Your search keyword '"Da Hou"' showing total 26 results

1. Proteomics study the potential targets for Rifampicin-resistant spinal tuberculosis

Author

Yanling Wang, Shijie Yin, Shixiong Wang, Kuan Rong, Xiang-He Meng, Huashan Zhou, Luo Jiao, Da Hou, Zhongjing Jiang, Jun He, and Zenghui Mao

Subjects

DSTB, NDSTB, HLA, DEPs, MMP9, PLCL1, Therapeutics. Pharmacology, RM1-950

Abstract

Introduction: The escalating global surge in Rifampicin-resistant strains poses a formidable challenge to the worldwide campaign against tuberculosis (TB), particularly in developing countries. The frequent reports of suboptimal treatment outcomes, complications, and the absence of definitive treatment guidelines for Rifampicin-resistant spinal TB (DSTB) contribute significantly to the obstacles in its effective management. Consequently, there is an urgent need for innovative and efficacious drugs to address Rifampicin-resistant spinal tuberculosis, minimizing the duration of therapy sessions. This study aims to investigate potential targets for DSTB through comprehensive proteomic and pharmaco-transcriptomic analyses.Methods: Mass spectrometry-based proteomics analysis was employed to validate potential DSTB-related targets. PPI analysis confirmed by Immunohistochemistry (IHC) and Western blot analysis.Results: The proteomics analysis revealed 373 differentially expressed proteins (DEPs), with 137 upregulated and 236 downregulated proteins. Subsequent Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses delved into the DSTB-related pathways associated with these DEPs. In the context of network pharmacology analysis, five key targets—human leukocyte antigen A chain (HLAA), human leukocyte antigen C chain (HLA-C), HLA Class II Histocompatibility Antigen, DRB1 Beta Chain (HLA-DRB1), metalloproteinase 9 (MMP9), and Phospholipase C-like 1 (PLCL1)—were identified as pivotal players in pathways such as “Antigen processing and presentation” and “Phagosome,” which are crucially enriched in DSTB. Moreover, pharmaco-transcriptomic analysis can confirm that 58 drug compounds can regulate the expression of the key targets.Discussion: This research confirms the presence of protein alterations during the Rifampicin-resistant process in DSTB patients, offering novel insights into the molecular mechanisms underpinning DSTB. The findings suggest a promising avenue for the development of targeted drugs to enhance the management of Rifampicin-resistant spinal tuberculosis.

Published

2024

2. A Millimeter-Wave Broadband Multi-Mode Substrate-Integrated Gap Waveguide Traveling-Wave Antenna with Orbit Angular Momentum

Author

Qiu-Hua Lin, Da Hou, Lihui Wang, Pengpeng Chen, and Zhiyong Luo

Subjects

orbit angular momentum (OAM), broadband multi-mode antenna, substrate-integrated gap waveguide (SIGW), millimeter-wave, phase difference, Chemical technology, TP1-1185

Abstract

Orbit angular momentum (OAM) has been considered a new dimension for improving channel capacity in recent years. In this paper, a millimeter-wave broadband multi-mode waveguide traveling-wave antenna with OAM is proposed by innovatively utilizing the transmitted electromagnetic waves (EMWs) characteristic of substrate-integrated gap waveguides (SIGWs) to introduce phase delay, resulting in coupling to the radiate units with a phase jump. Nine “L”-shaped slot radiate elements are cut in a circular order at a certain angle on the SIGW to generate spin angular momentum (SAM) and OAM. To generate more OAM modes and match the antenna, four “Π”-shaped slot radiate units with a 90° relationship to each other are designed in this circular array. The simulation results show that the antenna operates at 28 GHz, with a −10 dB fractional bandwidth (FBW) = 35.7%, ranging from 25.50 to 35.85 GHz and a VSWR ≤ 1.5 dB from 28.60 to 32.0 GHz and 28.60 to 32.0 GHz. The antenna radiates a linear polarization (LP) mode with a gain of 9.3 dBi at 34.0~37.2 GHz, a l = 2 SAM–OAM (i.e., circular polarization OAM (CP–OAM)) mode with 8.04 dBi at 25.90~28.08 GHz, a l = 1 and l = 2 hybrid OAM mode with 5.7 dBi at 28.08~29.67 GHz, a SAM (i.e., left/right hand circular polarization (L/RHCP) mode with 4.6 dBi at 29.67~30.41 GHz, and a LP mode at 30.41~35.85 GHz. In addition, the waveguide transmits energy with a bandwidth ranging from 26.10 to 38.46 GHz. Within the in-band, only a quasi-TEM mode is transmitted with an energy transmission loss |S21| ≤ 2 dB.

