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1. SGP-RI: A Real-Time-Trainable and Decentralized IoT Indoor Localization Model Based on Sparse Gaussian Process with Reduced-Dimensional Inputs

Author

Tang, Zhe, Li, Sihao, Huang, Zichen, Yang, Guandong, Kim, Kyeong Soo, and Smith, Jeremy S.

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning, Computer Science - Networking and Internet Architecture
Abstract

Internet of Things (IoT) devices are deployed in the filed, there is an enormous amount of untapped potential in local computing on those IoT devices. Harnessing this potential for indoor localization, therefore, becomes an exciting research area. Conventionally, the training and deployment of indoor localization models are based on centralized servers with substantial computational resources. This centralized approach faces several challenges, including the database's inability to accommodate the dynamic and unpredictable nature of the indoor electromagnetic environment, the model retraining costs, and the susceptibility of centralized servers to security breaches. To mitigate these challenges we aim to amalgamate the offline and online phases of traditional indoor localization methods using a real-time-trainable and decentralized IoT indoor localization model based on Sparse Gaussian Process with Reduced-dimensional Inputs (SGP-RI), where the number and dimension of the input data are reduced through reference point and wireless access point filtering, respectively. The experimental results based on a multi-building and multi-floor static database as well as a single-building and single-floor dynamic database, demonstrate that the proposed SGP-RI model with less than half the training samples as inducing inputs can produce comparable localization performance to the standard Gaussian Process model with the whole training samples. The SGP-RI model enables the decentralization of indoor localization, facilitating its deployment to resource-constrained IoT devices, and thereby could provide enhanced security and privacy, reduced costs, and network dependency. Also, the model's capability of real-time training makes it possible to quickly adapt to the time-varying indoor electromagnetic environment., Comment: 10 pages, 4 figures, under review for journal publication

Published
2024

2. Mean Teacher based SSL Framework for Indoor Localization Using Wi-Fi RSSI Fingerprinting

Author

Li, Sihao, Tang, Zhe, Kim, Kyeong Soo, and Smith, Jeremy S.

Subjects
Computer Science - Machine Learning
Abstract

Wi-Fi fingerprinting is widely applied for indoor localization due to the widespread availability of Wi-Fi devices. However, traditional methods are not ideal for multi-building and multi-floor environments due to the scalability issues. Therefore, more and more researchers have employed deep learning techniques to enable scalable indoor localization. This paper introduces a novel semi-supervised learning framework for neural networks based on wireless access point selection, noise injection, and Mean Teacher model, which leverages unlabeled fingerprints to enhance localization performance. The proposed framework can manage hybrid in/outsourcing and voluntarily contributed databases and continually expand the fingerprint database with newly submitted unlabeled fingerprints during service. The viability of the proposed framework was examined using two established deep-learning models with the UJIIndoorLoc database. The experimental results suggest that the proposed framework significantly improves localization performance compared to the supervised learning-based approach in terms of floor-level coordinate estimation using EvAAL metric. It shows enhancements up to 10.99% and 8.98% in the former scenario and 4.25% and 9.35% in the latter, respectively with additional studies highlight the importance of the essential components of the proposed framework., Comment: 12 pages, 10 figures, under preparation for a journal publication

Published
2024

3. Hierarchical Stage-Wise Training of Linked Deep Neural Networks for Multi-Building and Multi-Floor Indoor Localization Based on Wi-Fi RSSI Fingerprinting

Author

Li, Sihao, Kim, Kyeong Soo, Tang, Zhe, Graduate, and Smith, Jeremy S.

Subjects
Computer Science - Machine Learning
Abstract

In this paper, we present a new solution to the problem of large-scale multi-building and multi-floor indoor localization based on linked neural networks, where each neural network is dedicated to a sub-problem and trained under a hierarchical stage-wise training framework. When the measured data from sensors have a hierarchical representation as in multi-building and multi-floor indoor localization, it is important to exploit the hierarchical nature in data processing to provide a scalable solution. In this regard, the hierarchical stage-wise training framework extends the original stage-wise training framework to the case of multiple linked networks by training a lower-hierarchy network based on the prior knowledge gained from the training of higher-hierarchy networks. The experimental results with the publicly-available UJIIndoorLoc multi-building and multi-floor Wi-Fi RSSI fingerprint database demonstrate that the linked neural networks trained under the proposed hierarchical stage-wise training framework can achieve a three-dimensional localization error of 8.19 m, which, to the best of the authors' knowledge, is the most accurate result ever obtained for neural network-based models trained and evaluated with the full datasets of the UJIIndoorLoc database, and that, when applied to a model based on hierarchical convolutional neural networks, the proposed training framework can also significantly reduce the three-dimensional localization error from 11.78 m to 8.71 m., Comment: 9 pages, 5 figures, under review for journal publication

