FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W302537009> ?p ?o ?g. }

• W302537009 abstract "Real-time hybrid testing of civil structures, in which computational models and physical components must be integrated with high fidelity at run-time represents a grand challenge in the emerging area of cyber-physical systems. Actuator dynamics, complex interactions among computers and physical components, and computation and communication delays all must be managed carefully to achieve accurate tests. To address these challenges, we have developed a novel middleware for integrating cyber and physical components flexibly and with suitable timing behavior within a Cyber-physical Instrument for Real-time hybrid Structural Testing (CIRST). This paper makes three main contributions to the state of the art in middleware for cyber-physical systems: (1) a novel middleware architecture within which cyber-physical components can be integrated flexibly through XML-based configuration specifications, (2) an efficient middleware implementation in C++ that can maintain necessary real-time performance, and (3) a case study that evaluates the middleware's performance and demonstrates its suitability for real-time hybrid testing. Type of Report: Other Department of Computer Science & Engineering Washington University in St. Louis Campus Box 1045 St. Louis, MO 63130 ph: (314) 935-6160 The Design and Performance of Cyber-Physical Middleware for Real-Time Hybrid Structural Testing Huang-Ming Huang, Xiuyu Gao, Terry Tidwell, Christopher Gill, Chenyang Lu, Shirley Dyke Department of Computer Science and Engineering {hh1, ttidwell, cdgill, lu}@cse.wustl.edu Department Mechanical, Aerospace, and Structural Engineering xg2@cec.wustl.edu, sdyke@wustl.edu Washington University, St. Louis, MO, USA Abstract—Real-time hybrid testing of civil structures, in which computational models and physical components must be integrated with high fidelity at run-time represents a grand challenge in the emerging area of cyber-physical systems. Actuator dynamics, complex interactions among computers and physical components, and computation and communication delays all must be managed carefully to achieve accurate tests. To address these challenges, we have developed a novel middleware for integrating cyber and physical components flexibly and with suitable timing behavior within a Cyber-physical Instrument for Real-time hybrid Structural Testing (CIRST). This paper makes three main contributions to the state of the art in middleware for cyber-physical systems: (1) a novel middleware architecture within which cyber-physical components can be integrated flexibly through XML-based configuration specifications, (2) an efficient middleware implementation in C++ that can maintain necessary real-time performance, and (3) a case study that evaluates the middleware’s performance and demonstrates its suitability for real-time hybrid testing.Real-time hybrid testing of civil structures, in which computational models and physical components must be integrated with high fidelity at run-time represents a grand challenge in the emerging area of cyber-physical systems. Actuator dynamics, complex interactions among computers and physical components, and computation and communication delays all must be managed carefully to achieve accurate tests. To address these challenges, we have developed a novel middleware for integrating cyber and physical components flexibly and with suitable timing behavior within a Cyber-physical Instrument for Real-time hybrid Structural Testing (CIRST). This paper makes three main contributions to the state of the art in middleware for cyber-physical systems: (1) a novel middleware architecture within which cyber-physical components can be integrated flexibly through XML-based configuration specifications, (2) an efficient middleware implementation in C++ that can maintain necessary real-time performance, and (3) a case study that evaluates the middleware’s performance and demonstrates its suitability for real-time hybrid testing." @default.
• W302537009 created "2016-06-24" @default.
• W302537009 creator A5004505130 @default.
• W302537009 creator A5020106342 @default.
• W302537009 creator A5042414966 @default.
• W302537009 creator A5076029698 @default.
• W302537009 date "2009-01-01" @default.
• W302537009 modified "2023-09-23" @default.
• W302537009 title "The Design and Performance of Cyber-Physical Middleware for Real-Time Hybrid Structural Testing" @default.
• W302537009 cites W1499391559 @default.
• W302537009 cites W1557690937 @default.
• W302537009 cites W2048521196 @default.
• W302537009 cites W2065704038 @default.
• W302537009 cites W2091374673 @default.
• W302537009 cites W2140786559 @default.
• W302537009 cites W2154165120 @default.
• W302537009 cites W2170809192 @default.
• W302537009 doi "https://doi.org/10.7936/k75d8q2j" @default.
• W302537009 hasPublicationYear "2009" @default.
• W302537009 type Work @default.
• W302537009 sameAs 302537009 @default.
• W302537009 citedByCount "0" @default.
• W302537009 crossrefType "journal-article" @default.
• W302537009 hasAuthorship W302537009A5004505130 @default.
• W302537009 hasAuthorship W302537009A5020106342 @default.
• W302537009 hasAuthorship W302537009A5042414966 @default.
• W302537009 hasAuthorship W302537009A5076029698 @default.
• W302537009 hasConcept C111919701 @default.
• W302537009 hasConcept C120314980 @default.
• W302537009 hasConcept C123657996 @default.
• W302537009 hasConcept C142362112 @default.
• W302537009 hasConcept C149635348 @default.
• W302537009 hasConcept C153349607 @default.
• W302537009 hasConcept C169468491 @default.
• W302537009 hasConcept C179768478 @default.
• W302537009 hasConcept C41008148 @default.
• W302537009 hasConcept C83283714 @default.
• W302537009 hasConceptScore W302537009C111919701 @default.
• W302537009 hasConceptScore W302537009C120314980 @default.
• W302537009 hasConceptScore W302537009C123657996 @default.
• W302537009 hasConceptScore W302537009C142362112 @default.
• W302537009 hasConceptScore W302537009C149635348 @default.
• W302537009 hasConceptScore W302537009C153349607 @default.
• W302537009 hasConceptScore W302537009C169468491 @default.
• W302537009 hasConceptScore W302537009C179768478 @default.
• W302537009 hasConceptScore W302537009C41008148 @default.
• W302537009 hasConceptScore W302537009C83283714 @default.
• W302537009 hasLocation W3025370091 @default.
• W302537009 hasOpenAccess W302537009 @default.
• W302537009 hasPrimaryLocation W3025370091 @default.
• W302537009 hasRelatedWork W1026307065 @default.
• W302537009 hasRelatedWork W1571117462 @default.
• W302537009 hasRelatedWork W2022245446 @default.
• W302537009 hasRelatedWork W2024273947 @default.
• W302537009 hasRelatedWork W2042769794 @default.
• W302537009 hasRelatedWork W2060523790 @default.
• W302537009 hasRelatedWork W2074952237 @default.
• W302537009 hasRelatedWork W2150932934 @default.
• W302537009 hasRelatedWork W2155604111 @default.
• W302537009 hasRelatedWork W2178036609 @default.
• W302537009 hasRelatedWork W2504081428 @default.
• W302537009 hasRelatedWork W2541970267 @default.
• W302537009 hasRelatedWork W2776570068 @default.
• W302537009 hasRelatedWork W2809429533 @default.
• W302537009 hasRelatedWork W2967440676 @default.
• W302537009 hasRelatedWork W3034931416 @default.
• W302537009 hasRelatedWork W3101598309 @default.
• W302537009 hasRelatedWork W3173089860 @default.
• W302537009 hasRelatedWork W88948720 @default.
• W302537009 hasRelatedWork W1678677055 @default.
• W302537009 isParatext "false" @default.
• W302537009 isRetracted "false" @default.
• W302537009 magId "302537009" @default.
• W302537009 workType "article" @default.