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11,321 results on '"Cheng Jin"'

1. DARE: Diffusion Policy for Autonomous Robot Exploration

Author

Cao, Yuhong, Lew, Jeric, Liang, Jingsong, Cheng, Jin, and Sartoretti, Guillaume

Subjects
Computer Science - Robotics
Abstract

Autonomous robot exploration requires a robot to efficiently explore and map unknown environments. Compared to conventional methods that can only optimize paths based on the current robot belief, learning-based methods show the potential to achieve improved performance by drawing on past experiences to reason about unknown areas. In this paper, we propose DARE, a novel generative approach that leverages diffusion models trained on expert demonstrations, which can explicitly generate an exploration path through one-time inference. We build DARE upon an attention-based encoder and a diffusion policy model, and introduce ground truth optimal demonstrations for training to learn better patterns for exploration. The trained planner can reason about the partial belief to recognize the potential structure in unknown areas and consider these areas during path planning. Our experiments demonstrate that DARE achieves on-par performance with both conventional and learning-based state-of-the-art exploration planners, as well as good generalizability in both simulations and real-life scenarios.

Published
2024

2. RobotKeyframing: Learning Locomotion with High-Level Objectives via Mixture of Dense and Sparse Rewards

Author

Zargarbashi, Fatemeh, Cheng, Jin, Kang, Dongho, Sumner, Robert, and Coros, Stelian

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

This paper presents a novel learning-based control framework that uses keyframing to incorporate high-level objectives in natural locomotion for legged robots. These high-level objectives are specified as a variable number of partial or complete pose targets that are spaced arbitrarily in time. Our proposed framework utilizes a multi-critic reinforcement learning algorithm to effectively handle the mixture of dense and sparse rewards. Additionally, it employs a transformer-based encoder to accommodate a variable number of input targets, each associated with specific time-to-arrivals. Throughout simulation and hardware experiments, we demonstrate that our framework can effectively satisfy the target keyframe sequence at the required times. In the experiments, the multi-critic method significantly reduces the effort of hyperparameter tuning compared to the standard single-critic alternative. Moreover, the proposed transformer-based architecture enables robots to anticipate future goals, which results in quantitative improvements in their ability to reach their targets., Comment: This paper has been accepted to 8th Conference on Robot Learning (CoRL 2024). Project website: https://sites.google.com/view/robot-keyframing

Published
2024

3. MetaLoco: Universal Quadrupedal Locomotion with Meta-Reinforcement Learning and Motion Imitation

Author

Zargarbashi, Fatemeh, Di Giuro, Fabrizio, Cheng, Jin, Kang, Dongho, Sukhija, Bhavya, and Coros, Stelian

Subjects
Computer Science - Robotics
Abstract

This work presents a meta-reinforcement learning approach to develop a universal locomotion control policy capable of zero-shot generalization across diverse quadrupedal platforms. The proposed method trains an RL agent equipped with a memory unit to imitate reference motions using a small set of procedurally generated quadruped robots. Through comprehensive simulation and real-world hardware experiments, we demonstrate the efficacy of our approach in achieving locomotion across various robots without requiring robot-specific fine-tuning. Furthermore, we highlight the critical role of the memory unit in enabling generalization, facilitating rapid adaptation to changes in the robot properties, and improving sample efficiency., Comment: The supplementary video is available at https://youtu.be/PaFRUDOrh_U?si=hfdbng3Wxo_GnxIA

Published
2024

4. Spatio-Temporal Motion Retargeting for Quadruped Robots

Author

Yoon, Taerim, Kang, Dongho, Kim, Seungmin, Ahn, Minsung, Cheng, Jin, Coros, Stelian, and Choi, Sungjoon

Subjects
Computer Science - Robotics
Abstract

This work introduces a motion retargeting approach for legged robots, which aims to create motion controllers that imitate the fine behavior of animals. Our approach, namely spatio-temporal motion retargeting (STMR), guides imitation learning procedures by transferring motion from source to target, effectively bridging the morphological disparities by ensuring the feasibility of imitation on the target system. Our STMR method comprises two components: spatial motion retargeting (SMR) and temporal motion retargeting (TMR). On the one hand, SMR tackles motion retargeting at the kinematic level by generating kinematically feasible whole-body motions from keypoint trajectories. On the other hand, TMR aims to retarget motion at the dynamic level by optimizing motion in the temporal domain. We showcase the effectiveness of our method in facilitating Imitation Learning (IL) for complex animal movements through a series of simulation and hardware experiments. In these experiments, our STMR method successfully tailored complex animal motions from various media, including video captured by a hand-held camera, to fit the morphology and physical properties of the target robots. This enabled RL policy training for precise motion tracking, while baseline methods struggled with highly dynamic motion involving flying phases. Moreover, we validated that the control policy can successfully imitate six different motions in two quadruped robots with different dimensions and physical properties in real-world settings., Comment: 34 pages, 7 figures, videos available at https://terry97-guel.github.io/STMR-RL.github.io/

