Your search keyword '"Jitao Zhang"' showing total 325 results

1. Study on compaction characteristics and mechanical model of dry crushing filling material under lateral confinement condition

Author

Youlin Xu, Shaokang Wu, Zhisong Chen, Xukun Wu, Jitao Zhang, and Bing Xiao

Subjects

Goaf, Dry filling material, Compaction characteristics, Load-bearing performance, Talbot coefficient, Acoustic emission, Medicine, Science

Abstract

Abstract The compaction characteristics and bearing capacity of dry filling materials in goaf have a significant influence on stope control and surface stability. Through acoustic emission monitoring and mechanical model analysis, a series of confined compression tests were conducted on crushed waste with varying particle sizes and Talbot coefficients. The deformation, fragmentation, and acoustic emission characteristics under corresponding working conditions were determined. The results indicate that the stress–strain curves of crushed stone with different particle sizes and Talbot coefficients exhibit similar nonlinear behavior during confined compression. However, the strain response varies with changing stress levels. By analyzing the slope change rate of the stress–strain curve, the lateral uniaxial compression process of waste rock can be divided into three deformation stages: rapid compression, stable crushing, and slow compaction. The compressive deformation characteristics of gravel differ based on particle size and Talbot coefficient. Specimens with a higher Talbot coefficient demonstrate stronger compressive resistance and weaker deformation resistance during initial compaction loading. Notably, the internal pressure structure strength is influenced by factors such as maximum particle size D, grading coefficient n, and particle size distribution continuity, rather than solely by the proportion of large particles. The evolution of acoustic emission signals and energy-time curve during waste rock confined axial compression synchronizes with the compaction process. Overall, compaction plays a critical role in maintaining the stability of goaf in dry crushed waste filling.

Published

2024

2. Theoretical analysis and numerical study of natural convection inside combined solar chimney

Author

Huimin Cui, Mengjiao Han, Jitao Zhang, Zhiming Han, Feng Xu, and Qingkuan Liu

Subjects

combined solar chimney, heat transfer, natural ventilation, Rayleigh number, scaling analysis, turbulent thermal boundary layer, Technology, Science

Abstract

Abstract Solar chimneys may induce natural ventilation through solar radiation. However, sufficient theoretical studies are needed as a basis to fully exploit passive design in practical green building design. In this work, we investigate the heat transfer properties of turbulent natural convective flows in a combined solar chimney with a thermal flux at the absorption wall by means of theoretical analysis and numerical simulations. Two different flow patterns have been found, one with a clear thermal boundary layer flow pattern and the other without, based on high Rayleigh numbers. For flow development in these two flow regimes, the transient scaling analysis is performed separately and the control mechanism for each phase is presented. Some new scale relationships are established to characterize the ventilation performance of solar chimneys, including thermal boundary layer thickness δT, velocity vT, mass flow m, and so on. For the distinct thermal boundary layers, δT,s ~ HΓ2/5/Bo1/5κ2/5, vT,s ~ Bo2/5κ4/5Γ1/5/H, m ~ ρBo1/5κ2/5Γ3/5. For nonobvious thermal boundary layers, vT,f ~ Bo1/3κ/H2/3W1/3, m ~ ρBo1/3κ/A2/3. The important scale relationships are validated using corresponding numerical simulation data, such as the mass flow rate scale M ~ (Γ/κ)3/5Bo1/5 in the distinct thermal boundary layer flow state, and so on. The air changes per hour and heat exchange efficiencies are calculated for a solar chimney with a fixed height‐to‐width ratio to provide a basis for the design of a solar chimney.

Published

2024

3. Study on the stress evolution law of surrounding rock and cooperative control technology in coal seam group mining

Author

Shaokang WU, Junwen ZHANG, Youlin XU, Zhixiang SONG, Yang ZHANG, Wenbing FAN, Xukai DONG, Jitao ZHANG, and Zhisong CHEN

Subjects

coal seam group, mining stress, bottom drum, roadway support, collaborative control technology of “unloading-rotating-fixing”, Mining engineering. Metallurgy, TN1-997

Abstract

Aiming at addressing the challenges encountered in roadway support during coal seam group mining, this project focuses on the 212 main return-air cross-cut in Tucheng Mine, Guizhou Province. Through field investigation, numerical simulation, analog simulation, and field tests, the study reveals the stress evolution pattern of the 212 main return-air cross-cut and proposes the collaborative control technology of “unloading-rotating-fixing”. The findings indicate that the main cause of failure in the 212 main return-air cross-cut is the instability of the surrounding rock resulting from geomechanical issues during coal seam group mining. The floor and two sides of roadway produce different degree of stress concentration during mining. When the tunnel experiences vertical stress compression, the compressive force at the tunnel’s bottom is greater and the tensile force in the surrounding rock at the top is larger, leading to failure of the surrounding rock due to mechanical imbalance. Consequently, the “unloading-rotating-fixing” cooperative control technology is proposed. The shock waves generated by blasting induce vibration and stress fluctuations in the surrounding rock, dispersing the initially concentrated stress in the surface rock to deeper areas and reducing the stress concentration levels on the surface. Additionally, the surrounding rock around pressure relief holes is further reinforced using blasting and sealing techniques to form two load-bearing structures: the inner carrier composed of the roadway support system and the outer carrier formed by the deep surrounding rock. The interaction between these two components enables them to effectively withstand the stress from both shallow and deep surrounding rock of the roadway, transferring it to the supporting structure and playing a crucial role in protecting and stabilizing the surrounding rock. This technology was utilized during the field test at the 212 main return-air cross-cut with great success. The results demonstrate that the stress levels in the area tend to remain stable or even slightly decrease over time. The convergence speed of the roof, floor, and sides of the roadway is reduced by 74.49% and 47.67%, respectively, while the floor heave volume is decreased by 77.2%. However, in areas where this technique is not applied, the stress levels increase to varying degrees, leading to significant surface displacement convergence. It can be concluded that the control effect on surrounding rock is remarkable. This technology has been successfully implemented in other coal mines located in diverse geological environments in Guizhou Province, yielding remarkable outcomes.

Published

2024

4. Weight-adjusted waist index is a potential early predictor of degraded bone microarchitecture: A cross-sectional study of the national health and nutrition examination survey 2007-2008

Author

Baoguo Mi, Jitao Zhang, Kuo Jiang, Hailan Meng, Lequn Shan, and Dingjun Hao

Subjects

Orthopedic surgery, RD701-811

Abstract

Purpose This study aimed to investigate the association between weight-adjusted waist index (WWI) and trabecular bone score (TBS) and to assess the ability of WWI to identify individuals with degraded bone microarchitecture (DBMA). Methods This cross-sectional study included participants aged 20 and older from the National Health and Nutrition Examination Survey. Furthermore, WWI was calculated by waist circumference and body weight. In addition, linear regression models were employed to investigate the association between WWI and TBS, while logistic regression models were employed to determine the association between WWI and the risk of DBMA. Finally, the performance of WWI in identifying individuals with DBMA was using the receiver operating characteristic (ROC) curves with area under the ROC curve. Results A total of 4,179 participants with a mean age of 49.90 years were included in the final analysis. WWI was negatively associated with TBS and positively associated with an increased risk of DBMA. Furthermore, the associations between WWI and TBS, as well as DBMA risk, were stable regardless of stratification by age, sex, race, or body mass index (BMI). Moreover, WWI achieved good performances in identifying individuals with DBMA or low TBS. In addition, the combination of WWI and BMI showed better performances in identifying individuals with DBMA or low TBS than WWI or BMI alone. Conclusion WWI established a negative association with TBS and a positive association with the risk of DBMA. Clinicians should be alert to the potential risk of DBMA among individuals with high WWI. Moreover, WWI, alone or in combination with BMI, has the potential to serve as an early screening strategy in identifying individuals with DBMA.

