Sébastien Langlois

Financement

• Subvention. Évaluation et suivi du comportement structural du réseau aérien de transport d'énergie. Natural Sciences and Engineering Research Council (Ottawa, Canada). 194 459 $. (2023-2024).
  Numéro de subvention : 558281-2020. Voir plus
• Subvention. Approche multi-échelle pour l'évaluation de la vie en fatigue des conducteurs de lignes aériennes de transport d'énergie. Natural Sciences and Engineering Research Council (Ottawa, Canada). 43 000 $. (2022-2023).
  Numéro de subvention : RGPIN-2022-04050. Voir plus
• Subvention. Évaluation de la réponse non linéaire des structures sous charges de vent à l'aide de méthodes numériques temporelles. Natural Sciences and Engineering Research Council (Ottawa, Canada). 24 000 $. (2020-2021).
  Numéro de subvention : RGPIN-2016-03788. Voir plus
• Subvention. Central Control System for Characterizing Mechanical Behaviour of Materials. Natural Sciences and Engineering Research Council (Ottawa, Canada). 150 000 $. (2020-2021).
  Numéro de subvention : RTI-2021-00584. Voir plus
• Subvention. Méthode de corrélation d'images virtuelles appliquée aux mesures de déplacements des structures de lignes de transport d'énergie. Fonds de Recherche du Québec – Nature et Technologies (Montreal, Canada). 18 300 $. (2019-2021).
  Numéro de subvention : 278410. Voir plus
• Subvention. Méthodes d'analyse numériques avancées pour optimiser la conception et la durée de vie des lignes aériennes de transport d'énergie électrique. Natural Sciences and Engineering Research Council (Ottawa, Canada). 159 500 $. (2018-2019).
  Numéro de subvention : 515125-2017. Voir plus
• Subvention. Évaluation des méthodes de mesure des propriétés dynamiques des pylônes de télécommunications tubulaires en acier************. Natural Sciences and Engineering Research Council (Ottawa, Canada). 25 000 $. (2018-2019).
  Numéro de subvention : 537910-2018. Voir plus
• Subvention. Système de corrélation d'images numériques pour l'évaluation du comportement des structures à treillis en acier. Canada Foundation for Innovation (Ottawa, Canada). 84 000 $. (2018).
  Numéro de subvention : 37689. Voir plus
• Subvention. Caméras haute vitesse avec logiciel de contraste interférentiel différentiel. Natural Sciences and Engineering Research Council (Ottawa, Canada). 150 000 $. (2016-2017).
  Numéro de subvention : RTI-2017-00610. Voir plus
• Subvention. Intégration de méthodes d'analyses avancées pour l'analyse et la conception des structures de lignes de transport d'énergie. Natural Sciences and Engineering Research Council (Ottawa, Canada). 435 000 $. (2015-2018).
  Numéro de subvention : 476503-2014. Voir plus
• Subvention. développement d'une approche nouvelle pour la prédiction des vibrations écoliennes sur les conducteurs de lignes de transport d'énergie. Natural Sciences and Engineering Research Council (Ottawa, Canada). 35 000 $. (2010-2011).
  Numéro de subvention : grant.2788851. Voir plus
• Subvention. Développement d'une approche nouvelle pour la prédiction des vibrations éoliennes sur les conducteurs de lignes de transport d'énergie. Fonds de Recherche du Québec – Nature et Technologies (Montreal, Canada). 13 333 $. (2009-2012).
  Numéro de subvention : 133159. Voir plus
• Subvention. développement d'une approche nouvelle pour la prédiction des vibrations écoliennes sur les conducteurs de lignes de transport d'énergie. Natural Sciences and Engineering Research Council (Ottawa, Canada). 35 000 $. (2009-2010).
  Numéro de subvention : grant.2878670. Voir plus
• Subvention. Nouvelle methode de calcul des lignes de transport aériennes sous vents de rafales. Natural Sciences and Engineering Research Council (Ottawa, Canada). 17 300 $. (2006-2007).
  Numéro de subvention : grant.2798275. Voir plus
• Subvention. Nouvelle methode de calcul des lignes de transport aériennes sous vents de rafales. Natural Sciences and Engineering Research Council (Ottawa, Canada). 17 500 $. (2005-2006).
  Numéro de subvention : grant.2804923. Voir plus