Published
2024

10. Quantitative Analysis of Molecular Transport in the Extracellular Space Using Physics-Informed Neural Network

Author

Xie, Jiayi, Li, Hongfeng, Cheng, Jin, Cai, Qingrui, Tan, Hanbo, Zu, Lingyun, Qu, Xiaobo, and Han, Hongbin

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Mathematics - Analysis of PDEs
Abstract

The brain extracellular space (ECS), an irregular, extremely tortuous nanoscale space located between cells or between cells and blood vessels, is crucial for nerve cell survival. It plays a pivotal role in high-level brain functions such as memory, emotion, and sensation. However, the specific form of molecular transport within the ECS remain elusive. To address this challenge, this paper proposes a novel approach to quantitatively analyze the molecular transport within the ECS by solving an inverse problem derived from the advection-diffusion equation (ADE) using a physics-informed neural network (PINN). PINN provides a streamlined solution to the ADE without the need for intricate mathematical formulations or grid settings. Additionally, the optimization of PINN facilitates the automatic computation of the diffusion coefficient governing long-term molecule transport and the velocity of molecules driven by advection. Consequently, the proposed method allows for the quantitative analysis and identification of the specific pattern of molecular transport within the ECS through the calculation of the Peclet number. Experimental validation on two datasets of magnetic resonance images (MRIs) captured at different time points showcases the effectiveness of the proposed method. Notably, our simulations reveal identical molecular transport patterns between datasets representing rats with tracer injected into the same brain region. These findings highlight the potential of PINN as a promising tool for comprehensively exploring molecular transport within the ECS.

Published
2024

11. Hadamard integrators for wave equations in time and frequency domain: Eulerian formulations via butterfly algorithms

Author

Wei, Yuxiao, Cheng, Jin, Leung, Shingyu, Burridge, Robert, and Qian, Jianliang

Subjects
Mathematics - Numerical Analysis, Mathematical Physics, 65M80, 65Y20
Abstract

Starting from the Kirchhoff-Huygens representation and Duhamel's principle of time-domain wave equations, we propose novel butterfly-compressed Hadamard integrators for self-adjoint wave equations in both time and frequency domain in an inhomogeneous medium. First, we incorporate the leading term of Hadamard's ansatz into the Kirchhoff-Huygens representation to develop a short-time valid propagator. Second, using the Fourier transform in time, we derive the corresponding Eulerian short-time propagator in frequency domain; on top of this propagator, we further develop a time-frequency-time (TFT) method for the Cauchy problem of time-domain wave equations. Third, we further propose the time-frequency-time-frequency (TFTF) method for the corresponding point-source Helmholtz equation, which provides Green's functions of the Helmholtz equation for all angular frequencies within a given frequency band. Fourth, to implement TFT and TFTF methods efficiently, we introduce butterfly algorithms to compress oscillatory integral kernels at different frequencies. As a result, the proposed methods can construct wave field beyond caustics implicitly and advance spatially overturning waves in time naturally with quasi-optimal computational complexity and memory usage. Furthermore, once constructed the Hadamard integrators can be employed to solve both time-domain wave equations with various initial conditions and frequency-domain wave equations with different point sources. Numerical examples for two-dimensional wave equations illustrate the accuracy and efficiency of the proposed methods., Comment: 34 pages, 16 figures, 4 tables

Published
2024

13. Superconductivity under pressure in a chromium-based kagome metal

Author

Liu, Yi, Liu, Zi-Yi, Bao, Jin-Ke, Yang, Peng-Tao, Ji, Liang-Wen, Wu, Si-Qi, Shen, Qin-Xin, Luo, Jun, Yang, Jie, Liu, Ji-Yong, Xu, Chen-Chao, Yang, Wu-Zhang, Chai, Wan-Li, Lu, Jia-Yi, Liu, Chang-Chao, Wang, Bo-Sen, Jiang, Hao, Tao, Qian, Ren, Zhi, Xu, Xiao-Feng, Cao, Chao, Xu, Zhu-An, Zhou, Rui, Cheng, Jin-Guang, and Cao, Guang-Han

