Advancing sanitary surveillance: Innovating a live-feed sewer monitoring framework for effective water level and chamber cover detections

doi:10.1016/j.heliyon.2024.e27395

. 2024 Mar 11;10(6):e27395.

doi: 10.1016/j.heliyon.2024.e27395. eCollection 2024 Mar 30.

Advancing sanitary surveillance: Innovating a live-feed sewer monitoring framework for effective water level and chamber cover detections

Yelbek Utepov¹, Alexandr Neftissov², Timoth Mkilima³, Zhanbolat Shakhmov¹, Sungat Akhazhanov⁴, Alizhan Kazkeyev¹, Assel Toleubekovna Mukhamejanova¹, Aigul Kenzhebekkyzy Kozhas⁵

Affiliations

¹ Department of Civil Engineering, L.N. Gumilyov Eurasian National University, Astana, Kazakhstan.
² Research and Innovation Center "Industry 4.0", Astana IT University, Astana, Kazakhstan.
³ The University of Dodoma, P. O. Box 259, Dodoma, Tanzania.
⁴ Faculty of Mathematics and Information Technology, Karaganda Buketov University, Karaganda, Kazakhstan.
⁵ Department of Technology of Industrial and Civil Engineering, L.N. Gumilyov Eurasian National University, Astana, Kazakhstan.

PMID: 38509934
PMCID: PMC10950577
DOI: 10.1016/j.heliyon.2024.e27395

Advancing sanitary surveillance: Innovating a live-feed sewer monitoring framework for effective water level and chamber cover detections

Yelbek Utepov et al. Heliyon. 2024.

. 2024 Mar 11;10(6):e27395.

doi: 10.1016/j.heliyon.2024.e27395. eCollection 2024 Mar 30.

Authors

Yelbek Utepov¹, Alexandr Neftissov², Timoth Mkilima³, Zhanbolat Shakhmov¹, Sungat Akhazhanov⁴, Alizhan Kazkeyev¹, Assel Toleubekovna Mukhamejanova¹, Aigul Kenzhebekkyzy Kozhas⁵

Affiliations

¹ Department of Civil Engineering, L.N. Gumilyov Eurasian National University, Astana, Kazakhstan.
² Research and Innovation Center "Industry 4.0", Astana IT University, Astana, Kazakhstan.
³ The University of Dodoma, P. O. Box 259, Dodoma, Tanzania.
⁴ Faculty of Mathematics and Information Technology, Karaganda Buketov University, Karaganda, Kazakhstan.
⁵ Department of Technology of Industrial and Civil Engineering, L.N. Gumilyov Eurasian National University, Astana, Kazakhstan.

PMID: 38509934
PMCID: PMC10950577
DOI: 10.1016/j.heliyon.2024.e27395

Erratum in

Corrigendum to "Advancing sanitary surveillance: Innovating a live-feed sewer monitoring framework for effective water level and chamber cover detections" [Heliyon Volume 10, Issue 6, March 2024, Article e27395].
Utepov Y, Neftissov A, Mkilima T, Shakhmov Z, Akhazhanov S, Kazkeyev A, Mukhamejanova AT, Kozhas AK. Utepov Y, et al. Heliyon. 2025 Mar 26;11(9):e43239. doi: 10.1016/j.heliyon.2025.e43239. eCollection 2025 Apr. Heliyon. 2025. PMID: 40535295 Free PMC article.

Abstract

Efficient sanitation system management relies on vigilant sewage surveillance to uphold environmental hygiene. The absence of robust monitoring infrastructure jeopardizes unimpeded conduit flow, leading to floods and contamination. The accumulation of harmful gases in sewer chambers, coupled with tampered lids, compounds sewer network challenges, resulting in structural damage, disruptions, and safety risks from accidents and gas inhalation. Notably, even vehicular transit is vulnerable, facing collisions due to inadequately secured manholes. The core objective of this research was to deconstruct and synthesize a prototype blueprint for a live-feed sewer monitoring framework (LSMF). This involves creating a data gathering nexus (DGN) and empirically assessing diverse wireless sensing implements (WSI) for precision. Simultaneously, a geographic information matrix (GIM) was developed with algorithms to detect sewer surges, blockages, and missing manhole covers. Three scrutinized sensors-the LiDar TF-Luna, laser TOF400 VL53L1X, and ultrasonic JSN-SR04T-were evaluated for their ability to measure water levels in sewer vaults. The results showed that the TF-Luna LiDar sensor performed favorably within the 1.0-5.0 m range, with a standard deviation of 0.44-1.15. The TOF400 laser sensor ranked second, with a more variable standard deviation of up to 104 as obstacle distance increased. In contrast, the JSN-SR04T ultrasonic sensor exhibited lower standard deviation but lacked consistency, maintaining readings of 0.22-0.23 m within the 2.0-5.0 m span. The insights from this study provide valuable guidance for sustainable solutions to sewer surveillance challenges. Moreover, employing a logarithmic function, TF-Luna Benewake exhibited reliability at approximately 84.5%, while TOF400 VL53L1X adopted an exponential equation, boasting reliability approaching approximately 89.6%. With this navigational tool, TF-Luna Benewake maintained accuracy within ±10 cm for distances ranging from 8 to 10 m, showcasing its exceptional performance.