Published

2024

5. Rapid support technology and engineering application of roadway reconstruction high strength bearing structure in coal mine

Author

Youlin XU, Xukun WU, Bo ZHOU, Wei ZHENG, Shaokang WU, Ze ZHOU, Zhisong CHEN, and Jitao ZHANG

Subjects

crushed surrounding rock, difficult supporting roadway, high-strength load-bearing structure, load-bearing strength, moth flame optimization algorithm, Mining engineering. Metallurgy, TN1-997

Abstract

In response to the technical challenges of supporting tunnels in loose and fragmented surrounding rock with poor anchorage, strong dynamic pressure, and strong structural stress influences, extensive on-site surveys were conducted, and several typical problems of large deformation in coal mine tunnel surrounding rock and difficulty in rock control were summarized and analyzed. Based on the analysis of existing support technologies and theoretical foundations, a concept and method for the rapid support technology of reconstructing high-strength load-bearing structures were proposed. Taking the 11205 down-hill transport tunnel at Longbao Coal Mine in Guizhou as an engineering background, the causes of deformation and failure were analyzed. A combined support method of displacement and unloading for fragmented surrounding rock was designed in practice. The design plan and optimal parameter calculations for the roadside backfill wall were carried out, and a mechanical model for the load-bearing capacity of the roadside backfill wall was theoretically established. Its load-bearing strength was analyzed to determine the strength of the wall and its suitability and effectiveness with the surrounding rock of the tunnel. By integrating the FLAC3D numerical simulation software and the Python scripting language, the moth-flame optimization algorithm was applied to determine the optimal displacement parameters for the fragmented rock tunnel (wall thickness and unloading zone width). A new material for high-strength, high-toughness backfill support was developed. By displacing and reconstructing the weak wall body, the tunnel roof, backfill, and floor were reconstituted into an integral load-bearing structure. Industrial-scale trial results underground showed that after reconstructing the weak rock body of the tunnel, the new structure consisting of the roof, backfill, and floor fully utilized the surrounding rock’s own load-bearing capacity and resistance to deformation. The rock deformation stabilized, the convergence rate was generally less than 0.2 mm/d, with no significant deformation, and the results of the numerical simulation calculations were consistent with the engineering practice monitoring, indicating that the roadside backfill displacement support scheme has a good effect on controlling tunnels in loose and fragmented surrounding rock. This can provide a theoretical basis for the support and strength parameters of roadside backfill. Finally, the paper looked forward to deeper research into the technology of rapid support for reconstructed load-bearing structures.

Published

2024

6. Ultrasound-guided versus fluoroscopy-guided lumbar selective nerve root block: a retrospective comparative study

Author

Bowen Wang, Yang Sun, Jitao Zhang, Hailan Meng, Hong Zhang, and Lequn Shan

Subjects

Ultrasound, Fluoroscopy, Selective nerve root block, Lumbar radiculopathy, Medicine, Science

Abstract

Abstract The purpose of this study is to compare the accuracy and effectiveness of ultrasound-guided and fluoroscopy-guided lumbar selective nerve root block (SNRB), and to explore the feasibility of ultrasound-guided methods. This retrospective study included patients with lumbar radicular pain who underwent ultrasound-guided and fluoroscopy-guided selective nerve root block at Honghui Hospital Affiliated to Xi’an Jiaotong University from August 2020 to August 2022. Patients were divided into U-SNRB group and F-SNRB group according to ultrasound-guided or fluoroscopy-guided selective nerve root block. There were 43 patients in U-SNRB group and 20 patients in F-SNRB group. The pain visual analogue scale (VAS) scores, Japanese Orthopaedic Association (JOA) scores, related indexes and complications were recorded and compared between the two groups before, 30 min, 1 month and 6 months after block. To evaluate the feasibility, accuracy and effectiveness of ultrasound-guided selective nerve root block. There were no complications in the process of selective nerve root block in both groups. The operating time and the times of closing needle angle adjustment in U-SNRB group were better than those in F-SNRB group, and the difference was statistically significant (P 0.05). The accuracy of ultrasound-guided selective nerve root block and the degree of pain relief of patients were similar to those of fluoroscopy guidance, but the operation time and needle angle adjustment times were significantly less than that of fluoroscopy, and could effectively reduce radiation exposure. Therefore, it can be used as a better way to guide for choice.

Published

2024

7. The Enhanced Photoluminescence Properties of Carbon Dots Derived from Glucose: The Effect of Natural Oxidation

Author

Pei Zhang, Yibo Zheng, Linjiao Ren, Shaojun Li, Ming Feng, Qingfang Zhang, Rubin Qi, Zirui Qin, Jitao Zhang, and Liying Jiang

Subjects

carbon dots, dual-fluorescent, natural oxidation, oxygen-containing groups, fluorescence mechanism, Chemistry, QD1-999

Abstract

The investigation of the fluorescence mechanism of carbon dots (CDs) has attracted significant attention, particularly the role of the oxygen-containing groups. Dual-CDs exhibiting blue and green emissions are synthesized from glucose via a simple ultrasonic treatment, and the oxidation degree of the CDs is softly modified through a slow natural oxidation approach, which is in stark contrast to that aggressively altering CDs’ surface configurations through chemical oxidation methods. It is interesting to find that the intensity of the blue fluorescence gradually increases, eventually becoming the dominant emission after prolonging the oxidation periods, with the quantum yield (QY) of the CDs being enhanced from ~0.61% to ~4.26%. Combining the microstructure characterizations, optical measurements, and ultrafiltration experiments, we hypothesize that the blue emission could be ascribed to the surface states induced by the C–O and C=O groups, while the green luminescence may originate from the deep energy levels associated with the O–C=O groups. The distinct emission states and energy distributions could result in the blue and the green luminescence exhibiting distinct excitation and emission behaviors. Our findings could provide new insights into the fluorescence mechanism of CDs.

Published

2024

8. Muti-frequency extended sampling method for the inverse acoustic source problem

Author

Jiyu Sun and Jitao Zhang

Subjects

inverse source problem, extended sampling method, multiple frequency data, Mathematics, QA1-939, Applied mathematics. Quantitative methods, T57-57.97

Abstract

We consider the reconstruction of the compact support of an acoustic source given multiple frequency far field data. We propose a multi-frequency extended sampling method (MESM). The MESM computes the solutions of some ill-posed integral equations and constructs an indicator function to image the source. The behavior of the indicator function is justified. The method is fast and easy to implement. Various numerical examples are presented to show the effectiveness of the MESM for both frequency-independent and frequency-dependent sources.