Published
2024
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16. Strain mediated phase crossover in Ruddlesden Popper nickelates

Author

Cui, Ting, Choi, Songhee, Lin, Ting, Liu, Chen, Wang, Gang, Wang, Ningning, Chen, Shengru, Hong, Haitao, Rong, Dongke, Wang, Qianying, Jin, Qiao, Wang, Jia-Ou, Gu, Lin, Ge, Chen, Wang, Can, Cheng, Jin Guang, Zhang, Qinghua, Si, Liang, Jin, Kui-juan, and Guo, Er-Jia

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

Recent progress on the signatures of pressure-induced high temperature superconductivity in Ruddlesden Popper (RP) nickelates (Lan+1NinO3n+1) has attracted growing interest in both theoretical calculations and experimental efforts. The fabrication of high-quality single crystalline RP nickelate thin films is critical for possible reducing the superconducting transition pressure and advancing applications in microelectronics in the future. In this study, we report the observations of an active phase transition in RP nickelate films induced by misfit strain. We found that RP nickelate films favor the perovskite structure (n = infinite) under tensile strains, while compressive strains stabilize the La3Ni2O7 (n = 2) phase. The selection of distinct phases is governed by the strain dependent formation energy and electronic configuration. In compressively strained La3Ni2O7, we experimentally determined splitting energy is ~0.2 eV and electrons prefer to occupy in-plane orbitals. First principles calculations unveil a robust coupling between strain effects and the valence state of Ni ions in RP nickelates, suggesting a dual driving force for the inevitable phase co-existence transition in RP nickelates. Our work underscores the sensitivity of RP nickelate formation to epitaxial strain, presenting a significant challenge in fabricating pure-phase RP nickelate films. Therefore, special attention to stacking defects and grain boundaries between different RP phases is essential when discussing the pressure-induced superconductivity in RP nickelates., Comment: 29 pages, 5 figures, one supplementary materials

Published
2023

17. Learning Diverse Skills for Local Navigation under Multi-constraint Optimality

Author

Cheng, Jin, Vlastelica, Marin, Kolev, Pavel, Li, Chenhao, and Martius, Georg

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Despite many successful applications of data-driven control in robotics, extracting meaningful diverse behaviors remains a challenge. Typically, task performance needs to be compromised in order to achieve diversity. In many scenarios, task requirements are specified as a multitude of reward terms, each requiring a different trade-off. In this work, we take a constrained optimization viewpoint on the quality-diversity trade-off and show that we can obtain diverse policies while imposing constraints on their value functions which are defined through distinct rewards. In line with previous work, further control of the diversity level can be achieved through an attract-repel reward term motivated by the Van der Waals force. We demonstrate the effectiveness of our method on a local navigation task where a quadruped robot needs to reach the target within a finite horizon. Finally, our trained policies transfer well to the real 12-DoF quadruped robot, Solo12, and exhibit diverse agile behaviors with successful obstacle traversal., Comment: 7 pages, 6 figures, in submission to ICRA 2024

Published
2023

18. Microstructure and structural modulation of lutetium dihydride LuH2 as seen via transmission electron microscopy

Author

Ma, Xiao-Ping, Wang, Ning-Ning, Wang, Wen-Tao, Nie, Jing-Zhe, Gao, Wen-Li, Sun, Shuai-Shuai, Li, Jun, Tian, Huan-Fang, Xia, Tian-Long, Cheng, Jin-Guang, Li, Jian-Qi, and Yang, Huai-Xin

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

Structural investigations conducted using transmission electron microscopy (TEM) on LuH2 synthesized under atmospheric pressure (AP-LuH2) and nitrogen-doped LuH2 synthesized under high pressure (HP-LuH2) have revealed numerous microstructural phenomena. Both materials show a clear superstructure modulation with wave vector, q^* = 1/4 (2-20), and this modulation can be well interpreted by the displacements of Lu atoms. Further investigations on the nitrogen-doped HP-LuH2 materials reveal the appearance of high-density antiphase boundaries, in particular, domain walls of a few atomic layer thickness without structural modulation can be observed, suggesting possible interface properties could be detected in this system. In-situ TEM observations of AP-LuH2 suggest that no evident structural phase transition occurs between 94 K and 673 K., Comment: 8 pages, 7 figures

