bibtype	C - Conference Paper (international conference)
ARLID	0561928
utime	20230316105620.5
mtime	20221005235959.9
SCOPUS	85137031027
WOS	000858758500037
DOI	10.1016/j.ifacol.2022.07.175
title (primary) (eng)	Multi-objective, rule and preference-based placement of quality sensors in water supply networks
specification	page_count 8 s. media_type P
serial	ARLID cav_un_epca*0563145 ISSN 2405-8963 title IFAC-PapersOnLine. Volume 55, Issue 6 - 11th IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes SAFEPROCESS 2022 page_num 482-489 publisher place Amsterdam name Elsevier year 2022
keyword	water quality
keyword	multi-objective optimization
keyword	contaminant intrusion
keyword	active diagnosis
keyword	sensor placement
keyword	condition monitoring
keyword	rule-based agent
keyword	safety-critical networked system
author (primary)	ARLID cav_un_auth*0409525 name1 Brentan name2 B. country BR
author	ARLID cav_un_auth*0398866 name1 Carpitella name2 Silvia institution UTIA-B full_dept (cz) Matematická teorie rozhodování full_dept Department of Decision Making Theory department (cz) MTR department MTR country IT fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
author	ARLID cav_un_auth*0256480 name1 Izquierdo name2 J. country ES
author	ARLID cav_un_auth*0437380 name1 Montalvo name2 I. country DE
source	url http://library.utia.cas.cz/separaty/2022/MTR/carpitella-0561928.pdf
cas_special	project project_id GA19-06569S agency GA ČR country CZ ARLID cav_un_auth*0380559 abstract (eng) To detect contaminant intrusion and, in general, to assess quality problems in their water distribution systems, water utilities need quality sensors that continuously measure, directly from the network, conductivity, PH, concentration of different substances, and other related parameters. Due to the nature of the objectives involved, the decision about where to place sensors in the network and the amount of them to be installed is a very challenging problem. In this investigation, we present a multi-objective approach to cast light on those decisions. Instead of a crisp solution, the multi-objective approach will provide a wide spectrum of solutions representing the best trade-off among all the decision criteria of the problem. This approach aims to integrate the practical experience of engineers into the decision-making process since, eventually, the solution will be selected among the Pareto front of solutions using the engineers' experience and the specific characteristics of their utility. To this end, the used algorithm adds agents based on both technical and user-preference rules on top of evolutionary search techniques to explore the decision space. The algorithm runs as a part of the Agent Swarm Optimization framework, a consolidated multi-objective software. Another novelty of this contribution is computational: the evaluation of the objective functions is executed directly in the MS SQL server and simulation data is never required to be loaded in their entirety. Without this important implementation detail, the solution for “large” water network models would not be affordable with the hardware typically used in desktop computers. To illustrate the solution process, a use case focused on a mid-size water supply network is addressed. action ARLID cav_un_auth*0437381 name IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes SAFEPROCESS 2022 /11./ dates 20220608 mrcbC20-s 20220610 place Pafos country CY RIV JC FORD0 20000 FORD1 20200 FORD2 20206 reportyear 2023 num_of_auth 4 presentation_type PR inst_support RVO:67985556 permalink https://hdl.handle.net/11104/0335182 confidential S mrcbC86 3+4 Proceedings Paper Automation Control Systems mrcbT16-s 0.308 mrcbT16-E Q3 arlyear 2022 mrcbU14 85137031027 SCOPUS mrcbU24 PUBMED mrcbU34 000858758500037 WOS mrcbU63 cav_un_epca*0563145 IFAC-PapersOnLine. Volume 55, Issue 6 - 11th IFAC Symposium on Fault Detection, Supervision and Safety for Technical Processes SAFEPROCESS 2022 Elsevier 2022 Amsterdam 482 489 2405-8963