Smart Water Distribution System Based on IoT Networks, a Critical Review

Quadar, Nordine; Chehri, Abdellah; Jeon, Gwanggil; Ahmad, Awais

doi:10.1007/978-981-15-5784-2_24

Cited by 14 publications

(8 citation statements)

References 16 publications

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“…For water quality the focus is on measuring, analyzing, and maintaining a set of pre-established parameters. It is an integral real-time management involving stakeholders [106][107][108]. In the agriculture, the use of IoT devices is a common way to make irrigation more efficient and effortless [109][110][111].…”

Section: Sensors For Water Quality Monitoringmentioning

confidence: 99%

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Sensors for Sustainable Smart Cities: A Review

et al. 2021

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Experts confirm that 85% of the world’s population is expected to live in cities by 2050. Therefore, cities should be prepared to satisfy the needs of their citizens and provide the best services. The idea of a city of the future is commonly represented by the smart city, which is a more efficient system that optimizes its resources and services, through the use of monitoring and communication technology. Thus, one of the steps towards sustainability for cities around the world is to make a transition into smart cities. Here, sensors play an important role in the system, as they gather relevant information from the city, citizens, and the corresponding communication networks that transfer the information in real-time. Although the use of these sensors is diverse, their application can be categorized in six different groups: energy, health, mobility, security, water, and waste management. Based on these groups, this review presents an analysis of different sensors that are typically used in efforts toward creating smart cities. Insights about different applications and communication systems are provided, as well as the main opportunities and challenges faced when making a transition to a smart city. Ultimately, this process is not only about smart urban infrastructure, but more importantly about how these new sensing capabilities and digitization developments improve quality of life. Smarter communities are those that socialize, adapt, and invest through transparent and inclusive community engagement in these technologies based on local and regional societal needs and values. Cyber security disruptions and privacy remain chief vulnerabilities.

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Section: Sensors For Water Quality Monitoringmentioning

confidence: 99%

“…The use of electromagnetic and ultrasonic flow meters and sensors for measuring pressure are IoT technologies for water consumption rate analysis [103,108].…”

Section: Sensors For Water Quality Monitoringmentioning

confidence: 99%

Sensors for Sustainable Smart Cities: A Review

et al. 2021

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“…[99]. Electromagnetic and ultrasonic sensors are employed to measure the pressure for water consumption rate analysis [100]. The application of WSNs for water quantity and quality monitoring systems has opened up a new generation of smart water monitoring systems, providing a more advanced context awareness and near real-time interaction [101].…”

Section: Smart Environmentmentioning

confidence: 99%

“…Zero Hunger: Smart agriculture [7] solutions contribute to improving efficiency in accessing fundamental resources, such as food, and also allow precision agriculture [89]; • Good Health and Well-being: Smart healthcare solutions [106,108] contribute to improving efficiency in healthcare services that are provided in hospitals and medical structures, as well as at home. Big data collection and analysis in healthcare contexts can be useful for monitoring critical cases, conditions and events [109], especially in the period of COVID-19 pandemic; • Quality Education: Smart education solutions contribute to creating innovative education services, as well as to enhancing the interaction between remote and real-world learning activities [66]; • Clean Water and Sanitation: Smart water solutions [100] are employed to monitor the quantity and quality of water distribution and aim to minimize consumption and manage wastewater treatments [101]. This represents an important step in the proper design and maintenance of quality water systems; • Affordable and Clean Energy: Smart energy solutions and energy grids [3,58,93,96,97] contribute to a more efficient energy distribution and usage [92], helping to minimize power consumption and consider innovative sustainable energy sources [91]; • Decent Work and Economic Growth: Smart governance solutions [3,38,39,[46][47][48][49][50][51][52][53][54] contribute to economic growth [38] since they are expected to provoke a strong push in the direction of smart and digital public administrations [39].…”

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confidence: 99%

IoT-Enabled Smart Cities: A Review of Concepts, Frameworks and Key Technologies

2022

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In recent years, smart cities have been significantly developed and have greatly expanded their potential. In fact, novel advancements to the Internet of things (IoT) have paved the way for new possibilities, representing a set of key enabling technologies for smart cities and allowing the production and automation of innovative services and advanced applications for the different city stakeholders. This paper presents a review of the research literature on IoT-enabled smart cities, with the aim of highlighting the main trends and open challenges of adopting IoT technologies for the development of sustainable and efficient smart cities. This work first provides a survey on the key technologies proposed in the literature for the implementation of IoT frameworks, and then a review of the main smart city approaches and frameworks, based on classification into eight domains, which extends the traditional six domain classification that is typically adopted in most of the related works.

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“…IoT-based solutions are investigated in order to help drive decisions in many agricultural areas, mainly water management and agriculture monitoring. These solutions can collect data from the farm's environment using networking protocols and standards, such as RFID, 4G/5G, LoWPAN, IEEE 802.15.x, and the future 6G [45][46][47][48][49][50][51][52].…”

Section: Data Generated By Machine (Dgm)mentioning

confidence: 99%

Data Management and Integration of Low Power Consumption Embedded Devices IoT for Transforming Smart Agriculture into Actionable Knowledge

2022

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Smart agriculture today uses a wide range of wireless communication technologies. Low Power Consumption Embedded Devices (LPCED), such as the Internet of Things (IoT) and Wireless Sensor Networks, make it possible to work over great distances at a reduced cost but with limited transferable data volumes. However, data management (DM) in intelligent agriculture is still not well understood due to the fact that there are not enough scientific publications available on this. Though data management (DM) benefits are factual and substantial, many challenges must be addressed in order to fully realize the DM’s potential. The main difficulties are data integration complexities, the lack of skilled personnel and sufficient resources, inadequate infrastructure, and insignificant data warehouse architecture. This work proposes a comprehensive architecture that includes big data technologies, IoT components, and knowledge-based systems. We proposed an AI-based architecture for smart farming. This architecture called, Smart Farming Oriented Big-Data Architecture (SFOBA), is designed to guarantee the system’s durability and the data modeling in order to transform the business needs for smart farming into analytics. Furthermore, the proposed solution is built on a pre-defined big data architecture that includes an abstraction layer of the data lake that handles data quality, following a data migration strategy in order to ensure the data’s insights.

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Smart Water Distribution System Based on IoT Networks, a Critical Review

Cited by 14 publications

References 16 publications

Sensors for Sustainable Smart Cities: A Review

Sensors for Sustainable Smart Cities: A Review

IoT-Enabled Smart Cities: A Review of Concepts, Frameworks and Key Technologies

Data Management and Integration of Low Power Consumption Embedded Devices IoT for Transforming Smart Agriculture into Actionable Knowledge

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