Optimal resource allocation in new product development projects: a control-theoretic approach

Author

Wang, Yanfeng ; Perkins, James R. ; Khurana, Anil

Author_Institution

i2 Technol. Inc., Cambridge, MA, USA

Volume

47

Issue

8

fYear

2002

fDate

8/1/2002 12:00:00 AM

Firstpage

1267

Lastpage

1276

Abstract

Considers problems motivated by the dynamic allocation of limited heterogeneous resources in new product development (NPD) projects. The interchangeability of resources and simultaneous resource sharing are defining characteristics of NPD processes. A continuous flow model is introduced that incorporates these features. For problems without activity precedence constraints, a linear program is presented which yields the minimum completion time for all activities. A dynamic, rule-based algorithm is shown to be optimal for two resources processing a multiple-activity arrival stream. For problems with precedence constraints, some special cases are solved, and structural properties of the class of optimal controls for the general problem are discussed.

Keywords

linear programming; optimal control; product development; resource allocation; scheduling; continuous flow model; control-theoretic approach; dynamic rule-based algorithm; interchangeability; limited heterogeneous resources; linear program; makespan; minimum completion time; minimum principle; multiple-activity arrival stream; new product development projects; optimal controls; optimal resource allocation; precedence constraints; structural properties; Costs; Helium; Heuristic algorithms; Humans; Manufacturing; Optimal control; Portfolios; Product development; Project management; Resource management;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2002.800740

Filename

1024337