Published
2024
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4. Static vs. Dynamic Databases for Indoor Localization based on Wi-Fi Fingerprinting: A Discussion from a Data Perspective

Author

Tang, Zhe, Gu, Ruocheng, Li, Sihao, Kim, Kyeong Soo, and Smith, Jeremy S.

Subjects
Computer Science - Machine Learning, Computer Science - Networking and Internet Architecture
Abstract

Wi-Fi fingerprinting has emerged as the most popular approach to indoor localization. The use of ML algorithms has greatly improved the localization performance of Wi-Fi fingerprinting, but its success depends on the availability of fingerprint databases composed of a large number of RSSIs, the MAC addresses of access points, and the other measurement information. However, most fingerprint databases do not reflect well the time varying nature of electromagnetic interferences in complicated modern indoor environment. This could result in significant changes in statistical characteristics of training/validation and testing datasets, which are often constructed at different times, and even the characteristics of the testing datasets could be different from those of the data submitted by users during the operation of localization systems after their deployment. In this paper, we consider the implications of time-varying Wi-Fi fingerprints on indoor localization from a data-centric point of view and discuss the differences between static and dynamic databases. As a case study, we have constructed a dynamic database covering three floors of the IR building of XJTLU based on RSSI measurements, over 44 days, and investigated the differences between static and dynamic databases in terms of statistical characteristics and localization performance. The analyses based on variance calculations and Isolation Forest show the temporal shifts in RSSIs, which result in a noticeable trend of the increase in the localization error of a Gaussian process regression model with the maximum error of 6.65 m after 14 days of training without model adjustments. The results of the case study with the XJTLU dynamic database clearly demonstrate the limitations of static databases and the importance of the creation and adoption of dynamic databases for future indoor localization research and real-world deployment., Comment: 10 pages, 5 figures, Invited paper with Excellent Paper Award to be presented at ICAIIC 2024, Osaka, Japan, Feb. 19--22, 2023

Published
2024

5. Towards Transaction as a Service

Author

Zhang, Yanfeng, Zhou, Weixing, Ren, Yang, Li, Sihao, Li, Guoliang, and Yu, Ge

Subjects
Computer Science - Databases
Abstract

This paper argues for decoupling transaction processing from existing two-layer cloud-native databases and making transaction processing as an independent service. By building a transaction as a service (TaaS) layer, the transaction processing can be independently scaled for high resource utilization and can be independently upgraded for development agility. Accordingly, we architect an execution-transaction-storage three-layer cloud-native database. By connecting to TaaS, 1) the AP engines can be empowered with ACID TP capability, 2) multiple standalone TP engine instances can be incorporated to support multi-master distributed TP for horizontal scalability, 3) multiple execution engines with different data models can be integrated to support multi-model transactions, and 4) high performance TP is achieved through extensive TaaS optimizations and consistent evolution. Cloud-native databases deserve better architecture: we believe that TaaS provides a path forward to better cloud-native databases.

Published
2023

6. GeoGauss: Strongly Consistent and Light-Coordinated OLTP for Geo-Replicated SQL Database

Author

Zhou, Weixing, Peng, Qi, Zhang, Zijie, Zhang, Yanfeng, Ren, Yang, Li, Sihao, Fu, Guo, Cui, Yulong, Li, Qiang, Wu, Caiyi, Han, Shangjun, Wang, Shengyi, Li, Guoliang, and Yu, Ge

