Publications
Une base de données bibliographie est disponible sur le site de Zotero : https://www.zotero.org/groups/biblio_irstv/items/collectionKey/UM8CDU9U
ACL: Articles dans des revues internationales avec comité de lecture répertoriées par l’AERES
ONEVU
1. 1. Connan, O., Laguionie, P., Maro, D., Hébert, D., Mestayer, P., Rodriguez, F., … Rosant, J. (2015). Vertical and horizontal concentration profiles from a tracer experiment in a heterogeneous urban area. Atmospheric Research, 154, 126–137.2. 2. Coulon, A., El-Mufleh, A., Cannavo, P., Vidal-Beaudet, L., Bechet, B., & Charpentier, S. (2013). Specific stability of organic matter in a stormwater infiltration basin. Journal of Soils and Sediments, 13(3), 508‑518.
3. 3. David, P. L., Bulteau, G., Humeau, P., Gerente, C., & Andres, Y. (2013). Laundry greywater treatment using a fluidized bed reactor: a proposed model based on greywater biodegradation and residence time distribution approach. Environmental Technology, 34(23), 3087‑3094.
4. 4. El-Mufleh, A., Bechet, B., Grasset, L., Rodier, C., Gaudin, A., & Ruban, V. (2013). Distribution of PAH residues in humic and mineral fractions of sediments from stormwater infiltration basins. Journal of Soils and Sediments, 13(3), 531‑542. http://doi.org/10.1007/s11368-012-0586-x
5. 5. Emmanuel, I., Andrieu, H., Leblois, E., & Flahaut, B. (2012). Temporal and spatial variability of rainfall at the urban hydrological scale. Journal of Hydrology, 430, 162‑172.
6. 6. Emmanuel, I., Andrieu, H., & Tabary, P. (2012). Evaluation of the new French operational weather radar product for the field of urban hydrology. Atmospheric Research, 103, 20‑32.
7. 7. Gasperi, J., Sebastian, C., RUBAN, V., Delamain, M., Percot, S., Wiest, L., … Gromaire, M.-C. (2014). Micropollutants in Urban Stormwater: Occurrence, Concentrations, and Atmospheric Contributions for a Wide Range of Contaminants in Three French Catchments. Environmental Science and Pollution Research, 21(8), 5267‑5281.
8. 8. Hannouche, A., Chebbo, G., & Joannis, C. (2014a). Assessment of the Contribution of Sewer Deposits to Suspended Solids Loads in Combined Sewer Systems During Rain Events. Environmental Science and Pollution Research, 21(8), 5311‑5317.
9. 9. Hannouche, A., Chebbo, G., & Joannis, C. (2014b). Dynamics of Pollutant Discharge in Combined Sewer Systems During Rain Events: Chance or Determinism? Water Science and Technology, 68(8), 1751‑1758.
10. 10. Hannouche, A., Chebbo, G., Ruban, G., Tassin, B., Lemaire, B. J., & Joannis, C. (2011). Relationship between turbidity and total suspended solids concentration within a combined sewer system. Water Science and Technology, 64(12), 2445‑2452.
11. 11. Humeau, P., Hourlier, F., Bulteau, G., Masse, A., Jaouen, P., Gerente, C., … Le Cloirec, P. (2011). Estimated costs of implementation of membrane processes for on-site greywater recycling. Water Science and Technology, 63(12), 2949‑2956.
12. 12. Husseini, A. E. Al, Bechet, B., Gaudin, A., & Ruban, V. (2013). Trace metal fractionation as a mean to improve on the management of contaminated sediments from runoff water in infiltration basins. Environmental Technology, 34(10), 1255‑1266.
13. 13. Jankowfsky, S., Branger, F., Braud, I., Gironas, J., & Rodriguez, F. (2013). Comparison of catchment and network delineation approaches in complex suburban environments: application to the Chaudanne catchment, France. Hydrological Processes, 27(25), 3747‑3761.
14. 14. Jankowfsky, S., Branger, F., Braud, I., Rodriguez, F., Debionne, S., & Viallet, P. (2014). Assessing anthropogenic influence on the hydrology of small peri-urban catchments: development of the object-oriented PUMMA model by integrating urban and rural hydrological models. Journal of Hydrology, 517, 1056–1071.
15. 15. Joannis, C., Hannouche, A., & Chebbo, G. (2014). An assessment of the respective contributions of flow-rate and concentration variations to mass discharge variations at the outlets of two combined catchments during rain events. Urban Water Journal.
16. 16. Lacour, C., Joannis, C., Schuetze, M., & Chebbo, G. (2011). Efficiency of a turbidity-based, real-time control strategy applied to a retention tank: a simulation study. Water Science and Technology, 64(7), 1533‑1539.
17. 17. Lamprea, K., & Ruban, V. (2011a). Characterization of atmospheric deposition and runoff water in a small suburban catchment. Environmental Technology, 32(10), 1141‑1149.
18. 18. Lamprea, K., & Ruban, V. (2011b). Pollutant concentrations and fluxes in both stormwater and wastewater at the outlet of two urban watersheds in Nantes (France). Urban Water Journal, 8(4), 219‑231.
19. 19. Larrarte, F. (2013). Velocity and suspended solids distributions in an oval-shaped channel with a side bank, Urban Water Journal. Urban Water Journal.