Published

2023

9. Author Correction: Ultrasound-guided versus fluoroscopy-guided lumbar selective nerve root block: a retrospective comparative study

Author

Bowen Wang, Yang Sun, Jitao Zhang, Hailan Meng, Hong Zhang, and Lequn Shan

Subjects

Medicine, Science

Published

2024

10. KDELR2 as a diagnostic and prognostic biomarker of bladder urothelial carcinoma and its correlation with immune infiltration

Author

Sai Ma, Longqi Sa, Jitao Zhang, Kuo Jiang, Baoguo Mi, and Lequn Shan

Subjects

Bladder Urothelial Carcinoma (BLCA), Bioinformatic analysis, Immune infiltration, KDELR2, Genetics, QH426-470

Abstract

Abstract KDELR2 has been reported as a promotive factor for the genesis and progression of several malignancies. However, it is uncertain how it affects bladder urothelial carcinoma (BLCA). Using data extracted from online databases, an enhanced expression of KDELR2 in BLCA tissues was verified. Overexpression of KDELR2 was correlated with advanced clinicopathologic characteristics and unfavourable prognosis of BLCA. Receiver operating characteristic analysis highlighted the potential diagnostic value of KDELR2. Univariate and multivariate logistic regression analyses further revealed the predictive effect of KDELR2 for the prognosis of BLCA. KDELR2 was primarily enriched in biological functions related to organization of the extracellular matrix. TIMER, ssGSEA and GEPIA analyses suggested that KDELR2 expression is positively related to the infiltration of macrophages, Th2 cells and neutrophils. Finally, knocking-down of KDELR2 in T24 cells resulted in reduced proliferation, migration and macrophages recruitment. These results suggest that KDELR2 overexpression is an indicator for poor prognosis of BLCA and it has the potential to be employed as an immunotherapy target for BLCA.

Published

2023

11. Theoretical Investigation of Strain-Adjustable Ge0.92Sn0.08 Light-Emitting Diodes With Giant Magnetostrictive Stressor for Short-Wave Infrared Light Source

Author

Qingfang Zhang, Qianyu Chen, Jitao Zhang, Wenxiang Lu, Pei Zhang, Zirui Qin, Lingzhi Cao, and Genquan Han

Subjects

Adjustable tensile strain, GeSn alloys, giant magnetostrictive stressor, LED, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

A new idea was provided by the group-IV GeSn alloys for short-wave infrared light source compatible with CMOS due to the low cost integrated on the Si platform and can be transformed into direct bandgap alloy. More than 7.1% Sn content or strain engineering is used to achieve the direct bandgap GeSn semiconductors and enhance the luminous efficiency of GeSn light-emitting devices. We theoretically investigate a strain-adjustable GeSn light-emitting diode with the giant magnetostrictive stressor. A 0∼0.11% adjustable uniaxial tensile strain is introduced into Ge0.92Sn0.08 LED by adjusting the external magnetic field. A continuously adjustable bandgap from 0.543 eV to 0.475 eV of the Ge0.92Sn0.08 alloy is achieved in the magnetic field intensity range of 0∼240 kA/m, and the spontaneous emission rate of the strained LED is enhanced about 3.63 times compared with the relaxed device. Besides, an adjustable range of luminous peak is achieved from 2.18 μm to 2.46 μm, which can promote the application of GeSn light source for magnetic field detection and photo-communication in short-wave infrared.

Published

2023

12. Time-lapse mechanical imaging of neural tube closure in live embryo using Brillouin microscopy

Author

Chenchen Handler, Giuliano Scarcelli, and Jitao Zhang

Subjects

Medicine, Science

Abstract

Abstract Neural tube closure (NTC) is a complex process of embryonic development involving molecular, cellular, and biomechanical mechanisms. While the genetic factors and biochemical signaling have been extensively investigated, the role of tissue biomechanics remains mostly unexplored due to the lack of tools. Here, we developed an optical modality that can conduct time-lapse mechanical imaging of neural plate tissue as the embryo is experiencing neurulation. This technique is based on the combination of a confocal Brillouin microscope and a modified ex ovo culturing of chick embryo with an on-stage incubator. With this technique, for the first time, we captured the mechanical evolution of the neural plate tissue with live embryos. Specifically, we observed the continuous increase in tissue modulus of the neural plate during NTC for ex ovo cultured embryos, which is consistent with the data of in ovo culture as well as previous studies. Beyond that, we found that the increase in tissue modulus was highly correlated with the tissue thickening and bending. We foresee this non-contact and label-free technique opening new opportunities to understand the biomechanical mechanisms in embryonic development.

Published

2023

13. The effects of environmental information disclosure on stock price synchronicity in China

Author

Yongliang Yang, Jitao Zhang, and Yi Li

Subjects

Environmental information disclosure, Stock price synchronicity, Capital market pricing efficiency, Greenwashing, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Environmental information disclosure has attracted the attention of the capital market because it can convey corporate characteristic information. But there needs to be direct evidence that environmental information disclosure can improve the market's overall efficiency. This study examines whether corporate environmental information disclosure can improve the information efficiency of the capital market. This study takes Chinese listed companies from 2008 to 2021 as samples, constructs a panel fixed effect model, and adopts multiple linear, instrumental variable method and Heckman sample selection model. We find that the disclosure of environmental information in the Chinese market reduces the information efficiency of the capital market represented by the synchronicity of stock prices. The reason is that the information after greenwashing by enterprises needs to be of better quality and more obscure, which disrupts market information. Environmental information disclosure by enterprises prone to greenwashing significantly affects stock price synchronicity, such as low institutional ownership, non-state-owned, growth, and manufacturing firms. Finally, this paper discusses the impact mechanism and confirms that stock liquidity and analyst coverage are the two paths through which environmental information disclosure impacts stock price synchronicity. This study is significant in encouraging the government to strengthen market supervision, promoting enterprises to disclose high-quality environmental information, and improving the pricing efficiency of the capital market.

Published

2023

14. Non-contact and label-free biomechanical imaging: Stimulated Brillouin microscopy and beyond

Author

Chenjun Shi, Hongyuan Zhang, and Jitao Zhang

Subjects

biomechanics, mechanical imaging, Brillouin microscopy, stimulated Brillouin scattering, optical elastography, picosecond ultrasonics, Physics, QC1-999

Abstract

Brillouin microscopy based on spontaneous Brillouin scattering has emerged as a unique elastography technique because of its merit of non-contact, label-free, and high-resolution mechanical imaging of biological cell and tissue. Recently, several new optical modalities based on stimulated Brillouin scattering have been developed for biomechanical research. As the scattering efficiency of the stimulated process is much higher than its counterpart in the spontaneous process, stimulated Brillouin-based methods have the potential to significantly improve the speed and spectral resolution of existing Brillouin microscopy. Here, we review the ongoing technological advancements of three methods, including continuous wave stimulated Brillouin microscopy, impulsive stimulated Brillouin microscopy, and laser-induced picosecond ultrasonics. We describe the physical principle, the representative instrumentation, and biological application of each method. We further discuss the current limitations as well as the challenges for translating these methods into a visible biomedical instrument for biophysics and mechanobiology.