Keywords: Geographic information system; Internet of things; Sensors; Sewer chamber; Sewer monitoring.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

**Fig. 5**
Testing of sensors at distances from 0.2 to 1.0 m.

**Fig. 6**
Testing of sensors at distances from 1.0 to 5.0 m.

**Fig. 7**
Deviation analysis (a) maximum fluctuation for TF-Luna Benewake (b) average deviation for TF-Luna Benewake (c) maximum fluctuation for sharp GP2Y0A41SK0F & JSN-SR04T (d) average deviation sharp GP2Y0A41SK0F & JSN-SR04T (e) maximum fluctuation for TOF400 VL53L1X (f) average deviation for TOF400 VL53L1X.

**Fig. 8**
Sewage monitoring algorithms integrated to GIS (a) sewer chamber section (b)wastewater overflow algorithm (c) manhole cover presence algorithm (d) pipe blocakage algorithm.

See this image and copyright information in PMC

Cited by

Lightweight Sewer Pipe Crack Detection Method Based on Amphibious Robot and Improved YOLOv8n.
Lv Z, Dong S, He J, Hu B, Liu Q, Wang H. Lv Z, et al. Sensors (Basel). 2024 Sep 21;24(18):6112. doi: 10.3390/s24186112. Sensors (Basel). 2024. PMID: 39338857 Free PMC article.

References

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1. Sood B., Lokhande S., Krishnankutty M., Kalbar P.P. Economic assessment of centralized and decentralized sewerage network systems: a case study of Ludhiana, India. J. Urban Plann. Dev. 2023;149 doi: 10.1061/JUPDDM.UPENG-4095. - DOI
1. Ouattara Z.A., Kabo-Bah A.T., Dongo K., Akpoti K. A Review of sewerage and drainage systems typologies with case study in Abidjan, Côte d'Ivoire: failures, policy and management techniques perspectives. Cogent Eng. 2023;10 doi: 10.1080/23311916.2023.2178125. - DOI
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[1] Duque N., Bach P.M., Scholten L., Fappiano F., Maurer M. A simplified sanitary sewer system generator for exploratory modelling at city-scale. Water Res. 2022;209 doi: 10.1016/j.watres.2021.117903. - DOI - PubMed

[2] Duque N., Bach P.M., Scholten L., Fappiano F., Maurer M. A simplified sanitary sewer system generator for exploratory modelling at city-scale. Water Res. 2022;209 doi: 10.1016/j.watres.2021.117903. - DOI - PubMed

[3] Sood B., Lokhande S., Krishnankutty M., Kalbar P.P. Economic assessment of centralized and decentralized sewerage network systems: a case study of Ludhiana, India. J. Urban Plann. Dev. 2023;149 doi: 10.1061/JUPDDM.UPENG-4095. - DOI

[4] Sood B., Lokhande S., Krishnankutty M., Kalbar P.P. Economic assessment of centralized and decentralized sewerage network systems: a case study of Ludhiana, India. J. Urban Plann. Dev. 2023;149 doi: 10.1061/JUPDDM.UPENG-4095. - DOI

[5] Ouattara Z.A., Kabo-Bah A.T., Dongo K., Akpoti K. A Review of sewerage and drainage systems typologies with case study in Abidjan, Côte d'Ivoire: failures, policy and management techniques perspectives. Cogent Eng. 2023;10 doi: 10.1080/23311916.2023.2178125. - DOI

[6] Ouattara Z.A., Kabo-Bah A.T., Dongo K., Akpoti K. A Review of sewerage and drainage systems typologies with case study in Abidjan, Côte d'Ivoire: failures, policy and management techniques perspectives. Cogent Eng. 2023;10 doi: 10.1080/23311916.2023.2178125. - DOI

[7] Mazunga F., Romosi T., Guvhu R. Manhole intrusion detection system with notification stages. Sci. African. 2021;12 doi: 10.1016/j.sciaf.2021.e00819. - DOI

[8] Mazunga F., Romosi T., Guvhu R. Manhole intrusion detection system with notification stages. Sci. African. 2021;12 doi: 10.1016/j.sciaf.2021.e00819. - DOI

[9] Anbari M.J., Tabesh M., Roozbahani A. Risk assessment model to prioritize sewer pipes inspection in wastewater collection networks. J. Environ. Manag. 2017;190:91–101. doi: 10.1016/j.jenvman.2016.12.052. - DOI - PubMed

[10] Anbari M.J., Tabesh M., Roozbahani A. Risk assessment model to prioritize sewer pipes inspection in wastewater collection networks. J. Environ. Manag. 2017;190:91–101. doi: 10.1016/j.jenvman.2016.12.052. - DOI - PubMed

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Advancing sanitary surveillance: Innovating a live-feed sewer monitoring framework for effective water level and chamber cover detections

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Advancing sanitary surveillance: Innovating a live-feed sewer monitoring framework for effective water level and chamber cover detections

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