PROTOTYPING AN INTEGRATED IOT-BASED REAL-TIME SEWER MONITORING SYSTEM USING LOW-POWER SENSORS
Utepov Y. Neftissov A. Mkilima T. Mukhamejanova A. Zharassov S. Kazkeyev A. Biloshchytskyi A.
2023Technology Center
Eastern-European Journal of Enterprise Technologies
2023#3Issue 5(123)6 - 23 pp.
Improper monitoring of sewage networks may raise various issues such as overflows, pipe blockages, theft of manhole covers, leading to flooding and pollution, infrastructure damage, vehicles accidents, injury, and even death from falling into open manholes. The key objective of this research was to examine different elements and create a prototype architecture for a real-time sewer monitoring system. Implementation of the architecture involved constructing a data gathering station and experimenting with various wireless sensing devices to assess the precision of the sensors. In addition, the study sought to design a geographic information system that integrates algorithms capable of identifying sewer overflow, blocked pipes, and the presence of manhole covers. The performance of Sharp GP2Y0A41SK0F infrared, TF-Luna Benewake LiDar, TOF400 VL53L1X laser, JSN-SR04T ultrasonic distance sensors was tested in terms of their ability to monitor water level and manhole cover. Tests revealed the most favorable results in TOF400 VL53L1X at distances between 0.2 and 1.0 m (presumed distance to the manhole cover) with a standard deviation of 0.13–0.24, and in TF-Luna Benewake at distances between 1.0 and 5.0 m (presumed distance to the chamber bottom) with a standard deviation of 0.44–1.15. The deviation analysis has yielded equations that can be utilized to provide rough estimates of the accuracy levels of the aforementioned sensors, based on the measured distance. Additionally, the FC-28 analog and YL-63 infrared sensors were evaluated for detecting pipe blockages, with the YL-63 being more suitable. The outcomes of this study furnish valuable insights that can aid in achieving sustainable resolutions for issues related to sewer monitoring
Geographic Information System , Internet of Things , sensors , sewer chamber , sewer monitoring
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Solid Research Group (LLP), B. Momyshuly str.,17A, Astana, 010010, Kazakhstan
Department of Civil Engineering, L. N. Gumilyov Eurasian National University, Satpayev str.,2, Astana, 010008, Kazakhstan
Research and Innovation Center «Industry 4.0», Astana IT University, Mangilik Yel ave.,55/11,C1, Astana, 010017, Kazakhstan
Department of Civil Engineering, Solid Research Group (LLP), B. Momyshuly str.,17A, Astana, 010010, Kazakhstan
Astana IT University, Mangilik Yel ave.,55/11,C1, Astana, 010017, Kazakhstan
Department of Information Technology, Kyiv National University of Construction and Architecture, Povitroflotskyi ave.,31, Kyiv, 03037, Ukraine
Solid Research Group (LLP)
Department of Civil Engineering
Research and Innovation Center «Industry 4.0»
Department of Civil Engineering
Astana IT University
Department of Information Technology
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