diff --git a/documentation/citations.bib b/documentation/citations.bib new file mode 100644 index 000000000..6e5b3eef6 --- /dev/null +++ b/documentation/citations.bib @@ -0,0 +1,410 @@ +@article{abdelmottaleb2019, + author = "Abdel-Mottaleb, N. and Ghasemi Saghand, P. and Charkhgard, H. and Zhang, Q.", + title = "An Exact Multiobjective Optimization Approach for Evaluating Water Distribution Infrastructure Criticality and Geospatial Interdependence", + journal = "Water Resources Research", + volume = "55", + number = "7", + pages = "5255--5276", + keywords = "interdependency, critical infrastructure, water distribution resilience, criticality analysis, transportation networks, decision making", + doi = "10.1029/2018WR024063", + year = "2019" +} + +@inproceedings{antonowicz2019, + author = "Antonowicz, Ariel and Bałut, Alicja and Urbaniak, Andrzej and Zakrzewski, Przemysław", + booktitle = "2019 20th International Carpathian Control Conference (ICCC)", + title = "Algorithm for Early Warning System for Contamination in Water Network", + year = "2019", + pages = "1--5", + doi = "10.1109/CarpathianCC.2019.8765966" +} + +@article{antonowicz2022, + author = "Antonowicz, Ariel and Urbaniak, Andrzej", + volume = "70", + number = "4", + journal = "Bulletin of the Polish Academy of Sciences: Technical Sciences", + pages = "e141594", + howpublished = "online", + year = "2022", + title = "Optimization of the process of restoring the continuity of the WDS based on the matrix and genetic algorithm approach", + doi = "10.24425/bpasts.2022.141594", + keywords = "WNTR, aggregation of failures, water distribution system, EPANET Solver, graph searching algorithm, genetic algorithm, optimization, post-disaster events" +} + +@mastersthesis{bjerke2019, + author = "Bjerke, Martin", + school = "Norwegian University of Science and Technology (NTNU)", + title = "Leak Detection in Water Distribution Networks using Gated Recurrent Neural Networks", + year = "2019", + url = "http://hdl.handle.net/11250/2625834" +} + +@mastersthesis{bunn2018, + author = "Bunn, Brendan B.", + school = "Naval Postgraduate School", + title = "An operational model of interdependent water and power distribution infrastructure systems", + year = "2018", + address = "Monterey, CA", + url = "https://apps.dtic.mil/sti/citations/AD1065269" +} + +@article{fan2021, + author = "Fan, Xudong and Zhang, Xijin and Yu, Xiong (Bill)", + title = "Machine learning model and strategy for fast and accurate detection of leaks in water supply network", + journal = "Journal of Infrastructure Preservation and Resilience", + year = "2021", + month = "Apr", + day = "15", + volume = "2", + number = "1", + pages = "10", + issn = "2662--2521", + doi = "10.1186/s43065-021-00021-6" +} + +@inproceedings{han2018, + author = "Han, Qing and Eguchi, Ronald and Mehrotra, Sharad and Venkatasubramanian, Nalini", + booktitle = "2018 IEEE 37th Symposium on Reliable Distributed Systems (SRDS)", + title = "Enabling State Estimation for Fault Identification in Water Distribution Systems Under Large Disasters", + year = "2018", + pages = "161-170", + doi = "10.1109/SRDS.2018.00027" +} + +@inproceedings{han2019, + author = "Han, Qing and Mehrotra, Sharad and Venkatasubramanian, Nalini", + title = "AquaEIS: Middleware Support for Event Identification in Community Water Infrastructures", + year = "2019", + isbn = "9781450370097", + publisher = "Association for Computing Machinery", + address = "New York, NY, USA", + doi = "10.1145/3361525.3361554", + booktitle = "Proceedings of the 20th International Middleware Conference (Middleware '19)", + pages = "293--305", + numpages = "13", + keywords = "Human Engagement, In-situ Sensing, Event Processing, Complex System, Event Identification", + location = "Davis, CA, USA", +} + +@article{huang2022, + author = "Huang, Honglan and Burton, Henry V.", + title = "Dynamic seismic damage assessment of distributed infrastructure systems using graph neural networks and semi-supervised machine learning", + journal = "Advances in Engineering Software", + volume = "168", + pages = "103113", + year = "2022", + issn = "0965--9978", + doi = "10.1016/j.advengsoft.2022.103113", + keywords = "Graph neural network, Seismic risk assessment, Distributed infrastructure systems, Water distribution system, Damage assessment" +} + +@article{iannacone2022, + author = "Iannacone, Leandro and Sharma, Neetesh and Tabandeh, Armin and Gardoni, Paolo", + title = "Modeling Time-varying Reliability and Resilience of Deteriorating Infrastructure", + journal = "Reliability Engineering \& System Safety", + volume = "217", + pages = "108074", + year = "2022", + issn = "0951-8320", + doi = "10.1016/j.ress.2021.108074", + keywords = "Resilience, Recovery, Deterioration, Water Infrastructure, Physics-based models" +} + +@article{kammoun2022, + author = "Kammoun, Maryam and Kammoun, Amina and Abid, Mohamed", + title = "Experiments based comparative evaluations of machine learning techniques for leak detection in water distribution systems", + journal = "Water Supply", + volume = "22", + number = "1", + pages = "628--642", + year = "2022", + publisher = "IWA Publishing", + doi = "10.2166/ws.2021.248" +} + +@article{liu2022, + author = "Liu, Jun and Kang, Yinyin", + year = "2022", + month = "11", + pages = "100--109", + title = "Segment-based resilience response and intervention evaluation of water distribution systems", + volume = "71", + number = "1", + journal = "AQUA -- Water Infrastructure, Ecosystems and Society", + doi = "10.2166/aqua.2021.133" +} + +@article{liu2020, + author = "Liu, Yang and Barrows, Clayton and Macknick, Jordan and Mauter, Meagan", + title = "Optimization Framework to Assess the Demand Response Capacity of a Water Distribution System", + journal = "Journal of Water Resources Planning and Management", + volume = "146", + number = "8", + pages = "04020063", + year = "2020", + doi = "10.1061/(ASCE)WR.1943-5452.0001258" +} + +@article{logan2021, + author = "Logan, Kevin T. and Leštáková, Michaela and Thiessen, Nadja and Engels, Jens Ivo and Pelz, Peter F.", + title = "Water Distribution in a Socio-Technical System: Resilience Assessment for Critical Events Causing Demand Relocation", + journal = "Water", + volume = "13", + year = "2021", + number = "15", + pages = "2062", + issn = "2073-4441", + doi = "10.3390/w13152062" +} + +@article{lorenz2020, + author = "Lorenz, Imke-Sophie and Pelz, Peter F.", + title = "Optimal Resilience Enhancement of Water Distribution Systems", + journal = "Water", + volume = "12", + year = "2020", + number = "9", + pages = "2602", + issn = "2073-4441", + doi = "10.3390/w12092602" +} + +@article{marlim2022, + author = "Marlim, Malvin S. and Kang, Doosun", + title = "Contaminant Flushing in Water Distribution Networks Incorporating Customer Faucet Control", + journal = "Sustainability", + volume = "14", + year = "2022", + number = "4", + pages = "2249", + issn = "2071-1050", + doi = "10.3390/su14042249" +} + +@inproceedings{mazumder2019, + author = "Mazumder, Ram Krishna and Salman, Abdullahi and Li, Yue and Yu, Xiong", + year = "2019", + pages = "", + booktitle = "13th International Conference on Applications of Statistics and Probability in Civil Engineering, ICASP13, May 26-30, 2019, Seoul, South Korea", + title = "A Decision-making Framework for Water Distribution Systems using Fuzzy Inference and Centrality Analysis" +} + +@article{mazumder2022, + author = "Ram K. Mazumder and Abdullahi M. Salman and Li, Yue", + title = "Post-disaster sequential recovery planning for water distribution systems using topological and hydraulic metrics", + journal = "Structure and Infrastructure Engineering", + volume = "18", + number = "5", + pages = "728--743", + year = "2022", + publisher = "Taylor \\& Francis", + doi = "10.1080/15732479.2020.1864415" +} + +@inproceedings{mulrillo2021, + author = "Murillo, Andres and Taormina, Riccardo and Tippenhauer, Nils and Galelli, Stefano", + title = "Co-Simulating Physical Processes and Network Data for High-Fidelity Cyber-Security Experiments", + year = "2021", + isbn = "9781450390026", + publisher = "Association for Computing Machinery", + address = "New York, NY", + doi = "10.1145/3442144.3442147", + booktitle = "Sixth Annual Industrial Control System Security (ICSS) Workshop", + pages = "13--20", + numpages = "8", + location = "Austin, TX, USA", +} + +@article{nikolopoulos2020, + author = "Nikolopoulos, Dionysios and Moraitis, Georgios and Bouziotas, Dimitrios and Lykou, Archontia and Karavokiros, George and Makropoulos, Christos", + title = "Cyber-Physical Stress-Testing Platform for Water Distribution Networks", + journal = "Journal of Environmental Engineering", + volume = "146", + number = "7", + pages = "04020061", + year = "2020", + doi = "10.1061/(ASCE)EE.1943-7870.0001722" +} + +@article{nikolopoulos2021, + author = "Nikolopoulos, Dionysios and Ostfeld, Avi and Salomons, Elad and Makropoulos, Christos", + title = "Resilience Assessment of Water Quality Sensor Designs under Cyber-Physical Attacks", + journal = "Water", + volume = "13", + year = "2021", + number = "5", + pages = "647", + issn = "2073-4441", + doi = "10.3390/w13050647" +} + +@article{nikolopoulos2022a, + author = "Nikolopoulos, Dionysios and Kossieris, Panagiotis and Tsoukalas, Ioannis and Makropoulos, Christos", + title = "Stress-Testing Framework for Urban Water Systems: A Source to Tap Approach for Stochastic Resilience Assessment", + journal = "Water", + volume = "14", + year = "2022", + number = "2", + pages = "154", + issn = "2073-4441", + doi = "10.3390/w14020154" +} + +@article{nikolopoulos2020b, + author = "Nikolopoulos, Dionysios and Makropoulos, Christos", + title = "Stress-testing water distribution networks for cyber-physical attacks on water quality", + journal = "Urban Water Journal", + volume = "19", + number = "3", + pages = "256--270", + year = "2022", + publisher = "Taylor \\& Francis", + doi = "10.1080/1573062X.2021.1995446" +} + +@article{nyahora2020, + author = "Nyahora, Passwell Pepukai and Babel, Mukand Singh and Ferras, David and Emen, Andres", + title = "Multi-objective optimization for improving equity and reliability in intermittent water supply systems", + journal = "Water Supply", + volume = "20", + number = "5", + pages = "1592--1603", + year = "2020", + issn = "1606-9749", + doi = "10.2166/ws.2020.066" +} + +@article{pagani2021, + author = "Pagani, Alessio and Wei, Zhuangkun and Silva, Ricardo and Guo, Weisi", + title = "Neural Network Approximation of Graph Fourier Transform for Sparse Sampling of Networked Dynamics", + year = "2021", + issue_date = "February 2022", + publisher = "Association for Computing Machinery", + address = "New York, NY, USA", + volume = "22", + number = "1", + issn = "1533-5399", + doi = "10.1145/3461838", + journal = "ACM Trans. Internet Technol.", + articleno = "21", + numpages = "18", + keywords = "neural networks, graph fourier transform, Sampling theory", + eprint = "2002.05508" +} + +@article{rahimigolkhandan2022, + author = "Rahimi-Golkhandan, Armin and Aslani, Babak and Mohebbi, Shima", + title = "Predictive resilience of interdependent water and transportation infrastructures: A sociotechnical approach", + journal = "Socio-Economic Planning Sciences", + volume = "80", + pages = "101166", + year = "2022", + issn = "0038-0121", + doi = "10.1016/j.seps.2021.101166", + keywords = "Infrastructure systems, Interdependency, Social vulnerability, Predictive analytics, Natural disasters, Cascading random failure, Community detection" +} + +@article{randeniya2022, + author = "Randeniya, Aruna and Radhakrishnan, Mohanasundar and Sirisena, T. A. J. G. and Masih, Ilyas and Pathirana, Assela", + title = "Equity--performance trade-off in