MARCO ARNESANO

Marco Arnesano, PhD in Mechanical and Thermal Measurements from Università Politecnica delle Marche, is an Associate Professor at eCampus University and Coordinator of Computer Science Engineering courses (bachelor and master degrees). His research is focused on the development of innovative measurement systems for human-centric built environment: energy and indoor environmental monitoring and control through the application of IoT sensors, wearables, physiological measurements, signal processing, data analysis and machine learning. Research activities are conducted within European (FP7, H2020, HE) and National projects. He is technical advisor of innovative start-up companies providing support for the development of new sensing products and technologies. He is coauthor of more than 70 peer-reviewed scientific publications for international journals and conference proceedings and Technical program chair of the MetroLivEnv (Metrology for the Linving Environment) international conference.

Email: marco.arnesano@uniecampus.it

Main publications:

  1. G.M. Revel, E. Sabbatini, M. Arnesano, Development and experimental evaluation of a thermography measurement system for real-time monitoring of comfort and heat rate exchange in the built environment, Measurement Science and Technology, 2012, 23(3), doi: 10.1088/0957-0233/23/3/035005.
  2. G.M. Revel and M. Arnesano, Perception of the thermal environment in sports facilities through subjective approach, Building and Environment, 2014, Vol. 77, pp 12-19
  3. G.M. Revel and M. Arnesano, Measuring overall thermal comfort to balance energy use in sports facilities, Measurement, 2014, Vol. 55, pp 382-393
  4. G.M. Revel, M. Arnesano and F. Pietroni, Development and validation of a low-cost infrared measurement system for real-time monitoring of indoor thermal comfort, Measurement Science and Technology, 2014, Vol. 25 (085101), 10pp
  5. M. Arnesano, G.M. Revel, F. Seri, A tool for the optimal sensor placement to optimize temperature monitoring in large sports spaces, Automation in Construction, 2016, Vol. 68, pp. 223-234.
  6. F. Naspi, M. Arnesano, L. Zampetti, F. Stazi, G.M. Revel, M. D’Orazio, Experimental study on occupants’ interaction with windows and lights in Mediterranean offices during the non-heating season, Building and Environment, 2018, Vol. 127, pp. 221-238.
  7. L. Zampetti, M. Arnesano, G.M. Revel. Experimental testing of a system for the energy-efficient sub-zonal heating management in indoor environments based on PMV. Energy and Buildings, 2018, Vol. 166, pp.229-238.
  8. F. Naspi, M. Arnesano, F. Stazi, M. D’Orazio, G.M. Revel, Measuring Occupants’ Behaviour for Buildings’ Dynamic Cosimulation, Journal of Sensors, 2018, pp. 17.
  9. A. Calvaresi, M. Arnesano, F. Pietroni, G.M Revel, Measuring Metabolic Rate to Improve Comfort Management in Buildings, Environmental Engineering and Management Journal, 2018, Vol. 17, 2287-2296.
  10. L. Claudi, M. Arnesano, P. Chiariotti, G. Battista, G.M. Revel, A soft-sensing approach for the evaluation of the acoustic comfort due to building envelope protection against external noise, Measurement, 2019, Vol. 146, pp. 675-688.
  11. M. Arnesano, B. Bueno, A. Pracucci, S. Magnani, O. Casadei, G.M. Revel, Sensors and control solutions for Smart-IoT façade modules, Conference proceedings Measurements and Networking 2019, Catania (Italy), 2019, pp.6.
  12. I. Pigliautile, S. Casaccia, N. Morresi, M. Arnesano, A.L. Pisello, G.M. Revel, Assessing occupants’ personal attributes in relation to human perception of environmental comfort: Measurement procedure and data analysis. Building and Environment, 2020, vol. 177.
