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10 results on '"Zhaohai Liu"'

1. Analysis of design parameters of round-window stimulating type electromagnetic transducer by a nonlinear lumped parameter model of implanted human ear

Author

Zhaohai Liu, Houguang Liu, Jie Wang, Jianhua Yang, Jingbin Hao, and Shanguo Yang

Subjects
round-window stimulation, electromagnetic transducer, middle ear implants, lumped parameter model, numerical simulation, Biotechnology, TP248.13-248.65, Mathematics, QA1-939
Abstract

Round-window stimulating transducer is a new solution to treat mixed hearing loss. To uncover the factors affecting the round-window stimulation's performance, we investigated the influence of four main design parameters of round-window stimulating type electromagnetic transducer. Firstly, we constructed a human ear nonlinear lumped parameter model and confirmed its validity by comparing the stapes responses predicted by the model with the experimental data. Following this, an electromagnetic transducer's mechanical model, which simulates the floating mass transducer, was built and coupled to the human ear model; thereby, we established a nonlinear lumped parameter model of implanted human ear under round-window stimulation and verified its reliability. Finally, based on this model, the influences of the four main design parameters, i.e., the excitation voltage, the electromechanical coupling coefficient, the support stiffness, and the preload force, were analyzed. The results show that the change of excitation voltage does not alter the system's natural frequency. Chaotic motion occurs when the electromechanical coupling coefficient is small. Meanwhile, the stapes displacement appears to increase firstly and then decrease with the increase of the electromechanical coupling coefficient. The increase of the support stiffness enlarges the resonance frequency of the stapes displacement and reduces the stapes displacement near the resonance frequency, deteriorating the transducer's hearing compensation at low frequency. The preload force can improve the transducer's hearing compensation performance in mid-high frequency region.

Published
2022
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2. Optimization of Cervical Cancer Screening: A Stacking-Integrated Machine Learning Algorithm Based on Demographic, Behavioral, and Clinical Factors

Author

Lin Sun, Lingping Yang, Xiyao Liu, Lan Tang, Qi Zeng, Yuwen Gao, Qian Chen, Zhaohai Liu, and Bin Peng

Subjects
machine learning, cervical cancer, risk, artificial intelligence, personalized screening, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

PurposeThe purpose is to accurately identify women at high risk of developing cervical cancer so as to optimize cervical screening strategies and make better use of medical resources. However, the predictive models currently in use require clinical physiological and biochemical indicators, resulting in a smaller scope of application. Stacking-integrated machine learning (SIML) is an advanced machine learning technique that combined multiple learning algorithms to improve predictive performance. This study aimed to develop a stacking-integrated model that can be used to identify women at high risk of developing cervical cancer based on their demographic, behavioral, and historical clinical factors.MethodsThe data of 858 women screened for cervical cancer at a Venezuelan Hospital were used to develop the SIML algorithm. The screening data were randomly split into training data (80%) that were used to develop the algorithm and testing data (20%) that were used to validate the accuracy of the algorithms. The random forest (RF) model and univariate logistic regression were used to identify predictive features for developing cervical cancer. Twelve well-known ML algorithms were selected, and their performances in predicting cervical cancer were compared. A correlation coefficient matrix was used to cluster the models based on their performance. The SIML was then developed using the best-performing techniques. The sensitivity, specificity, and area under the curve (AUC) of all models were calculated.ResultsThe RF model identified 18 features predictive of developing cervical cancer. The use of hormonal contraceptives was considered as the most important risk factor, followed by the number of pregnancies, years of smoking, and the number of sexual partners. The SIML algorithm had the best overall performance when compared with other methods and reached an AUC, sensitivity, and specificity of 0.877, 81.8%, and 81.9%, respectively.ConclusionThis study shows that SIML can be used to accurately identify women at high risk of developing cervical cancer. This model could be used to personalize the screening program by optimizing the screening interval and care plan in high- and low-risk patients based on their demographics, behavioral patterns, and clinical data.

