Marco Arnesano

Position

PostDoctoral Researcher

Research Areas

Involved in the development of innovative systems and sensors for indoor environments monitoring and building management. Research interests include ICT for energy efficiency, thermal comfort, sensors, signal processing, thermodynamic simulation, software development. The research activity is mainly performed within several European projects.

Capsule Bio

Marco Arnesano is a PostDoctoral researcher within the Mechanical and Thermal Measurement Group in the DIISM. He graduated in Thermomechanical Engineering (cum laude) from Università Politecnica delle Marche in 2009 with a thesis entitled “Progettazione e sviluppo di un sistema di misura basato su tecnologia ad infrarossi per il monitoraggio delle condizioni termiche e del benessere termoigrometrico di un ambiente tipo ufficio”. He received his Ph.D. degree in Mechanical Engineering and Management from Università Politecnica delle Marche with a thesis entitled “Design of a comfort-based smart metering system for sport and recreational buildings”. Prior to that, he worked as Quality Manager and  Engineering Manager at the TecnoPlast Group (Moulding and assembly for household electrical appliances) and as Technical responsible at the E-ray (Photovoltaic plants).

Pubblications
  1. G.M. Revel, E. Sabbatini, M. Arnesano, A new thermography based system for real-time energy balance in the built environment, 10th Rehva world congress, Clima 2010, Antalya (Turkey). ISBN: 978-975-6907-14-6.
  2. 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.
  3. G.M. Revel and M. Arnesano, Design of a comfort-based monitoring approach for energy efficiency in Sport & Recreational buildings, 7th International Conference on Energy Efficiency in Commercial Buildings (IEECB’12), Lighting & Building Performance, Frankfurt (Germany).
  4. G.M. Revel, M. Arnesano, F. Pietroni, An innovative low cost IR system for real-time measurement of human thermal comfort, Conference proceedings in IAQ 2013: Environmental Health in Low Energy Buildings.
  5. G.M. Revel, M. Arnesano, F. Pietroni, A low-cost sensor for real-time monitoring of indoor thermal comfort for ambient assisted living, Conference proceedings in ForItAAL 2013, 4° Forum Italiano per l’Ambient Assisted Living.
  6. J. Frick, M. Reichert, G. Baumbach, S. Shuyang, A. Neuwirth, M. Krüger, K. Schmitt, J. Huber, M. Ebermann, L. Pockelé, A. Khanlou, A. Ekonomakou, J. Balau, G.M. Revel, M. Arnesano, F. Pietroni, Monitoring and Improvement of Indoor Environments in Cultural Heritage, Conference proceedings in EWCHP 2013: European Workshop on Cultural Heritage Preservation.
  7. G.M. Revel, M. Arnesano, F. Pietroni, J. Frick, M. Reichert, M. Krüger, K. Schmitt, J. Huber, M. Ebermann, L. Pockelé, A. Khanlou, A. Ekonomakou, J. Balau, C. Pascale, F. De Falco, R. Landò, U. Battista, J. Stuart, Advanced tools for the monitoring and control of indoor air quality and comfort, Environmental Engineering and Management Journal, September 2013, Vol.12, No. 9.
  8. 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.
  9. G.M. Revel, M. Arnesano and F. Pietroni, A low-cost sensor for real-time monitoring of indoor thermal comfort for Ambient Assisted Living, Ambient Assisted Living, 2014, pp. 3-12.
  10. G.M. Revel and M. Arnesano, Measuring overall thermal comfort to balance energy use in sports facilities, Measurement, 2014, Vol. 55, pp. 382-393.
  11. G.M. Revel, M. Arnesano and F. Pietroni, Developmentand validation of a low-cost infrared measurement system for real-time monitoring of indoor thermal comfort, Measurement Science and Technology, 2014, 25(8).
  12. G.M. Revel, M. Arnesano, F. Pietroni, M. Schmidt and O. Kaschtschejewa, Evaluation in a controlled environment of a low-cost IR sensor for indoor thermal comfort measurement, 12th International Conference on Quantitative Infrared Thermography (QIRT2014), Bordeaux (France).
 

Email:
m.arnesano@univpm.it

Office Phone:
+39 071 220 4508

Room:
Q185_010