Your search keyword '"Qinlong Li"' showing total 8 results

1. Evaluation of a Microcontroller-based Smart Wearable Device in College Students' Sports Forging Application.

Author

Yong Che, Kaixuan Che, and Qinlong Li

Subjects

WEARABLE technology, MICROCONTROLLERS, CONVOLUTIONAL neural networks, COLLEGE students, OPTIMIZATION algorithms, STANDARD deviations

Abstract

INTRODUCTION: The widespread use of smart wearable devices in various fields, including healthcare and sports, underscores the importance of their application in enhancing physical exercise among college students. Recent advancements in technology have facilitated the development of sophisticated methods to assess and predict physical activity outcomes, making their evaluation increasingly critical. OBJECTIVES: This study aims to develop a reliable assessment model for smart wearable devices used in college students' sports activities. The objective is to accurately predict and evaluate the effectiveness of these devices in improving students' physical health and promoting lifelong sports habits. Ultimately, the research seeks to integrate advanced computational methods to enhance the accuracy of physical exercise assessments. METHODS: The research introduces a novel assessment model that combines a zebra behavior-based heuristic optimization algorithm with a convolutional neural network (CNN). By analyzing user behavior data from wearable devices, the model constructs an evaluation index system tailored for college sports activities. The approach optimizes the parameters of the CNN using the zebra optimization algorithm, ensuring enhanced prediction accuracy. RESULTS: The evaluation model demonstrated high accuracy, with a significant improvement in predicting the outcomes of physical exercises among college students. Comparative analyses with traditional methods revealed that the new model reduced prediction errors and increased real-time performance metrics. Specifically, the model achieved a lower root mean square error (RMSE) in simulation tests, indicating more precise assessments. Figures and statistical data provided in the study illustrate the model's superior performance across various parameters. CONCLUSION: The developed assessment model significantly advances the application of smart wearable devices in monitoring and enhancing college students' physical activities. By integrating cutting-edge algorithms, the study not only improves the accuracy of exercise assessments but also contributes to the broader understanding of technology's role in health and fitness education. Future research could further refine this model by incorporating additional sensors and data points to expand its applicability and robustness. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mutual Coupling Reduction of Dual Polarized Low Profile MIMO Antenna Using Decoupling Resonators.

Author

Faraz, Faizan, Xiaoming Chen, Qinlong Li, Jiazhi Tang, Jianxing Li, Khan, Tayyab. A., and Xiaotong Zhang

Subjects

RESONATORS, ANTENNA arrays, DIELECTRIC resonator antennas, ANTENNAS (Electronics)

Abstract

This paper presents a resonator based decoupling structure for 2×2 dual polarized array antenna. The designed structure consists of two decoupling resonators placed between the antenna elements. The proposed decoupling structure can effectively enhance the isolation and has negligible impact on the radiation patterns. [ABSTRACT FROM AUTHOR]

Published

2020

3. Bandwidth and gain improvement of a crossed slot antenna with Metasurface.

Author

Changfei Zhou, Sing Wai Cheung, Qinlong Li, and Min Li

Subjects

SLOT antennas, APERTURE antennas, RADIATION, MICROSTRIP transmission lines, STRIP transmission lines, MICROSTRIP antennas

Abstract

A wideband metasurfaced (MS) slot antenna is proposed for circularly polarized (CP) operation. The antenna consists of a crossed slot antenna (CSA) and a MS placed at a short distance above the CSA. The CSA has two slots placed in orthogonal positions and with distributed elements to generate two E-fields with 90_-phase difference for CP radiation. A microstrip line is used to single feed the CSA at the center. Simulations and measurements are used to study and design the MS slot antenna. The measured results show that, with the use of the MS, the impedance bandwidth can be increased from 4.24-6.78GHz (2.54GHz, 46.1%) to 3.36-6.91GHz (3.55GHz, 69.13%), and the axial-ratio bandwidth (ARBW) can be increased from 4.38-4.96GHz (0.58GHz, 12.4%) to 3.96-6.02GHz (2.06GHz, 41.28%). Within the ARBW, the realized co-polarized gain can be increased by about 3 dB on average. [ABSTRACT FROM AUTHOR]

Published

2017

4. Mutual coupling and correlation of closely spaced patch antennas.

Author

Abdullah, Muhammad, Xiaoming Chen, Qinlong Li, and Kishk, Ahmed A.

Subjects

ANTENNAS (Electronics), MICROSTRIP antenna arrays, MATHEMATICAL combinations

Abstract

It is commonly believed that orthogonal polarisations lead to negligible correlation. In this Letter, it is shown that for the closely spaced patch antennas, orthogonal polarisations alone do not ensure uncorrelation. The surface waves must be suppressed (in combination with orthogonal polarisation) to achieve uncorrelated antennas. This is validated by different realisations of closely spaced patch antennas. The final design with reduced mutual coupling and correlation has been fabricated and measured. Good agreements between measured and simulated results are observed. [ABSTRACT FROM AUTHOR]

Published

2019

5. On the resonant frequencies of dual-band patch antennas.

Author

Abdullah, Muhammad, Xiaoming Chen, and Qinlong Li

Subjects

MICROSTRIP transmission lines, ANTENNAS (Electronics), VOLTAGE-controlled oscillators, BANDWIDTHS, RESONANCE