Published

2023

15. Multi-objective optimal water resources allocation in the middle and upper reaches of the Huaihe River Basin (China) based on equilibrium theory

Author

Zengchuan Dong, Jitao Zhang, Ke Zhang, Xinkui Wang, and Tian Chen

Subjects

Medicine, Science

Abstract

Abstract In the river basin water resources allocation (WRA) problem, an unbalanced WRA poses challenges to water resources management departments. Many studies focus on achieving a lower water shortage rate while ignoring the equilibrium relationship among the socio-economic system, water resources system and eco-environmental system, as well as the equilibrium relationship among different regions. In this study, a water resources allocation model(WRAM) based on equilibrium theory is constructed to achieve the balance between different systems and different spaces in a basin. First, the relationship among the water resources system, socio-economic system and eco-environmental system is described. Then, the regional equilibrium index and system equilibrium index are constructed. Finally, the first model based on equilibrium theory is constructed. The results show that: (1) the Pareto Front reflects the contradictory relationship between economic development and environmental sustainability; (2) with the restructuring of industry and cropping, both economic efficiency and water shortage rates improve; (3) the equilibrium of the basin could also be further improved if water resources utilisation is further improved. Therefore, this study improves the existing WRAM, which can be applied to guide the water resources management of river basin.

Published

2022

16. Strain induced anisotropy in liquid phase epitaxy grown nickel ferrite on magnesium gallate substrates

Author

Ying Liu, Peng Zhou, Sudhir Regmi, Rao Bidthanapally, Maksym Popov, Jitao Zhang, Wei Zhang, Michael R. Page, Tianjin Zhang, Arunava Gupta, and Gopalan Srinivasan

Subjects

Medicine, Science

Abstract

Abstract This work focuses on the nature of magnetic anisotropy in 2.5–16 micron thick films of nickel ferrite (NFO) grown by liquid phase epitaxy (LPE). The technique, ideal for rapid growth of epitaxial oxide films, was utilized for films on (100) and (110) substrates of magnesium gallate (MGO). The motivation was to investigate the dependence of the growth induced anisotropy field on film thickness since submicron films of NFO were reported to show a very high anisotropy. The films grown at 850–875 C and subsequently annealed at 1000 C were found to be epitaxial, with the out-of-plane lattice constant showing unanticipated decrease with increasing film thickness and the estimated in-plane lattice constant increasing with the film thickness. The uniaxial anisotropy field H σ , estimated from X-ray diffraction data, ranged from 2.8–7.7 kOe with the films on (100) MGO having a higher H σ value than for the films on (110) MGO. Ferromagnetic resonance (FMR) measurements for in-plane and out-of-plane static magnetic field were utilized to determine both the magnetocrystalline the anisotropy field H 4 and the uniaxial anisotropy field H a . Values of H 4 range from −0.24 to −0.86 kOe. The uniaxial anisotropy field H a was an order of magnitude smaller than H σ and it decreased with increasing film thickness for NFO films on (100) MGO, but H a increased with film thickness for films on (110) MGO substrates. These observations indicate that the origin of the induced anisotropy could be attributed to several factors including (i) strain due to mismatch in the film-substrate lattice constants, (ii) possible variations in the bond lengths and bond angles in NFO during the growth process, and (iii) the strain arising from mismatch in the thermal expansion coefficients of the film and the substrate due to the high growth and annealing temperatures involved in the LPE technique. The LPE films of NFO on MGO substrates studied in this work are of interest for use in high frequency devices.

Published

2022

17. MYC inhibition reprograms tumor immune microenvironment by recruiting T lymphocytes and activating the CD40/CD40L system in osteosarcoma

Author

Kuo Jiang, Qianfeng Zhang, Yong Fan, Jia Li, Jitao Zhang, Wentao Wang, Jinzhu Fan, Yunshan Guo, Shichang Liu, Dingjun Hao, Yongxiang Wang, Lei Wang, and Lequn Shan

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract The efficacy of immune checkpoint blockade (ICB) therapy depends on sufficient infiltration and activation of primed tumor-specific cytotoxic T lymphocytes (CTLs) in the tumor microenvironment. However, many tumor types, including osteosarcoma, mainly display immune-desert or immune-excluded phenotypes, which are characterized by a lack of tumor-infiltrating lymphocytes and a poor response to ICB monotherapy. Thus, novel therapeutic strategies are urgently needed to surmount these obstacles. In this study, we found that the expression of the c-Myc oncogene is negatively correlated with the T cell infiltration rate in osteosarcoma. Pharmacological inhibition of c-Myc with JQ-1 significantly reduced tumor burden and improved overall survival in an immunocompetent syngeneic murine model of osteosarcoma (K7M2). A mechanistic study revealed that JQ-1 administration dramatically reprogrammed the tumor immune microenvironment (TIME) within K7M2 tumors. On the one hand, JQ-1 can promote T cell trafficking into tumors by increasing the expression and secretion of T cell-recruiting chemokines. On the other hand, JQ-1 is capable of facilitating crosstalk between antigen-presenting dendritic cells and T cells through the CD40/CD40L costimulatory pathway, leading to activation of tumor-specific CTLs. Combined treatment with anti-PD-1 antibody and JQ-1 resulted in more pronounced tumor regression than either monotherapy, showing an obvious synergistic effect. These findings uncover for the first time that c-Myc inhibition can promote T cell infiltration and activation in osteosarcoma in multiple ways, delivering a one-two punch for modulating TIME. The present work also provides the basis for establishing c-Myc inhibitor and ICB coadministration as a novel therapeutic regimen for patients with osteosarcoma.

Published

2022

18. Nonlinear magnetoelectric effects in Al-substituted strontium hexaferrite

Author

Ying Liu, Maksym Popov, Igor Zavislyak, Hongwei Qu, T. Zhang, Jitao Zhang, M. R. Page, A. M. Balbashov, and G. Srinivasan

Subjects

Medicine, Science

Abstract

Abstract This report is on the observation and theory of electric field E induced non-linear magnetoelectric (NLME) effects in single crystal platelets of ferrimagnetic M-type strontium aluminum hexagonal ferrite. Using microwave measurement techniques, it was found that a DC electric field along the hexagonal c-axis results in significant changes in the saturation magnetization and uniaxial magneto-crystalline anisotropy field and these changes are proportional to the square of the applied static electric field. The NLME effects were present with or without an external bias magnetic field. The E-induced variation in magnetic order parameters is attributed to weakening of magnetic exchange and spin–orbit interactions since conduction electrons in the ferrite are effectively excluded from both interactions while being in transit from one Fe ion to another. We present a phenomenological theory which considers magneto-bielectric effects characterized by a quadratic term in electric field E in the free energy density. The coefficients for the NLME coupling terms have been calculated from experimental data and they do show variations with the Al substitution level and the largest rates of change of the saturation magnetization and anisotropy constant change with the applied power were observed for x = 0.4. It was also clear from the study that strength of the NLME effect does not depend on the amount Al substitution, but critically depends on the electrical conductivity of the sample with the highest NLME coefficients estimated for the sample with the highest conductivity. Results of this work are of importance for a new family of electric field tunable, miniature, high frequency ferrite devices.