Published

2024

3. A Design Method and Application of Meta-Surface-Based Arbitrary Passband Filter for Terahertz Communication

Author

Da Hou, Lihui Wang, Qiuhua Lin, Xiaodong Xu, Yin Li, Zhiyong Luo, and Hao Chen

Subjects

terahertz, silicon substrate integrated gap waveguide (SSIGW), through-silicon via (TSV), meta-surface, filter, Chemical technology, TP1-1185

Abstract

A meta-surface-based arbitrary bandwidth filter realization method for terahertz (THz) future communications is presented. The approach involves integrating a meta-surface-based bandstop filter into an ultra-wideband (UWB) bandpass filter and adjusting the operating frequency range of the meta-surface bandstop filter to realize the design of arbitrary bandwidth filters. It effectively addresses the complexity of designing traditional arbitrary bandwidth filters and the challenges in achieving impedance matching. To underscore its practicality, the paper employs silicon substrate integrated gap waveguide (SSIGW) and this method to craft a THz filter. To begin, design equations for electromagnetic band gap (EBG) structures were developed in accordance with the requirements of through-silicon via (TSV) and applied to the design of the SSIGW. Subsequently, this article employs equivalent transmission line models and equivalent circuits to conduct theoretical analyses for both the UWB passband and the meta-surface stopband portions. The proposed THz filter boasts a center frequency of 0.151 THz, a relative bandwidth of 6.9%, insertion loss below 0.68 dB, and stopbands exceeding 20 GHz in both upper and lower ranges. The in-band group delay is 0.119 ± 0.048 ns. Compared to reported THz filters, the SSIGW filter boasts advantages such as low loss and minimal delay, making it even more suitable for future wireless communication.

Published

2024

4. Green Total Factor Productivity of Agriculture under the Constraint of Carbon Emissions-An Empirical Analysis Based on Panel Data of Guangdong Province

Author

Fengmin YAO, Haonan XU, Xinyi GUO, Da HOU, Fan LU, and Yuzhuo ZHOU

Subjects

agriculture, green total factor productivity(gtfp), spatio-temporal characteristics, sbm-ddf model, malmquist-luenberger index, carbon emission, Agriculture

Abstract

Green agricultural development is the connotation and requirement of high-quality agricultural development. The measurement and research of green total factor productivity (GTFP) of agriculture has important references for measuring the level of high-quality agricultural development. Guangdong Province is divided into four regions, namely, the Pearl River Delta region, the east, west and north regions. The city-level data of Guangdong Province in 2007-2017 is used to measure the agricultural GTFP in Guangdong Province, and the agricultural GTFP is analyzed from the time trend and spatial distribution, the results show that: (1) The agricultural GTFP in Guangdong Province shows an upward trend year by year, the technical improvement and technical progress are the main sources of agricultural GTFP growth, but the growth rate is on the decline; (2) The level of agricultural green productivity varies among the four regions in Guangdong Province. The Pearl River Delta region ranks the top, followed by the north Guangdong region, the east Guangdong region and the west Guangdong region. However, the overall level of these three regions is not significantly different. (3) There are also great differences in agricultural GTFP levels among cities within the four regions. Based on the above conclusions, some suggestions to improve the agricultural GTFP in Guangdong Province are put forward: (1) always adhering to the"five in one"overall strategic goal, implementing the rural revitalization policy, following the green development concept proposed by the Party Central Committee, paying attention to constraints of environmental factors on agriculture, and effectively promoting the negative growth of fertilizer and pesticide use; (2) Transforming the mode of agricultural production and operation and promoting the progress of green science and technology in agriculture in many aspects, including increasing financial support for green science and technology research and development in the agricultural field and establishing a system for the training and introduction of agricultural talents; (3) Implementing the strategy of coordinated regional development, giving play to the effect of agglomeration and amplification, and promoting the coordinated development of green agricultural regions.

