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3,315 results on '"Hao, Jun"'

1. End-User-Centric Collaborative MIMO: Performance Analysis and Proof of Concept

Author

Wen, Chao-Kai, Chan, Yen-Cheng, Huang, Tzu-Hao, Zeng, Hao-Jun, Wang, Fu-Kang, Tsai, Lung-Sheng, and Liao, Pei-Kai

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

The trend toward using increasingly large arrays of antenna elements continues. However, fitting more antennas into the limited space available on user equipment (UE) within the currently popular Frequency Range 1 spectrum presents a significant challenge. This limitation constrains the capacity scaling gains for end users, even when networks can support a higher number of antennas. To address this issue, we explore a user-centric collaborative MIMO approach, termed UE-CoMIMO, which leverages several fixed or portable devices within a personal area to form a virtually expanded antenna array. This paper develops a comprehensive mathematical framework to analyze the performance of UE-CoMIMO. Our analytical results demonstrate that UE-CoMIMO can significantly enhance the system's effective channel response within the current communication system without requiring extensive modifications. Further performance improvements can be realized by optimizing the phase shifters on the expanded antenna arrays at the collaborative devices. These findings are corroborated by ray-tracing simulations. Beyond the simulations, we implemented these collaborative devices and successfully conducted over-the-air validation in a real 5G environment, showcasing the practical potential of UE-CoMIMO. Several practical perspectives are discussed, highlighting the feasibility and benefits of this approach in real-world scenarios., Comment: 13 pages, 11 figures, this work has been submitted to IEEE for possible publication

Published
2024

4. In vivo CRISPR screens identify a dual function of MEN1 in regulating tumor–microenvironment interactions

Author

Su, Peiran, Liu, Yin, Chen, Tianyi, Xue, Yibo, Zeng, Yong, Zhu, Guanghui, Chen, Sujun, Teng, Mona, Ci, Xinpei, Guo, Mengdi, He, Michael Y., Hao, Jun, Chu, Vivian, Xu, Wenxi, Wang, Shiyan, Mehdipour, Parinaz, Xu, Xin, Marhon, Sajid A., Soares, Fraser, Pham, Nhu-An, Wu, Bell Xi, Her, Peter Hyunwuk, Feng, Shengrui, Alshamlan, Najd, Khalil, Maryam, Krishnan, Rehna, Yu, Fangyou, Chen, Chang, Burrows, Francis, Hakem, Razqallah, Lupien, Mathieu, Harding, Shane, Lok, Benjamin H., O’Brien, Catherine, Berlin, Alejandro, De Carvalho, Daniel D., Brooks, David G., Schramek, Daniel, Tsao, Ming-Sound, and He, Housheng Hansen

Published
2024
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9. A Distributed Data-Parallel PyTorch Implementation of the Distributed Shampoo Optimizer for Training Neural Networks At-Scale

Author

Shi, Hao-Jun Michael, Lee, Tsung-Hsien, Iwasaki, Shintaro, Gallego-Posada, Jose, Li, Zhijing, Rangadurai, Kaushik, Mudigere, Dheevatsa, and Rabbat, Michael

Subjects
Computer Science - Machine Learning, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Mathematical Software, Mathematics - Optimization and Control
Abstract

Shampoo is an online and stochastic optimization algorithm belonging to the AdaGrad family of methods for training neural networks. It constructs a block-diagonal preconditioner where each block consists of a coarse Kronecker product approximation to full-matrix AdaGrad for each parameter of the neural network. In this work, we provide a complete description of the algorithm as well as the performance optimizations that our implementation leverages to train deep networks at-scale in PyTorch. Our implementation enables fast multi-GPU distributed data-parallel training by distributing the memory and computation associated with blocks of each parameter via PyTorch's DTensor data structure and performing an AllGather primitive on the computed search directions at each iteration. This major performance enhancement enables us to achieve at most a 10% performance reduction in per-step wall-clock time compared against standard diagonal-scaling-based adaptive gradient methods. We validate our implementation by performing an ablation study on training ImageNet ResNet50, demonstrating Shampoo's superiority over standard training recipes with minimal hyperparameter tuning., Comment: 38 pages, 8 figures, 5 tables

Published
2023

10. The analgesic effect of continuous adductor canal block combined with popliteal plexus block for total knee arthroplasty: a randomized controlled trial