Publications

Articles

• Shima Zamanian, Sébastien Langlois. (2026). Prediction of Aeolian Vibrations in Conductors Equipped With Bretelles. IEEE Transactions on Power Delivery. DOI
• Yang, S., Chouinard, L., Langlois, S., Van Dyke, P., Paradis, J. (2025). Evaluation of Fatigue Damage for Undamped Overhead Conductors Under Aeolian Vibration. IEEE Transactions on Power Delivery. DOI
• *Leroux M, Ture Savadkoohi A, Langlois S, Bouaanani N, Van Dyke P. (2025). Galloping control of transmission lines using nonlinear absorbers. Nonlinear Dynamics.
• Gaillet, L., Rondineau, A., Langlois, S., Demers, M., Dieng, L. (2025). Microstructural and Mechanical Characterization of Corroded Aluminum Wires from ACSR Strand. Corrosion and Materials Degradation. DOI
• Jabornegg, S., Baumann, R., Langlois, S., Rocha, P.H.C. (2024). A multi-scale finite element beam-to-solid submodelling strategy to compute contact stresses in multi-layered stranded cables. Cigre Science and Engineering.
• *Bahari M, Langlois S, Prud'homme S. (2024). Determination of the Soil-Foundation Stiffnesses in Lattice Tower Structures for Numerical Modeling Applications. CIGRE Science & Engineering.
• Yang, S., Chouinard, L., Langlois, S., Van Dyke, P., Paradis, J. (2024). Predicting distribution of aeolian vibration amplitude of undamped overhead transmission lines. Journal of Wind Engineering and Industrial Aerodynamics. DOI
• Ahmat, A.M.A., Langlois, S., Labossière, P. (2024). Strain distribution and failure modes of steel lattice tower gusset plates as a function of their geometry. Structures. DOI
• Chehrazad, S., Mohebbi, S., Lamarche, C.-P., Langlois, S., Desrochers, A., Talatahari, S. (2023). Design and Optimization of Aluminum Member’s Sections for Building Efficient 120–160 kV Power Transmission Towers †. Engineering Proceedings. DOI
• *Omrani A, S Langlois, Demers M, Binette L. (2023). Effect of temperature on overhead aluminium and aluminium alloy conductor creep. CIGRE Science & Engineering.
• *Rocha P H C, Langlois S, Lalonde S, Araujo J A, Castro F. (2023). Influence of 1350 and 6201 aluminum alloys on the fatigue life of overhead conductors---A finite element analysis. Tribology International.
• Leroux, M., Langlois, S., Ture Savadkoohi, A. (2023). Investigation of nonlinear control of galloping with a linear beam with elastic boundary conditions. International Journal of Non Linear Mechanics. DOI
• Zamanian, S., Langlois, S., Loignon, A., Savadkoohi, A.T., Francois, M.L.M. (2023). Modelling the Flexural Hysteresis Behaviour of Bretelle Dampers Based on a Quasi-Static Bending Test. IEEE Transactions on Power Delivery. DOI
• Pourshargh, F., Legeron, F.P., Langlois, S., Saoud, K.S. (2022). A SIMPLE METHOD FOR A RELIABLE MODELLING OF THE NONLINEAR BEHAVIOUR OF BOLTED CONNECTIONS IN STEEL LATTICE TOWERS. Advanced Steel Construction. DOI
• *Rocha P H C, Langlois S, Lalonde S, Araujo J A, Castro F C. (2022). A general life estimation method for overhead conductors based on fretting fatigue behavior of wires. Theoretical and Applied Fracture Mechanics.
• *Rondineau A, Gaillet L, Dieng L, Langlois S. (2022). Degradation of Steel Wires in Bimetallic Aluminum--Steel Conductors Exposed to Severe Corrosion Conditions. Corrosion and Materials Degradation.
• Rondineau, A., Gaillet, L., Dieng, L., Langlois, S. (2022). Degradation of Steel Wires in Bimetallic Aluminum–Steel Conductors Exposed to Severe Corrosion Conditions. Corrosion and Materials Degradation. DOI
• Omrani, A., Dieng, L., Langlois, S., Van Dyke, P. (2022). Friction Properties at the Contact Interfaces of Overhead Line Aluminium Conductors. IEEE Transactions on Power Delivery. DOI
• Yang, S., Chouinard, L.E., Langlois, S. (2022). Hourly wind data for aeolian vibration analysis of overhead transmission line conductors. Journal of Wind Engineering and Industrial Aerodynamics. DOI
• Li, L., Gérard, L., Langlois, S., Boissonnade, N. (2022). O.I.C.-based design of mono-symmetric I-sections under simple load cases. Thin Walled Structures. DOI
• Thomas, O.O., Chouinard, L., Langlois, S. (2022). Probabilistic Fatigue Fragility Curves for Overhead Transmission Line Conductor-Clamp Assemblies. Frontiers in Built Environment. DOI
• *Sad Saoud, K; Langlois, S; Bouchard, PL; Lamarche, CP. (2021). A numerical procedure for the analysis of the buckling and post-buckling behavior of steel lattice transmission line towers. CIGRE Science & Engineering.