Published
2023

19. Superconductivity emerging from density-wave-like order in a correlated kagome metal

Author

Liu, Yi, Liu, Zi-Yi, Bao, Jin-Ke, Yang, Peng-Tao, Ji, Liang-Wen, Wu, Si-Qi, Shen, Qin-Xin, Luo, Jun, Yang, Jie, Liu, Ji-Yong, Xu, Chen-Chao, Yang, Wu-Zhang, Chai, Wan-Li, Lu, Jia-Yi, Liu, Chang-Chao, Wang, Bo-Sen, Jiang, Hao, Tao, Qian, Ren, Zhi, Xu, Xiao-Feng, Cao, Chao, Xu, Zhu-An, Zhou, Rui, Cheng, Jin-Guang, and Cao, Guang-Han

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

Unconventional superconductivity (USC) in a highly correlated kagome system has been theoretically proposed for years, yet the experimental realization is hard to achieve. The recently discovered vanadium-based kagome materials, which exhibit both superconductivity and charge density wave (CDW) orders, are nonmagnetic and weakly correlated, thus unlikely host USC as theories proposed. Here we report the discovery of a chromium-based kagome metal, CsCr$_3$Sb$_5$, which is contrastingly characterised by strong electron correlations, frustrated magnetism, and characteristic flat bands close to the Fermi level. Under ambient pressure, it undergoes a concurrent structural and magnetic phase transition at 55 K, accompanying with a stripe-like $4a_0$ structural modulation. At high pressure, the phase transition evolves into two transitions, probably associated with CDW and antiferromagnetic spin-density-wave orderings, respectively. These density-wave (DW)-like orders are gradually suppressed with pressure and, remarkably, a superconducting dome emerges at 3.65-8.0 GPa. The maximum of the superconducting transition temperature, $T_\mathrm{c}^{\mathrm{max}}=$ 6.4 K, appears when the DW-like orders are completely suppressed at 4.2 GPa, and the normal state exhibits a non-Fermi-liquid behaviour, reminiscent of USC and quantum criticality in iron-based superconductors. Our work offers an unprecedented platform for investigating possible USC in a correlated kagome system., Comment: 32 pages, 14 figures

Published
2023
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21. Spatiotemporal patterns and influence factors of coupling coordination between regional final energy electrification and social equity in China

Author

WU Meng, ZHOU Fengqi, CHENG Jin, LI Haitang

Subjects
energy justice, energy transition, social equity, terminal energy electrification, renewable energy, china, Environmental sciences, GE1-350, Biology (General), QH301-705.5
Abstract

[Objective] This study aimed to evaluate the spatiotemporal patterns and key influencing factors of the coupling and coordination between regional energy transformation and social equity, in order to provide evaluation methods and management policies for China’s regional energy justice and high-quality development of new energy in the new era. [Methods] By introducing the Energy Policy Sustainability Assessment Framework (EPSEF) and considering the terminal energy electrification rate, income distribution, and five key influencing factors related to energy justice, a comprehensive evaluation model was constructed to evaluate the spatial-temporal characteristics and key influencing factors of the coupling and coordination of regional terminal energy electrification and social equity in China from 2001 to 2020. [Results] (1) From 2001 to 2020, the increase of electrification rate of terminal energy showed a trend of the western region (+7.23%) > the eastern region (+5.51%) > the central region (+4.77%) > the northeastern region (-0.42%). The improvement of social equity showed a trend of the eastern region (+3.90) > the central region (+3.61) > the western region (+3.10) > the northeastern region (+2.20). (2) The coupling and coordination degrees have entered the adjustment stage in the 13th Five Year Plan period, and presented a shuttle shape of narrow at both ends and wide in the middle, with fewer medium-level coordination and mild imbalance provinces, and more barely coordinated and primary coordination provinces. (3) From 2001 to 2020, social participation and energy poverty had significantly improved in most regions, while labor employment, public health, and environmental pollution were the areas commonly had shortcomings. [Conclusion] China’s renewable energy development urgently needs to address the shortcomings of coordinated improvement of social equity in underdeveloped areas. Currently, there are fluctuations or “regionalized” imbalances in the coordinated development of energy transformation and social equity in some regions, which may be related to factors such as lagging behind in the coordinated construction of energy infrastructure, limited power market absorption capacity, shrinking of resource-based cities, and spillover effects of energy development. National policy intervention of China plays a significant role in promoting the universal service of electric energy. In the future, it is still necessary to expand and strengthen the collaborative improvement of key factors of energy justice such as employment, public health, and environmental pollution.

