Your search keyword '"Data synchronization"' showing total 13 results

1. Data Modeling and Synchronization Method to Align Power Trading Rules for Integrated Energy Management Systems.

Author

Zhou, Yingya, Chong, Chin Hao, Ni, Weidou, Li, Zheng, Zhou, Xiaoyong, and Ma, Linwei

Abstract

Integrated energy systems (IESs) couple multiple energy sources to promote clean energy and reduce emissions. IESs need to participate in business activities, such as power trading, aided by automated data-driven systems to achieve optimal and economical operation. However, challenges arise due to the lack of unified data model standards and the semantic ambiguity of rules, on top of the difficulty of synchronizing data across heterogeneous subsystems of integrated energy management systems (IEMSs). Previous research on power trading data models was limited to certain application scenarios and heterogeneities. This study pivots from proposing model standards to a standard neutral way to align power trading rules across IEMS subsystems. The method features a framework for power trading rules and a software platform called the power trading rule synchronizer. The proposed approach can minimize semantic ambiguity and ensure the automated rule synchronization across subsystems of IEMSs. A case study demonstrated the application of the proposed method, saving an estimated 672 man-days in implementing the rules in 16 subsystems of the IEMS, contributing directly and indirectly to reducing emissions. This study provides a foundation for aligning other rules in IEMSs, such as carbon and gas trading rules. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Novel Edge Platform Streamlining Connectivity between Modern Edge Devices and the Cloud.

Author

Carvalho, Anderson, Riordan, Daniel, and Walsh, Joseph

Subjects

DATABASES, EDGE computing, FARM management, DATA management, AGRICULTURE, CLOUD computing, DATA integrity

Abstract

This study presents a newly developed edge computing platform designed to enhance connectivity between edge devices and the cloud in the agricultural sector. Addressing the challenge of synchronizing a central database across 850 remote farm locations in various countries, the focus lies on maintaining data integrity and consistency for effective farm management. The incorporation of a new edge device into existing setups has significantly improved computational capabilities for tasks like data synchronization and machine learning. This research highlights the critical role of cloud computing in managing large data volumes, with Amazon Web Services hosting the databases. This paper showcases an integrated architecture combining edge devices, networks, and cloud computing, forming a seamless continuum of services from cloud to edge. This approach proves effective in managing the significant data volumes generated in remote agricultural areas. This paper also introduces the PAIR Mechanism, which is a solution developed in response to the unique challenges of agricultural data management, emphasizing resilience and simplicity in data synchronization between cloud and edge databases. The PAIR Mechanism's potential for robust data management in IoT and cloud environments is explored, offering a novel perspective on synchronization challenges in edge computing. [ABSTRACT FROM AUTHOR]

Published

2024

3. StreetAware: A High-Resolution Synchronized Multimodal Urban Scene Dataset.

Author

Piadyk, Yurii, Rulff, Joao, Brewer, Ethan, Hosseini, Maryam, Ozbay, Kaan, Sankaradas, Murugan, Chakradhar, Srimat, and Silva, Claudio

Subjects

*URBAN planning, *SMART cities, *COMPUTER vision, *OBJECT tracking (Computer vision), *BUILT environment, *PEDESTRIANS, *ROAD interchanges & intersections, *LOCAL transit access

Abstract

Access to high-quality data is an important barrier in the digital analysis of urban settings, including applications within computer vision and urban design. Diverse forms of data collected from sensors in areas of high activity in the urban environment, particularly at street intersections, are valuable resources for researchers interpreting the dynamics between vehicles, pedestrians, and the built environment. In this paper, we present a high-resolution audio, video, and LiDAR dataset of three urban intersections in Brooklyn, New York, totaling almost 8 unique hours. The data were collected with custom Reconfigurable Environmental Intelligence Platform (REIP) sensors that were designed with the ability to accurately synchronize multiple video and audio inputs. The resulting data are novel in that they are inclusively multimodal, multi-angular, high-resolution, and synchronized. We demonstrate four ways the data could be utilized — (1) to discover and locate occluded objects using multiple sensors and modalities, (2) to associate audio events with their respective visual representations using both video and audio modes, (3) to track the amount of each type of object in a scene over time, and (4) to measure pedestrian speed using multiple synchronized camera views. In addition to these use cases, our data are available for other researchers to carry out analyses related to applying machine learning to understanding the urban environment (in which existing datasets may be inadequate), such as pedestrian-vehicle interaction modeling and pedestrian attribute recognition. Such analyses can help inform decisions made in the context of urban sensing and smart cities, including accessibility-aware urban design and Vision Zero initiatives. [ABSTRACT FROM AUTHOR]

Published

2023

4. Robust Synchronization of Ambient Vibration Time Histories Based on Phase Angle Compensations and Kernel Density Function.