• Omrani, A., Langlois, S., Van Dyke, P., Lalonde, S., Karganroudi, S.S., Dieng, L. (2021). Fretting fatigue life assessment of overhead conductors using a clamp/conductor numerical model and biaxial fretting fatigue tests on individual wires. Fatigue and Fracture of Engineering Materials and Structures. DOI
• Pourshargh, F., Legeron, F.P., Langlois, S. (2019). Modeling the local buckling failure of angle sections with beam elements. Advanced Steel Construction. DOI
• Prud'homme, S., Legeron, F., Langlois, S. (2018). Calculation of wind forces on lattice structures made of round bars by a local approach. Engineering Structures. DOI
• Kaabia, B., Langlois, S., Maheux, S. (2018). Effect of structure configurations and wind characteristics on the design of solar concentrator support structure under dynamic wind action. Wind and Structures an International Journal. DOI
• Lalonde, S., Guilbault, R., Langlois, S. (2018). Numerical analysis of ACSR conductor-clamp systems undergoing wind-induced cyclic loads. IEEE Transactions on Power Delivery. DOI
• *Lalonde S, Guilbault R, Langlois S. (2018). Numerical analysis of ASCR conductor-clamp systems undergoing wind-induced cyclic loads. IEEE Transactions on Power Delivery.
• Rezaei, S.N., Chouinard, L., Langlois, S., Légeron, F. (2017). A probabilistic framework based on statistical learning theory for structural reliability analysis of transmission line systems. Structure and Infrastructure Engineering. DOI
• Kaabia, B., Langlois, S., Légeron, F. (2017). Full-scale measurement of the response of a CPV tracker structure prototype under wind load. Solar Energy. DOI
• Golzan, S.B., Langlois, S., Legeron, F.P. (2017). Implementation of a simplified method in design of hysteretic dampers for isolated highway bridges. Journal of Bridge Engineering. DOI
• Lalonde, S., Guilbault, R., Langlois, S. (2017). Modeling multilayered wire strands, a strategy based on 3D finite element beam-to-beam contacts - Part II: Application to wind-induced vibration and fatigue analysis of overhead conductors. International Journal of Mechanical Sciences. DOI
• Rezaei, S.N., Chouinard, L., Langlois, S., Légeron, F. (2016). Analysis of the effect of climate change on the reliability of overhead transmission lines. Sustainable Cities and Society. DOI
• Tajeuna, T.A.D., Légeron, F., Langlois, S., Labossière, P., Demers, M. (2016). Effect of geometric parameters on the behavior of bolted GFRP pultruded plates. Journal of Composite Materials. DOI
• *Tajeuna T, Légeron F, Langlois S, Labossiere P, Demers M. (2016). Experimental investigation of multi-material aluminium-to-steel and GFRP-to-steel bonded and bolted/bonded connections. Canadian Journal of Civil Engineering.
• Tajeuna, T.A.D., Légeron, F., Langlois, S., Labossière, P., Demers, M. (2016). Experimental investigation of multi-material aluminum-tosteel and glass fiber reinforced polymer-to-steel bonded and bolted–bonded connections. Canadian Journal of Civil Engineering. DOI
• *Golzan B, Langlois S, Légeron F. (2016). Implementation of simplified method in design of hysteretic dampers for isolated highway bridges. Journal of Bridge Engineering.
• Tajeuna, T.A.D., Légeron, F., Labossière, P., Demers, M., Langlois, S. (2015). Effect of geometrical parameters of aluminum-to-steel bolted connections. Engineering Structures. DOI
• Lévesque, F., Goudreau, S., Langlois, S., Légeron, F. (2015). Experimental Study of Dynamic Bending Stiffness of ACSR Overhead Conductors. IEEE Transactions on Power Delivery. DOI
• Penagos-Sanchéz, D.M., Légeron, F., Demers, M., Langlois, S. (2015). Strengthening of the Net Section of Steel Elements under Tensile Loads with Bonded CFRP Strips. Journal of Composites for Construction. DOI
• Langlois, S., Legeron, F. (2014). Prediction of aeolian vibration on transmission-line conductors using a nonlinear time history model - Part I: Damper model. IEEE Transactions on Power Delivery. DOI
• Langlois, S., Legeron, F. (2014). Prediction of aeolian vibration on transmission-line conductors using a nonlinear time history model - Part II: Conductor and damper model. IEEE Transactions on Power Delivery. DOI
• Langlois, S., Legeron, F., Levesque, F. (2014). Time history modeling of vibrations on overhead conductors with variable bending stiffness. IEEE Transactions on Power Delivery. DOI
• Beaulieu, L.-V., Legeron, F., Langlois, S. (2010). Compression strength of corroded steel angle members. Journal of Constructional Steel Research. DOI

