Kang B. Lee scite author profile

Smart grids (SGs) are electrical power grids that apply information, advanced networking, and real-time monitoring and control technologies to lower costs, save energy, and improve security, interoperability, and reliability. Smart sensors (SSs) can provide real-time data and status of the grids for real-time monitoring, protection, and control of grid operations. Sensor data exchange and interoperability are major challenges for the SGs. This paper describes sensing, timing, intelligence, and communication requirements of sensors for the SGs and proposes a general model of the SSs for SGs based on these requirements. Then it illustrates, how the model works with phasor measurement unit (PMU)- and merging unit-based SSs deployed in the SGs with standardized interfaces to support the interoperability of the SSs. Furthermore, to address the interoperability issues, this paper describes sensor interface standards used in the SGs and the need for interoperability testing, and proposes a passive interoperability test method for the SSs to achieve and assure sensor data interoperability. To verify this test method, an interoperability test system for the PMU-based SSs was developed and presented. Interoperability test results of eight commercial PMU-based SSs are provided to show that the proposed interoperability test method works.

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Wireless Network Design for Emerging IIoT Applications: Reference Framework and Use Cases

Liu

Kashef

Lee

et al. 2019

Proc. IEEE

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Industrial Internet of Things (IIoT) applications, featured with data-centric innovations, are leveraging the observability, control, and analytics, as well as the safety of industrial operations. In IIoT deployments, wireless links are increasingly used in improving the operational connectivity for industrial data services, such as collecting massive process data, communicating with industrial robots, and tracking machines/parts/products on the factory floor and beyond. The wireless system design for IIoT applications is inherently a joint effort between operational technology (OT) engineers, information technology (IT) system architects, and wireless network planners. In this paper, we propose a new reference framework for the wireless system design in IIoT use cases. The framework presents a generic design process and identifies the key questions and tools of individual procedures. Specifically, we extract impact factors from distinct domains including industrial operations and environments, data service dynamics, and the IT infrastructure. We then map these factors into function clusters and discuss their respective impact on performance metrics and resource utilization strategies. Finally, discussions take place in four exemplary IIoT applications where we use the framework to identify the wireless network issues and deployment features in the continuous process monitoring, discrete system control, mobile applications, and spectrum harmonization, respectively. The goals of this work are twofold: 1) to assist OT engineers to better recognize wireless communication demands and challenges in their plants, 2) to help industrial IT specialists to come up with operative and efficient end-to-end wireless solutions to meet demanding needs in factory environments.

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Industrial Wireless Systems Guidelines: Practical Considerations and Deployment Life Cycle

Candell

Kashef

Liu

et al. 2018

EEE Ind. Electron. Mag.

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Proceeding of the 2005 conference on IEEE 1588 standard for a precision clock synchronization protocol for networked measurement and control systems

Lee¹,

Eidson²,

Weibel³

et al. 2005

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2004 conference on IEEE 1588, standard for a precision clock synchronization protocol for networked measurement and control systems

Lee¹,

Eidson²

2004

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Kang B. Lee

Smart Sensors and Standard-Based Interoperability in Smart Grids

Wireless Network Design for Emerging IIoT Applications: Reference Framework and Use Cases

Industrial Wireless Systems Guidelines: Practical Considerations and Deployment Life Cycle

Proceeding of the 2005 conference on IEEE 1588 standard for a precision clock synchronization protocol for networked measurement and control systems

2004 conference on IEEE 1588, standard for a precision clock synchronization protocol for networked measurement and control systems

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