water rationing regimes with domestic storage", + journal = "Water Supply", + volume = "22", + number = "5", + pages = "4781-4797", + year = "2022", + issn = "1606-9749", + doi = "10.2166/ws.2022.188" +} + +@inproceedings{sharma2019, + author = "Sharma, Neetesh and Tabandeh, Armin and Gardoni, Paolo", + title = "Recovery optimization of interdependent infrastructure: A multi-scale approach", + year = "2019", + language = "English (US)", + booktitle = "13th International Conference on Applications of Statistics and Probability in Civil Engineering, ICASP13, Seoul, South Korea" +} + +@article{sharma2020, + author = "Sharma, Neetesh and Tabandeh, Armin and Gardoni, Paolo", + title = "Regional resilience analysis: A multiscale approach to optimize the resilience of interdependent infrastructure", + journal = "Computer-Aided Civil and Infrastructure Engineering", + volume = "35", + number = "12", + pages = "1315-1330", + doi = "10.1111/mice.12606", + year = "2020" +} + +@phdthesis{tabandeh2018, + author = "Tabandeh, Seyedarmin", + school = "University of Illinois at Urbana-Champaign", + title = "Societal risk and resilience analysis: A multi-scale approach to model the dynamics of infrastructure-social systems", + year = "2018" +} + +@article{tabandeh2022, + author = "Tabandeh, Armin and Sharma, Neetesh and Gardoni, Paolo", + title = "Uncertainty propagation in risk and resilience analysis of hierarchical systems", + journal = "Reliability Engineering \& System Safety", + volume = "219", + pages = "108208", + year = "2022", + issn = "0951-8320", + doi = "10.1016/j.ress.2021.108208", + keywords = "Sensitivity analysis, Uncertainty quantification, Hierarchical systems, Risk and resilience analysis, Infrastructure" +} + +@article{tomar2020, + author = "Tomar, Agam and Burton, Henry V. and Mosleh, Ali and Lee, Ji Yun", + title = "Hindcasting the Functional Loss and Restoration of the Napa Water System Following the 2014 Earthquake Using Discrete-Event Simulation", + journal = "Journal of Infrastructure Systems", + volume = "26", + number = "4", + pages = "04020035", + year = "2020", + doi = "10.1061/(ASCE)IS.1943-555X.0000574" +} + +@inproceedings{vrachimis2018a, + author = "Vrachimis, S.G. and Kyriakou, M.S. and Demetrios G. Eliades, and Marios M.Polycarpou", + booktitle = "1st International WDSA/CCWI Joint Conference Proceedings", + volume = "1", + number = "146", + title = "LeakDB: A benchmark dataset for leakage diagnosis in water distribution networks", + year = "2018", + url = "https://ojs.library.queensu.ca/index.php/wdsa-ccw/article/view/12315", +} + +@inproceedings{vrachimis2018b, + author = "Vrachimis, Stelios G. and Eliades, Demetrios G. and Polycarpou, Marios M.", + booktitle = "2018 IEEE Conference on Control Technology and Applications (CCTA)", + title = "Leak Detection in Water Distribution Systems Using Hydraulic Interval State Estimation", + year = "2018", + volume = "", + number = "", + pages = "565--570", + doi = "10.1109/CCTA.2018.8511516" +} + +@phdthesis{wille2019, + author = "Wille, Dominik", + school = "Naval Postgraduate School", + address = "Monterey, CA", + title = "Simulation-optimization for operational resilience of interdependent water-power systems in the {US} {Virgin} {Islands}", + year = "2019", + type = "Doctoral dissertation", + url = "https://hdl.handle.net/10945/64098", +} + +@article{xing2020, + author = "Xing, Lu and Sela, Lina", + title = "Transient simulations in water distribution networks: {TSNet} python package", + journal = "Advances in Engineering Software", + volume = "149", + pages = "102884", + year = "2020", + issn = "0965-9978", + doi = "10.1016/j.advengsoft.2020.102884", + keywords = "Transient simulation, Python, Open source software, Water distribution networks" +} diff --git a/documentation/conf.py b/documentation/conf.py index addd6a9df..d841b1b3a 100644 --- a/documentation/conf.py +++ b/documentation/conf.py @@ -31,7 +31,6 @@ # extensions coming with Sphinx (named 'sphinx.ext.*') or your custom # ones. extensions = [ - # 'numpydoc', 'sphinx.ext.autodoc', 'sphinx.ext.doctest', 'sphinx.ext.todo', @@ -70,7 +69,6 @@ # viewcode_import = False autodoc_default_options = { - # 'members': True, 'undoc-members': True, 'private-members': False, 'special-members': False, @@ -113,7 +111,7 @@ copyright = u'2023 National Technology & Engineering Solutions of Sandia, LLC (NTESS)' author = u'WNTR Developers' -bibtex_bibfiles = ['references.bib'] +bibtex_bibfiles = ['references.bib', 'citations.bib'] bibtex_default_style = 'plain' bibtex_reference_style = 'label' diff --git a/documentation/references.bib b/documentation/references.bib index 31bffadab..40f09982c 100644 --- a/documentation/references.bib +++ b/documentation/references.bib @@ -1,352 +1,337 @@ - -@book{ALA01, - address = {Reston, VA}, - author = {American Lifelines Alliance, (ALA)}, - editor = {ASCE}, - publisher = {American Society of Civil Engineers}, - title = {Seismic Fragility Formulations for Water Systems, Part 1 and 2. Report for the American Lifelines Alliance}, - year = {2001}, -} - -@article{AwGB90, - author = {K. Awumah and I. Goulter and S. K. Bhatt}, - doi = {10.1007/BF01544084}, - journal = {Stochastic Hydrology and Hydraulics}, - pages = {309--320}, - publisher = {Springer}, - title = {Assessment of reliability in water distribution networks using entropy based measures}, - volume = {4}, - number = {4}, - year = {1990}, -} - -@article{BaRR13, - author = {Kash Barker and Jose Emmanuel Ramirez-Marquez and Claudio M. Rocco}, - doi = {10.1016/j.ress.2013.03.012}, - issn = {0951-8320}, - journal = {Reliability Engineering \& System Safety}, - pages = {89--97}, - title = {Resilience-based network component importance measures}, - volume = {117}, - year = {2013}, -} - -@misc{Bieni19, - author = {Bieniek, T. and van Andel, B. and B{\o}, T.I.