ASCE/SEI 7-10, 2010. Minimum Design Loads for Buildings and Other Structures. Structural Engineering Institute of ASCE, Reston, VA.
ASCE, 1999. Wind Tunnel Studies of Buildings and Structures. Manual of Practice No. 67, American Society of Civil Engineers, Reston, VA, 20191-4400, USA.
ASCE, 2012. Wind Tunnel Testing for Buildings and Other Structures. ASCE Standard (ASCE/SEI 49-12), American Society of Civil Engineers, Reston, VA, 20191, USA.
AS/NZS 1170.2 (2011). Australian/New Zealand Standard for Structural Design Actions, part 2: Wind Actions. Sydney, New South Wales, Australia: Standards Australia and Standards New Zealand.
Blackmore, P. A., 1988. Load Reduction on Flat Roofs – The Effect of Edge Profile. Journal of Wind Engineering and Industrial Aerodynamics, 29, 1-3, 89–98. 
Barnaud, G., Gandemer, J., 1974. Determination en Soufflerie Simulant le Vent Naturel des Coefficients de Pression sur les Structures Basses. Section Aerodynamique des Constructions ADYM-12.74, Centre Scientifique et Technique du Batiment, Etablissement de Nantes.
Baskaran, A., Stathopoulos, T., 1988. Roof Corner Wind Loads and Parapet Configurations, Journal of Wind Engineering and Industrial Aerodynamics, 29, 1-3, 79–88.
Cermak, J.E, 1975. Applications of Fluid Mechanics to Wind Engineering – A Freeman Scholar Lecture. Journal of fluids Engineering, March. Pp. 9-38.
Cochran, L.S., Cermak, J.E., 1992. Full- and Model-Scale Cladding Pressures on the Texas Tech Experimental Building. Journal of Wind Engineering and Industrial Aerodynamics, 43, 1589–1600.
Cook, N.J., 1990. The Designer’s Guide to Wind Loading of Buildings Structures, Part 2: Static Structures, BRE, Gariston.
Davenport A.G., 1983. On the Assessment of the Reliability of Wind Loading on Low Buildings. Journal of Wind Engineering and Industrial Aerodynamics, 11, 21-37. 
Davenport, A. G., Surry, D., 1974.  Pressures on Low Rise Structures in Turbulent Wind. Presented at the Canadian Structural Engineering Conference, Toronto.
Davenport, A.G., Surry, D., Stathopoulos, T, 1977. Wind Loads on Low-Rise Buildings, Final Report on Phases I and II. BLWT-SS7, The University of Western Ontario, London, Ontario, Canada.
Davenport, A.G., Surry, D., Stathopoulos, T, 1978. Wind Loads on Low-Rise Buildings, Final Report on Phase III. BLWT-SS8, The University of Western Ontario, London, Ontario, Canada.
Durst, C.S, 1960. Wind Speeds Over Short Periods of Time. Meteor. Magazine, 89, 181-187.
Eaton, K.J., Mayne, J.R., 1975. The Measurements of Wind Pressures on Two-Story Houses at Aylesbury. Journal of Wind Engineering and Industrial Aerodynamics, 1(1), 67-109.
Elsharawy, M., Galal, K., Stathopoulos, T., 2014. Comparison of Wind Tunnel Measurements with NBCC 2010 Wind-induced Torsion Provisions for Low- and Medium-rise Buildings. Canadian Journal of Civil Engineering, 41(5), 409-420.
Evans, B. H., 1957. Natural Air Flow Around Buildings. Texas Engineering Experimental Station Research Report 59, College Station, Texas.
EN 1991-1-4, 2005. Eurocode 1, 2005: Actions on Structures-General actions-Part 1-4: Wind Actions, European Standard.
Garret, J.R., 1994. The Atmospheric Boundary Layer, Cambridge University Press (Cambridge).
Gerhardt, H. J., Kramer, C., 1992. Effect of Building Geometry on Roof Wind Loading. Journal of Wind Engineering and Industrial Aerodynamics, 43, 1765–1773.
Geurts, C.P.W, Bentum, C.V., 2007. Wind Loading on Buildings: Eurocode and Experimental Approach, in T. Stathopoulos and C.C. Baniotopoulos, Wind Effects on Buildings and Design of Wind-Sensitive Structures, New York, pp. 31-65, Springer.
Geurts, C.P.W., Kopp, G.A., Morrison, M.J., 2013. A Review of the Wind Loading Zones for Flat Roofs in Code Provisions. Conference Paper: 6th European and African Conference on Wind Engineering, (EACWE 2013), Cambridge, (pp. 1-9). 
Ginger, J.D., Reardon, G.F., Whitbread, B.J., 2000. Wind Load Effects and Equivalent Pressures on Low-Rise House Roofs. Engineering Structures, 22(6), 638-646.
Hee, J., Bienkiewicz, B., 1998. Wind Tunnel Simulation of TTU Flow and Building Roof Pressure. Journal of Wind Engineering and Industrial Aerodynamics. 77-78, 119-133.