Articles de conférence

• Joseph R, Amor B, Langlois S. (2025). Comparison of the environmental impacts of aluminum and steel transmission towers in Québec. CIGRE Symposium.
• *Soltaniazar S, Demers M, Loignon A, Davaran A, Lamarche C P, Langlois S, Desrochers A. (2025). Novel Aluminium Connections: Structural Behavior and Application in Transmission Towers. CIGRE Symposium.
• *Felippe Duarte De Oliveira P, Langlois S, Van Dyke P. (2025). Numerical and experimental study of the relationship between the inverted bending amplitude and the bending amplitude of transmission line conductors. CIGRE Symposium.
• Lalonde, S., Kared, L., Guilbault, R., Langlois, S. (2024). 3D Finite Element Modelling of Conductor-Clamp Assemblies Under Cyclic Bending: Sensitivity Analysis of Wire Contact Coefficient of Friction. Lecture Notes in Civil Engineering. DOI
• Li, L., Chehrazad, S., Mohebbi, S., Loignon, A., Demers, M., Lamarche, C.-P., Langlois, S. (2024). Analyzing the Buckling Behavior of Steel Angle Sections in Transmission Towers. Proceedings of the Annual Stability Conference Structural Stability Research Council Ssrc 2024.
• *Bahari A, Langlois S, Prud'homme S. (2024). Effects of Differences in Soil-Foundation System Stiffnesses on the Behaviour of Lattice Tower Structures. CSCE Annual Conference.
• Kared, L., Lalonde, S., Langlois, S., Guilbault, R. (2024). Numerical Characterization of Overhead Conductor Local Loading Conditions at Wire Contact Points in the Vicinity of Suspension Clamps. Lecture Notes in Civil Engineering. DOI
• *Yang S, Chouinard L, Langlois S, Van Dyke P, Paradis J. (2024). Probabilistic Assessment of the Residual Life of Overhead Conductors Under Aeolian Vibrations. CIGRE Paris session.
• Yang, S., Chouinard, L., Langlois, S., Paradis, J., Van Dyke, P. (2024). Statistical Study of Aeolian Vibration Characteristics of Overhead Conductor. Lecture Notes in Civil Engineering. DOI
• Bahari, M., Langlois, S., Prud’homme, S. (2023). Assessment of Pullout Stiffness of Grillage Foundations in Lattice Tower Structures. Lecture Notes in Civil Engineering. DOI
• *Chehrazad S, *Mohebbi S, Lamarche C-P, Langlois S, Desrochers A, Talatahari S. (2023). Design and Optimization of Aluminum Member's Sections for Building Efficient 120--160 kV Power Transmission Towers. INALCO.
• *Kubelwa D K, Hassanipour M, Langlois S. (2023). On The Degradation Assessment of ACSR Condor Conductors Aged on Operational Conditions and Environment Using Electrical and Thermal. CIGRE Canada Conference & Exhibition.
• Ahmat, A.M.A., Langlois, S., Labossière, P., Saoud, K.S. (2022). Experimental Study on the Effect of Gusset Plates' Geometry on the Behavior of Steel Lattice Transmission Line Tower Connections. Electrical Transmission and Substation Structures 2022 Innovating for Critical Global Infrastructure Proceedings of the Electrical Transmission and Substation Structures Conference 2022. DOI
• *Zamanian S, Ture Savadkoohi A, Langlois S. (2022). Modelling the nonlinear mechanical characteristics of a slack cable using Bouc-Wen model. Conference: ENOC2020 : 10th European Nonlinear Dynamics Conference.
• *Rocha P H, Lalonde S, Araujo J A, Langlois S. (2021). Failure zone prediction of an all aluminum alloy conductor using the Smith-Watson-Topper fatigue parameter. International Symposium on Dynamics and Aerodynamics of Cables.
• *Omrani A, Langlois S, Van Dyke P. (2021). Fretting fatigue life of individual wires in a wire-to-clamp contact configuration under uniaxial and biaxial loading. International Symposium on Dynamics and Aerodynamics of Cables.
• Thomas, O.O., Chouinard, L.E., Langlois, S. (2020). A Probabilistic Stress - Life Model for Fretting Fatigue of Aluminum Conductor Steel Reinforced Cable - Clamp Systems. Lecture Notes in Mechanical Engineering. DOI
• *Omrani A, Langlois S, Van Dyke P, *Sattarpanah Karganroudi S, Lalonde S. (2019). Fatigue strength evaluation for individual strands of overhead conductors using a biaxial fretting fatigue test bench. 12th International Conference on Multiaxial Fatigue and Fracture.
• Maheux, S., Langlois, S., Légeron, F. (2019). Flutter analysis using quasi-steady time-domain flutter derivatives. 20th Congress of IABSE New York City 2019 the Evolving Metropolis Report.
• *Kammouh R, *Sad Saoud K, Lamarche C-P, Langlois S, Loignon A. (2019). Substructuring strategy for pseudo-dynamic testing of steel lattice towers. CSCE Annual Conference.
• Gravel, G., Bouchard, P.-L., Prudhomme, S., Sad Saoud, K., Langlois, S. (2018). Assessment of the effect of residual stresses on the mechanical behavior of steel lattice transmission towers. 6th International Structural Specialty Conference 2018 Held as Part of the Canadian Society for Civil Engineering Annual Conference 2018.
