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1. Hybrid RAG-empowered Multi-modal LLM for Secure Healthcare Data Management: A Diffusion-based Contract Theory Approach

Author

Su, Cheng, Wen, Jinbo, Kang, Jiawen, Wang, Yonghua, Pan, Hudan, and Hossain, M. Shamim

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Secure data management and effective data sharing have become paramount in the rapidly evolving healthcare landscape. The advancement of generative artificial intelligence has positioned Multi-modal Large Language Models (MLLMs) as crucial tools for managing healthcare data. MLLMs can support multi-modal inputs and generate diverse types of content by leveraging large-scale training on vast amounts of multi-modal data. However, critical challenges persist in developing medical MLLMs, including healthcare data security and freshness issues, affecting the output quality of MLLMs. In this paper, we propose a hybrid Retrieval-Augmented Generation (RAG)-empowered medical MLLMs framework for healthcare data management. This framework leverages a hierarchical cross-chain architecture to facilitate secure data training. Moreover, it enhances the output quality of MLLMs through hybrid RAG, which employs multi-modal metrics to filter various unimodal RAG results and incorporates these retrieval results as additional inputs to MLLMs. Additionally, we employ age of information to indirectly evaluate the data freshness impact of MLLMs and utilize contract theory to incentivize healthcare data holders to share fresh data, mitigating information asymmetry in data sharing. Finally, we utilize a generative diffusion model-based reinforcement learning algorithm to identify the optimal contract for efficient data sharing. Numerical results demonstrate the effectiveness of the proposed schemes, which achieve secure and efficient healthcare data management., Comment: 12 pages, 6 figures

Published
2024

2. Privacy-preserving Pseudonym Schemes for Personalized 3D Avatars in Mobile Social Metaverses

Author

Su, Cheng, Luo, Xiaofeng, Liu, Zhenmou, Kang, Jiawen, Hao, Min, Xiong, Zehui, Yang, Zhaohui, and Huang, Chongwen

Subjects
Computer Science - Networking and Internet Architecture
Abstract

The emergence of mobile social metaverses, a novel paradigm bridging physical and virtual realms, has led to the widespread adoption of avatars as digital representations for Social Metaverse Users (SMUs) within virtual spaces. Equipped with immersive devices, SMUs leverage Edge Servers (ESs) to deploy their avatars and engage with other SMUs in virtual spaces. To enhance immersion, SMUs incline to opt for 3D avatars for social interactions. However, existing 3D avatars are typically generated through scanning the real faces of SMUs, which can raise concerns regarding information privacy and security, such as profile identity leakages. To tackle this, we introduce a new framework for personalized 3D avatar construction, leveraging a two-layer network model that provides SMUs with the option to customize their personal avatars for privacy preservation. Specifically, our approach introduces avatar pseudonyms to jointly safeguard the profile and digital identity privacy of the generated avatars. Then, we design a novel metric named Privacy of Personalized Avatars (PoPA), to evaluate effectiveness of the avatar pseudonyms. To optimize pseudonym resource, we model the pseudonym distribution process as a Stackelberg game and employ Deep Reinforcement Learning (DRL) to learn equilibrium strategies under incomplete information. Simulation results validate the efficacy and feasibility of our proposed schemes for mobile social metaverses., Comment: 6pages, 4 figures

Published
2024

6. Three new taxa of the lichen genus Lobothallia (Megasporaceae, Ascomycota) from China

Author

Yanyun Zhang, Lun Wang, Xinmeng Yu, Su Cheng, Junlan Liu, and Xinyu Wang

Subjects
Botany, QK1-989
Abstract

Two new species; Lobothallia crenulata Lun Wang & Y. Y. Zhang, L. lobulata Lun Wang & Y. Y. Zhang and one new variety; L. subdiffracta var. rimosa Lun Wang & Y. Y. Zhang, are reported from China and described, based on morphological, chemical and molecular characters. Phylogenetic analyses showed that these new taxa form monophyletic groups. Lobothallia crenulata and L. lobulata, together with L. hydrocharis, L. radiosa and L. recedens, form a well-supported clade, whereas L. subdiffracta var. rimosa is nested within the samples of L. subdiffracta. Lobothallia crenulata is characterised by its placodioid thallus, thickly pruinose upper surface with a rimose appearance, aspicilioid to lecanorine apothecia with a crenate thalline margin and concave, black and pruinose discs. Lobothallia lobulata is characterised by its placodioid thallus, pruinose upper surface with lobules, aspicilioid when immature, lecanorine to zeorine apothecia at maturity and concave to plane, dark brown, shiny and epruinose discs. Lobothallia subdiffracta var. rimosa is characterised by its areolate thallus, rimose and pruinose upper surface, lecanorine apothecia and slightly concave to plane, black and pruinose discs. Secondary metabolites were not detected in the two new species nor the new variety. A key is provided for the species of Lobothallia in China.