20. 20. Legret, M., Chaurand, P., Benard, A., Capowiez, Y., Deneele, D., Reynard, J., … Bottero, J. (2010). Environmental assessment of a BOF steel slag used in road construction : The ECLAIR research program. Déchets Sciences Techniques, (57), 14‑19.
21. 21. Maro, D., Connan, O., Flori, J., Hébert, D., Mestayer, P., Olive, F., … Solier, L. (2014). Aerosol dry deposition in the urban environment: Assessment of deposition velocity on building facades. Journal of Aerosol Science, 69, 113–131.
22. 22. Percot, S., Ruban, V., Roupsard, P., Maro, D., & Millet, M. (2013). Use of beryllium-7 as a surrogate to determine the deposition of metal and polycyclic aromatic hydrocarbon through urban aerosols in Nantes, France. Atmospheric Environment, 74, 338‑345.
23. 23. Petrucci, G., Rodriguez, F., Deroubaix, J.-F., & Tassin, B. (2014). Linking the management of urban watersheds with the impacts on the receiving water bodies: the use of flow duration curves. Water science and technology, 70(1), 127‑135.
24. 24. Rodriguez, F., Bocher, E., & Chancibault, K. (2013). Terrain representation impact on periurban catchment morphological properties. Journal of Hydrology, 485, 54‑67.
25. 25. Roupsard, P., Amielh, M., Maro, D., Coppalle, A., Branger, H., Connan, O., … Talbaut, M. (2013). Measurement in a wind tunnel of dry deposition velocities of submicron aerosol with associated turbulence onto rough and smooth urban surfaces. Journal of Aerosol Science, 55, 12‑24. http://doi.org/10.1016/j.jaerosci.2012.07.006
GeoConUrb
1. 1. Chouzenoux, E., Legendre, M., Moussaoui, S., & Idier, J. (2014). Fast constrained least squares spectral unmixing using primal-dual interior-point optimization. Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of, 7(1), 59‑69.2. 2. Chouzenoux, E., Moussaoui, S., Legendre, M., & Idier, J. (2013). Primal-dual interior point algorithm for penalized spectral unmixing. Traitement Du Signal, 30(1-2), 35‑59.
3. 3. Hénon, A., & Mestayer, P. (2014). A Method for Monitoring the Heat Flux from an Urban District with a Single Infrared Remote Sensor. Boundary-Layer Meteorology, 153(2), 277‑303.
4. 4. Hénon, A., Mestayer, P. G., Lagouarde, J.-P., & Voogt, J. A. (2012). An urban neighborhood temperature and energy study from the CAPITOUL experiment with the SOLENE model. Theoretical and Applied Climatology, 110(1-2), 177‑196.
5. 5. Legendre, M., Schmidt, A., Moussaoui, S., & Lammers, U. (2013). Solving systems of linear equations by GPU-based matrix factorization in a Science Ground Segment. Astronomy and Computing, 3–4, 58 ‑ 64.
6. 6. Mestayer, P., Bourges, B., Fouillé, L., Bocher, E., Schmidt, T., & Picaut, J. (2015). Evaluation environnementale du PDU nantais 2000-2010 à partir des simulations numériques des scénarios alternatifs du programme Eval-PDU. Recherche Transports Sécurité, 2015(2), 97‑120.
VI
1. 1. Hervy, B., Laroche, F., Bernard, A., & Kerouanton, J.-L. (2013). Co-working for knowledge management in cultural heritage: towards a PLM for museum. IFIP Advances in Information and Communication Technology, 409, 317.2. 2. Leduc, T., Chaillou, F., & Ouard, T. (2011). Towards a « typification » of the Pedestrian Surrounding Space: Analysis of the Isovist Using Digital processing Method. Advancing Geoinformation Science for a Changing World, 275‑292.
3. 3. Legendre, M., Schmidt, A., Moussaoui, S., & Lammers, U. (2013). Solving Systems of Linear Equations by GPU-based Matrix Factorization in a Science Ground Segment. Astronomy and Computing, 3-4, 58‑64.
4. 4. Majd, M. S., Simonetto, E., & Polidori, L. (2012). Maximum Likelihood Classification of Single High-resolution Polarimetric SAR Images in Urban Areas. Photogrammetrie Fernerkundung Geoinformation, (4), 395‑407.
5. 5. Simonetto, E., & Follin, J.-M. (2012). An overview on interferometric SAR software and a comparison between DORIS and SARSCAPE packages. Lecture Notes in Geoinformation and Cartography, 107‑122.
6. 6. Soheili Majd, M., Simonetto, E., & Polidori, L. (2011). Maximum likelihood classification of high-resolution SAR images in urban area. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XXXVIII-4/W19, 309‑312.
7. 7. Wu, S., Otmane, S., Moreau, G., & Servieres, M. (2013). Design of a Visual Query Language for Geographic Information System on a Touch Screen. Lecture Notes in Computer Science, 8007, 530‑539.
8. 8. Zaki, C., Servieres, M., & Moreau, G. (2011). Transforming Conceptual Spatiotemporal Model into Object Model with Semantic Keeping. Lecture Notes in Computer Science, 6999, 281‑290.
9. 9. Zaki, C., Zekri, E., Servières, M., Moreau, G., & Hégron, G. (2011). Generic modeling of application and spatiotemporal data : application to the study of pedestrian behavior. Intelligent Decision Technologies, 5(4), 297‑307.