Published
2024
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22. Fusion reconstruction mechanism and contrast learning method for WSN abnormal node detection

Author

YE Miao, CHENG Jin, HUANG Yuan, JIANG Qiuxiang, and WANG Yong

Subjects
wireless sensor network, abnormal detection, graph neural network, self-supervised learning, Telecommunication, TK5101-6720
Abstract

To tackle the defects of self-supervised learning anomaly detection methods for wireless sensor network (WSN) need to address the problems of single negative sample types and lack of diversity, as well as insufficient extraction of spatiotemporal features from multimodal data of wireless sensor network nodes. To address these challenges, a wireless sensor network anomaly node detection method that combines contrastive learning and reconstruction mechanisms was proposed. Firstly, this method provided sufficient positive and negative example information representation for the reconstruction model by using contrastive learning methods, and combined with generative adversarial network (GAN) to generate negative examples with diverse characteristics. Secondly, a dual layer spatiotemporal feature extraction module based on multi-head attention and graph neural network was designed. Through a series of comparative experiments on actual public datasets and their experimental results, it is shown that the method designed has better accuracy and recall compared to traditional anomaly detection methods and recent graph neural network methods.

Published
2024
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23. Hadamard integrator for time-dependent wave equations: Lagrangian formulation via ray tracing

Author

Wei, Yuxiao, Cheng, Jin, Burridge, Robert, and Qian, Jianliang

Subjects
Mathematics - Numerical Analysis, Mathematical Physics
Abstract

We propose a novel Hadamard integrator for the self-adjoint time-dependent wave equation in an inhomogeneous medium. First, we create a new asymptotic series based on the Gelfand-Shilov function, dubbed Hadamard's ansatz, to approximate the Green's function of the time-dependent wave equation. Second, incorporating the leading term of Hadamard's ansatz into the Kirchhoff-Huygens representation, we develop an original Hadamard integrator for the Cauchy problem of the time-dependent wave equation and derive the corresponding Lagrangian formulation in geodesic polar coordinates. Third, to construct the Hadamard integrator in the Lagrangian formulation efficiently, we use a short-time ray tracing method to obtain wavefront locations accurately, and we further develop fast algorithms to compute Chebyshev-polynomial based low-rank representations of both wavefront locations and variants of Hadamard coefficients. Fourth, equipped with these low-rank representations, we apply the Hadamard integrator to efficiently solve time-dependent wave equations with highly oscillatory initial conditions, where the time step size is independent of the initial conditions. By judiciously choosing the medium-dependent time step, our new Hadamard integrator can propagate wave field beyond caustics implicitly and advance spatially overturning waves in time naturally. Moreover, since the integrator is independent of initial conditions, the Hadamard integrator can be applied to many different initial conditions once it is constructed. Both two-dimensional and three-dimensional numerical examples illustrate the accuracy and performance of the proposed method., Comment: 38 pages, 14 figures, 1 table

Published
2023

24. Offline Diversity Maximization Under Imitation Constraints

Author

Vlastelica, Marin, Cheng, Jin, Martius, Georg, and Kolev, Pavel

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

There has been significant recent progress in the area of unsupervised skill discovery, utilizing various information-theoretic objectives as measures of diversity. Despite these advances, challenges remain: current methods require significant online interaction, fail to leverage vast amounts of available task-agnostic data and typically lack a quantitative measure of skill utility. We address these challenges by proposing a principled offline algorithm for unsupervised skill discovery that, in addition to maximizing diversity, ensures that each learned skill imitates state-only expert demonstrations to a certain degree. Our main analytical contribution is to connect Fenchel duality, reinforcement learning, and unsupervised skill discovery to maximize a mutual information objective subject to KL-divergence state occupancy constraints. Furthermore, we demonstrate the effectiveness of our method on the standard offline benchmark D4RL and on a custom offline dataset collected from a 12-DoF quadruped robot for which the policies trained in simulation transfer well to the real robotic system., Comment: RLC 2024

Published
2023

25. Gate voltage induced injection and shift currents in AA- and AB-stacked bilayer graphene

Author

Zheng, Ze, Chang, Kainan, and Cheng, Jin Luo

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

Generating photogalvanic effects in centrosymmetric materials can provide new opportunities for developing passive photodetectors and energy harvesting devices. In this work, we investigate the photogalvanic effects in centrosymmetric two-dimensional materials, AA- and AB-stacked bilayer graphene, by applying an external gate voltage to break the symmetry. Using a tight-binding model to describe the electronic states, the injection coefficients for circular photogalvanic effects and shift conductivities for linear photogalvanic effects are calculated for both materials with light wavelengths ranging from THz to visible. We find that gate voltage induced photogalvanic effects can be very significant for AB-stacked bilayer graphene, with generating a maximal dc current in the order of mA for a 1 $\mu$m wide sample illuminated by a light intensity of 0.1 GW/cm$^2$, which is determined by the optical transition around the band gap and van Hove singularity points. Although such effects in AA-stacked bilayer graphene are about two orders of magnitude smaller than those in AB-stacked bilayer graphene, the spectrum is interestingly limited in a very narrow photon energy window, which is associated with the interlayer coupling strength. A detailed analysis of the light polarization dependence is also performed. The gate voltage and chemical potential can be used to effectively control the photogalvanic effects.

