Real-time hydraulic interval state estimation for water transport networks: a case study

Vrachimis, Stelios G.; Eliades, Demetrios G.; Polycarpou, Marios M.

doi:10.5194/dwes-11-19-2018

Articles | Volume 11, issue 1

https://doi.org/10.5194/dwes-11-19-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/dwes-11-19-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 11, issue 1

Research article

|

08 Mar 2018

Research article |

| 08 Mar 2018

Real-time hydraulic interval state estimation for water transport networks: a case study

Stelios G. Vrachimis, Demetrios G. Eliades, and Marios M. Polycarpou

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Cumulative views and downloads (calculated since 06 Jun 2017)

Month	HTML	PDF	XML	Total
Jun 2017	75	18	5	98
Jul 2017	50	16	1	67
Aug 2017	31	4	0	35
Sep 2017	15	5	0	20
Oct 2017	14	4	1	19
Nov 2017	19	1	0	20
Dec 2017	12	1	0	13
Jan 2018	18	2	1	21
Feb 2018	22	4	5	31
Mar 2018	79	29	4	112
Apr 2018	64	17	1	82
May 2018	56	18	2	76
Jun 2018	28	12	0	40
Jul 2018	20	14	1	35
Aug 2018	18	14	4	36
Sep 2018	18	12	1	31
Oct 2018	13	8	3	24
Nov 2018	29	22	0	51
Dec 2018	15	10	1	26
Jan 2019	11	15	1	27
Feb 2019	21	5	0	26
Mar 2019	9	7	0	16
Apr 2019	8	7	0	15
May 2019	22	9	0	31
Jun 2019	243	6	0	249
Jul 2019	217	7	1	225
Aug 2019	66	9	0	75
Sep 2019	108	9	0	117
Oct 2019	107	10	0	117
Nov 2019	162	12	0	174
Dec 2019	96	5	0	101
Jan 2020	90	4	1	95
Feb 2020	55	4	0	59
Mar 2020	40	8	1	49
Apr 2020	16	5	1	22
May 2020	14	3	1	18
Jun 2020	31	26	2	59
Jul 2020	46	30	6	82
Aug 2020	6	5	0	11
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Feb 2024	2	2	0	4
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Apr 2024	16	6	6	28
May 2024	23	8	0	31
Jun 2024	29	9	2	40
Jul 2024	75	3	1	79
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Sep 2024	13	4	1	18
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Nov 2024	9	6	2	17
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Jan 2025	15	6	0	21
Feb 2025	40	9	0	49
Mar 2025	22	9	0	31
Apr 2025	27	9	1	37
May 2025	32	11	3	46
Jun 2025	37	10	1	48
Jul 2025	29	12	1	42
Aug 2025	44	7	2	53
Sep 2025	63	13	0	76
Oct 2025	92	29	6	127
Nov 2025	45	17	2	64

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Short summary

Using real-time uncertain measurements from a real water transport network, the proposed Iterative Hydraulic Interval State Estimation algorithm generates bounds on hydraulic states, by taking into account the measurement uncertainty and modeling uncertainty in the form of uncertain pipe parameters. The applicability of this methodology was demonstrated by using it to estimate the unaccounted-for water in the network. This methodology can be used as a tool for fault detection in water networks.


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