271 research outputs found
Myopic inventory policies using individual customer arrival information
We investigate optimality of myopic policies using the single-unit decomposition approach in inventory management. We derive, under certain conditions, closed-form replenishment decisions, which we call a base-probability policy. That is, the order associated with a given customer is placed if and only if its arrival probability within the lead-time is higher than a threshold.inventory management; base-stock policies; myopic policies;
Measuring the performance of international logistics outsourcing partnerships: A dyadic perspective analysis
We analyze the validity of five performance measures of international logistics outsourcing partnerships, using information from both partners. Each partner's assessment of performance is captured by a single construct, which underlies four of the measures. This construct, however, is different for each party. Consequently, we examine a focal partner's perceptions of the other partner's performance assessment, and show that these inter-party perceptions are a poor measure of the latter's actual performance assessment.strategic alliances; logistics outsourcing partnerships; performance measurement; construct validity;
Innovation Management Practices, Strategic Adaptation, and Business Results: Evidence from the Electronics Industry
This research contributes to the understanding of how different practices of innovation management are related to mid- and long-term growth and profitability. Governments and regional development agencies invest relevant budgets to foster innovation in small and medium enterprises (SMEs) and improve their innovation management practices to make them more competitive. Nevertheless, it is not clear what impact these practices have on a company's performance over a long period of time. We propose a model to audit and classify innovation practices and empirically test the impact of innovation practices on the firms’ long–term financial performance, using a broad sample of companies in the electronics sector. Our empirical results show that, within a regional context, companies that are similar in terms of size, position in the value chain, and ownership structure follow similar innovative practices. Furthermore, the use of a systematic approach for innovation leads to revenue growth but does not necessarily increase profit or productivity
A novel orientation-dependent potential model for prolate mesogens
An intermolecular potential is introduced for the study of molecular mesogenic fluids. The model
combines distinct features of the well-known Gay-Berne and Kihara potentials by incorporating
dispersive interactions dependent on the relative pair orientation to a spherocylinder molecular core.
Results of a Monte Carlo simulation study focused on the liquid crystal phases exhibited by the
model fluid are presented. For the chosen potential parameters, molecular aspect ratio L*55 and
temperatures T*52, 3, and 5, isotropic, nematic, smectic-A, and hexatic phases are found. The
location of the phase boundaries as well as the equation of state of the fluid and further
thermodynamical and structural parameters are discussed and contrasted to the Kihara fluid. In
comparison to this latter fluid, the model induces the formation of ordered liquid crystalline phases
at lower packing fractions and it favors, in particular, the appearance of layered hexatic ordering as
a consequence of the greater attractive interaction assigned to the parallel side-to-side molecular pair
configurations. The results contribute to the evaluation of the role of specific interaction energies in
the mesogenic behavior of prolate molecular liquids in dense environments
Use of Parsons-Lee and Onsager theories to predict nematic and demixing behavior in binary mixtures of hard rods and hard spheres
Parsons-Lee and Onsager theories are formulated for the isotropic-nematic transition in a binary mixture of
hard rods and hard spheres. Results for the phase coexistence and for the equation of state in both phases for
mixtures with different relative sizes and composition are presented. The two theories explain correctly the
general behavior observed in experiments and computer simulations for these fluids. In particular, the theory
accounts for the destabilization of the nematic phase when spherical or globular macromolecules are added to
a system of rodlike colloids, and the entrance of the system into a demixed regime at high volume fractions of
the spherical particles. Upon demixing a nematic state rich in rods coexists in equilibrium with an isotropic
state much more diluted in the rodlike component. Onsager theory fails on quantitative grounds for aspect
ratios of the rodlike molecules smaller than 100, and in the cases where the molar fractions of spheres becomes
close to unity. On the contrary, the Parsons-Lee approximation remains accurate down to aspect ratios as small
as 5. The spinodal analysis indicates that the isotropic-isotropic and nematic-nematic coexistences become
feasible for sufficiently large spheres and long rods, respectively. The latter type of coexistence interferes
partially with the isotropic-nematic coexistence regime of interest to the present work. Overall, the study serves
to rationalize and control key aspects of the behavior of these binary nematogenic colloidal systems, which can
be tuned with an appropriate choice of the relative size and molar fractions of the particles.Ministerio de Educación y Ciencia CTQ2004- 07730-C02 VEM2003-20574-C03Junta de AndalucÃa PAI FQM-205 FQM-31
Liquid crystal behavior of the Kihara fluid
The liquid crystal phases of the Kihara fluid have been studied in computer simulations. The work focuses
on the isotropic–nematic–smectic-A triple point region, especially relevant for the understanding of the properties
and the design of real mesogens with specific phase diagrams. The Kihara interaction resembles more
appropriately than other related models, the shape of elongated polymers and biomolecules, and a closer
assertion is provided for the role of the configurational entropy and the dispersive interactions in the behavior
of such molecules in dense phases or under macromolecular crowding conditions.Dirección Genaral de Investigación CientÃfico y Técnica BQU2001-3615-C02Instituto de Salud Carlos III 01/1664Plan Andaluz de Investigación FQM-205, FQM-31
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