SolUrb
1. 1. Cannavo, P., Vidal-Beaudet, L., Béchet, B., Lassabatère, L., & Charpentier, S. (2010). Spatial distribution of sediments and transfer properties in soils in a stormwater infiltration basin. Journal of Soils and Sediments, 10(8), 1499‑1509.2. 2. Cannavo, P., Vidal-Beaudet, L., & Grosbellet, C. (2014). Prediction of long-term sustainability of constructed urban soil: impact of high amounts of organic matter on soil physical properties and water transfer. Soil Use and Management, 30(2), 272–284.
3. 3. Coulon, A., Cannavo, P., Charpentier, S., & Vidal-Beaudet, L. (2015). Clogging-up of a stormwater infiltration basin: a laboratory approach using image analysis. Journal of Soils and Sediments, 15(8), 1738‑1752.
4. 4. Coulon, A., El-Mufleh, A., Cannavo, P., Vidal-Beaudet, L., Béchet, B., & Charpentier, S. (2013). Specific stability of organic matter in a stormwater infiltration basin. Journal of Soils and Sediments, 13(3), 508‑518.
5. 5. El-Mufleh, A., Béchet, B., Basile-Doelsch, I., Geffroy-Rodier, C., Gaudin, A., & Ruban, V. (2014). Distribution of PAHs and trace metals in urban stormwater sediments: combination of density fractionation, mineralogy and microanalysis. Environmental Science and Pollution Research, 21(16), 9764‑9776.
6. 6. El-Mufleh, A., Bechet, B., Grasset, L., Rodier, C., Gaudin, A., & Ruban, V. (2013). Distribution of PAH residues in humic and mineral fractions of sediments from stormwater infiltration basins. Journal of Soils and Sediments, 13(3), 531‑542.
7. 7. El-Mufleh, A., Béchet, B., Ruban, V., Legret, M., Clozel, B., Barraud, S., … Delolme, C. (2014). Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS). Environmental Science and Pollution Research, 21(8), 5329‑5346.
8. 8. Hanna, K., Lassabatere, L., & Bechet, B. (2012). Transport of two naphthoic acids and salicylic acid in soil: Experimental study and empirical modeling. Water Research, 46(14), 4457‑4467.
9. 9. Husseini, A. E.-M. A., Béchet, B., Gaudin, A., & Ruban, V. (2013). Trace metal fractionation as a mean to improve on the management of contaminated sediments from runoff water in infiltration basins. Environmental Technology, 34(10), 1255‑1266.
10. 10. Jean-Soro, L., Le Guern, C., Bechet, B., Lebeau, T., & Ringeard, M.-F. (2015). Origin of trace elements in an urban garden in Nantes, France. Journal of Soils and Sediments, 15(8), 1802‑1812.
11. 11. Jean-Soro, L., Oleron-Hamdous, A., Bechet, B., & Legret, M. (2013). Evaluation of platinum distribution between different soil components. Journal of Soils and Sediments, 13(3), 569‑574.
12. 12. Khalil, T., Saiyouri, N., Muresan, B., & Hicher, P. Y. (2013). Internal erosion of chemically reinforced granular materials: a mathematical modeling approach. International Journal for Numerical and Analytical Methods in Geomechanics, 37(5), 491‑502.
13. 13. Ladislas, S., El-Mufleh, A., Gerente, C., Chazarenc, F., Andres, Y., & Bechet, B. (2012). Potential of Aquatic Macrophytes as Bioindicators of Heavy Metal Pollution in Urban Stormwater Runoff. Water Air and Soil Pollution, 223(2), 877‑888.
14. 14. Ladislas, S., Gerente, C., Chazarenc, F., Brisson, J., & Andres, Y. (2013). Performances of Two Macrophytes Species in Floating Treatment Wetlands for Cadmium, Nickel, and Zinc Removal from Urban Stormwater Runoff. Water Air and Soil Pollution, 224(2), 10.
15. 15. Ladislas, S., Gérente, C., Chazarenc, F., Brisson, J., & Andrès, Y. (2015). Floating treatment wetlands for heavy metal removal in highway stormwater ponds. Special Issue: 5th international Symposium on Wetland Pollutant Dynamics and Control, 80, 85‑91.
16. 16. Lamy, E., Lassabatere, L., Bechet, B., & Andrieu, H. (2013). Effect of a nonwoven geotextile on solute and colloid transport in porous media under both saturated and unsaturated conditions. Geotextiles and Geomembranes, 36, 55 ‑ 65.
17. 17. Nikiforova, T., Savytskyi, M., Limam, K., Bosschaerts, W., & Belarbi, R. (2013). Methods and Results of Experimental Researches of Thermal Conductivity of Soils. Energy Procedia, 42, 775‑783.
18. 18. Rokia, S., Sere, G., Schwartz, C., Deeb, M., Fournier, F., Nehls, T., … Vidal-Beaudet, L. (2014). Modelling agronomic properties of Technosols constructed with urban wastes. Waste Management (New York, N.Y.), 34(11), 2155‑2162.
ESU
1. 1. Billon, A., Picaut, J., Valeau, V., & Sakout, A. (2012). Acoustic Predictions in Industrial Spaces Using a Diffusion Model. Advances in Acoustics and Vibration, 2012, 9 p.2. 2. Can, A., Fortin, N., & Picaut, J. (2015). Accounting for the effect of diffuse reflections and fittings within street canyons, on the sound propagation predicted by ray tracing codes. Applied Acoustics, 96, 83 93.