}, - howpublished = {Software}, - title = {Bidirectional {UTM}-{WGS84} converter for python}, - url = {https://github.com/Turbo87/utm}, - urldate = {2019-02-05}, - year = {2019}, -} - -@book{CrLo02, - address = {Upper Saddle River, NJ}, - author = {Crowl, D.A. and Louvar, J.F.}, - edition = {3}, - isbn = {0-13-138226-8}, - pagetotal = {720}, - publisher = {Prentice Hall}, - title = {Chemical Process Safety: Fundamentals with Applications}, - year = {2011}, -} - -@techreport{ELLT12, - author = {Eto, Joseph H and LaCommare, Kristina Hamachi and Larsen, Peter and Todd, Annika and Fisher, Emily}, - doi = {10.2172/1055706}, - institution = {Lawrence Berkeley National Laboratory}, - number = {LBNL-5268E}, - pagetotal = {68}, - place = {Berkeley, CA}, - title = {An Examination of Temporal Trends in Electricity Reliability Based on Reports from {U.S.} Electric Utilities}, - year = {2012}, -} - -@misc{Folium, - author = {python-visualization}, - howpublished = {Software}, - title = {folium}, - url = {https://github.com/python-visualization/folium}, - urldate = {2019-02-05}, - year = {2019}, -} - -@misc{GaCl18, - author = {Gazoni, E. and Clark, C.}, - howpublished = {Software}, - title = {openpyxl - A Python library to read/write {Excel} 2010 xlsx/xlsm files}, - url = {https://openpyxl.readthedocs.io}, - urldate = {2018-05-04}, - year = {2018}, -} - -@inproceedings{HaSS08, - author = {Aric A. Hagberg and Daniel A. Schult and Pieter J. Swart}, - booktitle = {Proceedings of the 7th {Python} in Science Conference ({SciPy2008}), August 19-24, Pasadena, CA, USA}, - OPTeditor = {Ga\"el Varoquaux and Travis Vaught and Jarrod Millman}, - pages = {11--15}, - title = {Exploring Network Structure, Dynamics, and Function using {NetworkX}}, - url = {https://www.osti.gov/biblio/960616}, - year = {2008}, -} - -@article{Hunt07, - author = {Hunter, John D. and others}, - doi = {10.1109/MCSE.2007.55}, - journal = {Computing in Science \& Engineering}, - number = {3}, - pages = {90--95}, - title = {Matplotlib: A {2D} Graphics Environment}, - volume = {9}, - year = {2007}, -} - -@book{ICC12, - address = {Country Club Hills, IL}, - author = {International Code Council, (ICC)}, - isbn = {978-1-60983-046-5}, - publisher = {International Code Council}, - title = {2012 International Fire Code, Appendix {B} - Fire-Flow Requirements for Buildings}, - year = {2011}, -} - -@article{JaSr08, - author = {Jayaram, Nirmal and Srinivasan, K.}, - doi = {10.1029/2006WR005316}, - journal = {Water Resources Research}, - number = {1}, - volume = {44}, - pages = {n.p.}, - title = {Performance-based optimal design and rehabilitation of water distribution networks using life cycle costing}, - year = {2008}, -} - -@misc{JVFM21, - author = {Jordahl, K. and Van den Bossche, J. and Fleischmann, M. and McBride, J. and others}, - doi = {10.5281/zenodo.5573592}, - howpublished = {Software}, - title = {geopandas}, - year = {2021}, -} - -@article{JCMG11, - address = {New York, NY, USA}, - author = {Joyner, David and \v{C}ert\'{i}k, Ond\v{r}ej and Meurer, Aaron and Granger, Brian E.}, - doi = {10.1145/2110170.2110185}, - issn = {1932-2240}, - issue_date = {September/December 2011}, - journal = {{ACM} Communications in Computer Algebra}, - number = {3/4}, - numpages = {10}, - pages = {225--234}, - publisher = {Association for Computing Machinery}, - title = {Open Source Computer Algebra Systems: SymPy}, - volume = {45}, - year = {2012}, -} - -@inproceedings{Lamb01, - author = {Lambert, Allan}, - booktitle = {Proceedings of the {IWA} International Specialised Conference: System Approach to Leakage Control and Water Distribution Systems Management, May 16-18, 2001, Brno, Czech Republic}, - OPTeditor={Tuhov{\v{c}}{\'a}k, L.}, - isbn = {9788072041978}, - title = {What do we know about pressure-leakage relationships in distribution systems}, - year = {2001}, - pages = {89--96}, - publisher = {CERM}, -} - -@article{LWFZ17, - author = {Haixing Liu and Tom Walski and Guangtao Fu and Chi Zhang}, - doi = {10.1061/(ASCE)WR.1943-5452.0000766}, - journal = {Journal of Water Resources Planning and Management}, - number = {7}, - pages = {04017019}, - title = {Failure Impact Analysis of Isolation Valves in a Water Distribution Network}, - volume = {143}, - year = {2017}, -} - -@book{Mcki13, - author = {McKinney, Wes}, - publisher = {O'Reilly Media, Inc.}, - title = {Python for data analysis: Data wrangling with {Pandas}, {NumPy}, and {IPython}}, - year = {2012}, - address = {Sebastopal, CA}, - edition = {1}, - pagetotal = {463}, - isbn = {978-1449319793}, -} - -@techreport{NIAC09, - address = {Washington, D.C.}, - author = {National Infrastructure Advisory Council, (NIAC)}, - institution = {U.S. Department of Homeland Security}, - title = {Critical Infrastructure Resilience, Final Report and Recommendations}, - OPTurl = {http://www.dhs.gov/xlibrary/assets/niac/niac_critical_infrastructure_resilience.pdf}, - OPTurldate = {2014-09-20}, - year = {2009}, - url = {https://www.cisa.gov/resources-tools/resources/niac-critical-infrastructure-resilience-final-report-and-recommendations}, - urldate = {2023-11-14}, -} - -@article{OsKS02, - author = {Avi Ostfeld and Dimitri Kogan and Uri Shamir}, - doi = {10.1016/S1462-0758(01)00055-3}, - issn = {1462-0758}, - journal = {Urban Water}, - number = {1}, - pages = {53--61}, - title = {Reliability simulation of water distribution systems - single and multiquality}, - volume = {4}, - year = {2002} -} - -@techreport{Ross00, - address = {Cincinnati, OH}, - author = {Rossman, L. A.