Hellers, G., Lundgren, S., 1974. Wind Loads on Generally Shaped House Bodies-Model Tests. Report R22: 1974, National Swedish Building Research Summaries.
Hillier, R., 1973. An Investigation of the Cladding Wind Loads on Model of Hartlepool Switch House. CERL Report RDL/N227/73, Central Electricity Research Laboratories, Surrey, England.
Ho, T.C.E., Surry, D., Morrish, D., Kopp, G.A., 2005. The UWO Contribution to the NIST Aerodynamic Database for Wind on Low Buildings: Part 1. Archiving Format and Basic Aerodynamic Data. Journal of Wind Engineering and Industrial Aerodynamics, 93, 1-30.
Holmes, J. D., 1986. Wind Pressures on Tropical Housing. Journal of Wind Engineering and Industrial Aerodynamics, 53, 1-2, 105–123.
Holmes, J.D., 1993.Wind Loads on Low-rise Buildings - A Review. CSIRO, Division of Building Research, Highett, Victoria, Australia.
Holmes, J.D., 2001. Wind Loading of Structures, Spon Press London, New York.
Holmes, J. D., Best, R.J., 1978. Wind Pressures on an Isolated High-Set House. James Cook University of North Queensland, Australia, Wind Engineering Report 3/78, Qeensland, Australia.
Jensen, M., 1958. The model Law for Phenomena in Natural Wind. Ingenioren (international edition), 2, 4, 121-128.
Jensen, M., Franck, N., 1965. Model-Scale Tests in Turbulent Wind, Parts I and II. The Danish Technical Press, Copenhagen.
Kasperski, M., 1996. Design Wind Loads for Low-rise Buildings: A Critical Review of Wind Load Specifications for Industrial Buildings. Journal of Wind Engineering and Industrial Aerodynamics, 61,169-179.
Kind, R. J., 1988.Worst Suctions Near Edges of Flat Rooftops with Parapets. Journal of Wind Engineering and Industrial Aerodynamics, 31, 2-3, 251–264.
Kramer, C., Gerhardt, H. J., 1975. Windbelastung auf Flachdachern. Published in Das Dechdeckerhandwerk, Koln. 96, 16.
Krishna, P., 1995. Wind Loads on Low Rise Buildings - A Review. Journal of Wind Engineering and Industrial Aerodynamics, 54-55, 383-396.
Leutheusser, H. J.,1964 .The Effects of Wall Parapets on the Roof Pressure Coefficient of Block-Type and Cylindrical Structures, Univ. Toronto, Dept. Mech. Eng., 1964, TP 6404.
Lin, J.X., Surry, D., 1998. The Variation of Peak Loads With Tributary Area Near Corners on Flat Low Building Roofs. Journal of Wind Engineering and Industrial Aerodynamics, 77-78, 185-196
Lin, J.X., Surry, D., Tieleman, H.W., 1995. The Distribution of Pressure Near Roof Corners of Flat Roof Low Buildings. Journal of Wind Engineering and Industrial Aerodynamics, 56, 235–265.
Marshall, R. D., 1974. A Study of Wind Pressures on a Single-Family Dwelling in Model and Full Scale. Proceedings of the Invitational Symposium on Full Scale Measurements of Wind Effects on Tall Buildings and Other Structures. Boundary Layer Wind Tunnel Laboratory, The University of Western Ontario, Canada, June 23-29.
Marshall, R.D., 1977. The Measurement of Wind Loads on a Full-Scale Mobile Home. National Bureau of Standards, U.S. Dep. of Commerce, Washington, D.C., NBSIR 77-1289.
Milford, R.V., Goliger, A.M., Waldech, J.L., 1992. Jan Smuts Experiment: Comparison of Full-Scale and Wind-Tunnel Results. Journal of Wind Engineering and Industrial Aerodynamics, 43, 1693-1704.
Minor, J.E., and Mehta K.C., 1979. Wind Damage Observations and Implications. Journal of the Structural Division. ASCE, November,  pp 2279-2291.
Morrison, M.J., Kopp, G.A., 2007. Evaluation of the ASCE 7-05 Definition of Edge and Corner Zones for Low-Rise Buildings. The Boundary Layer Wind Tunnel Laboratory, The University of Western Ontario, Faculty of Engineering, London, Ontario, Canada N6A 5B9.
NBC2010, 2010. User’s Guide-NBC 2010, Structural Commentaries (Part 4). Issued by the Canadian Commission on Buildings and Fire Codes, National Research Council of Canada.
Prandtl, L., 1905. Verhandlungen des dritten internationalen Mathematiker-Kongresses in Heidel berg 1904, Krazer, A. (ed.), Leipzig: Teubner, p. 484. English trans. Ackroyd, J. A. K., Axcell, B. P., Ruban, A. I. (eds.) 2001. Early Developments of Modern Aerodynamics. Oxford: Butterworth-Heinemann, p. 77.
Simiu, E., Scanlan, R.H., 1996. Wind Effects on Structures: Fundamentals and Applications to Design, third edition Wiley and Sons, New York.