3. 3. Guillaume, G., Gauvreau, B., & L’Hermite, P. (2015). Numerical study of the impact of vegetation coverings on sound levels and time decays in a canyon street model. Science of The Total Environment, 502, 22 30.
4. 4. Moleron, M., Felix, S., Pagneux, V., & Richoux, O. (2012). Sound propagation in periodic urban areas. Journal of Applied Physics, 111(11), 9.
MUE
1. 1. Bernabé, A., Bernard, J., Musy, M., Andrieu-, H., Bocher, E., Calmet, I., Rosant, J. M. (2015). Radiative and heat storage properties of the urban fabric derived from analysis of surface forms. Urban Climate.2. 2. Bernabé, A., Musy, M., Andrieu, H., & Calmet, I. (2015). Radiative properties of the urban fabric derived from surface form analysis: A simplified solar balance model. Solar Energy, 122, 156 ‑ 168.
3. 3. Calmet, I., & Mestayer, P. (2015). Study of the thermal internal boundary layer during sea-breeze events in the complex coastal area of Marseille. Theoretical and Applied Climatology, 1–26.
4. 4. Gros, A., Bozonnet, E., Musy, M., & Inard, C. (2015). Simulation tools to assess microclimate and building energy - a case study on the design of a new district. Energy and Buildings, In press.
5. 5. Malys, L., Musy, M., & Inard, C. (2015). Microclimate and building energy consumption: Study of different coupling methods. Advances in Building Energy Research.
6. 6. Morille, B., Musy, M., & Malys, L. (2015). Preliminary study of the impact of urban greenery types on energy consumption of building at a district scale: academic study on a canyon street in Nantes (France) weather conditions. Energy and Buildings, In Press. http://doi.org/doi:10.1016/j.enbuild.2015.06.030
7. 7. Musy, M., Malys, L., Morille, B., & Inard, C. (2015). The use of SOLENE-microclimat model to assess adaptation strategies at the district scale. Urban Climate, in press. http://doi.org/doi:10.1016/j.uclim.2015.07.004
8. 8. Gros, A., Bozonnet, E., & Inard, C. (2014). Cool materials impact at district scale - Coupling building energy and microclimate models. Sustainable Cities and Society, in Press.
9. 9. Abahri, K., Belarbi, R., Oudjehani, N., Issaadi, N., & Ferroukhi, M. (2013). Total Pressure Gradient Incidence on Hygrothermal Transfer in Highly Porous Building Materials. Advanced Materials Research, 772, 124‑129.
10. 10. Abahri, K., Belarbi, R., & Trabelsi, A. (2011). Contribution to analytical and numerical study of combined heat and moisture transfers in porous building materials. Building and Environment, 46(7), 1354‑1360.
11. 11. Aumond, P., Masson, V., Lac, C., Gauvreau, B., Dupont, S., & Berengier, M. (2013). Including the Drag Effects of Canopies: Real Case Large-Eddy Simulation Studies. Boundary-Layer Meteorology, 146(1), 65‑80.
12. 12. Basecq, V., Michaux, G., Blondeau, P., & Inard, C. (2013). Short term storage systems of the thermal energy for buildings: a review. Advances in Building Energy Research, 7(1), 66‑119.
13. 13. Bouyer, J., Inard, C., & Musy, M. (2011). Microclimatic coupling as a solution to improve building energy simulation in an urban context. Energy and Buildings, 43(7), 1549‑1559.
14. 14. Bozonnet, E., Doya, M., & Allard, F. (2011). Cool roofs impact on building thermal response: A French case study. Energy and Buildings, 43(11), 3006‑3012.
15. 15. Bozonnet, E., Musy, M., Calmet, I., & Rodriguez, F. (2013). Modeling methods to assess urban fluxes and heat island mitigation measures from street to city scale. International Journal of Low-Carbon Technologies, 1‑16.
16. 16. Djedjig, R., Bozonnet, E., & Belarbi, R. (2013). Experimental study of the urban microclimate mitigation potential of green roofs and green walls in street canyons. International Journal of Low-Carbon Technologies, 1‑11.
17. 17. Djedjig, R., Ouldboukhitine, S. E., Belarbi, R., & Bozonnet, E. (2012). Development and validation of a coupled heat and mass transfer model for green roofs. International Communications in Heat and Mass Transfer, 39(6), 752‑761.
18. 18. Doya, M., Bozonnet, E., & Allard, F. (2012). Experimental measurement of cool facades’ performance in a dense urban environment. Energy and Buildings, 55, 42‑50.
19. 19. Fletcher, T. D., Andrieu, H., & Hamel, P. (2013). Understanding, management and modelling of urban hydrology and its consequences for receiving waters: A state of the art. Advances in Water Resources, 51, 261‑279.
20. 20. Furusho, C. Y., Andrieu, H., & Chancibault, K. (2014). Analysis of the Hydrological Behaviour of an Urbanizing Basin. Hydrological Processes, 8(4), 1809‑1819.
21. 21. Furusho, C., Chancibault, K., & Andrieu, H. (2013). Adapting the coupled hydrological model ISBA-TOPMODEL to the long-term hydrological cycles of suburban rivers: Evaluation and sensitivity analysis. Journal of Hydrology, 485, 139‑147.
22. 22. Gironas, J., Niemann, J. D., Roesner, L. A., Rodriguez, F., & Andrieu, H. (2010). Evaluation of Methods for Representing Urban Terrain in Storm-Water Modeling. Journal of Hydrologic Engineering, 15(1), 1‑14.
