Minimizing Makespan of a Multi-mode, Multi-item Packaging Machine Subject to Resource and Inventory Constraints

Shevade, Shrinidhee

12 September 2016

No description available.

Mechanical Engineering

Operations Research

multi-mode project scheduling

integer linear programming

resource constraints

inventory constraints

no precedence constraints

sequence-independent jobs

Integrating Combinatorial Scheduling with Inventory Management and Queueing Theory

Terekhov, Daria

13 August 2013

The central thesis of this dissertation is that by combining classical scheduling methodologies with those of inventory management and queueing theory we can better model, understand and solve complex real-world scheduling problems. In part II of this dissertation, we provide models of a realistic supply chain scheduling problem that capture both its combinatorial nature and its dependence on inventory availability. We present an extensive empirical evaluation of how well implementations of these models in commercially available software solve the problem. We are therefore able to address, within a specific problem, the need for scheduling to take into account related decision-making processes. In order to simultaneously deal with combinatorial and dynamic properties of real scheduling problems, in part III we propose to integrate queueing theory and deterministic scheduling. Firstly, by reviewing the queueing theory literature that deals with dynamic resource allocation and sequencing and outlining numerous future work directions, we build a strong foundation for the investigation of the integration of queueing theory and scheduling. Subsequently, we demonstrate that integration can take place on three levels: conceptual, theoretical and algorithmic. At the conceptual level, we combine concepts, ideas and problem settings from the two areas, showing that such combinations provide insights into the trade-off between long-run and short-run objectives. Next, we show that theoretical integration of queueing and scheduling can lead to long-run performance guarantees for scheduling algorithms that have previously been proved only for queueing policies. In particular, we are the first to prove, in two flow shop environments, the stability of a scheduling method that is based on the traditional scheduling literature and utilizes processing time information to make sequencing decisions. Finally, to address the algorithmic level of integration, we present, in an extensive future work chapter, one general approach for creating hybrid queueing/scheduling algorithms. To our knowledge, this dissertation is the first work that builds a framework for integrating queueing theory and scheduling. Motivated by characteristics of real problems, this dissertation takes a step toward extending scheduling research beyond traditional assumptions and addressing more realistic scheduling problems.

scheduling

inventory management

queueing theory

dynamic scheduling

combinatorial scheduling

scheduling in supply chains

assembly scheduling

scheduling with inventory constraints

stability

stability of periodic scheduling

integration of queueing and scheduling

short-run vs. long-run tradeoff

queueing/scheduling hybrid

polling system with flow-shop server

queueing/scheduling algorithm

characteristics of scheduling problems

real-world scheduling problems

polling system

makespan minimization

periodic scheduling

scheduling and related decision-making

dynamic flow shop

inventory availability

flow shop

0546

0796

Integrating Combinatorial Scheduling with Inventory Management and Queueing Theory

Terekhov, Daria

13 August 2013

The central thesis of this dissertation is that by combining classical scheduling methodologies with those of inventory management and queueing theory we can better model, understand and solve complex real-world scheduling problems. In part II of this dissertation, we provide models of a realistic supply chain scheduling problem that capture both its combinatorial nature and its dependence on inventory availability. We present an extensive empirical evaluation of how well implementations of these models in commercially available software solve the problem. We are therefore able to address, within a specific problem, the need for scheduling to take into account related decision-making processes. In order to simultaneously deal with combinatorial and dynamic properties of real scheduling problems, in part III we propose to integrate queueing theory and deterministic scheduling. Firstly, by reviewing the queueing theory literature that deals with dynamic resource allocation and sequencing and outlining numerous future work directions, we build a strong foundation for the investigation of the integration of queueing theory and scheduling. Subsequently, we demonstrate that integration can take place on three levels: conceptual, theoretical and algorithmic. At the conceptual level, we combine concepts, ideas and problem settings from the two areas, showing that such combinations provide insights into the trade-off between long-run and short-run objectives. Next, we show that theoretical integration of queueing and scheduling can lead to long-run performance guarantees for scheduling algorithms that have previously been proved only for queueing policies. In particular, we are the first to prove, in two flow shop environments, the stability of a scheduling method that is based on the traditional scheduling literature and utilizes processing time information to make sequencing decisions. Finally, to address the algorithmic level of integration, we present, in an extensive future work chapter, one general approach for creating hybrid queueing/scheduling algorithms. To our knowledge, this dissertation is the first work that builds a framework for integrating queueing theory and scheduling. Motivated by characteristics of real problems, this dissertation takes a step toward extending scheduling research beyond traditional assumptions and addressing more realistic scheduling problems.

scheduling

inventory management

queueing theory

dynamic scheduling

combinatorial scheduling

scheduling in supply chains

assembly scheduling

scheduling with inventory constraints

stability

stability of periodic scheduling

integration of queueing and scheduling

short-run vs. long-run tradeoff

queueing/scheduling hybrid

polling system with flow-shop server

queueing/scheduling algorithm

characteristics of scheduling problems

real-world scheduling problems

polling system

makespan minimization

periodic scheduling

scheduling and related decision-making

dynamic flow shop

inventory availability

flow shop

0546

0796