Published

2021

19. A Simultaneous Wireless Information and Power Transfer System With Independent Channel for Information Transfer

Author

Jie Wu, Kai Feng, Nan Jin, Yan Liang, Jitao Zhang, Chen Charlie Yao, and Jiagui Tao

Subjects

SWIPT, shared transfer channel, independent information transfer channel, transfer gain, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Reliable communication between the primary and the secondary side is a challenge for simultaneous wireless information and power transfer (SWIPT) system. Considering many factors, such as cost, device size, and transmission efficiency, the SWIPT system transferring multiple frequencies with a single inductive link is an effective scheme to integrate reverse data communication. However, those SWIPT systems change power transfer frequency or power carrier amplitude while transferring information, then information cannot be transmitted when the inverter does not work, which reduces the reliability of communication. To solve this problem, this paper proposes an idea of establishing an independent information transfer channel, the power and information transmits at different frequencies. The information transmitted in the reverse direction no longer flows through the primary side inverter. It is guided to an independent channel after being transmitted to the primary side through the common inductive link. Its equivalent circuit model is provided to analyze the transfer gain, power transfer performance, and the relationship between the information coupling circuit and information transfer characteristics. Finally, a SWIPT prototype is built to validate the proposed SWIPT system.

Published

2020

20. Driving Waveform Design Based on Driving Process Fusion and Black Reference Gray Scale for Electrophoretic Displays

Author

Li Wang, Pengchang Ma, Jitao Zhang, and Qiming Wan

Subjects

electrophoretic display, driving waveform, driving process, reference gray scale, direct current balance, Physics, QC1-999

Abstract

An electrophoretic display (EPD) is a kind of paper display technology, which has the advantages of ultra-low power consumption and readability under strong light. However, in an EPD-driving process, four stages are needed to finish the driving of a pixel erase original images, reset to black state, clear-to-white state, and write a new image. A white reference gray scale can be obtained before writing a new image, and this driving process may take too long for the comfort of reading. In this article, an EPD-driving waveform, which takes the black state as the reference gray, is proposed to reduce the driving time. In addition, the rules of direct current (DC) balance are also followed to prevent the charge from getting trapped in the driving backplane. The driving process is fused and there are two stages in the driving waveform: reset to black state and write the next image. First, the EPD is written to a stable black state according to the original gray scale driving waveform and the black state is used as the reference gray for the next image. Second, the new image is written by the second stage of the new driving waveform. The experimental results show that the proposed driving waveform has a better performance. Compared with the traditional driving waveform which has four stages, the driving time of the new driving waveform is reduced by nearly 50%.

Published

2021

21. Driving Scheme Optimization for Electrowetting Displays Based on Contact Angle Hysteresis to Achieve Precise Gray-Scales

Author

Li Wang, Hu Zhang, Wei Li, Jiaxuan Li, Zhenyu Yi, Qiming Wan, Jitao Zhang, and Pengchang Ma

Subjects

electrowetting display, contact angle hysteresis, alternating current voltage, driving scheme, aperture ratio, Physics, QC1-999

Abstract

As a new display technology, electrowetting display (EWD) has many excellent display characteristics, such as paper-like, low power consumption, quick response and full color. These characteristics make EWD devices very suitable for portable devices. However, the gray-scale distortion caused by the contact angle hysteresis of EWDs seriously affects the accuracy of gray-scale display. To improve this phenomenon, the hysteresis curve of an EWD panel was studied according to the motion characteristics of advancing contact angle and receding contact angle of oil in a pixel. Then, a driving scheme for EWDs using alternating current (AC) voltage instead of direct current (DC) voltage was proposed in this paper. And the advantages and disadvantages of the driving scheme at different AC frequencies from 90 to 2,700 Hz were analyzed through experiments. According to the stability of aperture ratio in EWDs, a 470 Hz AC driving scheme was determined. Experimental results showed that the aperture ratio distortion of EWDs could be reduced from 35.82 to 5.97%, which significantly improved the display performance of pixel units.

Published

2021

22. Enhanced terahertz radiation of photoconductive antenna fabricated on GaAs-on-sapphire

Author

Jitao Zhang, Mingguang Tuo, Michael Gehl, Ricky Gibson, Min Liang, and Hao Xin

Subjects

Physics, QC1-999

Abstract

The terahertz (THz) radiation properties of a photoconductive antenna (PCA) fabricated on a GaAs-on-sapphire (GoS) substrate are reported at sub-THz band. The GaAs layer with a thickness of approximately 1 µm was directly deposited on a sapphire wafer by means of molecular beam epitaxy. A butterfly-shaped antenna structure was then fabricated on the GoS substrate by photolithography, and the device was tested as the emitter of an in-house built THz time-domain spectrometer. The performance of this antenna was compared with a commercial one, which had an identical antenna structure but was fabricated on low-temperature-grown GaAs (LT-GaAs). The results showed that the GoS-based PCA radiated an enhanced THz field, which could be as much as 1.9 times that of the LT-GaAs-based PCA, indicating that GoS could be a promising photoconductive material. In addition, the optical transparency of the sapphire substrate allows the device to be illuminated from the backside, which is crucial for THz near-field imaging applications where the sample is usually in close proximity to the front surface of the PCA device.

Published

2019

23. A Driving Method for Reducing Oil Film Splitting in Electrowetting Displays

Author

Wenjun Zeng, Zichuan Yi, Yiming Zhao, Li Wang, Jitao Zhang, Xichen Zhou, Liming Liu, Feng Chi, Jianjun Yang, and Chongfu Zhang

Subjects

electrowetting displays (EWDs), driving waveform, oil film splitting, aperture ratio, quadratic function waveform, Chemical technology, TP1-1185, Chemical engineering, TP155-156

Abstract

Electrowetting displays (EWDs) are one of the most potential electronic papers. However, they have the problem of oil film splitting, which could lead to a low aperture ratio of EWDs. In this paper, a driving waveform was proposed to reduce oil film splitting. The driving waveform was composed of a rising stage and a driving stage. First, the rupture voltage of oil film was analyzed by testing the voltage characteristic curve of EWDs. Then, a quadratic function waveform with an initial voltage was applied at the rising stage to suppress oil film splitting. Finally, a square wave was applied at the driving stage to maintain the aperture ratio of EWDs. The experimental results show that the luminance was increased by 8.78% and the aperture ratio was increased by 4.47% compared with an exponential function driving waveform.