23. 23. Grimmond, C. S. B., Blackett, M., Best, M. J., Baik, J. J., Belcher, S. E., Beringer, J., … Zhang, N. (2011). Initial results from Phase 2 of the international urban energy balance model comparison. International Journal of Climatology, 31(2), 244‑272.
24. 24. Grimmond, C. S. B., Blackett, M., Best, M. J., Barlow, J., Baik, J. J., Belcher, S. E., … Zhang, N. (2010). The International Urban Energy Balance Models Comparison Project: First Results from Phase 1. Journal of Applied Meteorology and Climatology, 49(6), 1268‑1292.
25. 25. Groleau, D., & Mestayer, P. G. (2013). Urban morphology influence on urban albedo: A revisit with the SOLENE model. Boundary-layer meteorology, 147(2), 301–327.
26. 26. Groleau, D., & Mestayer, P. G. (2013). Urban Morphology Influence on Urban Albedo: A Revisit with the SOLENE Model. Boundary-Layer Meteorology, 147(2), 301‑327.
27. 27. Hénon, A., & Mestayer, P. G. (2014). A Method for Monitoring the Heat Flux from an Urban District with a Single Infrared Remote Sensor. Boundary-Layer Meteorology, 153(2), 277–303.
28. 28. Henon, A., Mestayer, P. G., Groleau, D., & Voogt, J. (2011). High resolution thermo-radiative modeling of an urban fragment in Marseilles city center during the UBL-ESCOMPTE campaign. Building and Environment, 46(9), 1747‑1764.
29. 29. Henon, A., Mestayer, P. G., Lagouarde, J. P., & Voogt, J. A. (2012a). An urban neighborhood temperature and energy study from the CAPITOUL experiment with the SOLENE model. Theoretical and Applied Climatology, 110(1-2), 177‑196.
30. 30. Henon, A., Mestayer, P. G., Lagouarde, J. P., & Voogt, J. A. (2012b). An urban neighborhood temperature and energy study from the CAPITOUL experiment with the Solene model. Theoretical and Applied Climatology, 110(1-2), 197‑208.
31. 31. Houda, S., Zemmouri, N., Hasseine, A., Athmani, R., & Belarbi, R. (2012). A CFD Model for Simulating Urban Flow in Complex Morphological Street Network. The Online Journal of Science and Technology, 2(1).
32. 32. Idczak, M., Groleau, D., Mestayer, P., Rosant, J.-M., & Sini, J.-F. (2010). An application of the thermo-radiative model {SOLENE} for the evaluation of street canyon energy balance. Building and Environment, 45(5), 1262 ‑ 1275.
33. 33. Jaffal, I., Inard, C., & Bozonnet, E. (2012). Toward integrated building design: A parametric method for evaluating heating demand. Applied Thermal Engineering, 40, 267‑274.
34. 34. Jaffal, I., Ouldboukhitine, S. E., & Belarbi, R. (2012). A comprehensive study of the impact of green roofs on building energy performance. Renewable Energy, 43, 157‑164.
35. 35. Lagouarde, J. P., Henon, A., Irvine, M., Voogt, J., Pigeon, G., Moreau, P., … Mestayer, P. (2012). Experimental characterization and modelling of the nighttime directional anisotropy of thermal infrared measurements over an urban area: Case study of Toulouse (France). Remote Sensing of Environment, 117, 19‑33.
36. 36. Lagouarde, J. P., Henon, A., Kurz, B., Moreau, P., Irvine, M., Voogt, J., & Mestayer, P. (2010). Modelling daytime thermal infrared directional anisotropy over Toulouse city centre. Remote Sensing of Environment, 114(1), 87‑105.
37. 37. Lapisa, R., Bozonnet, E., Abadie, M., & Salagnac, P. (2013). Cool roof and ventilation efficiency as passive cooling strategies for commercial low-rise buildings - ground thermal inertia impact. Advances in Building Energy Research.
38. 38. Le Roux, N., Faure, X., Inard, C., Soares, S., & Ricciardi, L. (2012). Reduced-scale study of wind influence on mean airflows inside buildings equipped with ventilation systems. Building and Environment, 58, 231‑244.
39. 39. Le Roux, N., Faure, X., Inard, C., Soares, S., & Ricciardi, L. (2013). Reduced-scale study of transient flows inside mechanically ventilated buildings subjected to wind and internal overpressure effects. Building and Environment, 62, 18‑32.
40. 40. Malys, L., Musy, M., & Inard, C. (2014). A hydrothermal model to assess the impact of green walls on urban microclimate and building energy consumption. Building and Environment, 73(0), 187‑197.
41. 41. Oudjehani, N., Abahri, K., Tahakourt, A., & Belarbi, R. (2013). Evaluation of Earth-Air Heat Exchangers Efficiency in Hot and Dry Climates. Advanced Materials Research, 739, 318‑324.
42. 42. Ouldboukhitine, S. E., Belarbi, R., & Djedjig, R. (2012). Characterization of green roof components: Measurements of thermal and hydrological properties. Building and Environment, 56, 78‑85.
43. 43. Ouldboukhitine, S. E., Belarbi, R., Jaffal, I., & Trabelsi, A. (2011). Assessment of green roof thermal behavior: A coupled heat and mass transfer model. Building and Environment, 46(12), 2624‑2631. http://doi.org/10.1016/j.buildenv.2011.06.021
44. 44. Perret, L., & Savory, E. (2013). Large-Scale Structures over a Single Street Canyon Immersed in an Urban-Type Boundary Layer. Boundary-Layer Meteorology, 148(1), 111‑131.
