The Experts below are selected from a list of 1074537 Experts worldwide ranked by ideXlab platform
David Romero - One of the best experts on this subject based on the ideXlab platform.
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“Real-Time Technology? Migration of traditional SCADA systems Technology: Part2: Advantages of implementation”
2017 IEEE 37th Central America and Panama Convention (CONCAPAN XXXVII), 2017Co-Authors: Luis Ivan Ruiz, Hugo Castro, David RomeroAbstract:In this technical article, the advantages of implementing Real-Time Technology for simulation and prediction of normal and contingency conditions in the operation of electrical systems are presented. The relationship between a traditional SCADA Technology and the evolution of off-line simulations in an integrated environment to encourage the migration of Real-Time Systems to optimize the operational reliability of the electrical system in question. Also, it is sought to emphasize that the operation of the electrical system uses electric / database models that differ considerably in detail and structure of the models used during the design and planning stage. Normally, there are no links between different models, geospatial applications, operating systems, etc. Therefore, the data formats are different and incompatible in turn, generating differences in the equipment of design, engineering, planning, operation, and maintenance. The contribution of this article in Part 2: is focused on related cases in implementations of this solution to provide versatility to the electrical systems and their energy management.
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Real-Time Technology? Migration of traditional SCADA systems Technology. Part1: Concepts & application recommendations
2017 IEEE 37th Central America and Panama Convention (CONCAPAN XXXVII), 2017Co-Authors: Luis Ivan Ruiz, Hugo Castro, David Romero, Rafael FrancoAbstract:In this technical paper, concepts and applications in electrical systems are presented on two topics: a) the evolution of the operation of electrical systems and b) the optimization of a traditional SCADA system. Also, the terms related and usual in the community of the area of energy and electricity related to: systems of energy management, planning of electrical systems, intelligent networks and micro-grids are presented. The purpose of this paper in this Part 1 is to emphasize that electrical systems need to be updated and improved using tools that allow them to integrate real-Time simulation and prediction. The operational reliability, nowadays has an important role in the advances and technological developments of electrical power systems. The contribution of this article is focused on related cases, in implementations of this solution to provide versatility to the electrical systems and their energy management.
Luis Ivan Ruiz - One of the best experts on this subject based on the ideXlab platform.
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“Real-Time Technology? Migration of traditional SCADA systems Technology: Part2: Advantages of implementation”
2017 IEEE 37th Central America and Panama Convention (CONCAPAN XXXVII), 2017Co-Authors: Luis Ivan Ruiz, Hugo Castro, David RomeroAbstract:In this technical article, the advantages of implementing Real-Time Technology for simulation and prediction of normal and contingency conditions in the operation of electrical systems are presented. The relationship between a traditional SCADA Technology and the evolution of off-line simulations in an integrated environment to encourage the migration of Real-Time Systems to optimize the operational reliability of the electrical system in question. Also, it is sought to emphasize that the operation of the electrical system uses electric / database models that differ considerably in detail and structure of the models used during the design and planning stage. Normally, there are no links between different models, geospatial applications, operating systems, etc. Therefore, the data formats are different and incompatible in turn, generating differences in the equipment of design, engineering, planning, operation, and maintenance. The contribution of this article in Part 2: is focused on related cases in implementations of this solution to provide versatility to the electrical systems and their energy management.
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Real-Time Technology? Migration of traditional SCADA systems Technology. Part1: Concepts & application recommendations
2017 IEEE 37th Central America and Panama Convention (CONCAPAN XXXVII), 2017Co-Authors: Luis Ivan Ruiz, Hugo Castro, David Romero, Rafael FrancoAbstract:In this technical paper, concepts and applications in electrical systems are presented on two topics: a) the evolution of the operation of electrical systems and b) the optimization of a traditional SCADA system. Also, the terms related and usual in the community of the area of energy and electricity related to: systems of energy management, planning of electrical systems, intelligent networks and micro-grids are presented. The purpose of this paper in this Part 1 is to emphasize that electrical systems need to be updated and improved using tools that allow them to integrate real-Time simulation and prediction. The operational reliability, nowadays has an important role in the advances and technological developments of electrical power systems. The contribution of this article is focused on related cases, in implementations of this solution to provide versatility to the electrical systems and their energy management.
Alice A. Mccarthy - One of the best experts on this subject based on the ideXlab platform.
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Third generation DNA sequencing: pacific biosciences' single molecule real Time Technology.
Chemistry & biology, 2010Co-Authors: Alice A. MccarthyAbstract:The Cornell University laboratories of Watt Webb and Harold Craighead are miles and climatologic worlds away from Menlo Park, California, but without them, the founders of Pacific Biosciences (PacBio) may not be enjoying their current wave of success—a success that is poised to reach new levels later this year.
Hugo Castro - One of the best experts on this subject based on the ideXlab platform.
