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ORCID1st ISADS 1993: Kawasaki, Japan
- International Symposium on Autonomous Decentralized Systems, ISADS 1993, Kawasaki, Japan, March 30 - April 1, 1993. IEEE Computer Society 1993, ISBN 0-8186-3125-2
- A. Nico Habermann:
The high performance computing and communications initiative in the US. - Hiroshi Inose:
Japan's contribution to the world through science and technology. 2-8 - Mário Campolargo:
In search of service engineering-The RACE experience. 12-19 - Radu Popescu-Zeletin, Volker Tschammer, Michael Tschichholz:
Y-Architecture for the integration of autonomous components. 21-27 - Kinji Mori:
Autonomous decentralized systems: Concept, data field architecture and future trends. 28-34 - Stephen S. Yau, Gil-Ho Oh:
An object-oriented approach to software development for autonomous decentralized systems. 37-43 - Giacomo Bucci, Riccardo Mattolini, Enrico Vicario:
A framework for the development of object-oriented distributed systems. 44-51 - Dimitri Konstantas:
Hybrid cell: An implementation of an object based strongly distributed system. 52-61 - Osamu Katai, S. Matsubara, Hiroshi Masuichi, Tomohiro Katayama, Tetsuo Sawaragi, Masaaki Ida, Sosuke Iwai:
An autonomous decentralized system for constraint-oriented problem solving involving continuous and fuzzy variables. 63-69 - Norihiko Yoshida:
A modeling framework for group behaviors and its application to cooperative problem solving. 70-76 - Joseph Pasquale:
Randomized coordination in an autonomous decentralized system. 77-82 - Shigekazu Inohara, Takashi Masuda:
Using huge address spaces to construct cooperative systems. 85-92 - Tim O. Eckardt, Thomas Magedanz, Radu Popescu-Zeletin:
Using traders for autonomous service provision in intelligent networks. 93-99 - Andrzej Goscinski:
Supporting user autonomy and object sharing in distributed systems: The RHODOS trading service. 100-106 - Andrea Bondavalli
, Luca Simoncini:
Functional paradigm for designing dependable large-scale parallel computing systems. 108-114 - Jeffrey J. P. Tsai:
A requirements language for autonomous decentralized systems development. 115-121 - Gérard Florin, Roberto Gómez, Ivan Lavallée:
Recursive distributed programming schemes. 122-128 - Masami Ito, Hideo Yuasa:
Autonomous decentralized system with self-organizing function and its application to generation of locomotive patterns. 130-136 - Satoshi Konishi, Hiroyuki Fujita:
A proposal for a conveyance system with autonomous decentralized micro modules. 137-142 - Toshio Tsuji, Seiya Nakayama, Koji Ito:
Distributed feedback control for redundant manipulators based on virtual arms. 143-149 - Afsaneh Haddadi, Kurt Sundermeyer:
Acquaintance relations in autonomous agent societies. 151-157 - William Klostermeyer, Randy Y. C. Chow:
On the competitiveness of autonomous servers. 158-164 - Norbert Kuhn, H. Jürgen Müller, Jörg P. Müller:
Task decomposition in dynamic agent societies. 165-171 - E. Douglas Jensen:
A timeliness model for asychronous decentralized computer systems. 173-182 - Edward A. Billard, Joseph Pasquale:
Dynamic scope of control in decentralized job scheduling. 183-189 - Andreas Winckler:
A distributed look-ahead algorithm for scheduling interdependent tasks. 190-197 - Gentaro Taga, Yoshihiro Miyake, Yoko Yamaguchi, Hiroshi Shimizu:
Generation and coordination of bipedal locomotion through global entrainment. 199-205 - Rumi M. Dubash, Farokh B. Bastani:
A hybrid architecture for mobile robots based on decentralized, parallel path planning. 206-214 - Tsuyoshi Ueyama, Toshio Fukuda, Fumihito Arai:
Distributed structural organization of cellular robots using random walks. 215-221 - Igor T. Hawryszkiewycz:
Supporting coordination in CSCW systems. 225-231 - Satoshi Ichimura, Yutaka Matsushita:
A procedure-forwarding mechanism for supporting group work. 232-238 - Linda Fedaoui, Valérie Gay, Eric Horlait:
QoS management of ODP-based distributed multimedia applications. 239-245 - Amane Nakajima:
Decentralized voting protocols. 247-254 - Dong-Ik Lee, Sadatoshi Kumagai, Shinzo Kodama:
Synchronization mechanism of autonomous decentralized systems modelled by state machine decomposable nets. 255-261 - Cheeha Kim, Chan-Mo Park, Jinhyoun Youn:
Slot reuse based on address comparison in the DQDB protocol. 262-265 - Farokh B. Bastani, I-Ling Yen:
Inherent fault tolerance in decentralized process-control systems. 267-274 - Kenji Ikeda, Seiichi Shin, Toshiyuki Kitamori:
Fault tolerance of decentralized adaptive control. 275-281 - François Mizessyn, Yoshiteru Ishida:
Immune networks for cement plants. 282-288 - Hermann Kopetz, Gerhard Fohler, Günter Grünsteidl, Heinz Kantz, Gustav Pospischil, Peter P. Puschner, Johannes Reisinger, Ralf Schlatterbeck, Werner Schütz, Alexander Vrchoticky, Ralph Zainlinger:
Real-time system development: The programming model of MARS. 290-299 - Hiroshi Kobayashi, Hiroaki Nakanishi, Keijirou Hayashi, Hideki Sato, Hiroshi Wataya, Shuji Nishiyama, Teruyasu Nakahashi, Toshimasa Saika:
On-line software expansion in large-scale widely distributed systems. 300-304 - K. H. Kim:
Structuring DRB computing stations in highly decentralized LAN systems. 305-314 - Takashi Kawakami:
Concept of friendly autonomous decentralized system for next generation train traffic control. 316-322 - Philippe Quéinnec, Gérard Padiou:
Flight plan management in a distributed air traffic control system. 323-329 - Jyh-Charn Liu, Junguk L. Kim, Yi-Long Chen, Ying Hao, Thomas Urbanik:
The area-wide real-time traffic control (ARTC) system: Fault-tolerant design and its analysis. 330-336 - Yoshikazu Nishikawa, Hisashi Tamaki, Hajime Kita, Nobuhiko Shimizu:
On a self-organizing property of genetic algorithms. 338-344 - Kenji Onaga, Morikazu Nakamura:
Design of social matching algorithms for distributed and autonomous environments. 345-351 - Vaduvur Bharghavan, C. V. Ramamoorthy:
Overhead reduction in distributed simulation. 352-358 - Flaviu Cristian:
Automatic service availability management. 360-366 - Donald Ferguson, Christos Nikolaou, Yechiam Yemini:
An economy for managing replicated data in autonomous decentralized systems. 367-375 - Shivakant Mishra, Larry L. Peterson, Richard D. Schlichting:
Modularity in the design and implementation of Consul. 376-382 - Sujeet Chand:
Decentralized monitoring and diagnosis of manufacturing processes. 384-389 - Yasuhiko Mashino, Shigeki Yoshinaga, Hiroyuki Yokota:
An autonomous decentralized process computer system for steel production. 390-397 - Masaharu Oku, Masaru Omura, J. Kann, M. Perrone, M. Roth:
Hi-Cell architecture and the project model for manufacturing ADS. 398-405 - Norio Inou, Yoji Umetani:
Small intestinal movements in vivo and the neuro-mechanical control mechanisms. 407-413 - Mohammad Ali Doustari, Nobuo Sannomiya:
Autonomous decentralized mechanism in fish behavior model. 414-420 - Eugénio C. Oliveira, Fernando Mouta, Ana Paula Rocha:
Negotiation and conflict resolution within a community of cooperative agents. 421-427
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