45. 45. Ramier, D., Berthier, E., & Andrieu, H. (2011). The hydrological behaviour of urban streets: long-term observations and modelling of runoff losses and rainfall-runoff transformation. Hydrological Processes, 25(14), 2161‑2178.
46. 46. Roupsard, P., Amielh, M., Maro, D., Coppalle, A., Branger, H., Connan, O., … Talbaut, M. (2013). Measurement in a wind tunnel of dry deposition velocities of submicron aerosol with associated turbulence onto rough and smooth urban surfaces. Journal of Aerosol Science, 55, 12‑24.
47. 47. Sanchez, D. G., Lacarrière, B., Musy, M., & Bourges, B. (2014). Application of sensitivity analysis in building energy simulations: Combining first- and second-order elementary effects methods. Energy and Buildings, 68, Part C(0), 741 ‑ 750.
48. 48. Savory, E., Perret, L., & Rivet, C. (2013). Modelling considerations for examining the mean and unsteady flow in a simple urban-type street canyon. Meteorology and Atmospheric Physics, 121(1-2), 1‑16.
49. 49. Vardoulakis, S., Dimitrova, R., Richards, K., Hamlyn, D., Camilleri, G., Weeks, M., … Moussiopoulos, N. (2011). Numerical Model Inter-comparison for Wind Flow and Turbulence Around Single-Block Buildings. Environmental Modeling & Assessment, 16(2), 169‑181.
PUD
1. 1. Broc, J. S., Osso, D., Baudry, P., Adnot, J., Bodineau, L., & Bourges, B. (2011). Consistency of the French white certificates evaluation system with the framework proposed for the European energy services. Energy Efficiency, 4(3), 371‑392.AtSIG
1. 1. Bocher, E., & Martin, J.-Y. (2012). TAnaTo2 : A tool to evaluate the impact of natural and anthropogenic artefacts with a TIN-based model. Lecture Notes in Geoinformation and Cartography,2. 2. Ertz, O., Bocher, E., Laurent, M., Petit, G., & Rappo, D. (2010). Standard-centric authoring and publication for cartographic content. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 38(4W13).
3. 3. Leduc, T., Chaillou, F., & Ouard, T. (2011). Towards a « typification » of the Pedestrian Surrounding Space: Analysis of the Isovist Using Digital processing Method. Advancing Geoinformation Science for a Changing World, 275‑292.
4. 4. Leduc, T., Tourre, V., Woloszyn, P., & Miguet, F. (2011). Measuring surrounding space to assess the pedestrian visual aperture angle in the urban fabric: towards a Kurtosis based isovist indicator. Lecture Notes in Geoinformation and Cartography, 129‑142.
ACLN: Articles dans des revues avec comité de lecture non répertoriées dans des bases de données internationales
ONEVU
1. 1. Branchu, P., Badin, A.-L., Bechet, B., Eisenlohr, L., Priol, T. L., Marseille, F., & Trielli, E. (2013). Pollution d’origine routière et environnement de proximité. VertigO-la revue électronique en sciences de l’environnement, 15 (Hors-série).2. 2. Hannouche, A., Chebbo, G., Ruban, G., Tassin, B., & Joannis, C. (2011). Relation entre la turbidité et la concentration en Matières En Suspension en réseau d’assainissement unitaire. Techniques Sciences Méthodes, 106(10), 42‑50.
3. 3. Joannis, C., Ruban, G., Aumond, M., Bertrand-Krajewski, J.-L., Battaglia, P., Lacour, C., … Chebbo, G. (2010). Mise en oeuvre de capteurs de turbidité en collecteurs d’assainissement. TSM. Techniques sciences méthodes, génie urbain génie rural, (1-2), 21‑35.
4. 4. Lacour, C., Chebbo, G., & Joannis, C. (2010). Evaluation de flux de polluants dans un réseau unitaire à partir de mesures en continu de turbidité. TSM. Techniques sciences méthodes, génie urbain génie rural, (1-2), 47‑53.
5. 5. Lotram, Y., Le Guern, C., Béchet, B., Lassabatère, L., & Andrieu, H. (2011). Transfert de polluants depuis une ancienne décharge urbaine: Apports de la caractérisation physico-chimique des déchets. Techniques Sciences Méthodes, (10), 62‑71.
6. 6. Pu, J. H., Bonakdari, H., Lassabatere, L., Joannis, C., & Larrarte, F. (2010). Turbulent velocity profiles : a new law for narrow channels. Houille Blanche-Revue Internationale De L Eau, (3), 65‑70.
GeoConURB
1. 1. Demaze, M. T. (2010). Un panorama de la télédétection de l’étalement urbain. ESO Travaux et documents, (29), 99‑124.2. 2. Rousseaux, F., Long, N., & Renouard, A. (2011). Vers une simulation de l’évolution des structures urbaines à partir d’une modélisation multi-agents. VertigO-la revue électronique en sciences de l’environnement, 11(3).
3. 3. Majd, Maryam, S., E., S., & L., P. (2012). Maximum Likelihood Classification of Single Highresolution Polarimetric SAR Images in Urban Areas. Photogrammetrie, Fernerkundung, Geoinformation, 2012(4), 395‑407(13).