Published
2023

38. RL + Model-based Control: Using On-demand Optimal Control to Learn Versatile Legged Locomotion

Author

Kang, Dongho, Cheng, Jin, Zamora, Miguel, Zargarbashi, Fatemeh, and Coros, Stelian

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents a control framework that combines model-based optimal control and reinforcement learning (RL) to achieve versatile and robust legged locomotion. Our approach enhances the RL training process by incorporating on-demand reference motions generated through finite-horizon optimal control, covering a broad range of velocities and gaits. These reference motions serve as targets for the RL policy to imitate, leading to the development of robust control policies that can be learned with reliability. Furthermore, by utilizing realistic simulation data that captures whole-body dynamics, RL effectively overcomes the inherent limitations in reference motions imposed by modeling simplifications. We validate the robustness and controllability of the RL training process within our framework through a series of experiments. In these experiments, our method showcases its capability to generalize reference motions and effectively handle more complex locomotion tasks that may pose challenges for the simplified model, thanks to RL's flexibility. Additionally, our framework effortlessly supports the training of control policies for robots with diverse dimensions, eliminating the necessity for robot-specific adjustments in the reward function and hyperparameters., Comment: The paper has been accepted for publication in IEEE Robotics and Automation Letters (RA-L). You can find the copyright information on the front page of the paper. The supplementary video is available in https://www.youtube.com/watch?v=qPttVfzGS84

Published
2023
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39. Harmonic Measures and Numerical Computation of Cauchy Problems for Laplace Equations

Author

Chen, Yu, Cheng, Jin, Lu, Shuai, and Yamamoto, Masahiro

Subjects
Mathematics - Numerical Analysis
Abstract

It is well known that Cauchy problem for Laplace equations is an ill-posed problem in Hadamard's sense. Small deviations in Cauchy data may lead to large errors in the solutions. It is observed that if a bound is imposed on the solution, there exists a conditional stability estimate. This gives a reasonable way to construct stable algorithms. However, it is impossible to have good results at all points in the domain. Although numerical methods for Cauchy problems for Laplace equations have been widely studied for quite a long time, there are still some unclear points, for example, how to evaluate the numerical solutions, which means whether we can approximate the Cauchy data well and keep the bound of the solution, and at which points the numerical results are reliable? In this paper, we will prove the conditional stability estimate which is quantitatively related to harmonic measures. The harmonic measure can be used as an indicate function to pointwisely evaluate the numerical result, which further enables us to find a reliable subdomain where the local convergence rate is higher than a certain order.

Published
2023

40. CCL28 promotes progression of hepatocellular carcinoma through PDGFD-regulated MMP9 and VEGFA pathways

Author

Youyi Liu, Xingyi Chen, Xiading Zhang, Jingrou Guo, Yifei Tang, Cheng Jin, and Minchen Wu

Subjects
Hepatocellular carcinoma, CCL28, Carcinogenesis, PDGFD, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Hepatocellular carcinoma (HCC) remains a major global health concern with limited therapeutic options and poor prognosis. Chemokines have emerged as critical regulators in the progression and metastasis of HCC. This study aims to investigate the mechanisms involved in CCL28-promoted progression of HCC and provide novel therapeutic targets for HCC treatment. Relationship between CCL28 expression and HCC progression were investigated by bioinformatic analysis and immunohistochemical staining assays. CCK-8, Transwell, and colony formation assay were conducted to explore the impact of CCL28 on the growth, migration and invasion of HCC cells. Quantitative real-time PCR and western blotting assays were performed to learn potential molecular mechanisms underlying the transformation of HCC driven by CCL28. The results showed that there was a direct link between increased CCL28 levels and the advancement of HCC, leading to a worse outcome. CCL28 significantly augmented malignant transformation of HCC cells, containing proliferation, migration, invasion, and clonogenicity, via activation of PDGFD-regulated MMP9 and VEGFA pathways. CCL28 emerges as a pivotal contributor to HCC tumorigenesis, propelling HCC development through the PDGFD signaling pathway. Our findings unveil potential therapeutic targets for HCC treatment.