Published

2022

5. A novel UBE2A splice site variant causing intellectual disability type Nascimento

Author

Shuyuan Yan, Yanling Wang, Ying Chen, Hongxia Yuan, Xiaoni Kuang, Da Hou, Xueyi Li, Linglin Pan, Guangwen Huang, Jun He, Tuanmei Wang, and Xiangwen Peng

Subjects

+a%29%22">UBE2A splice site mutation (c.241 + 1 G > a), X‐linked intellectual disability type Nascimento, Medicine, Medicine (General), R5-920

Abstract

Abstract X‐linked intellectual disability type Nascimento (XLID) is a rare disease caused by variants in the ubiquitin‐conjugating enzyme E2A gene (UBE2A). Patients with XLID have similar phenotypes, including speech impairments, severe intellectual disability, hearing loss, wide facies, synophrys, generalized hirsutism, and urogenital abnormalities. Till date, only two splice‐site variants of the UBE2A gene have been observed in patients with X‐linked ID type Nascimento. Here, we report the case of a Chinese boy with a syndrome clinically similar to XLID with speech impairment, severe intellectual disability, and moderate hearing loss. However, different characteristics were also present in the patient, including an inability to maintain his head in an upright posture. Both of the patient's palms have a single transverse palmar crease. Subsequent whole‐exome sequencing revealed a novel splice site variant in UBE2A (c.241 + 1 G > A). Our study not only expands the variant spectrum and clinical characteristics of UBE2A deficiency syndrome but also provides clinical evidence for genetic diagnoses.

Published

2022

6. Scalable mesenchymal stem cell enrichment from bone marrow aspirate using deterministic lateral displacement (DLD) microfluidic sorting

Author

Tan Kwan Zen, Nicholas, Zeming, Kerwin Kwek, Teo, Kim Leng, Loberas, Mavis, Lee, Jialing, Goh, Chin Ren, Yang, Da Hou, Oh, Steve, Hui Hoi Po, James, Cool, Simon M., Hou, Han Wei, Han, Jongyoon, Tan Kwan Zen, Nicholas, Zeming, Kerwin Kwek, Teo, Kim Leng, Loberas, Mavis, Lee, Jialing, Goh, Chin Ren, Yang, Da Hou, Oh, Steve, Hui Hoi Po, James, Cool, Simon M., Hou, Han Wei, and Han, Jongyoon

Abstract

The growing interest in regenerative medicine has opened new avenues for novel cell therapies using stem cells. Bone marrow aspirate (BMA) is an important source of stromal mesenchymal stem cells (MSCs). Conventional MSC harvesting from BMA relies on archaic centrifugation methods, often leading to poor yield due to osmotic stress, high centrifugation force, convoluted workflow, and long experimental time (∼2–3 hours). To address these issues, we have developed a scalable microfluidic technology based on deterministic lateral displacement (DLD) for MSC isolation. This passive, label-free cell sorting method capitalizes on the morphological differences between MSCs and blood cells (platelets and RBCs) for effective separation using an inverted L-shaped pillar array. To improve throughput, we developed a novel multi-chip DLD system that can process 2.5 mL of raw BMA in 20 ± 5 minutes, achieving a 2-fold increase in MSC recovery compared to centrifugation methods. Taken together, we envision that the developed DLD platform will enable fast and efficient isolation of MSCs from BMA for effective downstream cell therapy in clinical settings., National Research Foundation Singapore