VI
1. 1. ALLAH BILEL SOUSSI, M. A., FOLLIN, J.-M., MOREAU, G., BOUJU, A., POLIDORI, L., MONTEIL, C., … SEDES, F. (2012). Enrichissement d’une base de données routière à partir de trajectoires GPS de véhicules d’urgence: Application à l’aide au choix d’itinéraires. Ingénierie des systèmes d’information : (2001), 17(1), 35‑54.SolUrb
1. 1. Chendeb, El Rai, M., & Simonetto, E. (2010). Mesure des déformations du sol par la méthode des réflecteurs permanents StaMPS. Application à la ville de Paris. Instrumentation, Mesure, Métrologie, 10(3-4), 121‑140.
ESU
1. 1. Ayrault, C., Doc, J.-B., Felix, S., Lihoreau, B., Moleron, M., Pagneux, V., … Picaut, J. (2012). Modélisation de la propagation acoustique en milieu urbain : approches ondulatoires. RéférenceS, 228‑231.2. 2. Billon, A., & Picaut, J. (2010). Evaluation des caractéristiques acoustiques d’une rue à partir de mesures. Acoustique & techniques : (Neuilly-sur-Seine), (62), 33‑38.
3. 3. Hussein, F., Hégron, G., Péneau, J.-P., & Joanne, P. (2011). Un pied dans la ville quand on est presbyacousique. Ambiances.net, Réseau international des ambiances.
MUE
1. 1. Andrieu, H., & Emmanuel, I. (2013). Le radar météorologique en hydrologie urbaine. Météorologie (La), (83), 28‑34.2. 2. Athamena, K., Sini, J.-F., Sabre, M., & Rosant, J.-M. (2012). Modèle numérique pour la caractérisation du confort thermique dans les éco-quartiers: méthodologie et validation sur une configuration de rue canyon. RéférenceS, 250‑253.
3. 3. Bagga, I., Calmet, I., Rodriguez, F., & Rosant, J.-M. (2012). Bilans hydrique et énergétique sur une zone urbaine hétérogène: mesures et simulations. RéférenceS, 242‑245.
4. 4. Emmanuel, I., Leblois, E., Andrieu, H., & Flahaut, B. (2011). Temporal and spatial variability of rainfall at urban hydrological scales. Houille Blanche-Revue Internationale De L Eau, (4), 31‑36.
5. 5. Gros, A., Bozonnet, E., & Inard, C. (2012). Modélisation de la demande énergétique des bâtiments à l’échelle d’un quartier. RéférenceS, 272‑275.
6. 6. Houda, S., Zemmouri, N., Athmani, R., & Belarbi, R. (2011). Effect of urban morphology on wind flow distribution in dense urban areas. Revue des énergies renouvelables, 14(1), 85‑94.
7. 7. Huang, Y., Musy, M., Hégron, G., Chen, H., & Li, B. (2012). Méthodologies de conception climatique de quartiers urbains pour l’efficacité énergétique des bâtiments. RéférenceS, 276‑281.
8. 8. Maché, M., Sini, J.-F., & Calmet, I. (2012). Etude de l’influence de l’hétérogénéité morphologique du tissu urbain sur la dynamique de l’atmosphère: une approche de modélisation adaptée à l’échelle de la ville. RéférenceS, 246‑249.
9. 9. Malys, L., & Bouyer, J. (2012). Modélisation et simulation microclimatique couplée des aménagements urbains et du comportement thermique des bâtiments. RéférenceS, 258‑260.
10. 10. Mestayer, P. G., Rosant, J.-M., Rodriguez, F., & Rouaud, J.-M. (2011). La campagne expérimentale FluxSAP 2010: Mesures de climatologie en zone urbaine hétérogène. Météorologie : (Paris. 1925), (73), 34‑44.
11. 11. Musy, M. (2012). L’étude des microclimats urbains : champ de recherche à l’interface entre climatologie, urbanisme et génie civil. VertigO-la revue électronique en sciences de l’environnement, 12 (Hors Série).
12. 12. Musy, M., Calmet, I., Bozonnet, E., & Rodriguez, F. (2012). Modélisation des interactions ville-climat-énergie. RéférenceS, 16‑33.
13. 13. Rodriguez, F., Mosini, M.-L., Andrieu, H., & Morena, F. (2010). Un modèle hydrologique distribué pour les bassins versants urbains. Bulletin des laboratoires des ponts et chaussées, (277), 43‑63.
PUD
1. 1. Bensalma, A., Musy, M., & Simmonot, N. (2010). Les grands ensembles : de la ville moderne à la ville durable. Quelle transformation? Pour quelle ambiance? Cahiers Ades, (8), 73‑83.2. 2. Bensalma, A., Musy, M., & Simonnot, N. (2012). Caractérisation des ambiances dans les grands ensembles: entre modélisation architecturale, sensible et physique. RéférenceS, 254‑257.
3. 3. Broc, J.-S., Mestayer, P., Bourges, B., André, M., Ducroz, F., & Schmidt, T. (2012). Evaluation environnementale des plans de déplacements urbains. Pollution atmosphérique, (216), 333‑338.
4. 4. Fouillé, L., Broc, J.-S., Bourges, B., Bougnol, J., & Mestayer, P. (2012). La place des modèles de trafic dans les récentes modélisations des impacts environnementaux des transports : Importance de l’explicitation des méthodes et hypothèses. The role of travel demand models in recent modelings of environmental impacts of transport : Importance of the explicitation of methods and hypotheses. Recherche Transports Sécurité, 2012(3-4), 190‑200.
