Advances in project scheduling
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Parts: I . Basic Deterministic Models. 1. An algorithm for a general class of precedence and resource constrained scheduling problems (J.H. Patterson et al.). 2. The order-theoretic approach to scheduling - the deterministic case (R.H. Mohring, F.J. Radermacher). 3. Evaluation of resource allocations in project scheduling (G. Harhalakis). 4. Resource allocation and multi-project scheduling (R.L. Daniels). 5. Heuristic algorithms for resource-constrained project scheduling: a review and an empirical analysis (R. Alvarez-Valdes Olaguibel, J.M. Tamarit Goerlich). 6. Constraint-satisfaction problems in project scheduling (G. Schmidt). 7. Multiobjective project scheduling under multiple-category resource constraints (R. Slowinski). II. Special Deterministic Models. 1. Graph-theoretical models for preemptive scheduling (D. de Werra). 2. Scheduling under financial constraints (J. Carlier). 3. Scheduling independent fixed-type tasks (J. Blazewic et al.). 4. An approach for real time scheduling of activities with time and resource constraints (J. Erschler, F. Roubellat). 5. Scheduling under continuous performing speed vs. resource amount activity models (J. Weglarz). 6. Allocation of resources in tree networks (W. Czuchra). 7. A multi-stage model for project scheduling under resource constraints (L. Valadares Tavares). 8. Resource allocation in a network model - the LEINET system (G. Naegler, S. Schoenherr). 9. The use of project scheduling for the manufacture of custom made products (G. Harhalakis). III. Stochastic Models. 1. The estimation of some network parameters in the PERT model of activity networks: review and critique (S.E. Elmaghraby). 2. PERT networks under incomplete probabilistic information (J. Kamburowski). 3. Scheduling of stochastic projects by means of GERT networks (K. Neumann). 4. The order-theoretic approach to scheduling - the stochastic case (R.H. Mohring, F.J. Radermacher).