Published

2024

7. EasiPCC: Popularity-aware Collaborative Caching for Web Requests in Low-Duty-Cycle Sensor Networks.

Author

Chen-Da Hou, Dong Li 0008, and Li Cui

Published

2015

8. Scalable Mesenchymal Stem Cells Enrichment from Bone Marrow Aspirate using Deterministic Lateral Displacement (DLD) Microfluidics Sorting

Author

Nicholas Tan Kwan Zen, Kerwin Zeming Kwek, Teo Kim Leng, Mavis Loberas, Jialing Lee, Chin Ren Goh, Da Hou Yang, Steve Oh, James Hui Hoi Po, Simon M. Cool, Han Wei Hou, and Jongyoon Han

Abstract

The growing interest in regenerative medicine has opened new avenues for novel cell therapies using stem cells. Bone Marrow Aspirate (BMA) is an important source of stromal mesenchymal stem cells (MSCs). Conventional MSC harvesting from BMA relies on archaic centrifugation methods, often leading to poor yield due to osmotic stress, high centrifugation force, convoluted workflow, and long experimental time (∼ 2 – 3 hours). To address these issues, we have developed a scalable microfluidic technology based on Deterministic Lateral Displacement (DLD) for MSC isolation. This passive, label-free cell sorting method capitalizes on the morphological differences between MSCs and blood cells (leukocytes and RBCs) for effective separation using an inverted L-shaped pillar array. To improve throughput, we developed a novel portable multiplexed DLD system that can process 2.5 mL of raw BMA in 20 ± 5 minutes, achieving a 2-fold increase in MSC recovery compared to centrifugation methods. Taken together, we envision the developed DLD platform will enable fast and efficient isolation of MSCs from BMA for effective downstream cell therapy in clinical settings.

Published

2023

9. EasiMG: A method of maximizing lifetime for group request in web-based sensor network.

Author

Chen-Da Hou, Dong Li 0008, and Li Cui

Published

2014

10. Scalable mesenchymal stem cell enrichment from bone marrow aspirate using deterministic lateral displacement (DLD) microfluidic sorting.

Author

Tan Kwan Zen, Nicholas, Zeming, Kerwin Kwek, Teo, Kim Leng, Loberas, Mavis, Lee, Jialing, Goh, Chin Ren, Yang, Da Hou, Oh, Steve, Hui Hoi Po, James, Cool, Simon M., Hou, Han Wei, and Han, Jongyoon

Subjects

BONE marrow, BLOOD cells, MESENCHYMAL stem cells, STEM cell treatment, REGENERATIVE medicine, HARVESTING, CENTRIFUGATION

Abstract

The growing interest in regenerative medicine has opened new avenues for novel cell therapies using stem cells. Bone marrow aspirate (BMA) is an important source of stromal mesenchymal stem cells (MSCs). Conventional MSC harvesting from BMA relies on archaic centrifugation methods, often leading to poor yield due to osmotic stress, high centrifugation force, convoluted workflow, and long experimental time (∼2–3 hours). To address these issues, we have developed a scalable microfluidic technology based on deterministic lateral displacement (DLD) for MSC isolation. This passive, label-free cell sorting method capitalizes on the morphological differences between MSCs and blood cells (platelets and RBCs) for effective separation using an inverted L-shaped pillar array. To improve throughput, we developed a novel multi-chip DLD system that can process 2.5 mL of raw BMA in 20 ± 5 minutes, achieving a 2-fold increase in MSC recovery compared to centrifugation methods. Taken together, we envision that the developed DLD platform will enable fast and efficient isolation of MSCs from BMA for effective downstream cell therapy in clinical settings. [ABSTRACT FROM AUTHOR]

