The Integration of IoT (Internet of Things) Sensors and Location-Based Services for Water Quality Monitoring: A Systematic Literature Review DOI Creative Commons
Rajapaksha Mudiyanselage Prasad Niroshan Sanjaya Bandara, Amila Jayasinghe, Guenther Retscher

et al.

Sensors, Journal Year: 2025, Volume and Issue: 25(6), P. 1918 - 1918

Published: March 19, 2025

The increasing demand for clean and reliable water resources, coupled with the growing threat of pollution, has made real-time quality (WQ) monitoring assessment a critical priority in many urban areas. Urban environments encounter substantial challenges maintaining WQ, driven by factors such as rapid population growth, industrial expansion, impacts climate change. Effective WQ is essential safeguarding public health, promoting environmental sustainability, ensuring adherence to regulatory standards. advancement Internet Things (IoT) sensor technologies smartphone applications presents an opportunity develop integrated platforms assessment. Advances IoT provide transformative solution monitoring, revolutionizing way we assess manage our resources. Moreover, recent developments Location-Based Services (LBSs) Global Navigation Satellite Systems (GNSSs) have significantly enhanced accessibility accuracy location information. With proliferation GNSS services, GPS, GLONASS, Galileo, BeiDou, users now access diverse range data that are more precise than ever before. These advancements it easier integrate information into various applications, from planning disaster management transportation. availability multi-GNSS support allows improved satellite coverage reduces potential signal loss or densely built environments. To harness this enable seamless integration LBSs sustainable systematic literature review was conducted determine past trends future opportunities. This research aimed limitations traditional systems while fostering understanding positioning capabilities development. highlights both using offering insights current state technology its There pressing need integrated, system cost-effective accessible. Such should leverage networks continuous immediate feedback, spatially dynamic insights, empowering stakeholders address issues collaboratively efficiently.

Language: Английский

The Integration of IoT (Internet of Things) Sensors and Location-Based Services for Water Quality Monitoring: A Systematic Literature Review DOI Creative Commons
Rajapaksha Mudiyanselage Prasad Niroshan Sanjaya Bandara, Amila Jayasinghe, Guenther Retscher

et al.

Sensors, Journal Year: 2025, Volume and Issue: 25(6), P. 1918 - 1918

Published: March 19, 2025

The increasing demand for clean and reliable water resources, coupled with the growing threat of pollution, has made real-time quality (WQ) monitoring assessment a critical priority in many urban areas. Urban environments encounter substantial challenges maintaining WQ, driven by factors such as rapid population growth, industrial expansion, impacts climate change. Effective WQ is essential safeguarding public health, promoting environmental sustainability, ensuring adherence to regulatory standards. advancement Internet Things (IoT) sensor technologies smartphone applications presents an opportunity develop integrated platforms assessment. Advances IoT provide transformative solution monitoring, revolutionizing way we assess manage our resources. Moreover, recent developments Location-Based Services (LBSs) Global Navigation Satellite Systems (GNSSs) have significantly enhanced accessibility accuracy location information. With proliferation GNSS services, GPS, GLONASS, Galileo, BeiDou, users now access diverse range data that are more precise than ever before. These advancements it easier integrate information into various applications, from planning disaster management transportation. availability multi-GNSS support allows improved satellite coverage reduces potential signal loss or densely built environments. To harness this enable seamless integration LBSs sustainable systematic literature review was conducted determine past trends future opportunities. This research aimed limitations traditional systems while fostering understanding positioning capabilities development. highlights both using offering insights current state technology its There pressing need integrated, system cost-effective accessible. Such should leverage networks continuous immediate feedback, spatially dynamic insights, empowering stakeholders address issues collaboratively efficiently.

Language: Английский

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