| Preface | |
| Productivity issues in the future enterprise: conclusions and recommendations from the TOPP program | p. 3 |
| Establishing an academic domain | p. 13 |
| Production management: which future? | p. 18 |
| Recent trends of new product development and production management in Japanese electronics industries | p. 29 |
| Next generation manufacturing systems (NGMS) in the IMS program | p. 43 |
| Biological concept of self-organization for dynamic shop-floor configuration | p. 55 |
| A basic study on high volume flexible manufacturing system for agile manufacturing | p. 67 |
| The collaborative engineering process within the framework of the virtual enterprise | p. 79 |
| Collaborative autonomous control | p. 91 |
| An agent based control system of a model factory | p. 103 |
| Future enterprise types and strategies for agile manufacture | p. 115 |
| Performance analysis through benchmarking and recognition of patterns | p. 127 |
| Virtual benchmarking in logistics: a concept for the determination of benchmarks | p. 136 |
| A benchmarking model for the customer order flow in semi-processing industries | p. 148 |
| MRP-3 concurrent integration of planning and scheduling in OKP (one of a kind production) | p. 163 |
| Analysis and design of production and control structures | p. 171 |
| Designing organizational structures of production systems using a process-oriented approach | p. 183 |
| Object-oriented representation of manufacturing systems: state of the art and perspectives | p. 195 |
| Autonomy and integration in decentralized production | p. 206 |
| Centralized and decentralized control: finding the right combination | p. 218 |
| Implementing new production management modes: orchestration of simultaneous improvement activities | p. 230 |
| Recent developments in the configuration of multiple-variant products: application orientation and vagueness in customer requirements | p. 243 |
| The ecology-driven service (r)evolution: the product longevity approach and its consequences for production and corporate management | p. 255 |
| The impact of manufacturing strategy on the design of production management systems: an exploratory study | p. 267 |
| Selection of assembly system configurations: a decision support system | p. 279 |
| Production control challenges in the food and iron industry | p. 291 |
| Expert system for new products strategy development | p. 303 |
| Performance evaluation of a JIT production system | p. 315 |
| Games for organizational learning in production management | p. 327 |
| Production planning system coping with changing customer requirements | p. 341 |
| Production planning and control on the basis of control theory | p. 351 |
| Integrated production management for production planning, loading and scheduling | p. 363 |
| Integrated planning and scheduling for multi-product job-shop assembly based on genetic algorithms | p. 375 |
| Solution of the problem for a large scale integrated plan in the iron and steel production control | p. 387 |
| An autonomous jobshop scheduling system under dynamic production environment considering machine breakdowns | p. 399 |
| A study on holonic manufacturing systems and its applications to real time scheduling problems | p. 411 |
| Performance evaluation of distributed real-time scheduling systems using distributed production system simulator | p. 423 |
| Genetic algorithm approach to multi-objective scheduling problem in plastic forming plant | p. 435 |
| A synthesized chart for scheduling of production systems with automated guided vehicle | p. 445 |
| Scheduling for an automated three-machine flowshop manufacturing system | p. 455 |
| DEJA VU: a reusable framework for the construction of intelligent interactive schedulers | p. 467 |
| Index of contributors | p. 479 |
| Keyword index | p. 481 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