Published

2023

11. An ISGW-based 5G millimeter wave ultra-bandwidth, high-gain fractal magnetic dipole antenna

Author

Yajun Feng, Zhongshuang Wang, Dongya Shen, Hong Yuan, Da Hou, Sihong Lin, and Qifeng Chen

Published

2022

12. An Integrated Substrate Gap Waveguide Filter Metalens Antenna for 6G THz Band

Author

Da Hou, Sihong Lin, Dongya Shen, Hong Yuan, Biao Wang, and Xiupu Zhang

Published

2022

13. An Integrated Substrate Gap Waveguide Wideband Filter for 5G Millimeter Wave Application

Author

Biao Wang, Dongya Shen, Da Hou, Sihong Lin, and Qingyuan Tang

Published

2022

14. EasiSMP: A Resource-Oriented Programming Framework Supporting Runtime Propagation of RESTful Resources.

Author

Jiefan Qiu, Dong Li 0008, Hailong Shi, Chen-Da Hou, and Li Cui

Published

2014

15. SeaHttp: A Resource-Oriented Protocol to Extend REST Style for Web of Things.

Author

Chen-Da Hou, Dong Li 0008, Jiefan Qiu, Hailong Shi, and Li Cui

Published

2014

16. [Effects of Metformin and Sitagliptin on islet cell function in insulin-resistant prediabetic KKay mice]

Author

Ping, Li, Lin-Lang, Liang, Yu, Wang, Da, Hou, Xin, Yang, and Bo, Yang

Subjects

Blood Glucose, Prediabetic State, Islets of Langerhans, Mice, Diabetes Mellitus, Type 2, Sitagliptin Phosphate, Animals, Insulin, Insulin Resistance, Metformin

Published

2021

17. A novel UBE2A splice site mutation with intellectual disability type Nascimento

Author

Shuyuan Yan, yanling wang, Ying chen, Xiaoni Kuang, Da Hou, Xueyi Li, Linglin Pan, Guangwen Huang, Xiangwen Peng, Jun He, and Tuanmei Wang

Abstract

Recently, only two splice-site mutations of the UBE2A gene have been observed in patients with X-linked ID type Nascimento (XLID). We found a novel splice site mutation in UBE2A (c.241+1 G>A) and novel clinical appearances, including a typical four-finger line and erected head unstable.

Published

2021

18. Analysis of Antenna Performance in Complex Sea Conditions Based on Ergodic Algorithm

Author

Yu-Kan Liu, Wen-Da Hou, Yongbin Wang, Shiyu Wang, Lihua Li, and Jun-Jie Liang

Subjects

Physics, Surface (mathematics), FEKO, Ergodic theory, Reflection coefficient, Antenna (radio), Horizontal plane, Algorithm, Vibrator (mechanical), Towing, Computer Science::Information Theory

Abstract

To explore the communication performance of the underwater vehicle towing antenna under complex sea conditions, the maximum gain and reflection coefficient of the whole attitude of the half-wave vibrator antenna under complex sea conditions were calculated from the angle of the antenna relative to the horizontal plane and the length beyond the sea surface, combined with the ergodic algorithm and FEKO electromagnetic simulation software. The results show that the gain of the towed antenna is above −46dBi and the reflection coefficient is below 0.5 in 75% of the states.

Published

2020

19. Decorating red-light-emissive, N-doped carbon dots on bismuth sulfide to promote the photocatalytic activity

Author

Penghui Li, Shi-da Hou, Shi-lu Zhou, Hongguang Li, Linwen Zhang, and Shu-ming Zhang

Subjects

Materials science, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Photochemistry, 01 natural sciences, 0104 chemical sciences, Catalysis, Electron transfer, Colloid and Surface Chemistry, chemistry, Excited state, Photocatalysis, Degradation (geology), 0210 nano-technology, Absorption (electromagnetic radiation), Hybrid material, Carbon