}, - institution = {U.S. Environmental Protection Agency}, - number = {EPA/600/R--00/057}, - title = {{EPANET} 2 User Manual}, - year = {2000}, - pagetotal = {200}, +@book{ala01, + author = "American Lifelines Alliance, (ALA)", + editor = "ASCE", + address = "Reston, VA", + publisher = "American Society of Civil Engineers", + title = "Seismic Fragility Formulations for Water Systems, Part 1 and 2. Report for the American Lifelines Alliance", + year = "2001" +} + +@article{awgb90, + author = "Awumah, K. and Goulter, I. and Bhatt, S. K.", + doi = "10.1007/BF01544084", + journal = "Stochastic Hydrology and Hydraulics", + pages = "309--320", + publisher = "Springer", + title = "Assessment of reliability in water distribution networks using entropy based measures", + volume = "4", + number = "4", + year = "1990" +} + +@article{barr13, + author = "Barker, Kash and Ramirez-Marquez, Jose Emmanuel and Rocco, Claudio M.", + doi = "10.1016/j.ress.2013.03.012", + issn = "0951-8320", + journal = "Reliability Engineering \\& System Safety", + pages = "89--97", + title = "Resilience-based network component importance measures", + volume = "117", + year = "2013" +} + +@misc{bieni19, + author = "Bieniek, T. and van Andel, B. and B{\o}, T.I.", + howpublished = "Software", + title = "Bidirectional {UTM}-{WGS84} converter for python", + url = "https://github.com/Turbo87/utm", + urldate = "2019-02-05", + year = "2019" +} + +@book{crlo02, + author = "Crowl, D.A. and Louvar, J.F.", + address = "Upper Saddle River, NJ", + edition = "3", + isbn = "0-13-138226-8", + pagetotal = "720", + publisher = "Prentice Hall", + title = "Chemical Process Safety: Fundamentals with Applications", + year = "2011" +} + +@techreport{ellt12, + author = "Eto, Joseph H and LaCommare, Kristina Hamachi and Larsen, Peter and Todd, Annika and Fisher, Emily", + doi = "10.2172/1055706", + institution = "Lawrence Berkeley National Laboratory", + number = "LBNL-5268E", + pagetotal = "68", + place = "Berkeley, CA", + title = "An Examination of Temporal Trends in Electricity Reliability Based on Reports from {U.S.} Electric Utilities", + year = "2012" +} + +@misc{folium, + author = "python-visualization", + howpublished = "Software", + title = "folium", + url = "https://github.com/python-visualization/folium", + urldate = "2019-02-05", + year = "2019" +} + +@misc{gacl18, + author = "Gazoni, E. and Clark, C.", + howpublished = "Software", + title = "openpyxl - A Python library to read/write {Excel} 2010 xlsx/xlsm files", + url = "https://openpyxl.readthedocs.io", + urldate = "2018-05-04", + year = "2018" +} + +@inproceedings{hass08, + author = "Hagberg, Aric A. and Schult, Daniel A. and Swart, Pieter J.", + booktitle = "Proceedings of the 7th {Python} in Science Conference ({SciPy2008}), August 19-24, Pasadena, CA, USA", + opteditor = {Ga\"el Varoquaux and Travis Vaught and Jarrod Millman}, + pages = "11--15", + title = "Exploring Network Structure, Dynamics, and Function using {NetworkX}", + url = "https://www.osti.gov/biblio/960616", + year = "2008" +} + +@article{hunt07, + author = "Hunter, John D. and others", + doi = "10.1109/MCSE.2007.55", + journal = "Computing in Science \\& Engineering", + number = "3", + pages = "90--95", + title = "Matplotlib: A {2D} Graphics Environment", + volume = "9", + year = "2007" +} + +@book{icc12, + author = "International Code Council, (ICC)", + address = "Country Club Hills, IL", + isbn = "978-1-60983-046-5", + publisher = "International Code Council", + title = "2012 International Fire Code, Appendix {B} - Fire-Flow Requirements for Buildings", + year = "2011" +} + +@article{jasr08, + author = "Jayaram, Nirmal and Srinivasan, K.", + doi = "10.1029/2006WR005316", + journal = "Water Resources Research", + number = "1", + volume = "44", + pages = "n.p.", + title = "Performance-based optimal design and rehabilitation of water distribution networks using life cycle costing", + year = "2008" +} + +@misc{jvfm21, + author = "Jordahl, K. and Van den Bossche, J. and Fleischmann, M. and McBride, J. and others", + doi = "10.5281/zenodo.5573592", + howpublished = "Software", + title = "geopandas", + year = "2021" +} + +@article{jcmg11, + author = "Joyner, David and \v{C}ert\'{i}k, Ond\v{r}ej and Meurer, Aaron and Granger, Brian E.", + address = "New York, NY, USA", + doi = "10.1145/2110170.2110185", + issn = "1932-2240", + issue_date = "September/December 2011", + journal = "{ACM} Communications in Computer Algebra", + number = "3/4", + numpages = "10", + pages = "225--234", + publisher = "Association for Computing Machinery", + title = "Open Source Computer Algebra Systems: SymPy", + volume = "45", + year = "2012" +} + +@inproceedings{lamb01, + author = "Lambert, Allan", + booktitle = "Proceedings of the {IWA} International Specialised Conference: System Approach to Leakage Control and Water Distribution Systems Management, May 16-18, 2001, Brno, Czech Republic", + opteditor = "Tuhov{\v{c}}{\'a}k, L.", + isbn = "9788072041978", + title = "What do we know about pressure-leakage relationships in distribution systems", + year = "2001", + pages = "89--96", + publisher = "CERM" +} + +@article{lwfz17, + author = "Liu, Haixing and Walski, Tom and Fu, Guangtao and Zhang, Chi", + doi = "10.1061/(ASCE)WR.1943-5452.0000766", + journal = "Journal of Water Resources Planning and Management", + number = "7", + pages = "04017019", + title = "Failure Impact Analysis of Isolation Valves in a Water Distribution Network", + volume = "143", + year = "2017" +} + +@book{mcki13, + author = "McKinney, Wes", + publisher = "O'Reilly Media, Inc.", + title = "Python for data analysis: Data wrangling with {Pandas}, {NumPy}, and {IPython}", + year = "2012", + address = "Sebastopal, CA", + edition = "1", + pagetotal = "463", + isbn = "978-1449319793" +} + +@techreport{niac09, + author = "National Infrastructure Advisory Council, (NIAC)", + address = "Washington, D.C.", + institution = "U.S. Department of Homeland Security", + title = "Critical Infrastructure Resilience, Final Report and Recommendations", + opturl = "http://www.dhs.gov/xlibrary/assets/niac/niac\_critical\_infrastructure\_resilience.pdf", + opturldate = "2014-09-20", + year = "2009", + url = "https://www.cisa.gov/resources-tools/resources/niac-critical-infrastructure-resilience-final-report-and-recommendations", + urldate = "2023-11-14" +} + +@article{osks02, + author = "Ostfeld, Avi and Kogan, Dimitri and Shamir, Uri", + doi = "10.1016/S1462-0758(01)00055-3", + issn = "1462-0758", + journal = "Urban Water", + number = "1", + pages = "53--61", + title = "Reliability simulation of water distribution systems - single and multiquality", + volume = "4", + year = "2002" +} + +@techreport{ross00, + author = "Rossman, L. A.", + address = "Cincinnati, OH", + institution = "U.S. Environmental Protection Agency", + number = "EPA/600/R--00/057", + title = "{EPANET} 2 User Manual", + year = "2000", + pagetotal = "200" } @misc{rtree, - author = {Toblerity}, - howpublished = {Software}, - title = {rtree}, - url = {https://github.com/Toblerity/rtree}, - urldate = {2022-03-17}, - year = {2022} -} - -@techreport{RWTS20, - author = {Rossman, L. and Woo, H. and Tryby M. and Shang, F. and Janke, R. and and Haxton, T.}, - institution = {U.S. Environmental Protection Agency}, - address = {Washington, DC}, - number = {EPA/600/R-20/133}, - title = {{EPANET} 2.2 User Manual}, - year = {2020}, -} - -@article{MarEtAl14, - author = {Angela Marchi and others}, - doi = {10.1061/(ASCE)WR.1943-5452.0000378}, - journal = {Journal of Water Resources Planning and Management}, - number = {7}, - pages = {04014009}, - title = {Battle of the Water Networks {II}}, - volume = {140}, - year = {2014} -} - -@inproceedings{SOKZ12, - author = {Salomons, E. and Ostfeld, A. and Kapelan, Z. and Zecchin, A. and Marchi, A. and Simpson, A.}, - booktitle = {Water Distribution Systems Analysis Conference 2012, September 24-27, Adelaide, South Australia, Australia}, - url = {https://emps.exeter.ac.uk/media/universityofexeter/emps/research/cws/downloads/WDSA2012-BWNII-ProblemDescription.pdf}, - publisher = {American Society of Civil Engineers}, - title = {The battle of the water networks {II} - Problem description}, - urldate = {2017-05-23}, - year = {2012}, - crossref = {MarEtAl14}, -} - -@misc{SPHC16, - author = {Sievert, C. and Parmer, C. and Hocking, T. and Chamberlain, S. and Ram, K. and Corvellec, M. and Despouy, P.}, - howpublished = {Software}, - title = {plotly: Create interactive web graphics via {Plotly}'s {JavaScript} graphing library}, - year = {2016}, - url = {https://plot.ly}, - publisher = {Plotly Technologies Inc.}, - address = {Montreal, QC}, - OPTcomment = {modified from below preferred citation, per Plotly} -} - -@misc{plotly, author = {Plotly Technologies Inc.}, title = {Collaborative data science}, publisher = {Plotly Technologies Inc.}, address = {Montreal, QC}, year = {2015}, url = {https://plot.ly} } - -@article{Todi00, - author = {Ezio Todini}, - doi = {10.1016/S1462-0758(00)00049-2}, - issn = {1462-0758}, - journal = {Urban Water}, - OPTnote = {Developments in water distribution systems}, - number = {2}, - pages = {115--122}, - title = {Looped water distribution networks design using a resilience index based heuristic approach}, - volume = {2}, - year = {2000} -} - -@techreport{USEPA14, - address = {Washington DC}, - author = {U.S. Environmental Protection Agency, (U.S. EPA)}, - institution = {U.S. Environmental Protection Agency}, - number = {EPA 600/R--14/383}, - pagetotal = {58}, - title = {Systems Measures of Water Distribution System Resilience}, - year = {2014} -} - -@techreport{USEPA15, - address = {Washington DC}, - author = {U.S. Environmental Protection Agency, (U.S. EPA)}, - institution = {U.S. Environmental Protection Agency}, - number = {EPA/600/R--14/338}, - pagetotal = {187}, - title = {{Water} {Security} {Toolkit} User Manual}, - year = {2015} -} - -@article{VaCV11, - author = {van der Walt, Stefan and Colbert, S. Chris and Varoquaux, Gael}, - doi = {10.1109/MCSE.2011.37}, - journal = {Computing in Science and Engineering}, - number = {2}, - pages = {22--30}, - title = {The {NumPy} Array: A Structure for Efficient Numerical Computation}, - volume = {13}, - year = {2011} -} - -@article{WaSM88, - author = {Janet M. Wagner and Uri Shamir and David H. Marks}, - doi = {10.1061/(ASCE)0733-9496(1988)114:3(276)}, - journal = {Journal of Water Resources Planning and Management}, - number = {3}, - pages = {276--294}, - title = {Water Distribution Reliability: Simulation Methods}, - volume = {114}, - year = {1988} -} - -@inproceedings{WaWC06, - author = {Thomas M. Walski and Justin Sterling Weiler and Teresa Culver}, - booktitle = {Proceedings of the Eighth Annual Water Distribution Systems Analysis ({WDSA}) Symposium, August 27-30, 2006, Cincinnati, OH}, - OPTeditor = {Steven G. Buchberger and Robert M. Clark and Walter M. Grayman and James G. Uber}, - publisher = {American Society of Civil Engineers}, - doi = {10.1061/40941(247)31}, - isbn = {9780784409411}, - pages = {1--9}, - title = {Using Criticality Analysis to Identify Impact of Valve Location}, - year = {2008} -} - -@techreport{WWQP06, - author = {Wald, D.J. and Worden, B.C. and Quitoriano, V. and Pankow, K.L.}, - institution = {United States Geologic Survey}, - title = {{ShakeMap} manual: Technical manual, user's guide, and software guide}, - url = {http://pubs.usgs.gov/tm/2005/12A01/}, - urldate = {2017-04-25}, - year = {2006} -} - -@book{WCSG03, - address = {Waterbury, CT}, - author = {Walski, T.M. and Chase, D.V. and Savic, D.A. and Grayman, W. and Beckwith, S.