- صدیقیان فرد، م. و صولتیفر، ن. (2020). ”تحلیل مدلهای رگرسیونی پیشبینی دمای عمق لایههای آسفالتی - مطالعه مروری“، مهندسی عمران امیرکبیر، دوره 53، شماره 9، صفحات 21-21. شناسه دیجیتال (doi):
10.22060/CEEJ.2020.18131.6793
- صدیقیان فرد، م. و صولتیفر، ن. (a2021). ”توسعه مدل رگرسیونی غیرخطی پیشبینی دمای عمق لایههای آسفالتی با استفاده از دادههای LTPP – مطالعه موردی: ایالت اوهایو -آمریکا“، فصلنامه مهندسی حمل و نقل، در حال چاپ. شناسه دیجیتال (doi):
10.22119/JTE.2021.217101.2426
- AASHTO T317. (2009). “Prediction of Asphalt-Bound Pavement Layer Temperatures”, American Association of State Highway and Transportation Officials, Washington, D.C., USA.
- Akihiro, F., Akira, S. and Teruyuki, F. (2012). “A New Approach to Modeling Vehicle-Induced Heat and Its Thermal Effects on Road Surface Temperature”, Journal of Applied Meteorology and Climatology, Vol. 51. doi:
https://doi.org/10.1175/JAMC-D-11-0156.1
- Albayati, A. H. K. and Alani, A. M. M. (2015). “Temperature Prediction Model for Asphalt Concrete Pavement”, 14th Annual International Conference on Pavement Engineering and Infrastructure, Liverpool, UK.
- Ariawan, A., Sugeng Subagio, B. and Hario Setiadji, B. (2015). “Development of Asphalt Pavement Temperature Model for Tropical Climate Conditions in West Bali Region”, Procedia Engineering, Vol. 125, pp. 474-480. doi:
https://doi.org/10.1016/j.proeng.2015.11.126
- Asefzadeh, A., Hashemian, L. and Bayat, A. (2017) “Development of Statistical Temperature Prediction Models for a Test Road in Edmonton, Alberta, Canada”, International Journal of Pavement Research and Technology, Vol. 10, Issue. 5, pp. 369-382. doi:
https://doi.org/10.1016/j.ijprt.2017.05.004
- Chapman, L., Thornes, J. E. and Bradley, A. V. (2001). “Modeling of Road Surface Temperatures from a Geographical Parameter Database. Part. 1: Statistical”, Meteor. Appl., Vol. 8, pp. 409–419. doi:
https://doi.org/10.1017/S1350482701004030
- Clark, B. R., Gallage, C. and Yeaman, J. (2020). “Temperature Variation Through Deep Multigrade Asphalt Pavements and Proposed Method for Accounting for Fluctuations”, Journal of Materials in Civil Engineering, Vol. 32, Issue. 3. doi:
https://doi.org/10.1061/(asce)mt.1943-5533.0003059
- Diefenderfer, B. K., Al-Qadi, I. L. and Reubush, S. D. (2002). “Development and Validation of a Model to Predict Pavement 10 Advances in Civil Engineering Temperature Profile”, J. of the Transportation Research Board, Washington, D.C., USA.
- Fajing, P., Lei W., Jinke, J. and Wang, J. (2015). “A Research Review of Flexible Pavement Temperature Profile”, International Forum on ‘Energy, Environment Science and Materials’ (IFEESM), Shenzhen, China.
- FHWA. (1994). “LTPP Seasonal Monitoring Program: Instrumentation Installation and Data Collection Guidelines”, Report No. FHWA-RD-94-110. McLean, VA.
- Gedafa, D. S., Hossain, M. and Romanoschi, S. A. (2014). “Perpetual Pavement Temperature Prediction Model”, Journal of Road Materials and Pavement Design, Vol. 15, No. 1, pp. 55–65, doi:
http://dx.doi.org/10.1080/14680629.2013.852610
- Godoy, J., Haber, R., Muñoz, J. J., Matía, F. and García, Á. (2018). “Smart Sensing of Pavement Temperature Based on Low-Cost Sensors and V2I Communications”, Sensors (Basel), Vol. 18, No. 7. doi:
https://doi.org/10.3390/s18072092
- Hassan, H. F., Al-Nuaimi, A. S., Taha, R. and Jafar, T. M. A. (2005). “Development of Asphalt Pavement Temperature Models for Oman”, Journal of Engineering Research, Vol. 2, No. 1. pp. 32-42.