Published
2024
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7. Non-stationary non-Gaussian random vibration analysis of Duffing systems based on explicit time-domain method

Author

Xian, Jianhua, Su, Cheng, and Wang, Ziqi

Subjects
Non-Gaussian, Non-stationary, Random vibration, Duffing system, Equivalent linearization method, Explicit time-domain method, Civil Engineering, Civil engineering
Abstract

Non-stationary non-Gaussian random vibration problems of structures are challenging and drawing increasing attention. In the present study, firstly, an explicit time-domain method (ETDM) is proposed to determine the higher-order response statistics of linear systems subjected to non-stationary non-Gaussian random excitations, in which the first four orders of cumulants of dynamic responses are directly formulated through the cumulant operation rule based on the explicit expressions of responses. Secondly, an equivalent linearization – explicit time-domain method (EL-ETDM) is further developed to solve the non-stationary non-Gaussian random vibration problems of Duffing systems, in which the equivalent linear system is derived discarding the assumption of Gaussian response, and the corresponding higher-order cumulant analyses of the linearized system are accomplished by the efficient ETDM. The present approach can account for non-Gaussian random excitations with arbitrary forms, and two specific applications to the Poisson white noise and the square form of Gaussian random process are investigated. Four numerical examples are presented to demonstrate the effectiveness of the proposed methods.

Published
2023

8. DeepMCLP: Solving the MCLP with Deep Reinforcement Learning for Urban Spatial Computing

Author

Wang, Shaohua, Liang, Haojian, Zhong, Yang, Zhang, Xueyan, and Su, Cheng

Abstract

Maximal Covering Location Problem (MCLP) is a classical spatial optimization problem that plays a significant role in urban spatial computing. Due to its NP-hard, finding an exact solution for this problem is computationally challenging. This study proposes a deep reinforcement learning-based approach called DeepMCLP to address the MCLP problem. We model MCLP as a Markov Decision Process. The encoder with attention mechanisms learns the interaction between demand points and facility points and the decoder outputs a probability distribution over candidate facility points, and a greedy policy is employed to select facility points, resulting in a feasible solution. We utilize the trained DeepMCLP model to solve both artificially synthesized data and real-world scenarios. Experimental results demonstrate that our algorithm effectively solves the MCLP problem, achieving faster solving times compared to mature solvers and smaller optimality gaps compared to the genetic algorithm. Our algorithm offers a novel perspective on solving spatial optimization problems, and future research can explore its application to other spatial optimization problems, providing scientific and effective guidance for urban planning and urban spatial analysis.

Published
2023

15. Type-II antiferromagnetic ordering in double perovskite oxide Sr$_2$NiWO$_6$

Author

Su, Cheng, Zeng, Xu-Tao, Sun, Kaitong, Sheptyakov, Denis, Chen, Ziyu, Sheng, Xian-Lei, Li, Haifeng, and Jin, Wentao

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Magnetic double perovskite compounds provide a fertile playground to explore interesting electronic and magnetic properties. By complementary macroscopic characterizations, neutron powder diffraction measurements and first-principles calculations, we have performed comprehensive studies on the magnetic ordering in the double perovskite compound Sr$_2$NiWO$_6$. It is found by neutron diffraction to order magnetically in a collinear type-II antiferromagnetic structure in a tetragonal lattice with $k$ = (0.5, 0, 0.5) below $T\rm_N$ = 56 K. In the ground state, the ordered moment of the spin-1 Ni$^{2+}$ ions is determined to be 1.9(2) $\mu\rm_{B}$, indicating a significant quenching of the orbital moment. The Ni$^{2+}$ moments in Sr$_2$NiWO$_6$ are revealed to cant off the $c$ axis by 29.2$^{\circ}$, which is well supported by the first-principles magnetic anisotropy energy calculations. Furthermore, the in-plane and out-of-plane next-nearest-neighbor superexchange couplings ($J\rm_2$ and $J\rm_{2c}$) are found to play a dominant role in the spin Hamiltonian of Sr$_2$NiWO$_6$, which accounts for the stabilization of the type-II AFM structure as its magnetic ground state., Comment: 10 Pages, 6 figures, accepted for publication in Physical Review B