Author

Bo-wei Jiang, Ying Guo, Ming-yu Yang, Qian Zhang, Jin-ning Liu, Mei-na Gao, Hao-jun Zhang, Xu-wei Wang, Fang-yu Ren, and Chun-guang Wang

Subjects
Total knee arthroplasty, Adductor canal block, Popliteal plexus block, Medicine, Science
Abstract

Abstract This study aimed to confirm the hypothesis that continuous ACB (CACB) combined with a popliteal plexus block (PPB) can improve posterior knee pain, reduce nalbuphine consumption, and shorten the length of hospital stay. Patients who underwent TKA were allocated to the CACB + sham block (SHAM) or CACB + PPB groups. The primary outcome was the maximum pain score originating from the posterior knee within 4 h after TKA. Secondary outcomes included the maximum pain score originating from the posterior and anterior knees within 72 h after TKA, range of motion on postoperative day (POD) 1–3, postoperative nalbuphine consumption within 72 h of surgery, length of hospital stay, and complications. The maximum pain score of the posterior knee was lower in the CACB + PPB group than in the CACB + SHAM group within 0–12 h after surgery. Nalbuphine consumption within 24 h after surgery was lower in the CACB + PPB group than in the CACB + SHAM group. The range of motion was better in the CACB + PPB group than in the CACB + SHAM group on POD1 and 2. The length of hospital stay was shorter in the CACB + PPB group than in the CACB + SHAM group. The incidence of clinical significant nausea and vomiting was lower in the CACB + PPB group than in the CACB + SHAM group. This study found that PPB combined with CACB could relieve pain in the posterior knee within at least 12 h after TKA, reduce nalbuphine consumption within 24 h after TKA, improve the range of motion on POD1 and 2, and shorten the length of hospital stay for patients who underwent TKA.

Published
2024
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32. Sadness-counteracts-joy versus distraction and reappraisal in the down-regulation of positive emotion: Evidence from event-related potentials

Author

Feng, Shao-zhen, Liu, Chang, Hao, Jun-yi, Shi, Rong, Zhang, Ming-ming, Chen, Mai-er-yan, and Luo, Jing

Subjects
Attention -- Research, Evoked potentials (Electrophysiology) -- Psychological aspects, Psychological research, Cognitive appraisal -- Research, Sadness -- Research, Joy -- Research, Positive emotions -- Research, Psychology and mental health
Abstract

The prevailing view emphasizes the up-regulation of positive emotions, as they are essential for individuals to expand flexibility of thought, maintain healthy mental state, and nurture harmonious interpersonal relationships. However, an increasing number of studies have found that excessive positive emotions can be maladaptive, both clinically and non-clinically, especially when the intensity and duration do not match the context and personal expectations. Traditional Chinese medicine advocates the appropriate expression of positive emotions, and it has introduced the emotion regulation strategy of sadness-counteracts-joy (SCJ) to down-regulate excessive positive emotions. The present study examined the efficacy of distraction, reappraisal, and sadness-counteracts-joy (SCJ) in the down-regulation of high-intensity positive emotions. Twenty-one participants (18-30 years old) were sampled, self-reported data were collected, and late positive potentials (LPP) in the regulation task were analyzed. The results showed that (1) the three strategies were effective in the self-reported rating, and the participants perceived SCJ and distraction as more effective than reappraisal; (2) the three strategies all reduced the self-reported positive emotion valence and arousal, but SCJ led to negative valence deflection; (3) both distraction and reappraisal significantly reduced the LPP amplitudes during the early LPP window, and the attenuation of reappraisal lasted for almost the whole implementation; and (4) the LPP for SCJ was consistently the same as that for the free view and did not differ significantly throughout the whole-time window. These results provide preliminary neurophysiological evidence for SCJ and suggest that SCJ is a strategy that differs from distraction and reappraisal., Author(s): Shao-zhen Feng [sup.1] , Chang Liu [sup.1] , Jun-yi Hao [sup.1] , Rong Shi [sup.1] [sup.2] , Ming-ming Zhang [sup.1] , Mai-er-yan Chen [sup.1] , Jing Luo [sup.3] Author [...]