Published
2024
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41. Rft1 catalyzes lipid-linked oligosaccharide translocation across the ER membrane

Author

Shuai Chen, Cai-Xia Pei, Si Xu, Hanjie Li, Yi-Shi liu, Yicheng Wang, Cheng Jin, Neta Dean, and Xiao-Dong Gao

Subjects
Science
Abstract

Abstract The eukaryotic asparagine (N)-linked glycan is pre-assembled as a fourteen-sugar oligosaccharide on a lipid carrier in the endoplasmic reticulum (ER). Seven sugars are first added to dolichol pyrophosphate (PP-Dol) on the cytoplasmic face of the ER, generating Man5GlcNAc2-PP-Dol (M5GN2-PP-Dol). M5GN2-PP-Dol is then flipped across the bilayer into the lumen by an ER translocator. Genetic studies identified Rft1 as the M5GN2-PP-Dol flippase in vivo but are at odds with biochemical data suggesting Rft1 is dispensable for flipping in vitro. Thus, the question of whether Rft1 plays a direct or an indirect role during M5GN2-PP-Dol translocation has been controversial for over two decades. We describe a completely reconstituted in vitro assay for M5GN2-PP-Dol translocation and demonstrate that purified Rft1 catalyzes the translocation of M5GN2-PP-Dol across the lipid bilayer. These data, combined with in vitro results demonstrating substrate selectivity and rft1∆ phenotypes, confirm the molecular identity of Rft1 as the M5GN2-PP-Dol ER flippase.

Published
2024
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42. Experimental study on the mechanical properties of C30 molybdenum tailings concrete after high-temperature and sulfate corrosion

Author

Bing Xie, Jian Yuan, and Cheng-Jin Jiang

Subjects
Molybdenum tailings concrete, Full-curvature fracture test, High-temperature test, Sulfate wet-dry cycle test, Constitutive model, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

In order to study the durability of molybdenum tailings concrete after a specific period of wet-dry cycle tests and exposure to high temperatures, this paper investigates the rule of change of the mechanical properties of molybdenum tailings concrete under the coupled influence of sulfate corrosion and high-temperature environmental conditions. A total of five C30 concrete prisms with molybdenum tailings content (0 %, 25 %, 50 %, 75 %, and 100 %) were considered in the tests, with sulfate solution concentrations of 0 g/L, 20 g/L, and 50 g/L, and exposure temperatures of 25° at room temperature and 400° at high temperature, respectively. The test results showed that the mass loss rate of concrete prisms with different molybdenum tailings substitution rates under sulfate corrosion and high temperature environment showed an increasing and then decreasing trend. The specimens with 25 % molybdenum tailings content still maintain high mechanical properties after wet-dry cycle tests of sulfate solution and high temperature, and the reduction of peak stress in this group is only 11 %, and the reduction of elastic modulus is 1 %; the rest of the molybdenum tailings content has a reduction of peak stress of about 25 %, and the reduction of modulus of elasticity is more than 10 %. The plastic deformation capacity of molybdenum tailings concrete decreases under the single-factor effects of wet-dry cycle tests of sulfate solution and high temperature effects, but the plastic deformability capacity of the specimens is enhanced under the combined effects of multiple factors. The stress-strain curve formulas for molybdenum tailings concrete under high temperature, wet-dry cycle tests of sulfate solution, and coupled wet-dry cycle tests of sulfate solution and high temperature were fitted. The results of this study can provide experimental data and valuable references for the engineering application of molybdenum tailings concrete under wet-dry cycle tests of sulfate solution and high temperature conditions, laying a foundation for further research.

Published
2024
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43. The potential adverse effects of hypodermic glucagon‐like peptide ‐1 receptor agonist on patients with type 2 diabetes: A population‐based study

Author

Zhiyuan Cheng, Shuang Wang, Fu‐rong Li, Cheng Jin, Chunbao Mo, Jing Zheng, Xia Li, Fengchao Liang, Jinkui Yang, and Dongfeng Gu