Published
2023
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16. Dipolar Spin Liquid Ending with Quantum Critical Point in a Gd-based Triangular Magnet

Author

Xiang, Junsen, Su, Cheng, Xi, Ning, Fu, Zhendong, Chen, Zhuo, Jin, Hai, Chen, Ziyu, Mo, Zhao-Jun, Qi, Yang, Shen, Jun, Zhang, Long, Jin, Wentao, Li, Wei, Sun, Peijie, and Su, Gang

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

By performing experiment and model studies on a triangular-lattice dipolar magnet KBaGd(BO$_3$)$_2$ (KBGB), we find the highly frustrated magnet with a planar anisotropy hosts a strongly fluctuating dipolar spin liquid (DSL), which originates from the intriguing interplay between dipolar and Heisenberg interactions. The DSL constitutes an extended regime in the field-temperature phase diagram, which gets lowered in temperature as field increases and eventually ends with an unconventional quantum critical point (QCP) at $B_c\simeq 0.75$~T. Based on dipolar Heisenberg model calculations, we identify the DSL as a Berezinskii-Kosterlitz-Thouless (BKT) phase with emergent U(1) symmetry. Due to the tremendous entropy accumulation that can be related to the strong BKT and quantum fluctuations, unprecedented magnetic cooling effects are observed in the DSL regime and particularly near the QCP, making KBGB a superior dipolar coolant to commercial Gd-based refrigerants. We establish the phase diagram for triangular-lattice dipolar quantum magnets where emergent symmetry plays an essential role, and provide a basis and opens an avenue for their applications in sub-Kelvin refrigeration., Comment: 7 pages and 4 figures in main text, 5 pages and 4 figures in Supplementary Materials

Published
2023

17. Certified Robustness of Quantum Classifiers against Adversarial Examples through Quantum Noise

Author

Huang, Jhih-Cing, Tsai, Yu-Lin, Yang, Chao-Han Huck, Su, Cheng-Fang, Yu, Chia-Mu, Chen, Pin-Yu, and Kuo, Sy-Yen

Subjects
Quantum Physics, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing, Electrical Engineering and Systems Science - Signal Processing
Abstract

Recently, quantum classifiers have been found to be vulnerable to adversarial attacks, in which quantum classifiers are deceived by imperceptible noises, leading to misclassification. In this paper, we propose the first theoretical study demonstrating that adding quantum random rotation noise can improve robustness in quantum classifiers against adversarial attacks. We link the definition of differential privacy and show that the quantum classifier trained with the natural presence of additive noise is differentially private. Finally, we derive a certified robustness bound to enable quantum classifiers to defend against adversarial examples, supported by experimental results simulated with noises from IBM's 7-qubits device., Comment: Accepted to IEEE ICASSP 2023

Published
2022

20. Mechanism of action of Caveolae and its impact pathways

Author

Xiu Du, Lin Xu, Su Cheng, Yan-ru Wang, and Ming-hai Shao

Subjects
caveolae, caveolin 1, angiopoietins, vascular endothelial growth factor, Internal medicine, RC31-1245
Abstract

As an important component of transcellular pathway, Caveolae enables the transcellular transport of substances without disrupting cellular homeostasis. In kidney, albumin crosses glomerular filtration barrier (GFB) via Caveolae. Transcellular transport of albumin plays a crucial role in the pathology of proteinuria. Thus the importance of Caveolae cannot be overstated. However, the acting mechanism of Caveolae affecting transcellular albumin transport in kidney and their signaling pathways have remained largely elusive. This review summarized the latest studies on the regulation of Caveolae affecting transcellular albumin transport. Thus elucidating the relevant mechanisms of action and understanding the pathways of influence may provide potential therapeutic targets in the prevention and alleviation of proteinuria

Published
2024
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21. Hot pack rolling the Ti2AlNb alloy prepared by SPS: Testing of the high-temperature properties of the alloy directly without the prior heat treatment

Author

Xiaochong Sui, Jie Lin, Su Cheng, Guofeng Wang, and Zhengwei Li

Subjects
High temperature properties, Tensile strength, Ti2AlNb alloy, Dimples, Intergranular fracture, Mining engineering. Metallurgy, TN1-997
Abstract