Author

Saeed, Salman, Chouinard, Luc, and Sajid, Sikandar

Subjects

*KERNEL functions, *STRUCTURAL health monitoring, *SYNCHRONIZATION, *DATA acquisition systems, *SKYSCRAPERS, *CONCRETE construction

Abstract

The output-only modal analysis is ubiquitously used for structural health monitoring of civil engineering systems. The measurements for such applications require the use of multiple data acquisition systems (DAS) to avoid complicated meshes of cables in high-rise buildings, avoid traffic constriction on a bridge during measurements, or to avoid having limited channels in a single DAS. Nevertheless, such requirements introduce time synchronization problems which potentially lead to erroneous structural dynamic characterization and hence misleading or inconclusive structural health monitoring results. This research aims at proposing a system-identification-based time synchronization algorithm for output-only modal analysis using multiple DAS. A new procedure based on the compensation of the phase angle shifts is proposed to identify and address the time synchronization issue in ambient vibration data measured through multiple DAS. To increase the robustness of the proposed algorithm to the inherent inconsistencies in these datasets, the kernel density function is applied to rank multiple time-shift estimates that are sometimes detected by the algorithm when inaccuracies exist in the data arising from low signal-to-noise ratio and/or presence of colored noise in the ambient excitations. First, the synchronized ambient vibration dataset of a full-scale bridge is artificially de-synchronized and used to present a proof of concept for the proposed algorithm. Next, the algorithm is applied to ambient vibration data of a 30-story, reinforced concrete building, where the synchronization of the data could not be achieved using two DAS despite best efforts. The application of the proposed time synchronization algorithm is shown to both detect and correct the time synchronization discrepancies in the output-only modal analysis. [ABSTRACT FROM AUTHOR]

Published

2022

5. A Review of Sensor-Based Sorting in Mineral Processing: The Potential Benefits of Sensor Fusion.

Author

Peukert, Dylan, Xu, Chaoshui, and Dowd, Peter

Subjects

*MINERAL processing, *DETECTORS, *WASTE products, *WATER consumption, *MANUFACTURING processes, *ORE deposits

Abstract

Sensor-based sorting techniques offer the potential to improve ore grades and reduce the amount of waste material processed. Previous studies show that sensor-based sorting can reduce energy, water and reagent consumption and fine waste production by discarding waste prior to further processing. In this literature review, recent investigations of sensor-based sorting and the fundamental mechanisms of the main sorting techniques are evaluated to inform optimal sensor selection. Additionally, the fusing of data from multiple sensing techniques to improve characterization of the sensed material and hence sorting capability is investigated. It was found that the key to effective implementation of sensor-based sorting is the selection of a sensing technique which can sense a characteristic capable of separating ore from waste with a sampling distribution sufficient for the considered sorting method. Classes of potential sensor fusion sorting applications in mineral processing are proposed and illustrated with example cases. It was also determined that the main holdup for implementing sensor fusion is a lack of correlatable data on the response of multiple sensing techniques for the same ore sample. A combined approach of experimental testing supplemented by simulations is proposed to provide data to enable the evaluation and development of sensor fusion techniques. [ABSTRACT FROM AUTHOR]

Published

2022

6. Location of Multiple Types of Faults in Active Distribution Networks Considering Synchronization of Power Supply Area Data.