• *Sad Saoud K, Langlois S, Loignon A, Lamarche C P. (2018). Failure analysis of transmission line steel lattice towers subjected to extreme loading. Annual Conference of the Canadian Society for Civil Engineering.
• Tajeuna, T., Langlois, S. (2018). Resistance and failure modes of cold-formed lipped angle subjected to tensile load. Csce General Conference 2018 Held as Part of the Canadian Society for Civil Engineering Annual Conference 2018.
• Arenas, O., Norman, R., Prytula, R., Larkin, D., De St-Croix, F., Langlois, S., Aimez, V., Ares, R., Frechette, L.G. (2017). A 1000x utility-scale parabolic frame tracker for multidisciplinary CPV research. Aip Conference Proceedings. DOI
• *Parent L-P, Langlois S, *Sad Saoud K. (2017). Evaluation of phase-to-phase clearances of transmission line conductors under turbulent wind. International Symposium on the Dynamics and Aerodynamics of Cable.
• Sabbek, T., Langlois, S., Légeron, F. (2017). Influence of damping and force hypotheses for evaluating ductility demand of structures subjected to time history wind loading. 2017 Americas Conference on Wind Engineering Acwe 2017.
• *Maheux S, Langlois S, Légeron F. (2017). Study on extraction parameters of flutter derivatives for the development of a time-domain formulation of self-excitedforces. 7th European-African Conference on Wind Engineering.
• Kaabia, B., Langlois, S., Maheux, S., Légeron, F. (2017). Time-domain analysis of solar concentrator structure under gust wind. 2017 Americas Conference on Wind Engineering Acwe 2017.
• *Boudou M, Langlois S, *Sad Saoud K. (2017). Time-domain numerical model of substation conductor span subjected to short-circuit loading. International Symposium on the Dynamics and Aerodynamics of Cable.
• *Golzan B, Langlois S, Légeron, F. (2016). Experimental approach to the design of hysteretic metallic dampers for isolated highway bridges using simplified method. Annual Conference of the Canadian Society for Civil Engineering.
• Behnam, S., Langlois, S., Legeron, F.P. (2016). Experimental testing of a new hysteretic damper for base isolated bridges. Proceedings Annual Conference Canadian Society for Civil Engineering.
• Langlois S, Prud'homme S, Légeron F, *Pourshargh F. (2016). Review of advanced modelling methods for lattice steel towers. CIGRE-IEC Colloquium.
• Loignon A, Langlois S, Lamarche C-P, Légeron F. (2016). Testing steel lattice towers with a hybrid (numerical/ experimental) method. Session CIGRÉ.
• Naouali, O.L., Langlois, S., Légeron, F. (2015). Effect of the design resistance of structures on the extent of transmission line cascading failures. Proceedings Annual Conference Canadian Society for Civil Engineering.
• Golzan, S.B., Langlois, S., Legeron, F. (2015). Simplified design method for energy dissipating devices in retrofitting of seismically isolated bridges. Proceedings Annual Conference Canadian Society for Civil Engineering.
• *Rezaei S N, Chouinard L E, Légeron F, Langlois S. (2015). Vulnerability analysis of transmission towers subjected to unbalanced climatic loads. ICASP 2015.
• Rezaei, S.N., Chouinard, L., Legeron, F., Langlois, S. (2015). Vulnerability analysis of transmission towers subjected to unbalanced ice loads. 12th International Conference on Applications of Statistics and Probability in Civil Engineering Icasp 2015.
• Foti F, Langlois S, Martinelli L, Légeron F. (2013). Modeling and parameter identification of a vibration damper for overhead transmission lines. AIMETA Conference.
• Lévesque F, Goudreau S, Langlois S, Légeron F. (2011). Experimental study of dynamic bending stiffness of overhead conductors. 9th International Symposium on Cable Dynamics.
• Langlois S, Lévesque F, Légeron F. (2011). Finite element model of vibrating overhead conductors with variable bending. 9th International Symposium on Cable Dynamics.
• Dubuc J, Langlois S, Légeron F. (2011). Prediction of the compressive capacity of steel angles: Evaluation of Eurocode and other international codes with existing experimental data. Eurosteel 2011.
• Langlois S, Lévesque F, Légeron F. (2010). Time history finite element modeling of a vibrating transmission line conductor. 3rd Symposium on the Mechanics of Slender Structures.
• Langlois S, Gani F, Légeron F. (2010). Wind loading on transmission line conductors: comparison between industry documents, field measurements and advanced methods. EDM International Conference on Overhead Lines Design, Construction, Inspection, and Maintenance.
• Beaulieu, L.-V., Legeron, F., Langlois, S., Prud'homme, S. (2009). Residual capacity in compression of corroded steel angle members. ASCE Electrical Transmission and Substation Structures Conference.
• McClure, G., Langlois, S., Rogier, J. (2008). Understanding how overhead lines respond to localized high intensity wind storms. Proceedings of the 2008 Structures Congress Structures Congress 2008 Crossing the Borders. DOI

