Multi-objective optimal sensor placement for low-pressure gas distribution networks
Natural gas distribution systems are inherently vulnerable to accidental or intentional intrusion. Such events lead to financial losses and endanger the environmental and public safety. Therefore, it is crucial to adequately monitor the gas distribution systems. An important step toward this goal is...
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sg-ntu-dr.10356-1400842021-01-10T11:46:43Z Multi-objective optimal sensor placement for low-pressure gas distribution networks Zan, Thaw Tar Thein Gupta, Payal Wang, Mengmeng Dauwels, Justin Ukil, Abhisek School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Electrical and electronic engineering Sensor Placement Multi-objective Optimization Natural gas distribution systems are inherently vulnerable to accidental or intentional intrusion. Such events lead to financial losses and endanger the environmental and public safety. Therefore, it is crucial to adequately monitor the gas distribution systems. An important step toward this goal is to optimize the placement of sensors in the network. In this paper, we propose three design objectives including time-to-detection (TTD), sensitivity, and impact propagation (IP) and implement five multi-objective optimization algorithms (greedy, greedy randomized adaptive search procedure, non-dominated sorting genetic algorithm II, FrameSense, and particle swarm optimization (PSO)) to strategically place the sensors. From the results on an artificial network with 37 nodes and 50 branches and a real network in Singapore with 148 nodes and 150 branches, we find that Greedy and PSO algorithms are almost 10 times faster than the other algorithms in computational time. We also investigate the tradeoff between the design objectives and the number of sensors. Since TTD, sensitivity, and IP have different measurement units, we normalize their values within 0 to 1 (0%-100%) and consider the average of those three normalized values as the design cost. For 10% design cost, the number of required sensors is 5 and 8 for the artificial network and the real network, respectively. The results indicate that PSO yields the sensor configuration with the lowest design cost and the computational time. NRF (Natl Research Foundation, S’pore) 2020-05-26T07:03:08Z 2020-05-26T07:03:08Z 2018 Journal Article Zan, T. T. T., Gupta, P., Wang, M., Dauwels, J., & Ukil, A. (2018). Multi-objective optimal sensor placement for low-pressure gas distribution networks. IEEE Sensors Journal, 18(16), 6660-6668. doi:10.1109/jsen.2018.2850847 1530-437X https://hdl.handle.net/10356/140084 10.1109/JSEN.2018.2850847 2-s2.0-85049123069 16 18 6660 6668 en IEEE Sensors Journal © 2018 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Sensor Placement Multi-objective Optimization Zan, Thaw Tar Thein Gupta, Payal Wang, Mengmeng Dauwels, Justin Ukil, Abhisek Multi-objective optimal sensor placement for low-pressure gas distribution networks |
| description |
Natural gas distribution systems are inherently vulnerable to accidental or intentional intrusion. Such events lead to financial losses and endanger the environmental and public safety. Therefore, it is crucial to adequately monitor the gas distribution systems. An important step toward this goal is to optimize the placement of sensors in the network. In this paper, we propose three design objectives including time-to-detection (TTD), sensitivity, and impact propagation (IP) and implement five multi-objective optimization algorithms (greedy, greedy randomized adaptive search procedure, non-dominated sorting genetic algorithm II, FrameSense, and particle swarm optimization (PSO)) to strategically place the sensors. From the results on an artificial network with 37 nodes and 50 branches and a real network in Singapore with 148 nodes and 150 branches, we find that Greedy and PSO algorithms are almost 10 times faster than the other algorithms in computational time. We also investigate the tradeoff between the design objectives and the number of sensors. Since TTD, sensitivity, and IP have different measurement units, we normalize their values within 0 to 1 (0%-100%) and consider the average of those three normalized values as the design cost. For 10% design cost, the number of required sensors is 5 and 8 for the artificial network and the real network, respectively. The results indicate that PSO yields the sensor configuration with the lowest design cost and the computational time. |
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School of Electrical and Electronic Engineering |
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School of Electrical and Electronic Engineering Zan, Thaw Tar Thein Gupta, Payal Wang, Mengmeng Dauwels, Justin Ukil, Abhisek |
| format |
Article |
| author |
Zan, Thaw Tar Thein Gupta, Payal Wang, Mengmeng Dauwels, Justin Ukil, Abhisek |
| author_sort |
Zan, Thaw Tar Thein |
| title |
Multi-objective optimal sensor placement for low-pressure gas distribution networks |
| title_short |
Multi-objective optimal sensor placement for low-pressure gas distribution networks |
| title_full |
Multi-objective optimal sensor placement for low-pressure gas distribution networks |
| title_fullStr |
Multi-objective optimal sensor placement for low-pressure gas distribution networks |
| title_full_unstemmed |
Multi-objective optimal sensor placement for low-pressure gas distribution networks |
| title_sort |
multi-objective optimal sensor placement for low-pressure gas distribution networks |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140084 |
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1690658311756578816 |