Published
2023
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35. Charge-density wave mediated quasi-one-dimensional Kondo lattice in stripe-phase monolayer 1T-NbSe2

Author

Zhen-Yu Liu, Heng Jin, Yao Zhang, Kai Fan, Ting-Fei Guo, Hao-Jun Qin, Lan-Fang Zhu, Lian-Zhi Yang, Wen-Hao Zhang, Bing Huang, and Ying-Shuang Fu

Subjects
Science
Abstract

Abstract The heavy fermion physics is dictated by subtle competing exchange interactions, posing a challenge to their understanding. One-dimensional (1D) Kondo lattice model has attracted special attention in theory, because of its exact solvability and expected unusual quantum criticality. However, such experimental material systems are extremely rare. Here, we demonstrate the realization of quasi-1D Kondo lattice behavior in a monolayer van der Waals crystal NbSe2, that is driven into a stripe phase via Se-deficient line defects. Spectroscopic imaging scanning tunneling microscopy measurements and first-principles calculations indicate that the stripe-phase NbSe2 undergoes a novel charge-density wave transition, creating a matrix of local magnetic moments. The Kondo lattice behavior is manifested as a Fano resonance at the Fermi energy that prevails the entire film with a high Kondo temperature. Importantly, coherent Kondo screening occurs only in the direction of the stripes. Upon approaching defects, the Fano resonance exhibits prominent spatial 1D oscillations along the stripe direction, reminiscent of Kondo holes in a quasi-1D Kondo lattice. Our findings provide a platform for exploring anisotropic Kondo lattice behavior in the monolayer limit.

Published
2024
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39. Elevated FBXL6 activates both wild-type KRAS and mutant KRASG12D and drives HCC tumorigenesis via the ERK/mTOR/PRELID2/ROS axis in mice

Author

Hao-Jun Xiong, Hong-Qiang Yu, Jie Zhang, Lei Fang, Di Wu, Xiao-Tong Lin, and Chuan-Ming Xie

Subjects
Ubiquitination, Kirsten rat sarcoma (KRAS), F-box and leucine-rich repeat 6 (FBXL6), PRELID2, Reactive oxygen species, Extracellular signal-regulated kinase (ERK), Medicine (General), R5-920, Military Science
Abstract

Abstract Background Kirsten rat sarcoma (KRAS) and mutant KRASG12D have been implicated in human cancers, but it remains unclear whether their activation requires ubiquitination. This study aimed to investigate whether and how F-box and leucine-rich repeat 6 (FBXL6) regulates KRAS and KRASG12D activity in hepatocellular carcinoma (HCC). Methods We constructed transgenic mouse strains LC (LSL-Fbxl6 KI/+ ;Alb-Cre, n = 13), KC (LSL-Kras G12D/+ ;Alb-Cre, n = 10) and KLC (LSL-Kras G12D/+ ;LSL-Fbxl6 KI/+ ;Alb-Cre, n = 12) mice, and then monitored HCC for 320 d. Multiomics approaches and pharmacological inhibitors were used to determine oncogenic signaling in the context of elevated FBXL6 and KRAS activation. Co‑immunoprecipitation (Co-IP), Western blotting, ubiquitination assay and RAS activity detection assay were employed to investigate the underlying molecular mechanism by which FBXL6 activates KRAS. The pathological relevance of the FBXL6/KRAS/extracellular signal-regulated kinase (ERK)/mammalian target of rapamycin (mTOR)/proteins of relevant evolutionary and lymphoid interest domain 2 (PRELID2) axis was evaluated in 129 paired samples from HCC patients. Results FBXL6 is highly expressed in HCC as well as other human cancers (P

Published
2023
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41. Adaptive Finite-Difference Interval Estimation for Noisy Derivative-Free Optimization

Author

Shi, Hao-Jun Michael, Xie, Yuchen, Xuan, Melody Qiming, and Nocedal, Jorge

Subjects
Mathematics - Optimization and Control
Abstract

A common approach for minimizing a smooth nonlinear function is to employ finite-difference approximations to the gradient. While this can be easily performed when no error is present within the function evaluations, when the function is noisy, the optimal choice requires information about the noise level and higher-order derivatives of the function, which is often unavailable. Given the noise level of the function, we propose a bisection search for finding a finite-difference interval for any finite-difference scheme that balances the truncation error, which arises from the error in the Taylor series approximation, and the measurement error, which results from noise in the function evaluation. Our procedure produces reliable estimates of the finite-difference interval at low cost without explicitly approximating higher-order derivatives. We show its numerical reliability and accuracy on a set of test problems. When combined with L-BFGS, we obtain a robust method for minimizing noisy black-box functions, as illustrated on a subset of unconstrained CUTEst problems with synthetically added noise., Comment: 39 pages, 20 tables, 6 figures

Published
2021

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