Published

2021

24. Design of Driving Waveform for Shortening Response Time of Black Particles and White Particles in Three-Color Electrophoretic Displays

Author

Hu Zhang, Zichuan Yi, Simin Ma, Shaoning Deng, Weibiao Zhou, Wenjun Zeng, Liming Liu, Feng Chi, Yunfeng Hu, Chongfu Zhang, Li Wang, and Jitao Zhang

Subjects

three-color electrophoretic displays, driving waveform, response time, black particle, white particle, reference grayscale, Mechanical engineering and machinery, TJ1-1570

Abstract

The shortage of color in traditional electrophoretic displays (EPDs) can be compensated by three-color EPDs. However, the response time of black particles and white particles is increased. A new driving waveform based on the principle of three-color EPDs and electrophoresis theory was proposed to shorten the response time of black particles and white particles. The proposed driving waveform consisted of an erasing stage, an activation stage, a red driving stage, and a white or a black driving stage. The activation stage was mainly optimized in this paper. Firstly, the motion characteristics of the particles were analyzed using Stokes law and electrophoresis theory. Secondly, an optimal high frequency oscillation voltage was tested in order to improve the activity of the particles. Then, the influence of oscillation period and oscillation times on the activation stage were analyzed for optimizing the reference grayscale. According to the luminance of pixels, an oscillation period of 30 ms and an oscillation time of 30 were determined. The experimental results showed that the response time of black particles was shortened by 45%, and the response time of white particles was shortened by 40% compared with a traditional driving waveform.

Published

2021

25. Design Consideration of Bidirectional Wireless Power Transfer and Full-Duplex Communication System via a Shared Inductive Channel

Author

Jie Wu, Weihao Kong, Pengfei Gao, Nan Jin, Jitao Zhang, Jiagui Tao, and Václav Snášel

Subjects

bidirectional power transmission, crosstalk, FSK, full-duplex information transfer, information transfer channel gain, SWIPT, Technology

Abstract

Communication between the primary and secondary sides is pivotal to the wireless power transfer (WPT) system. The system control commands and feedback information need simultaneous wireless information and power transfer (SWIPT). In this paper, a FSK-based SWIPT system with full-duplex communication via a shared channel is provided. Considering the complexity of the coupling relationship in this kind of full-duplex SWIPT system, this paper proposes an analysis method based on the transmission channel, studies the crosstalk between the power channel and the information channel, and between the forward and reverse transfer of information. A design method of full-duplex communication SWIPT system based on shared coupling channels is provided. A 60 W SWIPT prototype with a full-duplex communication rate of 20 kbps is built to verify the proposed method.

Published

2021

26. Self-biased magnetoelectric gyrators in composite of samarium substituted nickel zinc ferrites and piezoelectric ceramics

Author

Jitao Zhang, Dongyu Chen, Kang Li, D. A. Filippov, Bingfeng Ge, Qingfang Zhang, Xinxin Hang, Lingzhi Cao, and Gopalan Srinivasan

Subjects

Physics, QC1-999

Abstract

Magnetoelectric (ME) gyrators consisting of system of Sm-doped NiZn ferrites (Ni1-xZnxSm0.02Fe1.98O4, 0.2≤x≤0.5) and piezoelectric ceramics [Pb(Zr, Ti)O3] with coil wound around have been developed. Distinct hysteresis behaviors were observed in off-resonance ME couplings and power conversion efficiency (PE) characterizations, resulting in a non-zero ME response and anticipating a higher remanent PE at zero bias. Consequently, light samarium doping facilitates the enhancement of PE, which reaches its maximum of 81.5% under optimum bias and self-biasing value of 58.5% under zero bias in the composite of Ni0.8Zn0.2Sm0.02Fe1.98O4/PZT trilayer respectively, exhibiting approximately 2.2 times higher than the counterpart without any samarium doping. These findings provide great possibilities of ME gyrators for miniaturized devices deployed in power electronics, converters and wireless energy harvesters without a sacrifice in magneto-mechanical efficiency.

Published

2019

27. Dual-Frequency Output of Wireless Power Transfer System with Single Inverter Using Improved Differential Evolution Algorithm

Author

Jie Wu, Lizhong Bie, Nan Jin, Leilei Guo, Jitao Zhang, Jiagui Tao, and Václav Snášel

Subjects

differential evolution, dual-frequency, programmed harmonic modulation, single inverter, wireless power transfer, Technology

Abstract

In wireless charging devices, a transmitter that applies a single inverter to output dual-frequency can effectively solve the charging incompatibility problem caused by different wireless charging standards and reduce the equipment volume. However, it is very difficult to solve the switching angle of the modulated dual-frequency waveform, which involves non-linear high-dimensional multi-objective optimization with multiple constraints. In this paper, an improved differential evolution (DE) algorithm is proposed to solve the transcendental equations of switching angle trains of dual-frequency programmed harmonic modulation (PHM) waveform. The proposed algorithm maintains diversity while preserving the elites and improves the convergence speed of the solution. The advantage of the proposed algorithm was verified by comparing with non-dominated sorting genetic algorithm II (NSGA II) and multi-objective particle swarm optimization (MOPSO). The simulation and experimental results validate that the proposed method can output dual-frequency with a single inverter for wireless power transfer (WPT).

Published

2020

28. Enhanced tunability of magneto-impedance and magneto-capacitance in annealed Metglas/PZT magnetoelectric composites

Author

Chung Ming Leung, Xin Zhuang, Junran Xu, Jiefang Li, Jitao Zhang, G. Srinivasan, and D. Viehland

Subjects

Physics, QC1-999

Abstract

This report is on a new class of magnetostatically tunable magneto-impedance and magneto-capacitance devices based on a composite of ferromagnetic Metglas and ferroelectric lead zirconate titanate (PZT). Layered magneto-electric (ME) composites with annealed Metglas and PZT were studied in a longitudinal in-plane magnetic field-transverse electric field (L-T) mode. It was found that the degree of tunability was dependent on the annealing temperature of Metglas. An impedance tunability (ΔZ/Z0) of ≥400% was obtained at the electromechanical resonance (EMR) frequency (fr) for a sample with Metglas layers annealed at Ta = 500oC. This tunability is a factor of two higher than for composites with Metglas annealed at 350oC. The tunability of the capacitance, (ΔC/C0), was found to be 290% and -135k% at resonance and antiresonance, respectively, for Ta = 500oC. These results provide clear evidence for improvement in static magnetic field tunability of impedance and capacitance of ME composites with the use of annealed Metglas and are of importance for their potential use in tunable electronic applications.

Published

2018

29. Patterns and controls of temperature sensitivity of soil respiration in a meadow steppe of the Songnen Plain, Northeast China.

Author

Ming Wang, Xiujun Li, Shengzhong Wang, Guodong Wang, and Jitao Zhang

Subjects

Medicine, Science

Abstract

Quantifying the temporal and spatial patterns of temperature sensitivity (Q10) of soil respiration (Rs) as well as its controlling factors is critical to reveal the response the soil ecological processes to global warming and improve carbon budget estimations at a regional scale. The seasonal and annual variations in the temperature response of Rs were assessed during the two growing seasons in 2011 and 2012 in four different vegetation sites in a meadow steppe of the Songnen Plain, China. The Q10 values across all sites exhibited significant seasonal variations with a minimum value (1.81-2.34) occurring during summer and a peak value (3.82-4.54) occurring in either spring or autumn. The mean seasonal Q10 values showed no significant differences among the four different vegetation types. On the annual scale, however, the Chloris virgata site had significantly higher annual Q10 values (3.67-4.22) than the other three community sites in 2011 and 2012 and over the two years (2.01-3.67), indicating that the response of the Rs to climate warming may vary with vegetation type. The soil temperature and moisture had interactive effects on the variations of Q10 values. Soil temperature was the dominant factor influencing Q10 values, while soil moisture was an additional contributor to the variations of Q10. Due to the significant temporal and spatial variations in soil respiration response to temperature, acclimation of Rs to temperature variation should be taken into account in forecasting future terrestrial carbon cycle and its feedback to global warming.

