Simulation-driven engineering for the management of harmful algal and cyanobacterial blooms

Risco‐Martín, José L.; Esteban, S.; Chacón, Jesús; Carazo-Barbero, Gonzalo; Besada-Portas, Eva; López-Orozco, J. A.

doi:10.1177/00375497231184246

Cited by 5 publications

(9 citation statements)

References 26 publications

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“…The integration stage of our development process starts with the initial model, which was introduced during the design phase and which matures into a sophisticated coupled DEVS model as depicted in Figure 7. Other, more complete models may include warning and forecasting services, such as those shown in [12]. This model now encapsulates all the necessary subsystems to effectively monitor an HACB and employs a trainable inference service that guides an instrumented USV.…”

Section: Integration Stagementioning

confidence: 99%

“…The effective fusion of these data streams is crucial for developing accurate and comprehensive predictive models. Additionally, there is a need for more sophisticated early warning systems that not only detect the presence of HACBs but also predict their movement and growth dynamics, enabling preemptive actions to be taken to protect public health and the environment [12].…”

Section: Introduction and Related Workmentioning

confidence: 99%

“…• HACB modeling: modeling of water bodies and inference of HACB biodynamics, with a segment of the team comprising biologists [12]; • Unmanned surface vehicles (USVs): guidance, navigation, and control (GNC) of USVs [13] and sensor instrumentation.…”

Section: Introduction and Related Workmentioning

confidence: 99%

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Modeling- and Simulation-Driven Methodology for the Deployment of an Inland Water Monitoring System

Andrade,

Esteban,

Risco-Martín

et al. 2024

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In response to the challenges introduced by global warming and increased eutrophication, this paper presents an innovative modeling and simulation (M&S)-driven model for developing an automated inland water monitoring system. This system is grounded in a layered Internet of Things (IoT) architecture and seamlessly integrates cloud, fog, and edge computing to enable sophisticated, real-time environmental surveillance and prediction of harmful algal and cyanobacterial blooms (HACBs). Utilizing autonomous boats as mobile data collection units within the edge layer, the system efficiently tracks algae and cyanobacteria proliferation and relays critical data upward through the architecture. These data feed into advanced inference models within the cloud layer, which inform predictive algorithms in the fog layer, orchestrating subsequent data-gathering missions. This paper also details a complete development environment that facilitates the system lifecycle from concept to deployment. The modular design is powered by Discrete Event System Specification (DEVS) and offers unparalleled adaptability, allowing developers to simulate, validate, and deploy modules incrementally and cutting across traditional developmental phases.

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Section: Integration Stagementioning

confidence: 99%

Section: Introduction and Related Workmentioning

confidence: 99%

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Modeling- and Simulation-Driven Methodology for the Deployment of an Inland Water Monitoring System

Andrade,

Esteban,

Risco-Martín

et al. 2024

Information

Self Cite

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“…Other studies using simulation to investigate the spread of infectious diseases can be found in the work by Abadeer et al, 49 as well as the review article by Ayadi et al 50 Iskandar et al 51 developed an agent-based model that incorporates realistic human behavior and urban conditions to simulate pedestrian evacuation during earthquakes at the city scale, revealing the impact of debris and human behavior on population safety and the limited capacity of open spaces to provide shelters in Beirut, Lebanon. Risco-Martin et al 52 introduced a discrete-event simulation for real-time monitoring and management of harmful algal and cyanobacterial blooms (HABs), addressing the need for efficient detection and response to HABs threatening water quality in dynamic environments. The application of simulation-based methodology in emergency healthcare can be seen in the review article by Sahlaoui et al 53 Similar to the EVCI location problem in this paper, these studies use simulation methods to explore real-world issues in urban environments from temporal and spatial perspectives.…”

Section: Abs Approachesmentioning

confidence: 99%

A data-driven approach of layout evaluation for electric vehicle charging infrastructure using agent-based simulation and GIS