Subjects
clinical adverse outcomes, GLP‐1 receptor agonists, type 2 diabetes, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Abstract Background Glucagon‐like peptide‐1 receptor agonists (GLP‐1 RAs), a class of injectable antidiabetic drugs, have shown significant efficacies in improving glycemic and weight control in patients with type 2 diabetes (T2D). However, the long‐term safety of GLP‐1 RAs remains insufficiently studied. This study aimed to provide real‐world evidence on potential adverse outcomes associated with GLP‐1 RAs use in T2D patients without major chronic diseases including impaired cardiac or renal function. Methods We conducted a retrospective cohort study involving 7746 T2D patients on GLP‐1 RAs in Shenzhen, China. They were compared with 124 371 metformin‐only users and 36 146 insulin‐only users, forming two therapy control groups. GLP‐1 RAs users were also further 1:2 paired with the control groups. Competing risk survival analyses were conducted to assess the incidence risks, presenting subdistributional hazard ratios (sHRs) with 95% confidence intervals (CIs) for various adverse outcomes associated with GLP‐1 RAs use. Results Compared with metformin‐only users, GLP‐1 RAs use was associated with increased risks of various adverse outcomes (sHRs with 95% CIs), including pancreatitis (2.01, 1.24–3.24), acute nephritis (3.20, 2.17–4.70), kidney failure (3.73, 2.74–5.08), thyroid cancer (2.25, 1.23–4.10), and thyroid dysfunction (1.27, 1.00–1.63), respectively; Similar results were also found when compared with insulin‐only users. Importantly, long‐term (≥12 months) GLP‐1 RAs use may further elevate the incidence risks of pancreatitis, acute nephritis, thyroid cancer, and thyroid dysfunction. Conclusion Compared with traditional T2D treatments, GLP‐1 RAs use may be associated with increased risks of various adverse outcomes in a Chinese population. Cautions were strongly warranted in the use of GLP‐1 RAs. Further validation is crucial across diverse populations.

Published
2024
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44. Wideband absorptive frequency‐selective reflector based on split‐ring resonator embedded with chip resistor

Author

Bingyan Zhou, Binchao Zhang, Baihong Chi, and Cheng Jin

Subjects
absorption coefficients, frequency‐selective surfaces, radar cross‐sections, reflection, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Abstract Here, a wideband absorptive frequency‐selective reflector (AFSR) based on a split‐ring resonator (SRR) embedded with chip resistors is proposed. The wide absorption band is achieved by the multimode resonances of two dipoles, and the insertion of SSRs is able to bypass the losses in the passband, thus allowing to open a wide window in addition to achieving broadband absorption performance. The upper structure consists of a dipole in series with two SSRs, while the lower dipole connects one SSR. The upper and lower structures are grouped together and rotated by 90° around the Z‐axis to form the final dual‐polarization 3D‐AFSR. The simulated results demonstrate that reflection coefficients below −10 dB are seen between 6.74–9.31 and 16.91–19.61 GHz under normal incidence, with a total fractional bandwidth of 46.8%. It also has a wide 3 dB reflection band which is obtained from 10.69 to 15.44 GHz, and the entire profile is 0.17λL, where λL is lowest operating frequency.

Published
2024
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45. Multi‐site collaborative forecasting of regional visibility based on spatiotemporal convolutional network

Author

Wei Tian, Chen Lin, Yunlong Wu, Cheng Jin, and Xin Li

Subjects
GCN, multi‐site collaborative, spatiotemporal convolutional network, TCN, visibility forecast, Meteorology. Climatology, QC851-999
Abstract

Abstract Regional visibility forecasting encounters challenges due to data imbalance, temporal non‐linearity and the consideration of multi‐scale spatial factors. To tackle these challenges, this study introduces a novel approach for collaborative multi‐site visibility forecasting based on spatiotemporal convolutional networks. Firstly, we preprocess the ERA5 reanalysis dataset and ground observation dataset, standardizing the spatiotemporal dimensions. We employ correlation coefficient analysis to select relevant meteorological factors. Subsequently, we create a spatiotemporal convolutional network model (TCN_GCN), which combines the power of temporal convolutional network (TCN) and graph convolutional network (GCN). Additionally, a weighted loss function is incorporated, accounting for the distribution of visibility values. The model is trained with multi‐site data, enabling it to learn spatiotemporal visibility patterns across various sites. This empowers the model to generate multi‐site visibility forecasts, thereby significantly improving regional visibility forecasting accuracy. Using 50 meteorological stations in Fujian Province, China, as a case study, we assess the model's predictions using key metrics such as mean absolute error (MAE), root mean square error (RMSE) and coefficient of determination (R2). The experimental results demonstrate that the inclusion of both temporal and spatial features leads to a substantial enhancement in model prediction performance. The TCN_GCN model outperforms other deep learning methods in multi‐site visibility forecasting, highlighting its effectiveness and superiority in improving regional visibility forecasting accuracy.

Published
2024
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