  13. M. Arnesano, G. Pandarese, M. Martarelli, F. Naspi, K.L. Gurunatha, C. Sol, M. Portnoi, F.V. Ramirez, I.P. Parkin, I. Papakonstantinou, G.M. Revel, Optimization of the thermochromic glazing design for curtain wall buildings based on experimental measurements and dynamic simulation, Solar Energy, vol. 216, 2021, pp. 14-25.
  14. N. Morresi, S. Casaccia, M. Sorcinelli, M. Arnesano, A. Uriarte, J.I. Torrens-Galdiz, G.M. Revel, Sensing physiological and environmental quantities to measure human thermal comfort through Machine Learning techniques. IEEE SENSORS JOURNAL, 2021, p. 12322-12337.    
  15. F. Seri, M. Arnesano, M.M. Keane, G.M. Revel, Temperature Sensing Optimization for Home Thermostat Retrofit. Sensors, vol. 21, 2021.
  16. S.A. Mansi, G. Barone, C. Forzano, I. Pigliautile, M. Ferrara, A.L. Pisello, M. Arnesano, Measuring human physiological indices for thermal comfort assessment through wearable devices: A review. Measurement, vol. 183, 2021, ISSN: 0263-2241, doi: 10.1016/j.measurement.2021.109872.
  17. N. Morresi, S. Casaccia, M. Arnesano, G.M. Revel, Impact of the measurement uncertainty on the monitoring of thermal comfort through AI predictive algorithms, Acta IMEKO, 2021, 10 (4), pp. 221-229. doi: 10.21014/acta_imeko.v10i4.1181.
  18. S.A. Mansi, I. Pigliautile, C. Porcaro, A.L. Pisello, M. Arnesano, Application of wearable EEG sensors for indoor thermal comfort measurements, Acta IMEKO, 2021, 10 (4), pp. 214-220. DOI: 10.21014/acta_imeko.v10i4.1180.
  19. S. Serroni, M. Arnesano, L. Violini, G.M. Revel, An IoT measurement solution for continuous indoor environmental quality monitoring for buildings renovation, Acta IMEKO, 2021, 10 (4), pp. 230-238, doi: 10.21014/acta_imeko.v10i4.1182.
  20. S.A. Mansi, I. Pigliautile, M. Arnesano, A.L. Pisello, A novel methodology for human thermal comfort decoding via physiological signals measurement and analysis, Building and Environment, 2022, vol. 222 (109385), doi: 10.1016/j.buildenv.2022.109385.
  21. A. Costantino, M. Ferrara, M. Arnesano, E. Fabrizio, Off-the-shelf wearable sensing devices for personalized thermal comfort models: A systematic review on their use in scientific research, Journal of Building Engineering, 2023, vol. 70, p. 106379, doi: 10.1016/j.jobe.2023.106379.
  22. G. Cosoli, S.A. Mansi, I. Pigliautile, A.L. Pisello, G.M Revel, M. Arnesano, Enhancing personal comfort: A machine learning approach using physiological and environmental signals measurements, Measurement, vol. 217, 2023,ISSN 0263-2241, doi: 10.1016/j.measurement.2023.113047.
  23. M. Arnesano, S.A. Mansi, Embedded Sensors, Ubiquitous Connectivity and Tracking. In: Lynn, T., Rosati, P., Kassem, M., Krinidis, S., Kennedy, J. (eds) Disrupting Buildings. Palgrave Studies in Digital Business & Enabling Technologies. Palgrave Macmillan, Cham, 2023, https://doi.org/10.1007/978-3-031-32309-6_2.
  24. S. Serroni, M. Arnesano, M. Martarelli and G. M. Revel, Experimental validation and uncertainty analysis of an innovative IoT infrared sensor for in-situ wall thermal transmittance measurement, Measurement Science and Technology, 2023, Vol. 34 (125801), 10pp, doi: 10.1088/1361-6501/acf064.
  25. G. Cosoli, S.A. Mansi, G.M. Revel, M. Arnesano. Wearable devices and Machine Learning algorithms to assess indoor thermal sensation: metrological analysis. ACTA IMEKO, 2023, vol. 12, p. 1-8, doi: 10.21014/actaimeko.v12i3.1570.
  26. R. Jamali, A. Generosi, J.Y. Villafan, M. Mengoni, L. Pelagalli, G. Battista, M. Martarelli, P. Chiariotti, S.A. Mansi, M. Arnesano, P. Castellini. Facial Expression Recognition for Measuring Jurors’ Attention in Acoustic Jury Tests. Sensors, 2024, vol. 24, 2298. https://doi.org/10.3390/s24072298