Subjects
Computer Science - Databases
Abstract

Multinational enterprises conduct global business that has a demand for geo-distributed transactional databases. Existing state-of-the-art databases adopt a sharded master-follower replication architecture. However, the single-master serving mode incurs massive cross-region writes from clients, and the sharded architecture requires multiple round-trip acknowledgments (e.g., 2PC) to ensure atomicity for cross-shard transactions. These limitations drive us to seek yet another design choice. In this paper, we propose a strongly consistent OLTP database GeoGauss with full replica multi-master architecture. To efficiently merge the updates from different master nodes, we propose a multi-master OCC that unifies data replication and concurrent transaction processing. By leveraging an epoch-based delta state merge rule and the optimistic asynchronous execution, GeoGauss ensures strong consistency with light-coordinated protocol and allows more concurrency with weak isolation, which are sufficient to meet our needs. Our geo-distributed experimental results show that GeoGauss achieves 7.06X higher throughput and 17.41X lower latency than the state-of-the-art geo-distributed database CockroachDB on the TPC-C benchmark.

Published
2023

7. Estimation and Prediction of Water Conservation Capacity in Shaanxi Province Based on the InVEST-PLUS Model

Author

ZHOU Pingping, LUO Yi, SONG Xiaoyan, WU Hao, WANG Gang, SHAN Weihua, ZHANG Ke, LIU Zhengjia, ZHANG Shimei, LI Wenjia, LI Sihao, SONG Songbai, and SUN Wenyi

Subjects
water conservation, invest model, plus model, land use, shaanxi province, Environmental sciences, GE1-350, Agriculture
Abstract

[Objective] This study was aimed to estimate the amount of water conservation in Shaanxi Province. [Methods] The InVEST model and PLUS model were coupled to calculate the water conservation amount in Shaanxi Province from 2000 to 2020 and predict the water conservation amount under land use changes in the future in 2030. [Results] The average water conservation amount in Shaanxi Province from 2000 to 2020 was 132.25 mm, with a spatial distribution characteristic of gradually increasing water conservation from north to south. From the perspective of vegetation types, forest land was the main body of water conservation in Shaanxi Province. The average annual water conservation amount was 199.55×108 m3. From the administrative region, Ankang City had the largest water conservation amount(308.96 mm). The total amount of water source conservation in 2030 will be 285.16×108 m3 and 8.68×108 m3 less than that in 2020. [Conclusion] The water conservation amount of Shaanxi Province will show a slight downward trend from 2020 to 2030 in the future.

Published
2024
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8. GRB 220408B: A Three-Episode Burst from a Precessing Jet

Author

Zhang, Zijian, Yin, Yihan, Wang, Chenyu, Wang, Xiangyu Ivy, Yang, Jun, Meng, Yan-Zhi, Liu, Zi-Ke, Chen, Guo-Yin, Fu, Xiaoping, Gao, Huaizhong, Li, Sihao, Liu, Yihui, Long, Xiangyun, Ma, Yong-Chang, Pan, Xiaofan, Sun, Yuanze, Wu, Wei, Yang, Zirui, Ye, Zhizhen, Yu, Xiaoyu, Zhao, Shuheng, Zheng, Xutao, Zhou, Tao, Tang, Qing-Wen, Yan, Qiurong, Zhou, Rong, Wang, Zhonghai, Feng, Hua, Zeng, Ming, and Zhang, Bin-Bin

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Jet precession has previously been proposed to explain the apparently repeating features in the light curves of a few gamma-ray bursts (GRBs). In this {\it Letter}, we further apply the precession model to a bright GRB 220408B by examining both its temporal and spectral consistency with the predictions of the model. As one of the recently confirmed GRBs observed by our GRID CubeSat mission, GRB 220408B is noteworthy as it exhibits three apparently similar emission episodes. Furthermore, the similarities are reinforced by their strong temporal correlations and similar features in terms of spectral evolution and spectral lags. Our analysis demonstrates that these features can be well explained by the modulated emission of a Fast-Rise-Exponential-Decay (FRED) shape light curve intrinsically produced by a precessing jet with a precession period of $18.4 \pm 0.2$ seconds, a nutation period of $11.1 \pm 0.2$ seconds and viewed off-axis. This study provides a straightforward explanation for the complex yet similar multi-episode GRB light curves., Comment: 11 pages, 3 tables, 8 figures