Author

Ren, Gang, Zha, Xianguang, Jiang, Bing, Hu, Xiaoli, Xu, Junjun, and Tao, Kai

Subjects

ELECTRIC fault location, POWER resources, POWER distribution networks, FAULT location (Engineering), POWER supply circuits, SYNCHRONIZATION, SHORT circuits

Abstract

When a short circuit occurs in the power supply area of a distribution network with a high-permeability distributed generation, the line current will increase, the voltage will drop sharply, and the fault characteristics will be more complex. Therefore, the automatic, quick, and accurate location of fault sections is of great significance to the reliability of power supply. In order to prevent large-scale power outages in the power supply area caused by the failure of feeders and transformers, this paper proposes a novel method to locate fault sections in active distribution networks by taking into account the data of the power supply area. On the basis of the synchronization of calculated and measured time and the observability of the fault state, a limited number of intelligent terminals are reasonably arranged in the distribution network feeder and power supply area. Additionally, the fault location equation is established based on the three-phase voltage change values of the nodes before and after the fault collected by intelligent terminals, so that the fault section is determined by comparing the residuals. Finally, the proposed method is verified by the improved IEEE 37-node and IEEE 123-node three-phase distribution networks. The results show that it has high accuracy in locating fault sections in multiple fault scenarios. [ABSTRACT FROM AUTHOR]

Published

2022

7. Linear and Non-Linear Soft Sensors for Predicting the Research Octane Number (RON) through Integrated Synchronization, Resolution Selection and Modelling.

Author

Dias, Tiago, Oliveira, Rodolfo, Saraiva, Pedro M., and Reis, Marco S.

Subjects

*ANTIKNOCK gasoline, *PARTIAL least squares regression, *CATALYTIC reforming, *SYNCHRONIZATION

Abstract

The Research Octane Number (RON) is a key quality parameter for gasoline, obtained offline through complex, time-consuming, and expensive standard methods. Measurements are usually only available a few times per week and after long delays, making process control very challenging. Therefore, alternative methods have been proposed to predict RON from readily available data. In this work, we report the development of inferential models for predicting RON from process data collected in a real catalytic reforming process. Data resolution and synchronization were explicitly considered during the modelling stage, where 20 predictive linear and non-linear machine learning models were assessed and compared using a robust Monte Carlo double cross-validation approach. The workflow also handles outliers, missing data, multirate and multiresolution observations, and processes dynamics, among other features. Low RMSE were obtained under testing conditions (close to 0.5), with the best methods belonging to the class of penalized regression methods and partial least squares. The developed models allow for improved management of the operational conditions necessary to achieve the target RON, including a more effective use of the heating utilities, which improves process efficiency while reducing costs and emissions. [ABSTRACT FROM AUTHOR]

Published

2022

8. Monitoring of Bridges by a Laser Pointer: Dynamic Measurement of Support Rotations and Elastic Line Displacements: Methodology and First Test.

Author

Artese, Serena, Achilli, Vladimiro, and Zinno, Raffaele

Subjects

*BRIDGE floors, *DISPLACEMENT (Mechanics), *BEARING capacity (Bridges), *ROTATIONAL motion, *IMAGE processing

Abstract

Deck inclination and vertical displacements are among the most important technical parameters to evaluate the health status of a bridge and to verify its bearing capacity. Several methods, both conventional and innovative, are used for structural rotations and displacement monitoring; however, none of these allow, at the same time, precision, automation, static and dynamic monitoring without using high cost instrumentation. The proposed system uses a common laser pointer and image processing. The elastic line inclination is measured by analyzing the single frames of an HD video of the laser beam imprint projected on a flat target. For the image processing, a code was developed in Matlab® that provides instantaneous rotation and displacement of a bridge, charged by a mobile load. An important feature is the synchronization of the load positioning, obtained by a GNSS receiver or by a video. After the calibration procedures, a test was carried out during the movements of a heavy truck maneuvering on a bridge. Data acquisition synchronization allowed us to relate the position of the truck on the deck to inclination and displacements. The inclination of the elastic line at the support was obtained with a precision of 0.01 mrad. The results demonstrate the suitability of the method for dynamic load tests, and the control and monitoring of bridges. [ABSTRACT FROM AUTHOR]