Zhang,

Tan

2023

SIMULATION

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The development and popularization of new energy vehicles have become a global consensus. The shortage and unreasonable layout of electric vehicle charging infrastructure (EVCI) have severely restricted the development of electric vehicles. In the literature, many methods can be used to optimize the layout of charging stations (CSs) for producing good layout designs. However, more realistic evaluation and validation should be used to assess and validate these layout options. This study suggested an agent-based simulation (ABS) model to evaluate the layout designs of EVCI and simulate the driving and charging behaviors of electric taxis (ETs). In the case study of Shenzhen, China, geographical positioning system (GPS) trajectory data were used to extract the temporal and spatial patterns of ETs, which were then used to calibrate and validate the actions of ETs in the simulation. The ABS model was developed in a geographic information system (GIS) context of an urban road network with traveling speeds of 24 h to account for the effects of traffic conditions. After the high-resolution simulation, evaluation results of the performance of EVCI and the behaviors of ETs can be provided in detail and in summary. Sensitivity analysis demonstrates the accuracy of simulation implementation and aids in understanding the effect of model parameters on system performance. Maximizing the time satisfaction of ET users and reducing the workload variance of EVCI were the two goals of a multiobjective layout optimization technique based on the Pareto frontier. The location plans for the new CS based on Pareto analysis can significantly enhance both metrics through simulation evaluation.

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“…Moreover, the paper investigates the practical implementation of the IoT-based EWS, discussing the design considerations, sensor technologies, and communication protocols essential for seamless data integration. Besides the simulations, the web application allows for the user to design, monitor and control the deployment [6] of UAVs in real environments. Moreover, the architecture allows transparent and progressive integration of real sensors and hardware, which facilitates development and makes the platform more flexible and robust.…”

Section: Introductionmentioning

confidence: 99%

A Bleeding Edge Web Application for Early Detection of Cyanobacterial Blooms

Chacón,

Andrade,

Risco-Martín

et al. 2024

Electronics

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Harmful Algal and Cyanobacterial Bloom (HACB) threaten aquatic ecosystems, human health, and the economy. Many factors influence these dynamic events, which are often difficult to detect until the late stages of growth. The inclusion of an Early Warning System (EWS) can be instrumental in identifying hazards and preventing or at least minimizing their impact. Traditional monitoring approaches often fail to provide the real-time, high-resolution data needed for effective early warnings. The integration of Internet of Things (IoT) technologies offers a promising avenue to address these limitations by creating a network of interconnected sensors capable of continuously collecting and transmitting data from various aquatic environments. In this paper, we present DEVS-BLOOM-WebUI, an advanced web application that extends the capabilities of the DEVS-BLOOM framework, providing a user-friendly interface that supports different user roles. The application includes an interface to manage users and permissions, dashboards to inspect data (from sensors, Unmanned Surface Vehicles (USVs), weather stations, etc.), train AI models, explore their predictions, and facilitate decision-making through notification of early warnings. A key feature of DEVS-BLOOM-WebUI is the Scenario Configuration Editor (SCE). This interactive tool allows for users to design and configure the deployment of monitoring infrastructure within a water body, enhancing the system’s adaptability to user-defined simulation scenarios. This paper also investigates the practical implementation of an IoT-based EWS, discussing design considerations, sensor technologies, and communication protocols essential for seamless data integration and effective operation of the EWS.

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Simulation-driven engineering for the management of harmful algal and cyanobacterial blooms

Cited by 5 publications

References 26 publications

Modeling- and Simulation-Driven Methodology for the Deployment of an Inland Water Monitoring System

Modeling- and Simulation-Driven Methodology for the Deployment of an Inland Water Monitoring System

A data-driven approach of layout evaluation for electric vehicle charging infrastructure using agent-based simulation and GIS

A Bleeding Edge Web Application for Early Detection of Cyanobacterial Blooms

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