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“Real-Time Technology? Migration of traditional SCADA systems Technology: Part2: Advantages of implementation”
2017 IEEE 37th Central America and Panama Convention (CONCAPAN XXXVII), 2017Co-Authors: Luis Ivan Ruiz, Hugo Castro, David RomeroAbstract:In this technical article, the advantages of implementing Real-Time Technology for simulation and prediction of normal and contingency conditions in the operation of electrical systems are presented. The relationship between a traditional SCADA Technology and the evolution of off-line simulations in an integrated environment to encourage the migration of Real-Time Systems to optimize the operational reliability of the electrical system in question. Also, it is sought to emphasize that the operation of the electrical system uses electric / database models that differ considerably in detail and structure of the models used during the design and planning stage. Normally, there are no links between different models, geospatial applications, operating systems, etc. Therefore, the data formats are different and incompatible in turn, generating differences in the equipment of design, engineering, planning, operation, and maintenance. The contribution of this article in Part 2: is focused on related cases in implementations of this solution to provide versatility to the electrical systems and their energy management.
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Real-Time Technology? Migration of traditional SCADA systems Technology. Part1: Concepts & application recommendations
2017 IEEE 37th Central America and Panama Convention (CONCAPAN XXXVII), 2017Co-Authors: Luis Ivan Ruiz, Hugo Castro, David Romero, Rafael FrancoAbstract:In this technical paper, concepts and applications in electrical systems are presented on two topics: a) the evolution of the operation of electrical systems and b) the optimization of a traditional SCADA system. Also, the terms related and usual in the community of the area of energy and electricity related to: systems of energy management, planning of electrical systems, intelligent networks and micro-grids are presented. The purpose of this paper in this Part 1 is to emphasize that electrical systems need to be updated and improved using tools that allow them to integrate real-Time simulation and prediction. The operational reliability, nowadays has an important role in the advances and technological developments of electrical power systems. The contribution of this article is focused on related cases, in implementations of this solution to provide versatility to the electrical systems and their energy management.
A.k. Mok - One of the best experts on this subject based on the ideXlab platform.
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IEEE Real Time Technology and Applications Symposium - The design and implementation of a Real-Time Object Management Interface
Proceedings Real-Time Technology and Applications Symposium, 1Co-Authors: Tei-wei Kuo, A.k. MokAbstract:Describes the design of the Real-Time Object Management Interface (RTOMI), a distributed real-Time data-access interface which runs on multiprocessor platforms. RTOMI is designed to facilitate the implementation of real-Time data-intensive applications by providing process scheduling and data distribution mechanisms that exploit the concept of "similarity". RTOMI is implemented to run on a multi-board Intel System 520 which is used as a testbed for evaluating our real-Time transaction scheduling and data distribution algorithms.
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IEEE Real Time Technology and Applications Symposium - A new generation modechart verifier
Proceedings Real-Time Technology and Applications Symposium, 1Co-Authors: Jin Yang, A.k. Mok, D. StuartAbstract:We have implemented a new-generation modechart verifier called vf3. The new verifier is capable of dealing with modecharts with arbitrary hierarchy. More importantly, it employs several novel strategies to effectively reduce the search space while speeding up the verification process. It represents the computation graph for a modechart in a more compact form called a 'zone-based computation graph'. It uses on-the-fly deterministic pruning to reduce the outgoing edges from nodes in a graph. Finally, it builds on-the-fly a quotient graph based on a given real-Time logic (RTL) formula. Our experimental results show that vf3 reduces the sizes of computation graphs by factors ranging from 2 to 10.
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IEEE Real Time Technology and Applications Symposium - Resource partition for real-Time systems
Proceedings Seventh IEEE Real-Time Technology and Applications Symposium, 1Co-Authors: A.k. Mok, X. Feng, Deji ChenAbstract:We investigate an approach to implement the open system environment idea by means of temporal resource partitions. In this approach, application task groups with hard timing constraints may share the same physical resource and yet be free from the interference of one another. Each resource partition uses only a fraction of the Time on the resource. Partitions are specified by two models, a static partition model and a bounded-delay partition model. Both models achieve a clean separation of concerns between task group level scheduling and resource level partition scheduling. The schedulability problems for both preemptive fixed priority and dynamic priority scheduling policies are analyzed.
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IEEE Real Time Technology and Applications Symposium - A Performance Estimation Tool for Video Applications
12th IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS'06), 1Co-Authors: Cheng Peng, A.k. MokAbstract:A trend in the consumer electronics market is the demand for new applications that have a lot of similarities to older applications but the new ones impose more challenging and special-purpose performance requirements. In the digital signal processing (DSP) industry, this clearly reflects a transition from the design regime of general DSP to the application-specific DSP. A key in effecting this transition is the engineering capability to make the design specification "match" the application, before detailed design starts. In this paper, we present an effective simulation tool to assist in the generation of accurate design specifications. It models the application by a parameter-driven conditional data-flow graph (CDFG) and the hardware (HW) architecture by a configurable HW graph. The simulator takes the application CDFG and HW graph as the input and carries the simulation at a low level to catch the detailed HW activities. Experimental results show that our tool is not only able to accurately estimate system performance, but also helps to identify performance bottlenecks and to find the optimal software (SW) implementation solution for video applications.