Shoemaker, W.L., 2014. Insights into Wind Loads for Low-Rise Buildings. Structure Magazine.
Stathopoulos, T., 1975. Wind Pressure Loads on Flat Roofs. BLWT Report 3-1975, The University of Western Ontario, London, Ontario, Canada.
Stathopoulos, T., 1979. Turbulent Wind Action on Low-rise Buildings. Ph.D. Thesis, The University of Western Ontario, London, Ontario, Canada.
Stathopoulos, T., 1981. Wind Loads on Eaves of Low Buildings. Journal of the Structural Division, ASCE, 107(10), 1921-1934.
Stathopoulos, T., (1982). Techniques and Modeling Criteria for Measuring Area Averaged Pressures. International Workshop on Wind Tunnel Modeling Criteria and Techniques in Civil Engineering Applications, Gaithersburg, MD, p. 257 – 274, Cambridge University Press.
Stathopoulos, T., 1984-A. Design and Fabrication of a Wind Tunnel for Building Aerodynamics. Journal of Wind Engineering and Industrial Aerodynamics, 16, 361-376.
Stathopoulos, T., 1984-B. Wind Loads on Low-rise Buildings - A Review of the State of the Art, Engineering Structures, 6, 119–135.
Stathopoulos, T., Baniotopoulos, C.C., (2007). Wind Effects on Buildings and Design of Wind- Sensitive Structures.  SpringerWeinNewYork, ISBN 978-3-211-73075-1.
Stathopoulos, T., Dumitrescu-Brulotte, M., 1989. Design Recommendations for Wind Loading on Buildings of Intermediate Height. Canadian Journal of Civil Engineering, 16, 910-916.
Stathopoulos, T., Luchian, H.D., 1990. Wind Pressures on Buildings Configurations with Stepped Roofs. Canadian Journal of Civil Engineering, 17(4), 569-577.
Stathopoulos, T., Luchian, H., 1992. Wind-Induced Forces on Eaves of Low Buildings. Wind Engineering Society Inaugural Conference, Cambridge, England.
Stathopoulos, T., Saathoff, P., 1991. Wind Pressures on Roofs of Various Geometries. Journal of Wind Engineering and Industrial Aerodynamics, 38, 273-284.
Stathopoulos, T., Surry, D., 1983. Scale Effects in Wind Tunnel Testing of Low Buildings. Journal of Wind Engineering and Industrial Aerodynamics, 13, 313-326.
Stathopoulos, T., Marathe, R., Wu, H., 1999. Mean Wind Pressures on Flat Roof Corners Affected by Parapets: Field and Wind Tunnel Studies. Engineering Structures, 21, 629–638.
Stathopoulos, T., Surray, D., Davenport, A. G., 1985. A Simplified Model of Wind Pressure Coefficients for Low-Rise Buildings. In Proc. ICOSSAR’85.
Stathopoulos, T., Zhu, X., 1988. Wind Pressures on Buildings with Appurtenances. Journal of Wind Engineering and Industrial Aerodynamics, 31, 265-281.
Stathopoulos, T., Kumar, K.S., Mohammadiam, A.R., 1996. Design Wind Pressure Coefficients for Monoslope Roofs: A Time Series Approach. Journal of Wind Engineering and Industrial Aerodynamics, 65, 143-153.
St. Pierre, L.M., Kopp, G.A., Surry, D., Ho, T.C.E., 2005. The UWO Contribution to the NIST Aerodynamic Database for Wind on Low Buildings: Part 2. Comparison of Data with Wind Load Provisions. Journal of Wind Engineering and Industrial Aerodynamics, 93, 31-59. 
Surry, D., Kitchen, R. B., Davenport, A. G., 1977. Wind Loading of Two Hangars Proposed for Jeddah Airport, Saudi Arabia - A Rigid Model Study. Report unpublished, Boundary Layer Wind Tunnel Laboratory, The University of Western Ontario, London, Ontario, Canada.
Surry, D., Stathopoulos, T., 1978. An Experimental Approach to the Economical Measurements of Spatially Averaged Wind Loads. Journal of Wind Engineering and Industrial Aerodynamics, 2 (4), 385-97.
Uematsu, Y., Isyumov, N., 1999. Wind Pressures Acting on Low-Rise Buildings. Journal of Wind Engineering and Industrial Aerodynamics, 82, 1-25.
Uematsu, Y., Suzuya, J. and Nozawa, T., 1992. Building Damage in Aomori and Akita Prefectures Die to Typhoon No.19 of 1991, Journal of Wind Engineering, Japan Association for Wind Engineering, 51, 35-47.
Vickery, B. J., 1976. Wind Loads on Low-Rise Buildings. Presented at D.R.C Seminar, Darwin, March 30, Unpublished.
Wiren, B., 1971. Wind Tunnel Investigation of the Pressure Distribution on a Flat Roof with Different Edge Profiles. Translated From the Swedish, Library Communication 1606, Building Research Station.