Development of digital water meter infrastructure using wireless sensor networks

Muhendra, Rifki; Husein, Husein; Budiman, Maman; Khairurrijal, Khairurrijal

doi:10.1063/1.4953950

Cited by 8 publications

(4 citation statements)

References 16 publications

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“…Few applications implement nRF transceivers, and even fewer compared to BT/BLE, ZigBee and Wi-Fi transceivers, yet the ones that do [85,86] reveal new advantages such as: Mesh networking, reliability, long-range operation [85], and lower current consumption [86]. In Table 3, we have also considered nRF24 for long-range communications.…”

Section: Band Coexistence For Short To Medium Range Communicationmentioning

confidence: 99%

“…The second strategy is to increase the SNR. Out of these strategies, only the first assures optimal power consumption without investing in new resources, since the latter requires more powerful antennas for a better range, as in the case nRF24 [85,86], which of course leads to more power consumption. In this paper, the data rates selected for all the Bluetooth transceivers tested are at minimum: 1 Mbps for HC-05, 1 Mbps for JDY-30, and respectively, 721 kbps for HM-10.…”

Section: 3d Visualization Of the Aws Emission Fields And Power Conmentioning

confidence: 99%

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Design of Wireless Sensors for IoT with Energy Storage and Communication Channel Heterogeneity

Borza

Machedon-Pisu

Hamza-Lup

2019

Sensors

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Autonomous Wireless Sensors (AWSs) are at the core of every Wireless Sensor Network (WSN). Current AWS technology allows the development of many IoT-based applications, ranging from military to bioengineering and from industry to education. The energy optimization of AWSs depends mainly on: Structural, functional, and application specifications. The holistic design methodology addresses all the factors mentioned above. In this sense, we propose an original solution based on a novel architecture that duplicates the transceivers and also the power source using a hybrid storage system. By identifying the consumption needs of the transceivers, an appropriate methodology for sizing and controlling the power flow for the power source is proposed. The paper emphasizes the fusion between information, communication, and energy consumption of the AWS in terms of spectrum information through a set of transceiver testing scenarios, identifying the main factors that influence the sensor node design and their inter-dependencies. Optimization of the system considers all these factors obtaining an energy efficient AWS, paving the way towards autonomous sensors by adding an energy harvesting element to them.

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Section: Band Coexistence For Short To Medium Range Communicationmentioning

confidence: 99%

Section: 3d Visualization Of the Aws Emission Fields And Power Conmentioning

confidence: 99%

Design of Wireless Sensors for IoT with Energy Storage and Communication Channel Heterogeneity

Borza

Machedon-Pisu

Hamza-Lup

2019

Sensors

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“…This system is good for customer requirements because it is easy to install on existing water meters. On the other hand, the development of metering communication infrastructure has been studied previously, such as meter communication infrastructure based on wireless sensor network (WMN) [6] and Wi-Fi [7]. The meter data communication network uses radio frequency (RF) which makes it easy to collect customer meter data.…”

Section: Introductionmentioning

confidence: 99%

Development of Non-Intrusive Low-Power Digital Water Meter Reading System Based On Wireless Mesh Network and Internet of Things

Muhendra

2023

j. nas. pendidik. teknik. inform.

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The application of WMN and IoT technology to the metering infrastructure is proven to provide convenience in data collection, access to information, and management of metering devices. Unfortunately, the use of this technology is still minimal in developing countries like Indonesia. In this study, the development of a digital meter reading system that focuses on low-power non-intrusive reading devices and the application of WMS in the water meter reading system is carried out. This system consists of a series of meter reader sensors that are connected mesh to a gateway where meter data can be monitored in real-time and remotely. This sensor circuit is an integrated circuit added to the existing mechanical water meter which allows recording the volume of water consumption digitally. This circuit consists of an optical sensor, real-time clock (RTC), microcontroller, Lora Transmitter, and power supply. The use of solar cells to supply energy for meter reading devices is another interesting aspect of the development of this system. A gateway is a circuit built to bridge the transmission of meter data from a radio-based sensor network to the internet. The result of this research is the establishment of a meter reading system capable of accurately reading water consumption, low power where the meter data is easily accessible using a device connected to the internet. This system has been evaluated for every part of development such as reading water consumption, power consumption, and also communication in the mesh network. The contribution of this research is that it can be used as a reference for developing a digital meter system that is more effective, has low power, and has easy access to meter data

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“…The sensors used to measure alters in the liquid position of the tank collect data, which is then stored in the system's memory [15,16]. A server takes data from the on-board microcontroller through a GSM/GPRS network, records it to a database, and graphically displays it on a webpage.…”

Section: Introductionmentioning

confidence: 99%

Ubiquitous on-demand Water Reservoir Tracking System for Smart Village

Sarkar¹,

Karforma²,

Bose³

et al. 2022

ujar

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Development of digital water meter infrastructure using wireless sensor networks

Cited by 8 publications

References 16 publications

Design of Wireless Sensors for IoT with Energy Storage and Communication Channel Heterogeneity

Design of Wireless Sensors for IoT with Energy Storage and Communication Channel Heterogeneity

Development of Non-Intrusive Low-Power Digital Water Meter Reading System Based On Wireless Mesh Network and Internet of Things

Ubiquitous on-demand Water Reservoir Tracking System for Smart Village

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