Non-emergency patient transport services planning through genetic algorithms

Fogue, Manuel; Sanguesa, Julio A.; Naranjo, Fernando; Gallardo, Jesús; Garrido, Piedad; Martínez, Francisco J.

doi:10.1016/j.eswa.2016.05.028

Cited by 23 publications

(9 citation statements)

References 26 publications

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“…GA-based solutions have also increasingly been used at the molecular level in tasks such as handling and predicting transposon-derived piRNAs [8]. Yet the importance of GAbased solutions in the medical field is not limited to solving problems on the microscopic scope as applications have been developed to handle larger scale infrastructure and logistics that can be vital for entire health care systems [9,10]. Among the most frequent uses of GAs however, is their role in feature selection where they help to narrow down the possible features so that a complementary algorithm can achieve far greater performance [7,11,12,13,14].…”

Section: Popularity Of Genetic Algorithms In Biomedical Applicationsmentioning

confidence: 99%

“…Additionally, GAs have been used for imaging and visualizing applications both due to their importance in feature selection and their ability to combine representations of learned information such as known shapes, and relative position into a single framework that can be used in three-dimensional segmentation [17]. Finally GAs have been employed to handle logistics both in handling complex hospital supply chains [9] and in optimizing ambulance dispatches to non-emergency situations [10]. Therefore, it can be easily seen that bioinformatics research entails many problems that can be solved using machine learning tasks, and that GA is well-suited for such tasks.…”

Section: Applications Of Ga In Bioinformaticsmentioning

confidence: 99%

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A summary of the prevalence of Genetic Algorithms in Bioinformatics from 2015 onwards

Swerhun,

Foley,

Massop

et al. 2020

Preprint

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Background: In recent years, machine learning has seen an increasing presence in a large variety of fields, especially in health care and bioinformatics. More specifically, the field where machine learning algorithms have found most application is Genetic Algorithms.Objective: The objective of this paper is to conduct a survey of articles published from 2015 onwards that deal with Genetic Algorithms and how they are used in bioinformatics.Methods: To achieve the objective, a scoping review was conducted that utilized Google Scholar alongside Publish or Perish and the Scimago Journal& Country Rank to search for respectable sources.Results: Upon analyzing 31 articles from the field of bioinformatics, it became apparent that genetic algorithms rarely form a full application, instead they rely on other vital algorithms such as support vector machines. Indeed, support vector machines were the most prevalent algorithms used alongside genetic algorithms (GA); however, while the usage of such algorithms contributes to the heavy focus on accuracy by GA programs, it often sidelines computation times in the process. In fact, most applications employing GAs for classification and feature selection are nearing or at 100% success rate, and the focus of future GA development should be directed elsewhere. Conclusion:Population-based searches, like GA, are often combined with other machine learning algorithms. In this scoping review, genetic algorithms combined with Support Vector Machines were found to perform best. The performance metric that was evaluated most often was the accuracy. Measuring the accuracy avoids measuring the main weakness of GAs, which is computational time. The future of genetic algorithms could be "open-ended" evolutionary algorithms, which attempt to increase complexity and find diverse solutions, rather than optimize a fitness function and converge to a single "best" solution from the initial population of solutions.

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Section: Popularity Of Genetic Algorithms In Biomedical Applicationsmentioning

confidence: 99%

Section: Applications Of Ga In Bioinformaticsmentioning

confidence: 99%

A summary of the prevalence of Genetic Algorithms in Bioinformatics from 2015 onwards

Swerhun,

Foley,

Massop

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

“…Inversely, Nikoo et al [2] propose a threeobjective interprogramming model to seek the path with best robustness by sacrificing the timeliness. Regarding the algorithm, genetic algorithm is frequently used in related researches, such as [26][27][28].…”

Section: Emergency Transportation Network (Etn)mentioning

confidence: 99%

Discrete Robustness Optimization on Emergency Transportation Network Based on Prospect Theory

Zhang

Zhu

Wang

et al. 2019

Journal of Advanced Transportation

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This paper focuses on the discrete robustness optimization of emergency transportation network with the consideration of timeliness and decision behavior of decision-maker under the limited rationality. Based on a situation that the nearer to disaster area, the higher probability of time delay, prospect theory is specially introduced to reflect the subjective decision behavior of decision-maker. Then, a discrete robustness optimization model is proposed with the purpose of the better timeliness and robustness. The model is based on the emergency transportation network with multistorage centers and multidisaster points. In order to obtain the optimal solution, an improved genetic algorithm is designed by introducing a bidirectional search strategy based on a newfangled path cluster to obtain specific paths that connect each storage centers and each disaster points. Finally, a case study is exhibited to demonstrate the reasonability of the model, theory, and algorithm. The result shows that the path cluster with the better timeliness and robustness can be well obtained by using the prospect theory and improved genetic algorithm. The analysis especially reveals that the robustness is correspondent to the risk aversion in prospect theory.

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“…According to [ 11 ], there are three main challenges associated with urban computing: urban sensing and data acquisition, computing with heterogeneous data, and hybrid systems blending the physical and virtual worlds. In recent years, many applications have been proposed in different scenarios of smart cities including transportation [ 12 ], the environment [ 13 ], energy [ 14 ], social [ 15 ], the economy [ 16 ], and public safety and security [ 17 , 18 ]. Moreover, the Intelligent Transportation Systems (ITS) have rapidly developed in Europe.…”

Section: Related Workmentioning

confidence: 99%

Semantic Framework of Internet of Things for Smart Cities: Case Studies

Zhang

Chen

et al. 2016

Sensors

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In recent years, the advancement of sensor technology has led to the generation of heterogeneous Internet-of-Things (IoT) data by smart cities. Thus, the development and deployment of various aspects of IoT-based applications are necessary to mine the potential value of data to the benefit of people and their lives. However, the variety, volume, heterogeneity, and real-time nature of data obtained from smart cities pose considerable challenges. In this paper, we propose a semantic framework that integrates the IoT with machine learning for smart cities. The proposed framework retrieves and models urban data for certain kinds of IoT applications based on semantic and machine-learning technologies. Moreover, we propose two case studies: pollution detection from vehicles and traffic pattern detection. The experimental results show that our system is scalable and capable of accommodating a large number of urban regions with different types of IoT applications.

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Non-emergency patient transport services planning through genetic algorithms

Cited by 23 publications

References 26 publications

A summary of the prevalence of Genetic Algorithms in Bioinformatics from 2015 onwards

A summary of the prevalence of Genetic Algorithms in Bioinformatics from 2015 onwards

Discrete Robustness Optimization on Emergency Transportation Network Based on Prospect Theory

Semantic Framework of Internet of Things for Smart Cities: Case Studies

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