Published
2023

9. On the Multidimensional Augmentation of Fingerprint Data for Indoor Localization in A Large-Scale Building Complex Based on Multi-Output Gaussian Process

Author

Tang, Zhe, Li, Sihao, Kim, Kyeong Soo, and Smith, Jeremy

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

Wi-Fi fingerprinting becomes a dominant solution for large-scale indoor localization due to its major advantage of not requiring new infrastructure and dedicated devices. The number and the distribution of Reference Points (RPs) for the measurement of localization fingerprints like RSSI during the offline phase, however, greatly affects the localization accuracy; for instance, the UJIIndoorLoc is known to have the issue of uneven spatial distribution of RPs over buildings and floors. Data augmentation has been proposed as a feasible solution to not only improve the smaller number and the uneven distribution of RPs in the existing fingerprint databases but also reduce the labor and time costs of constructing new fingerprint databases. In this paper, we propose the multidimensional augmentation of fingerprint data for indoor localization in a large-scale building complex based on Multi-Output Gaussian Process (MOGP) and systematically investigate the impact of augmentation ratio as well as MOGP kernel functions and models with their hyperparameters on the performance of indoor localization using the UJIIndoorLoc database and the state-of-the-art neural network indoor localization model based on a hierarchical RNN. The investigation based on experimental results suggests that we can generate synthetic RSSI fingerprint data up to ten times the original data -- i.e., the augmentation ratio of 10 -- through the proposed multidimensional MOGP-based data augmentation without significantly affecting the indoor localization performance compared to that of the original data alone, which extends the spatial coverage of the combined RPs and thereby could improve the localization performance at the locations that are not part of the test dataset., Comment: 10 pages, 6 figures, under review for journal publication

Published
2022

12. Multi-Output Gaussian Process-Based Data Augmentation for Multi-Building and Multi-Floor Indoor Localization

Author

Tang, Zhe, Li, Sihao, Kim, Kyeong Soo, and Smith, Jeremy

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Location fingerprinting based on RSSI becomes a mainstream indoor localization technique due to its advantage of not requiring the installation of new infrastructure and the modification of existing devices, especially given the prevalence of Wi-Fi-enabled devices and the ubiquitous Wi-Fi access in modern buildings. The use of AI/ML technologies like DNNs makes location fingerprinting more accurate and reliable, especially for large-scale multi-building and multi-floor indoor localization. The application of DNNs for indoor localization, however, depends on a large amount of preprocessed and deliberately-labeled data for their training. Considering the difficulty of the data collection in an indoor environment, especially under the current epidemic situation of COVID-19, we investigate three different methods of RSSI data augmentation based on Multi-Output Gaussian Process (MOGP), i.e., by a single floor, by neighboring floors, and by a single building; unlike Single-Output Gaussian Process (SOGP), MOGP can take into account the correlation among RSSI observations from multiple Access Points (APs) deployed closely to each other (e.g., APs on the same floor of a building) by collectively handling them. The feasibility of the MOGP-based RSSI data augmentation is demonstrated through experiments based on the state-of-the-art RNN indoor localization model and the UJIIndoorLoc, i.e., the most popular publicly-available multi-building and multi-floor indoor localization database, where the RNN model trained with the UJIIndoorLoc database augmented by using the whole RSSI data of a building in fitting an MOGP model (i.e., by a single building) outperforms the other two augmentation methods as well as the RNN model trained with the original UJIIndoorLoc database, resulting in the mean three-dimensional positioning error of 8.42 m., Comment: 6 pages, 5 figures

Published
2022

26. Performance Study of Asphalt Mixtures Reinforced with Gradated Basalt Fibers of Mixed Lengths.

Author

Ji, Xiaoxiang, Yuan, Yuqing, Huang, Yunjun, Shao, Jinggan, and Li, Sihao

Subjects
HIGHWAY engineering, BASALT, METHODS engineering, ASPHALT, TEST design
Abstract