Ti2AlNb alloy holds large research significance as a lightweight material for high-temperature structural applications in the next generation of aero-engines. In this work, pre-alloyed Ti2AlNb powders were spark plasma sintered to fabricate the raw compact, which was then hot rolled at different phase fields to fabricate sheets. The high-temperature properties of the sheets were tested directly without the prior heat treatment. Results show that the Ti2AlNb sheets have good high-temperature strengths even without the heat treatment prior to testing. For the sheet rolled at the single B2 phase region, the maximum tensile strength was up to 931.4 MPa at 650 °C. The sheet mainly shows intergranular fracture mode due to the weak bonding at grain boundaries. The sheets rolled at the O + B2 phase region have low tensile strengths at different testing temperatures. For the sheet rolled at α2+O + B2 phase region, the tensile strength gains its maximum strength of 956.6 MPa at 650 °C, and the sheet shows transcrystalline fracture mode. The fracture mechanisms of the sheets rolled at different phase regions are analyzed in detail and proved by experiment. This work shows the potential of fabricating Ti2AlNb sheet by using the spark plasma sintered compact.

Published
2024
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22. Effect of Heat Treatment Process on Mechanical Properties of High Chromium Low Activated Ferritic-martensitic Steel

Author

Sun Wenqiang , Zhou Zhu, Xu Amin , Wang Shaobing, Su Cheng , Shen Qiang

Subjects
ferritic-martensitic steel; yield strength, normalizing; tempering; m23c6; thermodynamic calculation, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology
Abstract

Ferritic-martensitic steel is a kind of steel with excellent anti-radiation properties, which is one of superior candidate materials for structural components of the new generation of nuclear reactors with high radiation doses. The harsh service environment requires that ferritic-martensitic steel has good comprehensive mechanical properties, suitable grain size and few internal defects. In this paper, the effects of normalizing and tempering heat treatment on mechanical properties and microstructure evolution of new composition ferritic-martensitic steel were studied. At the same time, the ThermoCalc software is used to calculate the volume proportion of different phase states and compare it with the experimental results, it finds that the calculated results of the two-phase ratio change are highly consistent with the experimental results.After normalizing treatment, the tensile strength and yield strength of the material are mainly affected by the ratio of two phases. The results show high-martensitic steel treated with 1 080 ℃ normalizing + 670 ℃ tempering heat has a tensile strength of 903 MPa and yield strength of 732 MPa, showing the best comprehensive performance of the materials.

Published
2024
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23. Study on the fabrication and mechanical properties of SiCp/SiC gradient lattice structure based on selective laser sintering technology

Author

MingXing Fan, Su Cheng, DeCai Lu, LiWei Zhang, Qing Du, YiCheng Feng, YuDong Lin, YongTao Chen, and QiMing Du

Subjects
3D printing, selective laser sintering, finite element analysis, Science, Manufactures, TS1-2301
Abstract

Conventional uniform lattice structures are subject to non-uniform loads or concentrated loads alternating back and forth during service, which can no longer meet the refinement requirements. In this paper, SiCp/SiC gradient lattice structures are prepared by selective laser sintering (SLS) technology and polymer impregnation pyrolysis (PIP) process, and compression standard specimens with different tilt angles are prepared according to the structural model by changing the printing direction, to analyze the influence of the anisotropic properties of the materials due to the SLS molding technology on the load-bearing behaviour of the core rod, and to further study the mechanical properties of the gradient lattice structures and the Failure behaviour. The results show that: with the increase of the angle of printing direction, the compression performance of the densification specimen decreases gradually; the compression strength of the gradient lattice structure is 13.95 MPa. During compression, the core rods with tilt angles of 60° and 75° mainly exhibit shear failure and crushing failure, respectively. The theoretical and simulated compression strengths were 16.08 and 16.32 MPa, respectively. This paper provides a new insight into the research and application of gradient lattice structures.

