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Personne :
Bouchard, Mathieu

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Bouchard

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Mathieu

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Université Laval. Département des sciences du bois et de la forêt

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ncf10804159

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PublicationRestreint

Optimization/simulation-based framework for the evaluation of supply chain management policies in the forest product industry

2012-12-13, Bouchard, Mathieu, Nour El Fath, Mustapha, Marier, Philippe, Gaudreault, Jonathan, Jerbi, Wassim, Lemieux, Sébastien, D'Amours, Sophie

This work describes a framework for the elaboration and evaluation of management policies for production and transportation supply chains in the forest product industry. The approach deals with the issue of coordination between the tactical and operational decision levels. First, we introduce LogiLab, a software system allowing to model the network and to optimize product flows in the supply chain. We than show how one can use this tactical aggregated plan to identify management policies that will guide day to day operations at the operational level. Finally, a discrete event simulation model allows assessing with more details what would be the impact of implementing these policies at the operational/execution level.

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PublicationAccès libre

Automatisation de la fonction de façonnage de deux têtes d’abatteuses-façonneuses : effets sur la productivité et le taux de conformité des billes façonnées

2016, Bouchard, Mathieu, Beaudoin, Daniel, LeBel, Luc

Pour rester compétitives, les entreprises forestières cherchent à contrôler leurs coûts d’approvisionnement. Les abatteuses-façonneuses sont pourvues d’ordinateurs embarqués qui permettent le contrôle et l’automatisation de certaines fonctions. Or, ces technologies ne sont pas couramment utilisées et sont dans le meilleur des cas sous-utilisées. Tandis que l’industrie manifeste un intérêt grandissant pour l’utilisation de ces ordinateurs, peu de travaux de recherche ont porté sur l’apport en productivité et en conformité aux spécifications de façonnage découlant de l’usage de ces systèmes. L’objectif de l’étude était de mesurer les impacts des trois degrés d’automatisation (manuel, semi-automatique et automatique) sur la productivité (m3/hmp) et le taux de conformité des longueurs et des diamètre d’écimage des billes façonnées (%). La collecte de données s’est déroulée dans les secteurs de récolte de Produits forestiers résolu au nord du Lac St-Jean entre les mois de janvier et d'août 2015. Un dispositif en blocs complets a été mis en place pour chacun des cinq opérateurs ayant participé à l’étude. Un seuil de 5 % a été employé pour la réalisation de l’analyse des variances, après la réalisation de contrastes. Un seul cas a présenté un écart significatif de productivité attribuable au changement du degré d’automatisation employé, tandis qu’aucune différence significative n’a été détectée pour la conformité des diamètres d’écimage; des tendances ont toutefois été constatées. Les conformités de longueur obtenues par deux opérateurs ont présenté des écarts significatifs. Ceux-ci opérant sur deux équipements distincts, cela laisse entrevoir l’impact que peut aussi avoir l’opérateur sur le taux de conformité des longueurs.

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On the risk of systematic drift under incoherent hierarchical forest management planning

2013-02-23, Bouchard, Mathieu, Paradis, Gregory, D'Amours, Sophie, LeBel, Luc

In theory, linkages between hierarchical forest management planning levels ensure coherent disaggregation of long-term wood supply allocation as input for short-term demand-driven harvest planning. In practice, these linkages may be ineffective, and solutions produced may be incoherent in terms of volume and value-creation potential of harvested timber. Systematic incoherence between planned and implemented forest management activities may induce drift of forest system state (i.e., divergence of planned and actual system state trajectories), thus compromising credibility and performance of the forest management planning process. We describe hierarchical forest management from a game-theoretic perspective and present an iterative two-phase model simulating interaction between long- and short-term planning processes. Using an illustrative case study, we confirm the existence of a systematic drift effect, which we attribute to ineffective linkages between long- and short-term planning. In several simulated scenarios, the planning process fails to ensure long-term wood supply sustainability, fails to reliably meet industrial fiber demand over time, and exacerbates incoherence between wood supply and fiber demand over several planning iterations. We show that manipulating linkages between long- and short-term planning processes can reduce incoherence and describe future work on game-theoretic planning process model formulations that may improve hierarchical planning process performance.