Published
2022
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7. Height/Length and Weight Growth Curves and Growth References of Children Aged 0 - 7 in Chongqing by GAMLSS

Author

Qian Chen, Kaocong Tian, Jiaxiu Liu, and Zhaohai Liu

Subjects
Percentile, Statistics, Weight growth, medicine, Range (statistics), Preventive health, Growth curve (biology), medicine.symptom, Short stature, Standard deviation, Smoothing, Mathematics
Abstract

Aim: Using the generalised additive model for location, the scale and shape (GAMLSS), the standard of height (length), weight and percentage curve of children were formulated to understand the growth law in Chongqing and to provide a reference for clinical and preventive health care work of paediatrics in West China. Methods: Data were collected from the health clinic dataset of children aged 0 - 7 years in the Department of Child Health Care of a Third-Class A hospital in Chongqing from 2010 to 2017. By applying the GAMLSS technology and taking D(μ, σ, ν, τ) as the specific distribution form, BCT as the link function, P-spline function and cubic splines function as the smoothing function, the unit value of age-specific standard deviation of height (length) and weight were obtained, and the percentile map was drawn. Results: Based on the principle of minimum AIC and SBC values, BCT distribution was chosen as the model of the link function. Fitting results of height (length) and weight parameters of boys and girls, standard deviation tables of age and percentile curves were obtained. Conclusions: This study was an exploration of using GAMLSS method to establish a reference value range in the field of children’s growth and development in China. It could supplement the relevant data of Chongqing area for Reference standard for growth and development of children under 7 years of age in China, and also provide a reference for the rational diagnosis of children’s short stature and malnutrition in Chongqing.

Published
2020

8. Fully-Transparent TFT Sensor Array with IGZO/Nanorods Enhancing Structure

Author

Wenjian Kuang, Xiang Liu, Zhi Tao, Zhaohai Liu, Haixin Lin, and Zhenwu Tang

Subjects
Indium gallium zinc oxide, Semiconductor, Materials science, business.industry, Thin-film transistor, Etching, Electrode, Electrode array, Optoelectronics, business, Electronic circuit, Indium tin oxide
Abstract

Operational stability and sensitivity are key issues in the practical application thin film transistor (TFT) of sensors, and the interdigital electrode is an important element that can be applied to TFT. In this study, a completely transparent interdigital electrode was printed on the glass plated with indium tin oxide (ITO) material using a laser etching machine. The produced interdigital electrode has the characteristics of high density, small line spacing, high sensitivity, and laser etching can be large. The amplitude reduces the production time of the device. Use a semiconductor tester to test the electrical transfer characteristics of the interdigital electrodes. The photoelectric generation spectrum and absorption spectrum of the interdigital electrode array plated with indium gallium zinc oxide (IGZO) material were tested. After plated with IGZO material, the ability to absorb light was greatly enhanced. The interdigital electrodes plated with IGZO material can be applied to the driving and test circuits of flexible wearable spectroscopic industrial detection sensors. It can amplify the circuit signal. After being plated with IGZO material, the power consumption of the circuit can be greatly reduced, and the measurement with low power consumption, high stability and high accuracy can be realized.

Published
2021

10. Color Image Segmentation in RGB Color Space Based on Color Saliency

Author

Zhaohai Liu, Chen Zhang, Zhenbo Li, Chen Yingyi, Wenzhu Yang, and Daoliang Li

Subjects
Color histogram, Computer science, business.industry, Color image, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Color balance, False color, Color space, RGB color space, Color depth, RGB color model, Computer vision, Artificial intelligence, business, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

It is difficult to separate the foreign fiber objects in a captured color image from the background accurately. To solve this problem, this paper presents a new approach for color image segmentation in RGB color space based on color saliency. Firstly, the captured RGB color image was separated to R, G and B color channels, and the color information for each channel was calculated. Secondly, the R saliency for each pixel in the R channel, the G saliency for each pixel in the G channel, and the B saliency for each pixel in the B channel was calculated respectively. Then comprehensive saliency map was obtained by the weighted R, G and B saliency. The weights for the R, G and B saliency were determined by the corresponding color information of each color channel. At last, the foreign fiber targets were separated out from the comprehensive saliency map using a threshold method. The results indicate that the proposed method can segment out the foreign fiber objects from the color image accurately.

Published
2014

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