Published

2018

9. Dynamic quadrilateral characteristic based distance relays for transmission lines equipped with TCSC

Author

Doaa Khalil Ibrahim, Ahmed F. Zobaa, Ghada M. Abo-Hamad, and Essam Aboul Zahab

Subjects

Technology, Control and Optimization, Computer science, resistance and reactance elements, Computation, Reactance, Energy Engineering and Power Technology, law.invention, Control theory, Relay, law, Data synchronization, Electrical and Electronic Engineering, MATLAB, Engineering (miscellaneous), computer.programming_language, Thyristor Controlled Series Compensator (TCSC), Resistive touchscreen, Quadrilateral, Renewable Energy, Sustainability and the Environment, quadrilateral characteristic, fault resistance, Electric power transmission, distance relay, computer, Energy (miscellaneous)

Abstract

Copyright: © 2021 by the authors. A two-fold adaptive dynamic quadrilateral relay is developed in this research for protecting Thyristor-Controlled Series Compensator (TCSC)-compensated transmission lines (TLs). By investigating a new tilt angle and modifying the Takagi method to recognize the fault zone identifier, the proposed relay adapts its reactive reach and resistive reach separately and independently. The investigated tilt angle and identified fault zone use the TCSC reactance to compensate its effect on the TL parameters and system homogeneity. Excessive tests are simulated by MATLAB on the non-homogenous network, IEEE-9 bus system and further tests are carried out on IEEE-39 bus system in order to generalize and validate the efficiency of the proposed approach. The designed trip boundaries are able to detect wide range of resistive faults under all TCSC modes of operations. The proposed approach is easy to implement as there no need for data synchronization or a high level of computation and filtration. Moreover, the proposed adaptive dynamic relay can be applied for non-homogeneity systems and short as well as long TLs which are either TCSC-compensated or -uncompensated TLs.

Published

2021

10. Selecting a Stored Data Approach for Mobile Apps.

Author

Nickerson, Robert C. and Mourato-Dussault, Francois B.

Subjects

INFORMATION retrieval, MOBILE apps, COMPUTER software development, SYNCHRONIZATION, DATA management

Abstract

Stored data is a critical component of any application. The stored data component of mobile applications (apps) presents special considerations. This paper examines stored data for mobile apps. It identifies three types of mobile apps and describes the stored data characteristics of each type. It proposes decision factors for selecting a data storage approach for a mobile app and the impact of the factors on the usability of the app. The paper surveys over 70 apps in a specific domain (that of walking the Camino de Santiago in Spain) to examine their data storage characteristics. It also presents a case study of the development of one app in this domain (eCamino) and how the decision factors were applied in selecting the stored data approach for this app. The paper also discusses the implications of the research for apps in other domains. The paper concludes that in general the data storage approach selected for a mobile app depends on the characteristics of the situation in which the app will be used, but in the domain examined one particular approach (synchronized data storage) has clear benefits over other approaches. [ABSTRACT FROM AUTHOR]

Published

2016

11. Design and Implementation of a Wireless Sensor Network for Seismic Monitoring of Buildings

Author

Juan Luis Soler-Llorens, Juan José Galiana-Merino, Julio Antonio Jornet-Monteverde, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, and Grupo de Ingeniería y Riesgo Sísmico (GIRS)

Subjects

Ambient vibrations, 010504 meteorology & atmospheric sciences, data acquisition, Computer science, Real-time computing, TP1-1185, JavaScript, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, law.invention, Data acquisition, law, Data synchronization, Electrical and Electronic Engineering, wireless sensor networks, Instrumentation, 0105 earth and related environmental sciences, computer.programming_language, building monitoring, business.industry, Chemical technology, 010401 analytical chemistry, Atomic and Molecular Physics, and Optics, Wireless sensor networks, 0104 chemical sciences, Microcontroller, Building monitoring, Teoría de la Señal y Comunicaciones, The Internet, Wi-Fi networks, business, CC3200, computer, Wireless sensor network, Node.js, ambient vibrations, Remote control, Data transmission

