Wenqing Lu scite author profile

This study presents a new approach to the optimal placement of voltage sag monitors considering the uncertainties associated with transition resistance. The influence of transition resistance on the magnitude of voltage sags triggered by symmetrical and unsymmetrical faults is analyzed. Then the transition resistance interval set array for voltage sags is established, on the basis of which, a random vector model on voltage sag observability is proposed and related observability indices are defined in the form of conditional probability. The optimal placement model is established by taking the available number of monitors as the constraint condition and the maximum sag global observability index as the objective function. Binary particle swarm optimization (BPSO) is implemented to obtain the optimal placement results. Finally, simulation is carried out on IEEE 30-bus system, and it is shown that the proposed optimal monitor placement method is more applicable compared with the traditional MRA method. INDEX TERMS Binary particle swarm optimization, conditional probability, observability indices, optimal monitor placement, random vector model, transition resistance, uncertainties, voltage sags. I. INTRODUCTION Voltage sags are the most frequently occurring power quality disturbances, mainly caused by faults in a power system. Voltage sag is typically defined as the reduction of RMS voltage from 0.1 to 0.9 p.u. with a typical duration of 0.5 cycle to 1 min, which is usually characterized by its magnitude (the magnitude of during-fault voltages) and duration (the time during which the RMS voltage stays below a given threshold, usually 0.9 p.u.) [1]-[4]. Many studies conducted around the world have shown that voltage sags cause customers of various sectors significant financial losses, for instance, in a semiconductor manufacturing industry, economic losses per voltage sag have been estimated 3.8 million e[5], [6]. But it is unrealistic to expect that the grid will provide a completely financialloss-free power quality environment for all customers [6]. Before implementing adequate countermeasures, it is necessary to establish a monitoring system by using appropriate power quality monitors (PQMs) and this system should The associate editor coordinating the review of this manuscript and approving it for publication was Hui Ma .

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Reconfigurable baseband processing platform for communication systems

Zhou

Zhao

et al. 2008

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New trends in wireless communication systems require multi-standard coexistence and high data rates. In order to meet these requirements, we propose a reconfigurable baseband platform with coarse grained heterogeneous execution units and flexible interconnections, which are controlled by configuration information. In addition, we demonstrate the effectiveness of our approach in three sample implementations, namely RFID, WLAN OFDM and MIMO-OFDM systems. The performance results reveal that this platform is flexible enough to handle various baseband operations with good efficiency and at reasonable resource cost. Index Terms-reconfigurable baseband platform, RFID interrogator, WLAN OFDM, MIMO-OFDM

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Wenqing Lu

A novel noise reduction method applied in negative pressure wave for pipeline leakage localization

Sensitivity of Low-Voltage Variable-Frequency Devices to Voltage Sags

Research on a small-noise reduction method based on EMD and its application in pipeline leakage detection

A BPSO-Based Method for Optimal Voltage Sag Monitor Placement Considering Uncertainties of Transition Resistance

Reconfigurable baseband processing platform for communication systems

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