Published

2018

30. Multiferroic Core-Shell Nanofibers, Assembly in a Magnetic Field, and Studies on Magneto-Electric Interactions

Author

Gollapudi Sreenivasulu, Jitao Zhang, Ru Zhang, Maksym Popov, Vladimir Petrov, and Gopalan Srinivasan

Subjects

magneto-electric, ferromagnetic, ferroelectric, multiferroic, composites, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Ferromagnetic–ferroelectric nanocomposites are of interest for realizing strong strain-mediated coupling between electric and magnetic subsystems due to a high surface area-to-volume ratio. This report is on the synthesis of nickel ferrite (NFO)–barium titanate (BTO) core–shell nanofibers, magnetic field assisted assembly into superstructures, and studies on magneto-electric (ME) interactions. Electrospinning techniques were used to prepare coaxial fibers of 0.5–1.5 micron in diameter. The core–shell structure of annealed fibers was confirmed by electron microscopy and scanning probe microscopy. The fibers were assembled into discs and films in a uniform magnetic field or in a field gradient. Studies on ME coupling in the assembled films and discs were done by magnetic field (H)-induced polarization, magneto–dielectric effects at low frequencies and at 16–24 GHz, and low-frequency ME voltage coefficients (MEVC). We measured ~2–7% change in remnant polarization and in the permittivity for H = 7 kOe, and a MEVC of 0.4 mV/cm Oe at 30 Hz. A model has been developed for low-frequency ME effects in an assembly of fibers and takes into account dipole–dipole interactions between the fibers and fiber discontinuity. Theoretical estimates for the low-frequency MEVC have been compared with the data. These results indicate strong ME coupling in superstructures of the core–shell fibers.

Published

2017

31. An Intrusion Detection Model With Attention and BiLSTM-DNN.

Author

Yongcai Tao, Jitao Zhang, Lin Wei, Yufei Gao, and Lei Shi 0001

Published

2023

32. DNA Image Storage Using a Scheme Based on Fuzzy Matching on Natural Genome.

Author

Jitao Zhang, Shihong Chen, Haoling Zhang, Yue Shen, and Zhi Ping

Published

2021

33. A Study for Evaluations of Automobile Digital Dashboard Layouts Based on Cognition Electroencephalogram.

Author

Hao Yang, Jitao Zhang, and Ruoyu Jia

Published

2021

34. A Shapelet Dictionary Learning Algorithm for Time Series Classification.

Author

Jitao Zhang, Xinyu Li 0001, Liang Gao 0001, Long Wen 0001, and Guokai Liu

Published

2019

35. Optical coherence tomography-guided Brillouin microscopy highlights regional tissue stiffness differences during anterior neural tube closure in the Mthfd1l murine mutant.

Author

Ambekar, Yogeshwari S., Caiaffa, Carlo Donato, Wlodarczyk, Bogdan J., Singh, Manmohan, Schill, Alexander W., Steele, John W., Jitao Zhang, Aglyamov, Salavat R., Scarcelli, Giuliano, Finnell, Richard H., and Larin, Kirill V.

Subjects

NEURAL tube, CONFOCAL fluorescence microscopy, NEURAL tube defects, OPTICAL coherence tomography, EMBRYOLOGY, MICROSCOPY

Abstract

Neurulation is a highly synchronized biomechanical process leading to the formation of the brain and spinal cord, and its failure leads to neural tube defects (NTDs). Although we are rapidly learning the genetic mechanisms underlying NTDs, the biomechanical aspects are largely unknown. To understand the correlation between NTDs and tissue stiffness during neural tube closure (NTC), we imaged an NTD murine model using optical coherence tomography (OCT), Brillouin microscopy and confocal fluorescence microscopy. Here, we associate structural information from OCT with local stiffness from the Brillouin signal of embryos undergoing neurulation. The stiffness of neuroepithelial tissues in Mthfd1l null embryos was significantly lower than that of wild-type embryos. Additionally, exogenous formate supplementation improved tissue stiffness and gross embryonic morphology in nullizygous and heterozygous embryos. Our results demonstrate the significance of proper tissue stiffness in normal NTC and pave the way for future studies on the mechanobiology of normal and abnormal embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

36. An Intrusion Detection Model Based on Deep Belief Network.

Author

Feng Qu, Jitao Zhang, Zetian Shao, and Shuzhuang Qi

Published

2017

37. Scalable Galvanic Isolators with High Isolation Realized by Magnetoelectric Gyrators

Author

Jitao Zhang, Baojie Zhang, Qingfang Zhang, D. A. Filippov, Jie Wu, Jiagui Tao, Jing Chen, Fang Wang, Liying Jiang, and Lingzhi Cao

Subjects

Materials Chemistry, Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2022

38. Teaching Reform and Innovation of Communication Principles Curriculum Based on O2O Mode.

Author

Aili Wang 0001, Jitao Zhang, Bo Wang, Lanfei Zhao, and Rui Kang

Published

2016

39. The Impact of Environmental Information Disclosure on Water Quality

Author

Yongliang Yang, Yan Li, Qingyuan Chen, Xin Zhang, Jitao Zhang, and Yi Li

Subjects

Environmental Chemistry, General Environmental Science

Published

2022

40. Multiobjective Optimization Model of Quality Education Reform in Research and Learning Activities

Author

Yonglang Liu, Jitao Zhang, and Sanqing Ding

Subjects

Article Subject, Computer Networks and Communications, Computer Science Applications

Abstract

In order to solve the problem of quality education reform in research activities, a multiobjective optimization model for the optimal performance distribution of college teachers is proposed. We mainly use the multiobjective optimization method to study the allocation of optimal performance. On the basis of considering individual differences, a multiobjective optimization model is established with the goal of maximizing the total satisfaction of all assessment objects and balancing the satisfaction as much as possible by introducing the score conversion function and the satisfaction function. The results show that the variation trends of the weak Pareto fronts at five different confidence levels are basically the same; that is, different confidence levels have little effect on the results. Conclusion. The use of a multiobjective optimization model can improve the optimal performance distribution of college teachers, so as to effectively promote the reform of quality education in research activities.