}, - isbn = {978-0971414129}, - pagetotal = {800}, - publisher = {Haestad Press}, - title = {Advanced Water Distribution Modeling and Management}, - year = {2003} + author = "Toblerity", + howpublished = "Software", + title = "rtree", + url = "https://github.com/Toblerity/rtree", + urldate = "2022-03-17", + year = "2022" +} + +@techreport{rwts20, + author = "Rossman, L. and Woo, H. and M., Tryby and Shang, F. and Janke, R. and and Haxton, T.", + institution = "U.S. Environmental Protection Agency", + address = "Washington, DC", + number = "EPA/600/R-20/133", + title = "{EPANET} 2.2 User Manual", + year = "2020" +} + +@inproceedings{sokz12, + author = "Salomons, E. and Ostfeld, A. and Kapelan, Z. and Zecchin, A. and Marchi, A. and Simpson, A.", + booktitle = "Water Distribution Systems Analysis Conference 2012, September 24-27, Adelaide, South Australia, Australia", + url = "https://emps.exeter.ac.uk/media/universityofexeter/emps/research/cws/downloads/WDSA2012-BWNII-ProblemDescription.pdf", + publisher = "American Society of Civil Engineers", + title = "The battle of the water networks {II} - Problem description", + urldate = "2017-05-23", + year = "2012" +} + +@misc{sphc16, + author = "Sievert, C. and Parmer, C. and Hocking, T. and Chamberlain, S. and Ram, K. and Corvellec, M. and Despouy, P.", + howpublished = "Software", + title = "plotly: Create interactive web graphics via {Plotly}'s {JavaScript} graphing library", + year = "2016", + url = "https://plot.ly", + publisher = "Plotly Technologies Inc.", + address = "Montreal, QC", + optcomment = "modified from below preferred citation, per Plotly" +} + +@article{todi00, + author = "Todini, Ezio", + doi = "10.1016/S1462-0758(00)00049-2", + issn = "1462-0758", + journal = "Urban Water", + optnote = "Developments in water distribution systems", + number = "2", + pages = "115--122", + title = "Looped water distribution networks design using a resilience index based heuristic approach", + volume = "2", + year = "2000" +} + +@techreport{usepa14, + author = "U.S. Environmental Protection Agency, (U.S. EPA)", + address = "Washington DC", + institution = "U.S. Environmental Protection Agency", + number = "EPA 600/R--14/383", + pagetotal = "58", + title = "Systems Measures of Water Distribution System Resilience", + year = "2014" +} + +@techreport{usepa15, + author = "U.S. Environmental Protection Agency, (U.S. EPA)", + address = "Washington DC", + institution = "U.S. Environmental Protection Agency", + number = "EPA/600/R--14/338", + pagetotal = "187", + title = "{Water} {Security} {Toolkit} User Manual", + year = "2015" +} + +@article{vacv11, + author = "van der Walt, Stefan and Colbert, S. Chris and Varoquaux, Gael", + doi = "10.1109/MCSE.2011.37", + journal = "Computing in Science and Engineering", + number = "2", + pages = "22--30", + title = "The {NumPy} Array: A Structure for Efficient Numerical Computation", + volume = "13", + year = "2011" +} + +@article{wasm88, + author = "Wagner, Janet M. and Shamir, Uri and Marks, David H.", + doi = "10.1061/(ASCE)0733-9496(1988)114:3(276)", + journal = "Journal of Water Resources Planning and Management", + number = "3", + pages = "276--294", + title = "Water Distribution Reliability: Simulation Methods", + volume = "114", + year = "1988" +} + +@inproceedings{wawc06, + author = "Walski, Thomas M. and Weiler, Justin Sterling and Culver, Teresa", + booktitle = "Proceedings of the Eighth Annual Water Distribution Systems Analysis ({WDSA}) Symposium, August 27-30, 2006, Cincinnati, OH", + opteditor = "Steven G. Buchberger and Robert M. Clark and Walter M. Grayman and James G. Uber", + publisher = "American Society of Civil Engineers", + doi = "10.1061/40941(247)31", + isbn = "9780784409411", + pages = "1--9", + title = "Using Criticality Analysis to Identify Impact of Valve Location", + year = "2008" +} + +@techreport{wwqp06, + author = "Wald, D.J. and Worden, B.C. and Quitoriano, V. and Pankow, K.L.", + institution = "United States Geologic Survey", + title = "{ShakeMap} manual: Technical manual, user's guide, and software guide", + url = "http://pubs.usgs.gov/tm/2005/12A01/", + urldate = "2017-04-25", + year = "2006" +} + +@book{wcsg03, + author = "Walski, T.M. and Chase, D.V. and Savic, D.A. and Grayman, W. and Beckwith, S.", + address = "Waterbury, CT", + isbn = "978-0971414129", + pagetotal = "800", + publisher = "Haestad Press", + title = "Advanced Water Distribution Modeling and Management", + year = "2003" } diff --git a/documentation/users.rst b/documentation/users.rst index 2d1c5e9c5..0fa282b46 100644 --- a/documentation/users.rst +++ b/documentation/users.rst @@ -36,76 +36,83 @@ Related software * VisWaterNet: https://github.com/tylertrimble/viswaternet Publications ------------------ +------------ + +.. + - Abdel-Mottaleb, N., Ghasemi Saghand, P., Charkhgard, H., & Zhang, Q. (2019). An exact multiobjective optimization approach for evaluating water distribution infrastructure criticality and geospatial interdependence. Water Resources Research, 55(7), 5255-5276. + + - Antonowicz, A., Bałut, A., Urbaniak, A., & Zakrzewski, P. (2019). Algorithm for Early Warning System for Contamination in Water Network. In 2019 20th International Carpathian Control Conference (ICCC) (pp. 1-5). IEEE. + + - Antonowicz, A., & Urbaniak, A. (2022). Optimization of the process of restoring the continuity of the WDS based on the matrix and genetic algorithm approach. Bulletin of the Polish Academy of Sciences: Technical Sciences, e141594-e141594. -* Abdel-Mottaleb, N., Ghasemi Saghand, P., Charkhgard, H., & Zhang, Q. (2019). An exact multiobjective optimization approach for evaluating water distribution infrastructure criticality and geospatial interdependence. Water Resources Research, 55(7), 5255-5276. + - Bjerke, M. (2019). Leak Detection in Water Distribution Networks using Gated Recurrent Neural Networks, Master's thesis, Norwegian University of Science and Technology (NTNU). -* Antonowicz, A., Bałut, A., Urbaniak, A., & Zakrzewski, P. (2019). Algorithm for Early Warning System for Contamination in Water Network. In 2019 20th International Carpathian Control Conference (ICCC) (pp. 1-5). IEEE. + - Bunn, B. B. (2018). An operational model of interdependent water and power distribution infrastructure systems. Naval Postgraduate School, Monterey, CA. -* Antonowicz, A., & Urbaniak, A. (2022). Optimization of the process of