Abstract

Searching for photocatalysts with wide absorption range and high efficiency to solve the growing pollution issues such as organic pollutant degradation is vitally necessary for the upcoming clean and renewable energy systems. In this work, we employed one-step hydrothermal reaction to prepare bismuth sulfide (Bi2S3) incorporated with N-doped, red-light-emissive carbon dots (r-CDs) which manifest effective interface contact and excellent photocatalytic performance. The introducing of the r-CDs, which could be excited by long wavelength lights, efficiently widens the range of light absorption of the hybrid material and improves the ability of electron transfer, accounting for the remarkably higher photocatalytic efficiency of the hybrid material toward the degradation of methylene blue. A possible mechanism behind the efficient photocatalytic activity of the r-CDs/Bi2S3 is proposed where electrons transfer from Bi2S3 to the r-CDs for accelerating the separation of photo-generated electron/hole pairs. During the photocatalytic reaction, h+, •OH and •O2− simultaneously participated, as demonstrated by active species trapping experiments. This work provides a pace for designing high-performance photocatalysts based on the introducing of r-CDs with long wavelength emission, which is promising for catalytic and new energy applications.

Published

2021

20. Analysis of the Influences of Drilling Fluid Flow Velocity inside and outside the Drilling String on Drilling String Lateral Vibration Frequency

Author

Cheng Dong Zhang, Yun Hua Cui, Qing Bin Zhang, and De Da Hou

Subjects

Field (physics), Physics::Instrumentation and Detectors, General Engineering, Drilling, Rotational speed, Mechanics, Drill string, Physics::Geophysics, Vibration, Flow velocity, Drilling fluid, C++ string handling, Computer Science::Databases, Geology

Abstract

Drilling string lateral vibration is a severe damage,which is influenced by many complex factors. This paper makes a theoretical analysis of the drilling string lateral vibration frequency caused by drilling fluid flow velocity inside and outside the drilling string, which supplies some evidence for calculating rotation speed of rotary table and reduces the times of drill string resonance. The influence of drilling fluid flow velocity inside the drilling string on lateral vibration frequency is analyzed by Euler method. Besides, through the use of mechanical analysis method and the introduction of additional mass coefficient. A differential equation of drilling string lateral vibration with the consideration of drilling fluid flow velocity inside and outside the drilling string is built up, and a mathematical model of drilling string lateral vibration under the influence of drilling fluid flow velocity is obtained. Field applications indicate that this model is in agreement with the field condition.

Published

2014

21. In Vitro Drug Release and Hemocompatibility of Biodegradable Plga/Peg Coated Paclitaxel-Eluting Stents

Author

Xi Wei Liu, H.Y. Zhao, Zhen Li, Sergey Pavlinich, Li Li, and Li Da Hou

Subjects

Materials science, medicine.medical_treatment, technology, industry, and agriculture, General Engineering, Stent, engineering.material, equipment and supplies, PLGA, chemistry.chemical_compound, Coating, chemistry, Paclitaxel, Drug-eluting stent, PEG ratio, engineering, medicine, Polymer blend, Drug carrier, Biomedical engineering

Abstract

The Paclitaxel-eluting stents (PTX) with biodegradable copolymer coating were studied in investigations. The polymer blend composition of PLGA (polylactic acid-co-glycolic acid) and PEG (poly ethylene glycol) have been applied as drug carrier and fabricated on the surface of 316L stainless steel stents by ultrasonic atomization spraying method. Were explored three doses: low-dose (~80μg per stent, 10 wt%), moderate-dose (~150μg per stent , 20 wt%), and high-dose (~220μg per stent , 30 wt%). The weight ratio of Paclitaxel to PLGA/PEG blends was 10:90, 20:80, and 30:70. Pre- and post-expansion surface morphologies of the Paclitaxel-eluting copolymer coating stents were examined by scanning electron microscopy (SEM). The quantitative analysis of Paclitaxel release in vitro and hemocompatibility by hemolysis ratio and dynamic clotting time measurement also were investigated.