The length of basalt fibers affects the performance of asphalt mixtures. To explore the influence of different lengths of basalt fibers on the performance of asphalt mixtures, this study selected basalt fibers with lengths of 6 mm, 9 mm, and 12 mm to design gradations that were incorporated into asphalt mixtures to prepare specimens. High-temperature rutting tests, immersion Marshall tests, freeze-thaw splitting tests, and low-temperature splitting tests were conducted, resulting in 11 test mix designs and 12 test indicators. Then, a multi-objective grey target decision method was used to optimize the optimal combination ratio of basalt fiber lengths. The results indicate that compared to asphalt mixtures with single-length basalt fibers, incorporating well-combined basalt fibers significantly enhances the high-temperature, low-temperature, and water stability performance of asphalt mixtures. According to the grey target decision method, this study determined that a basalt fiber combination ratio of 3:4:3 for lengths of 6 mm, 9 mm, and 12 mm provides the best overall performance of asphalt mixtures. Additionally, when designing asphalt mixtures with graded basalt fibers, the inclusion of 9 mm fibers should be the primary control point. These research findings provide important guidance for the enhanced application of basalt fibers in road engineering. [ABSTRACT FROM AUTHOR]

Published
2024
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36. On the Use and Construction of Wi-Fi Fingerprint Databases for Large-Scale Multi-Building and Multi-Floor Indoor Localization: A Case Study of the UJIIndoorLoc Database.

Author

Li, Sihao, Tang, Zhe, Kim, Kyeong Soo, and Smith, Jeremy S.

Subjects
*FINGERPRINT databases, *HUMAN fingerprints, *DATABASES, *WIRELESS Internet
Abstract

Large-scale multi-building and multi-floor indoor localization has recently been the focus of intense research in indoor localization based on Wi-Fi fingerprinting. Although significant progress has been made in developing indoor localization algorithms, few studies are dedicated to the critical issues of using existing and constructing new Wi-Fi fingerprint databases, especially for large-scale multi-building and multi-floor indoor localization. In this paper, we first identify the challenges in using and constructing Wi-Fi fingerprint databases for large-scale multi-building and multi-floor indoor localization and then provide our recommendations for those challenges based on a case study of the UJIIndoorLoc database, which is the most popular publicly available Wi-Fi fingerprint multi-building and multi-floor database. Through the case study, we investigate its statistical characteristics with a focus on the three aspects of (1) the properties of detected wireless access points, (2) the number, distribution and quality of labels, and (3) the composition of the database records. We then identify potential issues and ways to address them using the UJIIndoorLoc database. Based on the results from the case study, we not only provide valuable insights on the use of existing databases but also give important directions for the design and construction of new databases for large-scale multi-building and multi-floor indoor localization in the future. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Self-powered wearable electrical stimulation patch with integrated triboelectric nanogenerator for tendinopathy treatment

Author

Wu, Yifan, primary, Zhang, Kaihang, additional, Li, Sihao, additional, Xiang, Zhihui, additional, Jiang, Guangyao, additional, Zhang, Ruijie, additional, Qi, Yiying, additional, Ji, Xiaoxiao, additional, Cai, Xinyu, additional, Zhang, Chi, additional, Li, Jie, additional, Feng, Gang, additional, Yan, Ruijian, additional, Jin, Hao, additional, Dong, Shurong, additional, and Luo, Jikui, additional

Published
2023
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43. Enzyme‐Photodynamic Adaptive Bionic Periosteum for Bone Revitalization.

Author

Chen, Yazhou, Jin, Xiaoqiang, Lu, Jinwei, Li, Sihao, Li, Congsun, Yu, Chao, Jiang, Guangyao, Ji, Xiaoxiao, Yao, Minjun, Xiang, Zhihui, Yan, Shigui, Yan, Ruijian, Yu, Xiaohua, and Li, Fangcai

Subjects
PERIOSTEUM, BIONICS, MATRIX metalloproteinases, BONE grafting, CELL migration, ACRYLAMIDE
Abstract