5. 5. Fouillé, L., Schmidt, T., & Rebours, A. (2013). Modéliser les émissions et les concentrations de polluants atmosphériques pour évaluer les politiques de transport. Eval-PDU et le cas nantais. Pollution atmosphérique, (217).
6. 6. Long, N., & Tonini, B. (2012). Les espaces verts urbains : étude exploratoire des pratiques et du ressenti des usagers. VertigO - la revue électronique en sciences de l’environnement [En ligne], 12(2).
7. 7. Mestayer, P., Bourges, B., Fouillé, L., Bocher, E., Schmidt, T., & Picaut, J. (2015). Évaluation environnementale du PDU nantais 2000-2010 à partir des simulations numériques des scénarios alternatifs du programme Eval-PDU. Recherche Transports Sécurité, 2015(2), 97–120.
8. 8. Molina, G. (2012a). Aménager les espaces en ménageant le climat: de nouvelles interfaces à construire entre la climatologie urbaine et les praticiens. Cahiers des territoires, (9).
9. 9. Molina, G. (2012b). Lutte contre le réchauffement climatique: les acteurs de l’aménagement entre coopération, reconversion et concurrence. Métropolitiques.
At SIG
1. 1. Picaut, J., & Fortin, N. (2012). Approche simplifiée de la réalisation de cartographies sonores de grandes agglomérations à l’aide d’un logiciel SIG. RéférenceS, 232‑235.OS : Ouvrages scientifiques (ou chapitres de ces ouvrages)
MUE
1. 1. Herpin, S., Faure, X., & Brébion, H. (2011). Reduce scale approach of tent natural buoyancy and wind-driven ventilation. In Partial similarity, reduced scale, buoyancy, ventilation.2. 2. Musy, M. (2012). Evapotranspiration. In B. Beckers (éd.), Solar energy at urban scale (p. 140‑154). London: Hoboken: ISTE ; Wiley and Sons.
3. 3. Musy, M. (2014). La ville verte - Les rôles du végétal en ville (QUAE). Versailles: Marjorie Musy.
4. 4. Musy, M., & Bozonnet, E. (2013). Micro-climats et interactions avec le bâtiment. In P. Bruno (éd.), Livre blanc sur les recherches en énergétique des bâtiments (p. 71‑73). Paris: Presses des MINES.
5. 5. Perret, L., & Ruiz, T. (2013). SPIV Analysis of Coherent Structures in a Vegetation Canopy Model Flow. In Coherent Flow Structures at Earth’s Surface (p. 161‑174).
6. 6. Zinzi, M., & Bozonnet, E. (2013). Cool Roofs’ Case Studies. In Advances in the Development of Cool Materials for the Built Environment. Bentham Science Publishers.
ONEVU
1. 1. Barraud, S., Béchet, B., Chebbo, G., Cren-Olivé, C., Demare, D., Gasperi, J., … Wiest, L. (2013). Harmonisation des méthodes et procédures expérimentales. 2. 2. Coulon, A., Cannavo, P., Vidal-Beaudet, L., & Charpentier, S. (2011). Unusual degradation of organic matter in a stormwater infiltration basin sediment.
3. 3. Hannouche, A., Chebbo, G., & Joannis, C. (2013). Flux de micropolluants à l’exutoire de réseaux séparatifs : modélisation des flux annuels par couplage des campagnes évènementielles et des suivis en continu de grandeurs physiques (pluie, débits, turbidité).
4. 4. Joannis, C. (2010). Infiltration and exfiltration in house connections. In Assessing Infiltration and Exfiltration on the Performance of Urban Sewer Systems (APUSS) (p. 27‑36).
5. 5. Millet, M., Wolff, H., Delamain, M., Demare, D., Percot, S., Ruban, V., … Schwartz, J. (2013). Contamination en micropolluants des EP urbaines: synthèse des résultats des campagnes de mesures INOGEV.
6. 6. Percot, S., Ruban, V., Roupsard, P., Maro, D., & Millet, M. (2011). An original device to measure dry aerosol deposition: First results on the Pin Sec catchment in Nantes, France.
PUD
1. 1. Bensalma, A., Musy, M., & Soignon, J. (2013). Nantes, ville nature : pratiques et expérimentations / The nature city of Nantes: Practice and expérimentation. In J.-J. Terrin (éd.), Jardins en ville, villes en jardin (Parenthèses, p. 131‑153).2. 2. Hellier, E., & Dumont, M. (2010). Périphéries, sous condition urbaine. Vieux problème, nouveaux chantiers. In Les nouvelles périphéries urbaines. Formes, modèles et logiques de la ville contemporaine (p. 11‑21). Presses Universitaires de Rennes.
3. 3. Molina, G. (2013). L’architecte-urbaniste ou la figure de l’équilibriste: jongler avec les régimes de l’art, de la production et du service. In Travailler, produire, créer: Entre l’art et le métier.
AtSIG
1. 1. Bocher, E., & Petit, G. (2012). OrbisGIS: Un Système d’Information Géographique construit par et pour la recherche. In Développement logiciels en géomatique: innovations et mutualisation (p. 37‑73).2. 2. Bocher, E., & Petit, G. (2013). ORBISGIS: Geographical Information System Designed by and for Research. In Innovative Software Development in GIS (p. 23–66). John Wiley & Sons, Inc.