restoring the continuity of the WDS based on the matrix and genetic algorithm approach. Bulletin of the Polish Academy of Sciences: Technical Sciences, e141594-e141594. + - Fan, X., Zhang, X., & Yu, X. B. (2021). Machine learning model and strategy for fast and accurate detection of leaks in water supply network. Journal of Infrastructure Preservation and Resilience, 2(1), 1-21. -* Bjerke, M. (2019). Leak Detection in Water Distribution Networks using Gated Recurrent Neural Networks, Master's thesis, Norwegian University of Science and Technology (NTNU). + - Han, Q., Eguchi, R., Mehrotra, S., & Venkatasubramanian, N. (2018). Enabling state estimation for fault identification in water distribution systems under large disasters. In 2018 IEEE 37th Symposium on Reliable Distributed Systems (SRDS) (pp. 161-170). IEEE. -* Bunn, B. B. (2018). An operational model of interdependent water and power distribution infrastructure systems. Naval Postgraduate School, Monterey, CA. + - Han, Q., Mehrotra, S., & Venkatasubramanian, N. (2019). Aquaeis: Middleware support for event identification in community water infrastructures. In Proceedings of the 20th International Middleware Conference (pp. 293-305). -* Fan, X., Zhang, X., & Yu, X. B. (2021). Machine learning model and strategy for fast and accurate detection of leaks in water supply network. Journal of Infrastructure Preservation and Resilience, 2(1), 1-21. + - Huang, H., & Burton, H. V. (2022). Dynamic seismic damage assessment of distributed infrastructure systems using graph neural networks and semi-supervised machine learning. Advances in Engineering Software, 168, 103113. -* Han, Q., Eguchi, R., Mehrotra, S., & Venkatasubramanian, N. (2018). Enabling state estimation for fault identification in water distribution systems under large disasters. In 2018 IEEE 37th Symposium on Reliable Distributed Systems (SRDS) (pp. 161-170). IEEE. + - Iannacone, L., Sharma, N., Tabandeh, A., & Gardoni, P. (2022). Modeling time-varying reliability and resilience of deteriorating infrastructure. Reliability Engineering & System Safety, 217, 108074. -* Han, Q., Mehrotra, S., & Venkatasubramanian, N. (2019). Aquaeis: Middleware support for event identification in community water infrastructures. In Proceedings of the 20th International Middleware Conference (pp. 293-305). + - Kammoun, M., Kammoun, A., & Abid, M. (2022). Experiments based comparative evaluations of machine learning techniques for leak detection in water distribution systems. Water Supply, 22(1), 628-642. -* Huang, H., & Burton, H. V. (2022). Dynamic seismic damage assessment of distributed infrastructure systems using graph neural networks and semi-supervised machine learning. Advances in Engineering Software, 168, 103113. + - Liu, J., & Kang, Y. (2022). Segment-based resilience response and intervention evaluation of water distribution systems. AQUA—Water Infrastructure, Ecosystems and Society, 71(1), 100-119. -* Iannacone, L., Sharma, N., Tabandeh, A., & Gardoni, P. (2022). Modeling time-varying reliability and resilience of deteriorating infrastructure. Reliability Engineering & System Safety, 217, 108074. + - Liu, Y., Barrows, C., Macknick, J., & Mauter, M. (2020). Optimization Framework to Assess the Demand Response Capacity of a Water Distribution System. Journal of Water Resources Planning and Management, 146(8), 04020063. -* Kammoun, M., Kammoun, A., & Abid, M. (2022). Experiments based comparative evaluations of machine learning techniques for leak detection in water distribution systems. Water Supply, 22(1), 628-642. + - Logan, K. T., Lestakova, M., Thiessen, N., Engels, J. I., & Pelz, P. F. (2021). Water Distribution in a Socio-Technical System: Resilience Assessment for Critical Events Causing Demand Relocation. Water, 13(15), 2062. -* Liu, J., & Kang, Y. (2022). Segment-based resilience response and intervention evaluation of water distribution systems. AQUA—Water Infrastructure, Ecosystems and Society, 71(1), 100-119. + - Lorenz, I. S., & Pelz, P. F. (2020). Optimal resilience enhancement of water distribution systems. Water, 12(9), 2602. -* Liu, Y., Barrows, C., Macknick, J., & Mauter, M. (2020). Optimization Framework to Assess the Demand Response Capacity of a Water Distribution System. Journal of Water Resources Planning and Management, 146(8), 04020063. + - Marlim, M. S., & Kang, D. (2022). Contaminant Flushing in Water Distribution Networks Incorporating Customer Faucet Control. Sustainability, 14(4), 2249. -* Logan, K. T., Lestakova, M., Thiessen, N., Engels, J. I., & Pelz, P. F. (2021). Water Distribution in a Socio-Technical System: Resilience Assessment for Critical Events Causing Demand Relocation. Water, 13(15), 2062. + - Mazumder, R. K., Salman, A. M., Li, Y., & Yu, X. (2019). A Decision-making Framework for Water Distribution Systems using Fuzzy Inference and Centrality Analysis. 13th International Conference on Applications of Statistics and Probability in Civil Engineering, ICASP13, Seoul, South Korea, May 26-30, 2019. -* Lorenz, I. S., & Pelz, P. F. (2020). Optimal resilience enhancement of water distribution systems. Water, 12(9), 2602. + - Mazumder, R. K., Salman, A. M., & Li, Y. (2020). Post-disaster sequential recovery planning for water distribution systems using topological and hydraulic metrics. Structure and Infrastructure Engineering, 1-16. -* Marlim, M. S., & Kang, D. (2022). Contaminant Flushing in Water Distribution Networks Incorporating Customer Faucet Control. Sustainability, 14(4), 2249. + - Murillo, A., Taormina, R., Tippenhauer, N., & Galelli, S. (2020). Co-Simulating Physical Processes and Network Data for High-Fidelity Cyber-Security Experiments. In Sixth Annual Industrial Control System Security (ICSS) Workshop (pp. 13-20). -* Mazumder, R. K., Salman, A. M., Li, Y., & Yu, X. (2019). 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