Published

2013

22. Study on Shape Optimization of Calcium–Alginate Beads

Author

Zhao Qing Li, Li Da Hou, Zhen Li, Li Li, and Wei Zheng

Subjects

chemistry.chemical_classification, Materials science, Aqueous solution, Calcium alginate, General Engineering, chemistry.chemical_element, Salt (chemistry), Calcium, Volumetric flow rate, chemistry.chemical_compound, chemistry, Shape optimization, Composite material, Body orifice, Sodium alginate

Abstract

In this paper, calcium–alginate beads have been manufactured by physically cross-linked technology, by dripping an aqueous alginate solution into a solution of calcium salt as a crosslinker. The effect of various elements controlling beads shape such as solution concentration, flow rate and the distance between the orifice tip and surface of the cross-linking solution were studied. The various elements affected the gelling rate and diameter and weight were studied. The findings indicated that shape of alginate beads in the hydrated state was strongly dependent on the flow rate and concentration of sodium alginate solutions.

Published

2013

23. Mechanical Properties of Chemical Etched Biomedical NiTi Alloy Wires

Author

Li Li, Zhao Qing Li, Zhen Li, and Li Da Hou

Subjects

Materials science, Scanning electron microscope, Mechanical Engineering, Metallurgy, Alloy, engineering.material, Indentation hardness, Isotropic etching, Mechanics of Materials, Etching (microfabrication), Nickel titanium, Phase (matter), Ultimate tensile strength, engineering, General Materials Science

Abstract

Nickel-titanium alloy wires are widely applied in manufacturing biomedical devices; however, it is difficult to be micro-fabricated. Chemical etching process can successfully micro-fabricate the Ni-Ti alloy. The surface morphology, the etching products and the mechanical properties of the fine NiTi wires after the chemical etching process are investigated in the paper. After etching process, the characteristics of the wire surface are studied by Scanning Electron Microscopy (SEM). The X-Ray Diffraction (XRD) phase identification analysis is used to identify the etching products on the side surface of the etched wire. The Vickers Micro-hardness Test shows that the micro-hardness in peripheral surface is slightly higher than that in bulk. Mechanical properties of NiTi alloy fine wires after etching were studied by means of tensile tests.

Published

2009

24. Transport path optimization algorithm based on fuzzy integrated weights

Author

Yuan-Da Hou and Xiao-Hao Xu

Subjects

Matrix (mathematics), Mathematical optimization, Fuzzy transportation, Computer science, Path (graph theory), General Physics and Astronomy, Fuzzy number, Fuzzy set operations, Intelligent transportation system, Fuzzy logic, Defuzzification

Abstract

Natural disasters cause significant damage to roads, making route selection a complicated logistical problem. To overcome this complexity, we present a method of using a trapezoidal fuzzy number to select the optimal transport path. Using the given trapezoidal fuzzy edge coefficients, we calculate a fuzzy integrated matrix, and incorporate the fuzzy multi-weights into fuzzy integrated weights. The optimal path is determined by taking two sets of vertices and transforming undiscovered vertices into discoverable ones. Our experimental results show that the model is highly accurate, and requires only a few measurement data to confirm the optimal path. The model provides an effective, feasible, and convenient method to obtain weights for different road sections, and can be applied to road planning in intelligent transportation systems.

Published

2014

25. Guiding of plasma by electric field and magnetic field

Author

Tao, Zhang, primary, Jun-da, Hou, additional, Bao-yin, Tang, additional, Chu, P. K, additional, and Brown, I. G, additional

Published

2001

26. The effect of mesh anode on cathodic arc in focusing magnetic field

Author

Tao, Zhang, primary, Jun-da, Hou, additional, Bao-yin, Tang, additional, Kwok, T K, additional, Zhao-ming, Zeng, additional, Brown, I G, additional, and Chu, Paul K, additional

Published

2000