Abstract

This article presents a new wireless seismic sensor network system, especially design for building monitoring. The designed prototype allows remote control, and remote and real-time monitoring of the recorded signals by any internet browser. The system is formed by several Nodes (based on the CC3200 microcontroller of Texas Instruments), which are in charge of digitizing the ambient vibrations registered by three-component seismic sensors and transmitting them to a central server. This server records all the received signals, but also allows their real-time visualization in several remote client browsers thanks to the JavaScript’s Node.js technology. The data transmission uses not only Wi-Fi technology, but also the existing network resources that nowadays can be found usually in any official or residential building (lowering deployment costs). A data synchronization scheme was also implemented to correct the time differences between the Nodes, but also the long-term drifts found in the internal clock of the microcontrollers (improving the quality of records). The completed system is a low-cost, open-hardware and open-software design. The prototype was tested in a real building, recording ambient vibrations in several floors and observing the differences due to the building structure. This study was funded by the European Union’s Horizon 2020 research and innovation program under grant agreement No 821046, the Ministerio de Economía, Industria y Competitividad through research project CGL2016-77688-R, by the Consellería de Participación, Transparencia, Cooperación y Calidad Democrática de la Generalitat Valenciana, and by Research Group VIGROB-116 (University of Alicante).

Published

2021

12. Development of Synchronized High-Sensitivity Wireless Accelerometer for Structural Health Monitoring

Author

Yuguang Fu, Tu Hoang, Billie F. Spencer, Kirill Mechitov, Raymond Chow, and Shaik Althaf Veluthedath Shajihan

Subjects

digital output sensor, Computer science, Analog-to-digital converter, 020101 civil engineering, 02 engineering and technology, lcsh:Chemical technology, Accelerometer, synchronized sensing, Biochemistry, Synchronization, Article, 0201 civil engineering, Analytical Chemistry, law.invention, law, high-sensitivity accelerometer, Wireless, lcsh:TP1-1185, Data synchronization, Electrical and Electronic Engineering, time synchronization, Instrumentation, structural health monitoring, business.industry, wireless smart sensor, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Structural health monitoring, 0210 nano-technology, business, Host (network), Wireless sensor network, Computer hardware

Abstract

The use of digital accelerometers featuring high sensitivity and low noise levels in wireless smart sensors (WSSs) is becoming increasingly common for structural health monitoring (SHM) applications. Improvements in the design of Micro Electro-Mechanical System (MEMS) based digital accelerometers allow for high resolution sensing required for SHM with low power consumption suitable for WSSs. However, new approaches are needed to synchronize data from these sensors. Data synchronization is essential in wireless smart sensor networks (WSSNs) for accurate condition assessment of structures and reduced false-positive indications of damage. Efforts to achieve synchronized data sampling from multiple WSS nodes with digital accelerometers have been lacking, primarily because these sensors feature an internal Analog to Digital Converter (ADC) to which the host platform has no direct access. The result is increased uncertainty in the ADC startup time and thus worse synchronization among sensors. In this study, a high-sensitivity digital accelerometer is integrated with a next-generation WSS platform, the Xnode. An adaptive iterative algorithm is used to characterize these delays without the need for a dedicated evaluation setup and hardware-level access to the ADC. Extensive tests are conducted to evaluate the performance of the accelerometer experimentally. Overall time-synchronization achieved is under 15 &micro, s, demonstrating the efficacy of this approach for synchronization of critical SHM applications.

Published

2020

13. Design of a Wearable Sensing System for Human Motion Monitoring in Physical Rehabilitatio.

Author

Gonz'alez-Villanueva, Lara, Cagnoni, Stefano, and Ascari, Luca

Subjects

*BODY movement, *REHABILITATION, *ACCELEROMETERS, *ATHLETIC ability, *WIRELESS sensor nodes, *BIOSENSORS

Abstract

Human motion monitoring and analysis can be an essential part of a wide spectrum of applications, including physical rehabilitation among other potential areas of interest. Creating non-invasive systems for monitoring patients while performing rehabilitation exercises, to provide them with an objective feedback, is one of the current challenges. In this paper we present a wearable multi-sensor system for human motion monitoring, which has been developed for use in rehabilitation. It is composed of a number of small modules that embed high-precision accelerometers and wireless communications to transmit the information related to the body motion to an acquisition device. The results of a set of experiments we made to assess its performance in real-world setups demonstrate its usefulness in human motion acquisition and tracking, as required, for example, in activity recognition, physical/athletic performance evaluation and rehabilitation. [ABSTRACT FROM AUTHOR]

Published

2013