Abstract

A square patch radiator supports both TM01 and TM10 modes with equal resonant frequencies. Feeding the patch in its diagonal can excite both modes with equal amplitudes and phases. By utilising this property, an effective technique is proposed to realise dual-band dual-polarised patch antenna. While the lower resonant frequency can be calculated using an existing analytical formula, an expression of the higher resonant frequency is still missing in the literature. To this end, an approximate expression of the higher resonant frequency is devised using the equivalent transmission line model in this work. It is a function of the distance between the shorting post and the feeding location. In order to validate the accuracy of the expression, three different antenna configurations are designed and manufactured. Good agreements between theoretical, simulated, and measured results are observed. [ABSTRACT FROM AUTHOR]

Published

2019

6. Apoptosis-related protein-1 acts as a tumor suppressor in cholangiocarcinoma cells by inducing cell cycle arrest via downregulation of cyclin-dependent kinase subunits.

Author

JIANYONG ZHENG, QINLONG LI, WEIHUA WANG, YINGMEI WANG, XIN FU, WENYONG WANG, LINNI FAN, and WEI YAN

Published

2016

7. Intracranial meningeal hemangiopericytoma: Recurrences at the initial and distant intracranial sites and extraneural metastases to multiple organs.

Author

GUANGQUAN WEI, XIAOWEI KANG, XIANPING LIU, XING TANG, QINLONG LI, JUNTAO HAN, and HONG YIN

Subjects

CARCINOGENESIS, TEMOZOLOMIDE, METASTASIS, MAGNETIC resonance imaging, COMPUTED tomography

Abstract

Regardless of the controversial pathogenesis, intracranial meningeal hemangiopericytoma (M-HPC) is a rare, highly cellular and vascularized mesenchymal tumor that is characterized by a high tendency for recurrence and extraneural metastasis, despite radical excision and postoperative radiotherapy. M-HPC shares similar clinical manifestations and radiological findings with meningioma, which causes difficulty in differentiation of this entity from those prognostically favorable mimics prior to surgery. Treatment of M-HPC, particularly in metastatic settings, remains a challenge. A case is described of primary M-HPC with recurrence at the initial and distant intracranial sites and extraneural multiple-organ metastases in a 36-year-old female. The metastasis of M-HPC was extremely extensive, and to the best of our knowledge this is the first case of M-HPC with delayed metastasis to the bilateral kidneys. The data suggests that preoperative computed tomography and magnetic resonance imaging could provide certain diagnostic clues and useful information for more optimal treatment planning. The results may imply that novel drugs, such as temozolomide and bevacizumab, as a component of multimodality therapy of M-HPC may deserve further investigation. [ABSTRACT FROM AUTHOR]

Published

2015

8. Magnetic resonance characteristics of adult-onset Lhermitte-Duclos disease: An indicator for active cancer surveillance?

Author

GUANGQUAN WEI, WEI ZHANG, QINLONG LI, XIAOWEI KANG, HAITAO ZHAO, XIANPING LIU, XING TANG, YUANMING WU, JUNTAO HAN, and HONG YIN

Subjects

CEREBELLUM diseases, COWDEN syndrome, CANCER diagnosis, PURKINJE cells, MAGNETIC resonance imaging of the brain

Abstract

Lhermitte-Duclos disease (LDD) is a rare, non-cancerous entity characterized by enlarged, abnormally developed cerebellar folia containing dysplastic cells. Symptomatic LDD is commonly observed in adults (adult-onset LDD, aLDD) as an isolated condition or associated with Cowden's disease (CD). The present study aimed to investigate the magnetic resonance imaging (MRI) characteristics and the underlying pathological findings in 7 cases of aLDD, with emphasis on the association with CD and the need for active cancer surveillance once the diagnosis of LDD is confirmed. The MRI findings along with the clinical and histopathological data collected from 7 patients with aLDD were retrospectively reviewed. The diagnosis of CD was based on a range of clinical characteristics, according to the International Cowden Consortium Criteria. A thorough review of the published data was conducted and our results indicated that all 7 cases shared similar MRI characteristics, whether the aLDD was sporadic (2 cases) or associated with CD (5 cases), including a highly typical non-enhancing striated MRI appearance of thickened folia, consisting of alternating bands on T1- and T2-weighted images. On gross examination, the involved cerebellar folia were distorted and enlarged, whereas the histopathological examination revealed that the molecular layer was widened and occupied by abnormal ganglion cells. Moreover, a reduction in the number or absence of the Purkinje cells and hypertrophy of the granular cell layer were observed. Our findings were consistent with the diagnosis of LDD. Variable levels of vacuolization of the white matter and the molecular layer were observed in all the cases. Notably, CD34 immunohistochemical analysis revealed the presence of angiogenesis within the lesions. aLDD associated with CD exhibited no pathological or immunohistochemical characteristics that were distinct from those of isolated aLDD. Of the 7 cases of aLDD, 5 presented with symptoms suggestive of CD, which is a syndrome associated with a high risk of multiple benign and malignant neoplasms. In conclusion, aLDD exhibits characteristic MRI and histopathological findings and displays a strong association with CD. Therefore, we recommend that the MRI diagnosis of aLDD triggers active cancer surveillance and preventive care. [ABSTRACT FROM AUTHOR]

Published

2014