and Cuckoo Search lack realism in handling localized knowledge, crucial for certain real-world complex systems such as underground mining and spacecraft trajectory. To bridge this gap, we introduce the Sandpiper Food Search Algorithm, inspired by sandpipers' foraging behaviour at the beach where each agent (sandpiper) explores the problem space to find the optimal area by exploiting the local search for candidate solutions around them. Moreover, this algorithm includes the wave action that forces these birds to shift from their current solution to increase exploration of the solution space. Our evaluation was performed using four standard benchmark functions in comparison with the Firefly Algorithm as it shares similar parameterization characteristics, and its use of decreasing light brightness with distance between fireflies mirrors the limitation of knowledge imposed by the visibility radius in sandpipers. Our research reveals that the Sandpiper Food Search Algorithm has outperformed the Firefly Algorithm in three out of the four functions with at least 3% improvement in mean best solution and on average 38% more reliable at finding a solution at least 95% of the optimal.

Did this research project receive funding support (Spark, SURF, Research Abroad, Student Internal Grants, Collaborative, Climbing, or Ignite Grants) from the Office of Undergraduate Research?

No

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Sandpiper Food Search Algorithm: A New Optimization Approach for Agents with Limited Knowledge

Optimization problems in mechanical engineering drive advancements in system designs, performance enhancement, and maximizing efficiency across various applications. While conventional methods face limitations with increasingly complex problems, metaheuristic algorithms inspired by nature offer promising solutions. However, many existing algorithms such as the Firefly Algorithm, Particle Swarm Optimization, Generic Algorithm, Bath Algorithm, and Cuckoo Search lack realism in handling localized knowledge, crucial for certain real-world complex systems such as underground mining and spacecraft trajectory. To bridge this gap, we introduce the Sandpiper Food Search Algorithm, inspired by sandpipers' foraging behaviour at the beach where each agent (sandpiper) explores the problem space to find the optimal area by exploiting the local search for candidate solutions around them. Moreover, this algorithm includes the wave action that forces these birds to shift from their current solution to increase exploration of the solution space. Our evaluation was performed using four standard benchmark functions in comparison with the Firefly Algorithm as it shares similar parameterization characteristics, and its use of decreasing light brightness with distance between fireflies mirrors the limitation of knowledge imposed by the visibility radius in sandpipers. Our research reveals that the Sandpiper Food Search Algorithm has outperformed the Firefly Algorithm in three out of the four functions with at least 3% improvement in mean best solution and on average 38% more reliable at finding a solution at least 95% of the optimal.

 

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