Development of holonic manufacturing execution systems

Cheng, Fan‐Tien; Chang, Chih-Feng; Wu, Shang-Lun

doi:10.1023/b:jims.0000018037.63935.a1

Cited by 51 publications

(24 citation statements)

References 13 publications

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“…In order to face resource break-downs, the job shop assembly structure using networked robot controllers with multiple-LAN communication is able to replicate data for single-product execution and batch production planning and tracking (Cheng et al, 2006).…”

Section: Holonic Manufacturing Execution System (Hmes): a Holarchymentioning

confidence: 99%

An implementing framework for holonic manufacturing control with multiple robot-vision stations

Borangiu

Gilbert

Ivănescu

et al. 2009

Engineering Applications of Artificial Intelligence

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Section: Holonic Manufacturing Execution System (Hmes): a Holarchymentioning

confidence: 99%

An implementing framework for holonic manufacturing control with multiple robot-vision stations

Borangiu

Gilbert

Ivănescu

et al. 2009

Engineering Applications of Artificial Intelligence

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“…However, in this evaluation, 10K bytes are assigned for tolerance consideration. The number of WT objects depends on the number of WIPs (Cheng et al, 2004a). In general, WIPs of a production line may vary from 0 to 1000.…”

Section: Performance Evaluation Of Sassrmentioning

confidence: 99%

A study on application cluster service scheme and computer performance evaluator

Cheng¹,

Wang

Yang

et al. 2008

Journal of the Chinese Institute of Engineers

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The required availability in applications of a distributed computer system is continuous service for 24 hours a day, 7 days a week. However, computer failures due to exhaustion of operating system resources, data corruption, numerical error accumulation, and so on, may interrupt services and cause significant losses. Hence, this work proposes an application cluster service (APCS) scheme. The proposed APCS provides both a failover scheme and a state recovery scheme for failure management. The failover scheme is designed mainly to automatically activate the backup application to replace the failed application whenever it is sick or down. Meanwhile, the state recovery scheme is intended primarily to provide an inheritable software architecture scheme to support applications with state recovery requirements. An application simply needs to inherit and implement this scheme, and it then can accomplish the task of state backup and recovery. Furthermore, a performance evaluator (PEV) that may detect performance degradation and predict time to failure is developed in this study. By using these detection and prediction capabilities, the APCS can perform the failover process before node breakdown. Thus, applying APCS and PEV can enable an asynchronous distributed computer system with shared memory to provide services with near-zero-downtime.

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“…Besides CH, as depicted in Fig. 10, the company A also consists of holonic manufacturing execution system (HMES) (Cheng et al, 2004a), holonic enterprise resource planning (HERP), data warehouse (DWH), and exchange holon (EH). EH is responsible for data exchange among HMES, HERP, DWH, and CH.…”

Section: Example IImentioning

confidence: 99%