Published
2024
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24. Zigzag magnetic order in a novel tellurate compound Na$_{4-\delta}$NiTeO$_{6}$ with $\mathit{S}$ = 1 chains

Author

Su, Cheng, Zeng, Xu-Tao, Li, Yi, Ma, Nvsen, Lin, Zhengwang, Zhang, Chuandi, Wang, Chin-Wei, Chen, Ziyu, Lu, Xingye, Li, Wei, Sheng, Xian-Lei, and Jin, Wentao

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Na$_{4-\delta}$NiTeO$_{6}$ is a rare example in the transition-metal tellurate family of realizing an $S$ = 1 spin-chain structure. By performing neutron powder diffraction measurements, the ground-state magnetic structure of Na$_{4-\delta}$NiTeO$_{6}$ is determined. These measurements reveal that below $T\rm_{N}$ ${\sim}$ 6.8(2) K, the Ni$^{2+}$ moments form a screwed ferromagnetic (FM) spin-chain structure running along the crystallographic $a$ axis but these FM spin chains are coupled antiferromagnetically along the $b$ and $c$ directions, giving rise to a magnetic propagation vector of $k$ = (0, 1/2, 1/2). This zigzag magnetic order is well supported by first-principles calculations. The moment size of Ni$^{2+}$ spins is determined to be 2.1(1) $\mu$$\rm_{B}$ at 3 K, suggesting a significant quenching of the orbital moment due to the crystalline electric field (CEF) effect. The previously reported metamagnetic transition near $H\rm_{C}$ ${\sim}$ 0.1 T can be understood as a field-induced spin-flip transition. The relatively easy tunability of the dimensionality of its magnetism by external parameters makes Na$_{4-\delta}$NiTeO$_{6}$ a promising candidate for further exploring various types of novel spin-chain physics., Comment: 10 pages, 6 figures

Published
2022
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32. The low sonic boom and aerodynamic optimization with trim constraint of supersonic jet

Author

HAO Xuan, ZHANG Qingqing, SU Cheng, and LIU Fang

Subjects
low sonic boom optimization, supersonic transport, supersonic linearized theory, parametric geometry representation, trim characteristic, computational fluid dynamics, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

The abatement of sonic boom noise level is a decisive issue for supersonic transport of next generation. The low sonic boom optimization always make the configuration to a trend of higher swept and longer distribution of the wing along the fuselage,which is unfavorable to the trim and low speed characteristics. A civil supersonic transport is researched. A parametric geometry representation method based on class function/shape function transformation(CST)is developed to describe the wing body configuration. The effects of geometry parameters on sonic boom is analyzed by supersonic linearized theory. Based on the above work,the low sonic boom and pitch moment characteristics optimization are taken for the fuselage,wing planform and twists separately and the optimal result is validated by CFD. The numerical simulation results show that compared with the basic configuration,the drag decrease 19 cts(unit of drag coefficient)and the over pressure at near-field is abated obviously without the distinct increase of pitch moment,which bring 5.1 PLdB reduction of loudness on the ground.

Published
2024
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33. Evolution from helical to collinear ferromagnetic order of the Eu$^{2+}$ spins in RbEu(Fe$_{1-x}$Ni$_{x}$)$_{4}$As$_{4}$

Author

Xu, Qianhui, Liu, Yi, Hao, Sijie, Qian, Jiahui, Su, Cheng, Wang, Chin-Wei, Hansen, Thomas, Fu, Zhendong, Su, Yixi, Li, Wei, Cao, Guang-Han, Xiao, Yinguo, and Jin, Wentao

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

The ground-state magnetic structures of the Eu$^{2+}$ spins in recently discovered RbEu(Fe$_{1-x}$Ni$_{x}$)$_{4}$As$_{4}$ superconductors have been investigated by neutron powder diffraction measurements. It is found that as the superconductivity gets suppressed with the increase of Ni doping, the magnetic propagation vector of the Eu sublattice diminishes, corresponding to the decrease of the rotation angle between the moments in neighboring Eu layers. The ferromagnetic Eu layers are helically modulated along the $\mathit{c}$ axis with an incommensurate magnetic propagation vector in both the ferromagnetic superconductor RbEu(Fe$_{0.95}$Ni$_{0.05}$)$_{4}$As$_{4}$ and the superconducting ferromagnet RbEu(Fe$_{0.93}$Ni$_{0.07}$)$_{4}$As$_{4}$. Such a helical structure transforms into a purely collinear ferromagnetic structure for non-superconducting RbEu(Fe$_{0.91}$Ni$_{0.09}$)$_{4}$As$_{4}$, with all the Eu$^{2+}$ spins lying along the tetragonal (1 1 0) direction. The evolution from helical to collinear ferromagnetic order of the Eu$^{2+}$ spins with increasing Ni doping is supported by first-principles calculations. The variation of the rotation angle between adjacent Eu$^{2+}$ layers can be well explained by considering the change of magnetic exchange couplings mediated by the indirect Ruderman-Kittel-Kasuya-Yosida (RKKY) interaction., Comment: 9 pages, 6 figures, accepted for publication in Physical Review Research