- Herb, W., Velasquez, R., Stefan, H., Marasteanu, M. O. and Clyne, T. (2011). “Simulation and Characterization of Asphalt Pavement Temperatures”, Road Mater. Pavement Design, Vol. 10, Issue. 1, pp. 233–247. doi:
https://doi.org/10.1080/14680629.2009.9690190
- Islam, M. R., Ahsan, S. and Tarefder, R. A. (2015). “Modeling Temperature Profile of Hot-Mix Asphalt in Flexible Pavement”, Journal of Pavement Research and Technology (IJPRT), Vol. 8, Issue. 8, No. 1, pp. 47-52.
- Kim, Y. R, and Lee, Y. C. (1995). “Interrelationships among Stiffnesses of Asphalt-Aggregate Mixtures”, Journal of the Association of Asphalt Paving Technologists, Vol. 64, pp. 575–609
- Matic, B., Matic, D., Sremac, S., Radovic, N. and Vidikant, P. (2014). “A Model for the Pavement Temperature Prediction at Specified Depth Using Neural Networks”, Metalurgija, Vol. 53, No. 4.
- Minhoto, J. C., Pais, J. C. and Pereira, A. A. (2005). “Asphalt Pavement Temperature Prediction”, Transportation Research Record: Journal of the Transportation Research Board, Vol. 1, No. 1919. pp. 96-110. doi:
https://doi.org/10.3141/1919-11
- Park, D. Y., Buch, N. and Chatti. K. (2001). “Effective Layer Temperature Prediction Model and Temperature Correction via Falling Weight Deflectometer Deflections”, Transportation Research Record: Journal of the Transportation Research Board, Vol. 1764, Issue. 1, pp. 97–111. doi:
https://doi.org/10.3141/1764-11
- Park, H. M., Kim, Y. R. and Park, S. (2002). “Temperature Correction of Multiload-Level Falling-Weight Deflectometer Deflections”, Transportation Research Record, Vol. 1806, pp. 3–8. doi:
https://doi.org/10.3141/1806-01
- Pellinen, T. K. (2001). “Investigation of the Use of Dynamic Modulus as an Indicator of Hot-Mix Asphalt Performance”, Ph.D. Thesis, School of Sustainable Engineering and the Built Environment, Arizona State University.
- Petersen, C. and Mahura, A. (2012). “Influence of the Pavement Type on the Road Surface Temperature”, In 16th International Road Weather Conference, May (23-25), Helsinki, Finland.
- Ramadhan, R. H. and Wahhab, A. H. (1997). “Temperature Variation of Flexible and Rigid Pavements in Eastern Saudi Arabia”, Journal of Building and Environment, Vol. 32, No. 4, pp. 367-373, Printed in Great Britain. doi:
https://doi.org/10.1016/S0360-1323(96)00072-8
- Rayer, P. J. (1987). “The Meteorological Office Forecast Road Surface Temperature Model”, Meteor. Magazine, Vol. 116, pp. 180–191.
- Shao, L., Park, S. W. and Kim, Y. R. (1997). “Simplified Procedure for Prediction of Asphalt Pavement Subsurface Temperatures Based on Heat Transfer Theories”, Transportation Research Record, Vol. 1568, pp. 114–123. doi:
https://doi.org/10.3141/1568-14
- Solatifar, N., Abbasghorbani, M., Kavussi, A. and Sivilevičius, H. (2018). “Prediction of Depth Temperature of Asphalt Layers in Hot Climate Areas”, Journal of Civil Engineering and Management, Vol. 24, No. 7, pp. 516-525. doi:
https://doi.org/10.3846/jcem.2018.6162
- Solatifar, N., Kavussi, A. and Abbasghorbani, M. (2021). “Dynamic Modulus Predictive Models for In-Service Asphalt Layers in Hot Climate Areas”, Journal of Materials in Civil Engineering, Vol. 33, Issue. 2. doi:
https://doi.org/10.1061/(ASCE)MT.1943-5533.0003511
- Stubstad, R. N., Baltzer, S., Lukanen, E. O. and Ertman-Larsen, H. J. (1994). “Prediction of AC Mat Temperatures for Routine Load-Deflection Measurements, In 4th International Conference on the ‘Bearing Capacity of Roads and Airfields’, Minneapolis, Minnesota, USA.
- Tabatabaie, S. A., Ziari, H. and Khalili, M. (2008). “Modeling Temperature and Resilient Modulus of Asphalt Pavements for Tropic Zones of Iran”, Asian Journal of Scientific Research, Vol. 1, pp. 579-588. doi:
10.3923/ajsr.2008.579.588
- Velasquez, R., Marasteanu, M., Clyne, T. R. and Worel, B. (2008). “Improved Model to Predict Flexible Pavement Temperature Profile”, In 3rd International Conference on Accelerated Pavement Testing (APT) ‘Impacts and Benefits from APT Programs’, Madrid, Spain.