The lack of periosteum in bone allografts is considered a major cause of bone graft failure; however, the currently used artificial periosteum has failed to proactively adapt to its chronological role in the repair process. This study designed an adaptive periosteal system with dual‐response mechanisms to enable interactive angiogenic/osteogenic stimulation customized for inflammatory and anabolic stages of bone healing. Utilizing the enzymatic reactions and photodynamic properties of gold nanorod‐porous silicon, angiogenic peptides (QK) are released in response to matrix metalloproteinase 2 (MMP‐2), whereas bone‐forming peptides (BFP) are triggered by timed near‐infrared (NIR) irradiation, providing a portfolio of growth factors that match the dynamics of bone healing. The incorporation of such nanocarriers into a poly(N‐isopropyl acrylamide)/methacrylic acid gel (PNIPAM/GelMA) successfully formed a bionic periosteum that actively adapted to the function of the periosteum in different scenarios, resulting in more than doubled its ability to promote angiogenesis, stem cell migration, and osteogenesis compared to the controls. Furthermore, over 80% of the defects are covered with a new scab after the timed near‐infrared irradiation of large bone defects implanted with the system. The bionic periosteum actively mimicked the role of the periosteum in bone healing and offered a novel selection strategy for adaptability. [ABSTRACT FROM AUTHOR]

Published
2024
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46. GRB 220408B: A Three-Episode Burst from a Precessing Jet

Author

Zhang, Zijian, primary, Yin, Yi-Han Iris, additional, Wang, Chenyu, additional, Wang, Xiangyu Ivy, additional, Yang, Jun, additional, Meng, Yan-Zhi, additional, Liu, Zi-Ke, additional, Chen, Guo-Yin, additional, Fu, Xiaoping, additional, Gao, Huaizhong, additional, Li, Sihao, additional, Liu, Yihui, additional, Long, Xiangyun, additional, Ma, Yong-Chang, additional, Pan, Xiaofan, additional, Sun, Yuanze, additional, Wu, Wei, additional, Yang, Zirui, additional, Ye, Zhizhen, additional, Yu, Xiaoyu, additional, Zhao, Shuheng, additional, Zheng, Xutao, additional, Zhou, Tao, additional, Tang, Qing-Wen, additional, Qiu, Qiurong, additional, Zhou, Rong, additional, Wang, Zhonghai, additional, Feng, Hua, additional, Zeng, Ming, additional, and Zhang, Binbin, additional

Published
2023
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47. Mechanical and tribological properties of B-C-N coatings sliding against different wood balls

Author

Wu Zhiwei, Wang Yan, Li Sihao, Wang Xiaoyong, Xu Zhaojun, and Zhou Fei

Subjects
bcn coating, mechanical properties, friction, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

BCN coatings with different chemical compositions were prepared using RF magnetron sputtering via adjusting N2 flow. The influence of N2 flow on the bonding structure, mechanical and tribological properties of coating was studied. The structural analysis indicated the coexistence of B-N, B-C, and N-C bonds, suggesting the formation of a ternary BCN hybridization. The maximum Vickers hardness of 1614.7 HV was obtained at the low N2 flow (5 sccm), whereas the adhesion strength of BCN coatings on 316L stainless steel was improved with an increase of N2 flow. The friction behavior of BCN coatings sliding against different materials (acerbic, beech and lauan wood) was performed using ball-on-disk tribo-meter in air. The low friction coefficient was easier to obtain as sliding against hardwood i.e. acerbic balls. BCN-5 and BCN-10 coatings presented better wear resistance regardless of softwood or hardwood, whilst other two coatings were more suitable for mating softwood i.e. beech and lauan.

Published
2019
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49. Experimental Study on Tensile Performance of FRP Tendons/Cables with Varied Bond Anchorage Factors.

Author

Zhao, Xing, Meng, Lanjinhua, and Li, Sihao

Subjects
ANCHORAGE, TENDONS, STRAINS & stresses (Mechanics), TENSILE tests, CIVIL engineering, CABLES
Abstract

FRP tendons and cables are increasingly being used in civil engineering structures due to their high strength-to-weight ratio and corrosion resistance. The bond anchorage factors, which characterize the bond strength between the FRP tendon/cable and the surrounding materials, play a critical role in determining the overall performance of the system. In this study, a series of tensile tests were conducted on FRP tendons/cables with different bond anchorage factors to evaluate their load-carrying capacity, load–displacement curve, and strain distribution. The study considered different types and surface shapes of FRP tendons/cables, and determined the influence of anchoring length, bonding medium type, and bonding medium thickness on the performance. The strain distribution of FRP tendons/cables at the anchorage end gradually increased along the loading section to the free end. A stress analysis model of the anchoring section was proposed and found to be consistent with the test results. [ABSTRACT FROM AUTHOR]

Published
2024
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