Published
2022
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37. PPARɑ Ligand Caudatin Improves Cognitive Functions and Mitigates Alzheimer’s Disease Defects By Inducing Autophagy in Mice Models

Author

Krishnamoorthi, Senthilkumar, Iyaswamy, Ashok, Sreenivasmurthy, Sravan Gopalkrishnashetty, Thakur, Abhimanyu, Vasudevan, Karthick, Kumar, Gaurav, Guan, Xin-Jie, Lu, Kejia, Gaurav, Isha, Su, Cheng-Fu, Zhu, Zhou, Liu, Jia, Kan, Yuxuan, Jayaraman, Selvaraj, Deng, Zhiqiang, Chua, Ka Kit, Cheung, King-Ho, Yang, Zhijun, Song, Ju-Xian, and Li, Min

Published
2023
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38. Roof-Transformer: Divided and Joined Understanding with Knowledge Enhancement

Author

Liao, Wei-Lin, Su, Cheng-En, and Ma, Wei-Yun

Subjects
Computer Science - Computation and Language
Abstract

Recent work on enhancing BERT-based language representation models with knowledge graphs (KGs) and knowledge bases (KBs) has yielded promising results on multiple NLP tasks. State-of-the-art approaches typically integrate the original input sentences with KG triples and feed the combined representation into a BERT model. However, as the sequence length of a BERT model is limited, such a framework supports little knowledge other than the original input sentences and is thus forced to discard some knowledge. This problem is especially severe for downstream tasks for which the input is a long paragraph or even a document, such as QA or reading comprehension tasks. We address this problem with Roof-Transformer, a model with two underlying BERTs and a fusion layer on top. One underlying BERT encodes the knowledge resources and the other one encodes the original input sentences, and the fusion layer integrates the two resultant encodings. Experimental results on a QA task and the GLUE benchmark attest the effectiveness of the proposed model.

Published
2021

40. An adaptive recursive sliding mode attitude control for tiltrotor UAV in flight mode transition based on super-twisting extended state observer

Author

Xie, Mengshan, Xu, Sheng, Su, Cheng-yue, Feng, Zu-yong, Chen, Yuandian, Shi, Zhenhua, and Lian, Jiebo

Subjects
Computer Science - Robotics
Abstract

With the characteristics of vertical take-off and landing and long endurance, tiltrotor has attracted considerable attention in recent decades for its potential applications in civil and scientific research. However, the problems of strong couplings, nonlinear characteristics and mismatched disturbances inevitably exist in the tiltrotor, which bring great challenges to the controller design in transition mode. In this paper, we combined a super-twisting extended state observer (STESO) with an adaptive recursive sliding mode control (ARSMC) together to design a tiltrotor aircraft attitude system controller in transition mode using STESO-ARSMC (SAC). Firstly, the six degrees of freedom (DOF) nonlinear mathematical model of tiltrotor is established. Secondly, the states and disturbances are estimated by the STES observer. Thirdly, ARSM controller is designed to achieve finite time convergence. The Lyapunov function is used to testify the convergence of the tiltrotor UAV system. The new aspect is that the assessments of the states are incorporated into the control rules to adjust for disruptions. When compared to prior techniques, the control system proposed in this work can considerably enhance anti-disturbance performance. Finally, simulation tests are used to demonstrate the efficacy of the suggested technique., Comment: 24 pages, 16 figures

Published
2021

47. Successful pregnancy with in vitro fertilization after vaginal radical trachelectomy and pelvic lymphadenectomy in stage IB1 cervical cancer

Author

Hsiao-Chen Chiu, Chien-Hui Lau, Shun-Jen Tan, and Su-Cheng Huang

Subjects
Vaginal radical trachelectomy, Cervical cancer, Fertility-sparing, In vitro fertilization, Gynecology and obstetrics, RG1-991
Abstract

Objective: To present a case of successful pregnancy after undergoing vaginal radical trachelectomy (VRT) and pelvic lymph node dissection (PLND) for early-stage cervical cancer. Case report: A 37-year-old female patient has been diagnosed with stage IB1 cervical cancer and underwent VRT and PLND. Two years after the surgery, the patient successfully conceived and delivered a healthy baby through a cesarean section. Conclusion: This case report demonstrates that pregnancy after VRT and PLND for stage IB1 cervical cancer is possible and can result in a successful outcome. This report provides valuable information for patients and physicians who are considering these surgical options.

Published
2024
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