Published

2022

41. A scheme of motor drive and control based on simultaneous wireless information and power transfer with tapped coil

Author

Pengfei Gao, Wenlei Wang, Jie Wu, Hengyi Zhang, Jitao Zhang, Jiagui Tao, Wei Deng, and Jeng-Shyang Pan

Subjects

Mechanics of Materials, Mechanical Engineering, Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Abstract

Wireless power transfer (WPT) technology has been widely used in industrial and household fields. This technology is of great significance in the field of motor drives. However, if the WPT technology is applied to the motor drive and control system, power and control signals need to be transmitted at the same time, which will cause the problem of mutual interference between signals of different frequencies, and will also increase the difficulty of frequency decomposition on the secondary side. To solve the above problems, a dual-frequency simultaneous wireless information and power transfer (SWIPT) system using a tapped coil structure scheme is proposed and the design principle of the tapped coil is given. Based on this scheme, a multi-frequency pulse width modulation (MFPWM) method is used to generate two components of different frequencies by the same inverter, which are automatically decoupled by the tapped coil, and finally transmitted to drive and control the motor. A closed-loop control strategy is used to solve the problem of precise motor speed control when the driving voltage of the wireless motor fluctuates. In the experiment, the motor speed increased from 1965 rpm to 2265 rpm, and the DC voltage corresponding to the set reference speed increased from 1.26 V to 2.30 V. The experimental results show that the scheme can control the BLDC motor speed stably and accurately.

Published

2022

42. Ocular nociception and neuropathic pain initiated by blue light stress in C57BL/6J mice

Author

Nan Gao, Patrick S.Y. Lee, Jitao Zhang, and Fu-shin X. Yu

Subjects

Anesthesiology and Pain Medicine, Neurology, Neurology (clinical)

Published

2023

43. Design of strain-adjustable Si0.1Ge0.78Sn0.12_Ge0.90Sn0.10_Si0.012Ge0.848Sn0.14 double-heterostructure SWIR photodetectors with giant magnetostrictive stressor

Author

Qingfang Zhang, Qianyu Chen, Jitao Zhang, wenxiang Lu, Pei Zhang, Zirui Qin, Lingzhi Cao, and Genquan Han

Published

2023

44. Robust multi-objective optimization under multiple-uncertainties using CM-ROPAR approach: case study of the water resources allocation in the Huaihe River Basin

Author

Jitao Zhang, Dimitri Solomatine, and Zengchuan Dong

Abstract

Water resources managers need to make decisions in a constantly changing environment because the data relating to water resources is uncertain and imprecise. The Robust Optimization and Probabilistic Analysis of Robustness (ROPAR) algorithm is a well-suited tool for dealing with uncertainty. Still, the failure to consider multiple uncertainties and multi-objective robustness hinder the application of the ROPAR algorithm to practical problems. This paper proposes a robust optimization and robustness probabilistic analysis method that considers numerous uncertainties and multi-objective robustness for robust water resources allocation under uncertainty. The Copula function is introduced for analyzing the probabilities of different scenarios. The robustness with respect to the two objective functions is analyzed separately, and the Pareto frontier of robustness is generated. The relationship between the robustness with respect to the two objective functions is used to evaluate water resources management strategies. Use of the method is illustrated on a case study of water resources allocation in the Huaihe River Basin. The results demonstrate that the method opens a possibility for water managers to make more informed uncertainty-aware decisions.

Published

2023

45. Brillouin signal enhancement by recycling illumination light (Conference Presentation)

Author

Chenjun Shi and Jitao Zhang

Published

2023

46. A versatile multimodal optical modality based on Brillouin light scattering and photoacoustic effect

Author

Chenjun Shi, Yan Yan, Mohammad Mehrmohammadi, and Jitao Zhang

Subjects

Article

Abstract

Multimodal optical imaging techniques are useful for various applications, including imaging biological samples for providing comprehensive material properties. In this work, we developed a new modality that can measure a set of mechanical, optical, and acoustical properties of a sample at microscopic resolution, which is based on the integration of Brillouin (Br) and photoacoustic (PA) microscopy. The proposed multimodal imaging technique not only can acquire co-registered Br and PA signals but also allows us to utilize the sound speed measured by PA to quantify the sample’s refractive index, which is a fundamental property of the material and cannot be measured by either technique individually. We demonstrated the colocalization of Br and time-resolved PA signals in a synthetic phantom made of kerosene and CuSO4aqueous solution. In addition, we measured the refractive index of saline solutions and validated the result against published data with a relative error of 0.3 %. This multimodal Br-PA modality could open a new way for characterizing biological samples in physiological and pathological conditions.

Published

2023

47. L2-Norm Shapelet Dictionary Learning-Based Bearing-Fault Diagnosis in Uncertain Working Conditions

Author

Jitao Zhang, Xiaoping Song, Liang Gao, Weiming Shen, and Jiahong Chen

Subjects

Electrical and Electronic Engineering, Instrumentation

Published

2022

48. Enhancement of Gyration Effects by Dysprosium-Doped Ferrite/Piezoelectric Magnetoelectric Gyrators

Author

Qingfang Zhang, Jie Wu, Jitao Zhang, Zhen Wang, Liying Jiang, Jing Chen, Lingzhi Cao, and Jiagui Tao

Subjects

Materials science, Condensed matter physics, Doping, Energy conversion efficiency, chemistry.chemical_element, Piezoelectricity, Gyration, Electronic, Optical and Magnetic Materials, Gyrator, chemistry, Dysprosium, Ferrite (magnet), Electrical and Electronic Engineering, Anisotropy

Abstract

A beneficial methodology of heavy rare earth dysprosium doping in spinel nickel-zinc ferrites host lattice for improving the gyration effects of ME gyrators was presented, and the physical and magnetic properties of synthesized ferrites, dynamic magneto-mechanical responses, and non-reciprocal current-voltage conversions and power conversion efficiency were systematically characterized. Taking advantage of the strong magneto-crystalline anisotropy of dysprosium induced large lattice distortions, piezo-magnetic coefficient can be improved effectively and eventually the PE. Experimental results demonstrated that the maximum V/I and I/V coefficients are 1609 V/A and 4.2 mA/V at optimum dysprosium concentration of x=0.4, which are 165% and 122% times higher than that in samples without rare earth doping, respectively. These finding provided great possibilities to advance this presented method and optimized ME gyrators into actual applications as energy efficient I-V converters for power electronics.

Published

2022

49. Key technologies in the teleoperation of the Chang’e-5 lunar sampling

Author

ChuanKai LIU, Jian LI, TianZhu ZHANG, Qian LIU, ZeYuan HUANG, JiTao ZHANG, YuHui GAO, TianYi YU, Kuan ZHANG, TianYu CHANG, Jie WU, Cheng YANG, GuiLiang LI, JiaCheng DENG, NanQing XU, and XiaoMeng FENG

Subjects

Computer Networks and Communications, Control and Systems Engineering

Published

2021

50. Precise pose measurement of lunar sampling manipulator based on binocular ellipse feature

Author

DongSheng Li, Kuan Zhang, ChunQiang Yuan, XiaoXue Wang, XiaoDong Hu, JunKui Wang, TaiJie Wang, KaiQi Huang, Qian Liu, Jitao Zhang, ChuanKai Liu, XiMing He, and XueRu Qian

Subjects

Computer Networks and Communications, Control and Systems Engineering, Feature (computer vision), business.industry, Computer science, Sampling (statistics), Computer vision, Artificial intelligence, Manipulator, business, Ellipse

Published

2021