Wireless Sensor Network Design based on Hybrid Tree-Like Mesh Topology as a New Platform for  Air Pollution Monitoring System

Iqbal, Muhammad; Fuad, Muhammad; Sukoco, Heru; Alatas, Husin

doi:10.12928/telkomnika.v14i3.2279

Cited by 8 publications

(7 citation statements)

References 2 publications

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“…Penelitian tentang pemantauan polusi udara dengan menggunakan teknologi jaringan sensor nirkabel telah banyak dilakukan, diantaranya Iqbal, M et al (2015) yaitu WSN dengan topologi Hybrid Mesh-Like Tree dengan aplikasi berbasis web untuk sistem monitoring polusi udara berhasil menampilkan informasi tentang level pencemaran udara di kampus IPB Dramaga [3], Fuad, M et al (2015) membangun sistem pemantauan polusi udara gas CO di Kampus IPB Dramaga berbasiskan jaringan WSN dengan topologi mesh dengan protokol zigbee secara real time dan pengelolaan data dilakukan melalui aplikasi antar muka berbasis web [4]. Aziz et al (2012) yaitu sistem akuisisi data berbasis jaringan sensor nirkabel dengan protokol zigbee/IEEE 802.15.4 dan internet access pada sensor kristal fotonik untuk pengukuran indeks standar pencemar udara (ISPU) yang terintegrasi sehingga mampu memberikan informasi mengenai ISPU secara real time dan non-real time.…”

Section: Pendahuluanunclassified

Sistem Pendeteksi Polusi Udara di Kota Bandar Lampung Menggunakan Teknologi Internet of Things (IoT)

et al. 2019

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Bandar Lampung City is the centre of the economy, services and trade in Lampung Province so that a healthy city environment needs to be kept clean and comfortable to support people's lives in carrying out daily activities. One factor that affects the cleanliness and comfort of the city of Bandar Lampung is the condition of air quality in the city of Bandar Lampung. The number of vehicles and industrial factories in the city of Bandar Lampung has become a major factor affecting air quality, such as the increase in harmful pollutant gases such as carbon monoxide gas (CO) and carbon dioxide (CO2), dust (PM10), nitrogen dioxide gas (NO2) and sulfur dioxide gas (SO2).Pollutant gas monitoring is one of the solutions in creating good air quality for the community. One of them is by utilizing information and communication technology. One of the utiliparameterion of information and communication technology in air quality monitoring is to use Wireless Sensor Network (WSN). WSN technology, which is the technology used to distribute and acquire data that is monitored and controlled centrally. This research builds an air pollution monitoring system in Bandar Lamping City by utilizing WSN and GSM technology for wireless data transmission to server applications. The results of this study are air pollution monitoring systems running well by displaying the outputs of sensor node acquisition based on the parameters of carbon monoxide (CO), dust (PM10), nitrogen dioxide (NO2) and sulfur dioxide (SO2) gases. The results of the calculation of the average overall sensor nodes for each parameter are 49 μg / m3 for PM10 substances, 34 μg / m3 for SO2 substances, 24 μg / m3 for NO2 substances, and 25 μg / m3 for CO substances. Based on the ISPU index and category, the results are in a good category. This means that the condition of air quality in the city of Bandar Lampung in the good category.

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Section: Pendahuluanunclassified

Sistem Pendeteksi Polusi Udara di Kota Bandar Lampung Menggunakan Teknologi Internet of Things (IoT)

et al. 2019

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“…This system can calculate the air quality index and determine the air quality status in real time and near real time through desktop and web applications via Xbee protocol communication. Developing a Hybrid Tree-Like Mesh network topology proposed by Iqbal et al [13] using Zigbee and GPRS for air quality monitoring systems has increased data throughput by 32.06%, reducing delay by 23.28%, and packet loss ratio by 0.01%. A Global System for Mobile Communications modem-based cellular monitoring system was developed and tested in Sharjah, UAE, by Al-Ali et al [14] The system consists of two main parts: mobile data acquisition and a monitoring server (pollution-server).…”

Section: Introductionmentioning

confidence: 99%

Ambient Air Monitoring System With Adaptive Performance Stability

et al. 2022

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Air pollution is a significant concern in this era. However, large quantities of pollutants can cause environmental damage and human health problems. The existing monitoring systems are highly precise and sensitive; however, they require high laboratory analysis and high operational costs. To overcome these problems, an air quality monitoring system has been proposed as an alternative that can complement the current system. This study aimed to design an inexpensive air quality monitoring system using metal oxide sensors to measure the concentrations of carbon monoxide (CO), nitrogen dioxide (NO 2 ), sulfur dioxide (SO 2 ), and particulate matter (PM) using laser diffraction, a microcontroller, and a general packet radio service module. Our air quality index monitoring system is a sensor node powered by a rechargeable battery supplied by either a solar panel or an alternating current power supply. Our developed system is equipped with an information system, namely a server and graphical user interface, to receive data, calculate the air pollutant standard index, and access data. In this paper, we discussed a novel adaptive algorithm for reducing packet loss in cellular-network-based transmissions. This algorithm allows nodes to perform repeated data transmissions and extends the response waiting times according to the received signal strength indicator. The test results show that the developed algorithm can reduce packet loss by 9.8-11.6% under medium/bad conditions. The node test was carried out in a heavy traffic area approximately 2 km from Atang Senjaya Airport with moderate air quality.

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“…Body temperature is the difference between the amount of heat produced by body processes and the amount of heat loss to the outside environment. So the difference between the heat produced and body heat expenditure is body temperature because body temperature is a reflection of body heat [13][14]. In the condition of the body that performs a strenuous physical activity, the human temperature control mechanism keeps the core temperature or the temperature of the inner tissue relatively constant, although the outside temperature fluctuates the body temperature still depends on blood flow to the skin and the amount of heat loss to the outside environment.…”

Section: Introductionmentioning

confidence: 99%

Design and monitoring body temperature and heart rate in humans based on WSN using star topology

Budiyanto

Silaban

Silalahi

et al. 2021

IJEECS

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Electronic health (E-health) uses information and communication technology including electronics, telecommunications, computers, and informatics to process various types of medical information, to carry out clinical services (diagnosis or therapy). Health is the most important asset in human life, therefore maintaining health is a top priority and serious attention needed. Heart rate and body temperature are vital signs that the hospital routinely checks for clinical signs and are useful for strengthening the diagnosis of a disease. In this research monitoring heart rate and body temperature with the wireless sensor network (WSN) method that uses NodeMCU 1.0 as a controller module and wireless as communication between nodes, the wireless network used in this research Wi-Fi network. As a data taker, a DS18b20 temperature sensor and a heart rate sensor (pulse sensor) are needed, which will be displayed by the ThingSpeak web and smartphones. From the test results, the success rate of the system in detecting heart rates is 97.17%. Whereas in detecting body temperature the success rate of the system is 99.28%. For data transmission, the system can send data smoothly at a maximum distance of 15 meters with a barrier.

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Wireless Sensor Network Design based on Hybrid Tree-Like Mesh Topology as a New Platform for Air Pollution Monitoring System

Abstract: In this paper, we propose a new platform for air pollution monitoring system based on wireless sensor network (WSN)

Cited by 8 publications

References 2 publications

Sistem Pendeteksi Polusi Udara di Kota Bandar Lampung Menggunakan Teknologi Internet of Things (IoT)

Sistem Pendeteksi Polusi Udara di Kota Bandar Lampung Menggunakan Teknologi Internet of Things (IoT)

Ambient Air Monitoring System With Adaptive Performance Stability

Design and monitoring body temperature and heart rate in humans based on WSN using star topology

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