Project Communications

  • Project Communication N° 1 (January 2019)
    Co-creation of innovative low cost technology for India’s water challenges
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  • Project Communication N° 2 (March 2019)
    LOTUS officially launched in the most favourable of cooperation contexts!
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  • Project Communication N° 3 (January 2020)
    LOTUS successfully conducted innovative co-creation workshops
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  • Project Communication N° 4 (April 2020)
    Guwahati City water system management co-creation workshop
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  • Project Communication N° 5 (May 2020)
    Guwahati groundwater and river water management co-creation workshop
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  • Project Commuication N° 6 (May 2020)
    Bengaluru tanker-based water distribution system co-creation workshop
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  • Project Communication N° 7 (May 2020)
    Jalgaon Irrigation System Management Co-Creation Workshop
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  • Project Communication N° 8 (June 2022)
    EU and Indian partners of LOTUS met again in Mykonos!
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  • Project Communication N° 9 (July 2022)
    Successful testing of the LOTUS sensor in Paris !
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  • Project Communication N° 10 (July 2022)
    LOTUS paves the way for industrialisation !
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  • Project Communication N° 11 (September 2022)
    The LOTUS sensor decrypted by Bérengère Lebental !
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  • Project Communication N° 12 (September 2022)
    Updates about the Use Case #3 !
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  • Project Communication N° 13 (October 2022)
    Updates about the Use Case #1 !
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  • Project Communication N° 14 (November 2022)
    Updates about the Use Case #2 !
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  • Project Communication N° 15 (December 2022)
    Updates about the LOTUS Box !
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  • Project Communication N° 16 (August 2023)
    Final steps towards the implementation and potential commercialisation of the LOTUS sensor presented during the consortium meeting in Marne-la-Vallée, France, July 2023
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  • Project Communication N° 17 (January 2024)
    LOTUS launches a virtual fair open to all !
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  • Project Communication N° 18 (March 2024)
    Results of the LOTUS journey
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Publications

  • Maheshwari, A., Misra, S., Gudi, R. D., Subbiah, S. (2020). A Short-term Planning Framework for the Operation of Taker-based Water Distribution Systems in Urban Areas. Industrial & Engineering Chemistry Research Journal, 59, 20, 9575–9592

DOI: https://dx.doi.org/10.1021/acs.iecr.0c00303

  • Sathe, S. S., Mahanta, C., Subbiah, S. (2021). Hydrogeochemical Evaluation of Intermittent Alluvial Aquifers Controlling Arsenic and Fluoride Contamination and Corresponding Health Risk Assessment. Exposure and Health Journal, 13, 661–680

DOI: https://doi.org/10.1007/s12403-021-00411-x

  • Foti, A., Venkatesan, S., Lebental, B., Zucchi, G., Ossikovski, R. (2022). Comparing Commercial Metal-Coated AFM Tips and Home-Made Bulk Gold Tips for Tip-Enhanced Raman Spectroscopy of Polymer Functionalized Multiwalled Carbon Nanotubes. Nanomaterials 2022, 12, 451.

DOI: https://doi.org/10.3390/nano12030451

  • Cho, G., Azzouzi, S., Zucchi, G., Lebental, B. (2022). Electrical and Electrochemical Sensors Based on Carbon Nanotubes for the Monitoring of Chemicals in Water – A Review. Sensors 2022, 22, 218.

DOI: https://doi.org/10.3390/s22010218

  • Dinesh Kumar Gautam, Prakash Kotecha, Senthilmurugan Subbiah (2022). Efficient k-means clustering and greedy selection-based reduction of nodal search space for optimization of sensor placement in the water distribution networks, Water Research, Volume 220, 2022, 118666, ISSN 0043-1354,

DOI: https://doi.org/10.1016/j.watres.2022.118666

  • Cousin, P. et al. (2022). Improving Water Quality and Security with Advanced Sensors and Indirect Water Sensing Methods. In: Di Mauro, A., Scozzari, A., Soldovieri, F. (eds) Instrumentation and Measurement Technologies for Water Cycle Management . Springer Water. Springer, Cham.

DOI: https://doi.org/10.1007/978-3-031-08262-7_11

  • B. Lebental et al., “Water and air quality monitoring with multiparameter chemical sensors Managing non-idealities from lab to field,” 2022 IEEE Sensors, Dallas, TX, USA, 2022, pp. 01-04.

DOI: https://doi.org/10.1109/SENSORS52175.2022.9967256.

  • Cho, G., Grinenval, E., Gabriel, J.-C.P, Lebental, B. “Intense pH Sensitivity Modulation in Carbon Nanotube-Based Field-Effect Transitor by Non-Convalent Polyfluorene Functionalization”, Nanomaterials 2023, 13, 1157.