Rapports

• CIGRE WG B2.81. (2025). Increasing the Strength Capacity of Existing Overhead Transmission Line Structures. Brochure 964. CIGRE.
• CIGRE WG B2.68. (2023). Sustainability of overhead line conductors and fittings -- Conductor condition assessment and life extension, Volume 1 : State of the art. Technical Brochure 905. CIGRE.
• CIGRE Working Group B2.24. (2020). Dynamic loading effects on overhead lines: Impact on structures. Technical brochure 809. CIGRE.
• CIGRE Working Group B2.61. (2020). Transmission lines with Fiber Reinforced Polymer (FRP) composites. Technical brochure 818. CIGRE.
• Loignon A, Légeron F, Lamarche C-P, Langlois S. (2015). Développement d'un protocole d'essai hybride par sous-structuration pour les pylônes à treillis.
• Langlois S. (2013). Mesure des sollicitations sur un portique d'ancrage 63 kV soumis à des charges de court-circuit.
• McClure G, Gagnon D, Haldar A., Lake R, Langlois S, Rogier J, Savory E, Thorn C. (2008). How overhead lines respond to localized high intensity winds: basic understanding. CIGRE.

Autres contributions

Cours enseignés ou supervisés à l'UdeS

• GCI205 - Structures II. (2024-2026). (3CR).
• GCI815 - Projet de conception en génie civil I. (2026). (3CR).
• GCI756 - Structures de lignes aériennes électriques. (2024-2025). (3CR).
• GCI760 - Structures de lignes aériennes électriques. (2025). (2CR).
• GCI805 - Projet de développement en génie civil II. (2024-2025). (6CR).
• GCI900 - Projet de conception en génie civil. (2023-2025). (6CR).
• GCI804 - Projet de développement en génie civil I. (2024). (3CR).
• GBA950 - Projet de spécialité en génie du bâtiment. (2023). (3CR).