Itziar Landa-Torres scite author profile

This paper presents a novel bioinspired algorithm to tackle complex optimization problems: the coral reefs optimization (CRO) algorithm. The CRO algorithm artificially simulates a coral reef, where different corals (namely, solutions to the optimization problem considered) grow and reproduce in coral colonies, fighting by choking out other corals for space in the reef. This fight for space, along with the specific characteristics of the corals' reproduction, produces a robust metaheuristic algorithm shown to be powerful for solving hard optimization problems. In this research the CRO algorithm is tested in several continuous and discrete benchmark problems, as well as in practical application scenarios (i.e., optimum mobile network deployment and off-shore wind farm design). The obtained results confirm the excellent performance of the proposed algorithm and open line of research for further application of the algorithm to real-world problems.

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Evaluating the Internationalization Success of Companies Through a Hybrid Grouping Harmony Search—Extreme Learning Machine Approach

Landa-Torres

Ortiz-García

Salcedo‐Sanz

et al. 2012

IEEE J. Sel. Top. Signal Process.

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Underwater Robot Task Planning Using Multi-Objective Meta-Heuristics

Landa-Torres

Manjarres

Bilbao

et al. 2017

Sensors

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Robotics deployed in the underwater medium are subject to stringent operational conditions that impose a high degree of criticality on the allocation of resources and the schedule of operations in mission planning. In this context the so-called cost of a mission must be considered as an additional criterion when designing optimal task schedules within the mission at hand. Such a cost can be conceived as the impact of the mission on the robotic resources themselves, which range from the consumption of battery to other negative effects such as mechanic erosion. This manuscript focuses on this issue by devising three heuristic solvers aimed at efficiently scheduling tasks in robotic swarms, which collaborate together to accomplish a mission, and by presenting experimental results obtained over realistic scenarios in the underwater environment. The heuristic techniques resort to a Random-Keys encoding strategy to represent the allocation of robots to tasks and the relative execution order of such tasks within the schedule of certain robots. The obtained results reveal interesting differences in terms of Pareto optimality and spread between the algorithms considered in the benchmark, which are insightful for the selection of a proper task scheduler in real underwater campaigns.

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A multi-objective grouping Harmony Search algorithm for the optimal distribution of 24-hour medical emergency units

Landa-Torres

Manjarres

Salcedo‐Sanz

et al. 2013

Expert Systems with Applications

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A novel heuristic approach for distance- and connectivity-based multihop node localization in wireless sensor networks

et al. 2012

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A comparative study of two hybrid grouping evolutionary techniques for the capacitated P-median problem

Landa-Torres¹,

Ser²,

Salcedo‐Sanz³

et al. 2012

Computers & Operations Research

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Efficient citywide planning of open WiFi access networks using novel grouping harmony searchheuristics

Landa-Torres

Gil-López

Ser

et al. 2013

Engineering Applications of Artificial Intelligence

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