DOI: https://doi.org/10.3390/nano13071157

  • Maheshwari, A., Misra, S., Gudi, R., Subbiah, S., Laspidou, C., “An operational scheduling framework for tanker-based water distribution systems under uncertainty”, Industrial & Engineering Chemistry Research 2023, 62 (27)

DOI: 10.1021/acs.iecr.3c00496

  • Muppidathi, B.V., Laporte, S., Ulanowski, Y., Subbiah, S. and Lebental, B. “Performance of a Multiparametric Water Quality Sensor in a Small-Scale Water Distribution Network” 2023 IEEE SENSORS, Vienna, Austria, 2023, pp. 1-4

DOI: https://doi.org/10.1109/SENSORS56945.2023.10324917

  • Perrin, G. and Lebental, B. “Uncertainty-Based Calibration Method for Environmental Sensors—Application to Chlorine and pH Monitoring With Carbon Nanotube Sensor Array,” in IEEE Sensors Journal, vol. 23, no. 5, pp. 5146-5155, 1 March1, 2023

DOI: https://doi.org/10.1109/JSEN.2023.3238900

  • Lebental, B. et al. “Scenarios for Sensors and Actuators Deployment to Prevent and Mitigate Epidemics on Cruise Ships” 2024, Rassia, S.T. (eds) The Blue Book. Springer, Cham.

DOI: https://doi.org/10.1007/978-3-031-48831-3_11

Factsheets

  • Factsheet #1 – The LOTUS sensor

Factsheet #1 – The LOTUS sensor

  • Factsheet #2 – The LOTUS box

Factsheet #2 – The LOTUS box

Public Deliverables

  • Deliverable D1.1 State-of-the-art water quality ecosystems
    (February 2020 – PDF 3.9 Mo)
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  • Deliverable D1.2 Water quality solutions ecosystem: a co-creation approach, including reports of the co-creation workshops
    (February 2020 – PDF 4 Mo)
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  • Deliverable D1.3 Socio-economic study “Water quality and quantity: satisfaction evaluation from user perspectives, and technology adoption” – Baseline
    (July 2021 – PDF 2 Mo)
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  • Deliverable D2.2 First version LOTUS prototype – Public summary 
    (September 2020 – PDF 6.9 Mo)
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  • Deliverable D2.4 Validation of the first version LOTUS prototype
    (March 2022 – PDF 3 Mo)
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  • Deliverable D3.1 Report on historical time series data, chemical specied and operational targets for all cases
    (June 2020 – PDF 2.3 Mo)
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  • Deliverable D3.2 Field Guide on operating under Intermittent Water Supply regime and transitioning to 24×7 operation
    (March 2021 – PDF 2 Mo)
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  • Deliverable D3.3 Report on offline tools developed for use cases
    (March 2021 – PDF 1 Mo)
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  • Deliverable D4.1 Technical requirements for the real time tools
    (September 2020 – PDF 1.3 Mo)
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  • Deliverable D4.1 Tools Prototypes and documentation
    (March 2022 – PDF 12 Mo)
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  • Deliverable D5.1 Conceptual design and architecture of the platform, first version 
    (September 2020 – PDF 1.3 Mo)
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  • Deliverable D5.5 Conceptual Design and Architecture of the Platform, revised version
    (February 2021 – PDF 2 Mo)
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  • Deliverable D5.6 Integrated platform demonstration, first version
    (February 2021 – PDF 2 Mo)
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  • Deliverable D6.1 Report on the detailed specification of the use cases, sensor requirements, and success criteria
    (February 2020 – PDF 4.8 Mo)
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  • Deliverable D7.1 LOTUS Communication strategy, and initial plan for dissemination
    (April 2019 – PDF 2 Mo)
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  • Deliverable D7.2 Website
    (May 2019 – PDF 0.8 Mo)
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  • Deliverable D7.3 LOTUS Communication and Dissemination Period report 1
    (August 2020 – PDF 2.4 Mo)
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  • Deliverable D7.5 LOTUS Communication and Dissemination Period report 2
    (March 2022 – PDF 1 Mo)
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  • Deliverable D7.10 Standardisation and certification plan from LOTUS products and integrated solution – Updated version
    (March 2022 – PDF 0.7 Mo)
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  • Deliverable D8.2 Scientific Quality Assurance Plan
    (June 2020 – PDF 0.9 Mo)
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  • Deliverable D8.3 LOTUS Data Management Plan
    (December 2019 – PDF 0.4 Mo)
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Dissemination Material (Posters, Flyer…)

  • LOTUS Newsletter #1
    (March 2020 – PDF 1.5 Mo)
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