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PublicationAccès libre

Extending the classic wood supply model to anticipate industrial fibre consumption

2015-02-01, Bouchard, Mathieu, Paradis, Gregory, D'Amours, Sophie, LeBel, Luc

The classic wood supply optimisation model maximises even-flow harvest levels, and implicitly assumes infinite fibre demand. In many jurisdictions, this modelling assumption is a poor fit for actual fibre consumption, which is often a species-unbalanced subset of total fibre allocation. Failure to anticipate this bias in volume and species mix of industrial wood fibre consumption has been linked to increased risk of wood supply failure. In particular, we examine the distributed wood supply planning problem, which is a variant of the general wood supply planning problem where the roles of forest owner and fibre consumer are played by independent agents (e.g. wood supply planning on public forest land in Canada, where government stewards control wood supply and forest products industry firms consume the fibre). We use agency theory to describe the source of antagonism between public forest land owners (the principal) and industrial fibre consumers (the agent). We show that the distributed wood supply planning problem can be modelled more accurately using a bilevel formulation, and present an extension of the classic wood supply optimisation model which explicitly anticipates industrial fibre consumption behaviour. The general case of the bilevel wood supply optimisation problem is NP-hard, non-linear, and non-convex-it is difficult to solve to global optimality. By imposing certain restrictions on agent network topology, we show that the general case can be decomposed into convex sub-problems. We present a solution methodology that can solve this special case to global optimality, and compare output and solution times of classic and bilevel model formulations using a computational experiment on a realistic dataset. Experimental results show that solution time for the bilevel problem is comparable to solution time for the classic single-level problem, and that the bilevel formulation can mitigate risk of wood supply failure.

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A bi-level model formulation for the distributed wood supply planning problem

2017-10-31, Bouchard, Mathieu, Paradis, Gregory, D'Amours, Sophie, LeBel, Luc

The classic wood supply optimisation model maximises even-flow harvest levels and implicitly assumes infinite fibre demand. In many jurisdictions, this modelling assumption is a poor fit for actual fibre consumption, which is typically a subset of total fibre allocation. Failure of the model to anticipate this bias in industrial wood fibre consumption has been linked to increased risk of wood supply failure. In particular, we examine the distributed wood supply planning problem where the roles of forest owner and fibre consumer are played by independent agents. We use game theory to frame interactions between public forest land managers and industrial fibre consumers. We show that the distributed wood supply planning problem can be modelled more accurately using a bi-level formulation and present an extension of the classic wood supply optimisation model that explicitly anticipates industrial fibre consumption behaviour. We present a solution methodology that can solve a convex special case of the problem to global optimality and compare output and solution times of classic and bi-level model formulations using a computational experiment on a realistic dataset. Experimental results show that the bi-level formulation can mitigate risk of wood supply failure.

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PublicationAccès libre

Integrated optimization of strategic and tactical planning decisions in forestry

2016-11-12, Bouchard, Mathieu, Rönnqvist, Mikael, D'Amours, Sophie, Azouzi, Riadh., Gunn, Eldon A.

The traditional approach to plan the forest products value chain using a combination of sequential and hierarchical planning phases leads to suboptimal solutions. We present an integrated planning model to support forest planning on the long term with anticipation of the impacts on the economic and logistic activities in the forest value chain on a shorter term, and we propose a novel optimization approach that includes acceleration strategies to efficiently solve large-scale practical instances of this integrated planning problem. Our model extends and binds the models implemented in two solver engines that have developed in previous work. The first system, called Logilab, allows for defining and solving value chain optimization problems. The second system, called Silvilab, allows for generating and solving strategic problems. We revisit the tactical model in Logilab and we extend the strategic model in Silvilab so that the integrated planning problem can be solved using column generation decomposition with the subproblems formulated as hypergraphs and solved using a dynamic programing algorithm. Also, a new set of spatial sustainability constraints is considered in this model. Based on numerical experiments on large-scale industrial cases, the integrated approach resulted in up to 13% profit increase in comparison with the non-integrated approach. In addition, the proposed approach compares advantageously with a standard LP column generation approach to the integrated forest planning problem, both in CPU time (with an average 2.4 factor speed-up) and in memory requirement (with an average reduction by a factor of 20).