Chadwick Carreto Arellano scite author profile

Chadwick Carreto Arellano

5Publications

37Citation Statements Received

39Citation Statements Given

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Affiliations

Instituto Politécnico Nacional, École Supérieure de Chimie Organique et Minérale, Centro de Estudios Universitarios Adolfo López Mateos

Publications

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QoS Analysis for a Nonpreemptive Continuous Monitoring and Event-Driven WSN Protocol in Mobile Environments

Leyva-Mayorga

Rivero-Ángeles²,

Arellano³

et al. 2015

International Journal of Distributed Sensor Networks

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Evolution in wireless sensor networks (WSNs) has allowed the introduction of new applications with increased complexity regarding communication protocols, which have to ensure that certain QoS parameters are met. Specifically, mobile applications require the system to respond in a certain manner in order to adequately track the target object. Hybrid algorithms that perform Continuous Monitoring (CntM) and Event-Driven (ED) duties have proven their ability to enhance performance in different environments, where emergency alarms are required. In this paper, several types of environments are studied using mathematical models and simulations, for evaluating the performance of WALTER, a priority-based nonpreemptive hybrid WSN protocol that aims to reduce delay and packet loss probability in time-critical packets. First, randomly distributed events are considered. This environment can be used to model a wide variety of physical phenomena, for which report delay and energy consumption are analyzed by means of Markov models. Then, mobile-only environments are studied for object tracking purposes. Here, some of the parameters that determine the performance of the system are identified. Finally, an environment containing mobile objects and randomly distributed events is considered. It is shown that by assigning high priority to time-critical packets, report delay is reduced and network performance is enhanced.

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Priority-Based Multi-event Reporting in Hybrid Wireless Sensor Networks

Leyva-Mayorga¹,

Rivero-Ángeles

Arellano³

2014

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Forecasting People’s Influx on Mexico City Metrobus Line 1 Using a Fractal Analysis

Ávalos-Bravo

Arellano

Padilla-Pérez

et al. 2020

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Management of scientific and technological research

Arellano

Ruiz

Segundo

2015

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Método sistémico-transdisciplinar para el diseño de dispositivos eHealth

et al. 2020

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eHealth ha permitido mejorar el desempeño de múltiples sistemas de salud alrededor del mundo, a través de estrategias nacionales de integración (estructurada y coordinada) de las Tecnologías de Información y Comunicación (TIC) al sector salud, sin embargo, una vez establecidas las bases para desarrollar e implementar soluciones eHealth, no existe un único camino para que los investigadores, ingenieros, médicos y otros interesados trabajen sobre la creación de soluciones eHealth. Por esta razón, se propone un método con enfoque sistémico-transdisciplinario para el diseño de dispositivos eHealth, con la intención de satisfacer los requerimientos y las necesidades de todos los involucrados en el uso del dispositivo, así como, con la normativa establecida en los diferentes países. A partir del enfoque sistémico y transdisciplinar, se plantea la elaboración de un método que una sinérgicamente distintos métodos sistémicos, que permita la continua colaboración y compartición de experiencias de los involucrados. En consecuencia, el método permitirá el diseño de dispositivos eHealth que, sin importar su uso, estén apegados a las necesidades del usuario, requerimientos del personal que lo utilizará, normativas y reglamentación del país donde se desarrollen y que brinden la satisfacción total en el dispositivo. Finalmente, el diseño de soluciones eHealth a través del pensamiento sistémico permite, a partir del análisis de las necesidades y requerimientos, entregar un producto que satisfaga a todos los involucrados y sea sustentable, a través de la exploración de diversas perspectivas, la observación del contexto, la participación de los involucrados, discusión y concordancia de intereses.

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