Video tracking for high-similarity drug tablets based on reflective lightness intensity and fuzzy recognition system

Liang, Zhongwei; Liu, Xiaochu; Tan, Shisong; Wen, Yiheng

doi:10.1177/0954411916629174

Cited by 4 publications

(4 citation statements)

References 25 publications

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“…The real-time motion of the tablet target is successfully tracked by repeating the same operation in the next frame. The accuracy and reliability of the method in the pharmaceutical industry were verified by orthogonal tracking experiments and performance comparison [20].…”

Section: Related Workmentioning

confidence: 98%

“…Therefore, the use of hyperspectral technology can achieve high-precision inversion of soil physical and chemical components quickly, easily and without damage [12]. The use of this technology has brought us unlimited convenience, which not only saves a lot of manpower and material resources, but also makes it possible to collect soil data in large areas [13]. Hyperspectral remote sensing technology has become an important means for obtaining information on farmland soil properties, and it also provides a scientific basis for evaluating and protecting land resources [14].…”

Section: Introductionmentioning

confidence: 99%

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Hyperspectral Prediction Model of Soil Organic Matter in Black Soil Region Based on Fuzzy Recognition

2020

AJAS

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Land is an important basic resource that must be relied upon, irreplaceable and non-renewable for human survival and development. The limited quantity and the scarcity of supply determine that we must make full use of land resources. The use of hyperspectral remote sensing to establish accurate soil organic matter prediction models is an inevitable requirement for rapid determination of soil organic matter, precision agriculture, and soil carbon pool estimation. Accurate understanding of soil distribution information is an important basis for soil mapping and establishment of soil databases, and has important guiding significance for land management and land use planning in China. Based on the above background, the purpose of this paper is to study the hyperspectral prediction model of soil organic matter in black soil region based on fuzzy recognition, and to establish a high-spectral estimation model of soil organic matter by linear regression and fuzzy recognition method. In this paper, the fuzzy closeness inversion model of soil organic matter content is established, and compared with the results of the linear regression model; the accuracy of the linear model is basically consistent and low. The accuracy of the fuzzy closeness inversion model is higher, and the lowest is also It reached 89.71%, and the rest were more than 90%. In addition, based on the diversity of spectral inversion factors and the dynamics of organic matter content, an interval-valued fuzzy inversion model was proposed. The prediction result is accurate for 5 samples. There is an error, and the sample deviation with error is 3.22%. This shows that the fuzzy recognition method can effectively solve the problems of nonlinearity and ambiguity, and it is feasible to use the fuzzy recognition method for soil organic matter content prediction.

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Section: Related Workmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Hyperspectral Prediction Model of Soil Organic Matter in Black Soil Region Based on Fuzzy Recognition

2020

AJAS

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“…Figure 12 demonstrates the detailed arrangements of two exampled membership functions, as the waterjet pressure (input) was illustrated by Figure 12(a) and partitioned from 0 to 8, or the turbulence intensity (output) in Figure 12(b), in which any value beyond the presupposed range is infinity or zero. 0 was assumed as 'Very Low' and 8 as 'Very High,' other value levels can be identified by 'Low,' 'Medium,' and 'High' in sequence (Liang, Liu, Tan, & Wen, 2016).…”

Section: Fuzzy Predictionmentioning

confidence: 99%

Fuzzy prediction of AWJ turbulence characteristics by using typical multi-phase flow models

Liang

Shan

Liu

et al. 2017

Engineering Applications of Computational Fluid Mechanics

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For the purpose of improving the working performance of AWJ (Abrasive waterjet) grinding in actual machining, and revealing the unknown influence mechanism of waterjet machining prediction, this research conducted a theoretical and experimental investigation concerning with the influences caused by multi-phase flow models, on the fuzzy prediction of turbulence characteristics. First, typical flow models describing the abrasive waterjet were presented and enunciated; Second, a series of turbulence characteristics were defined to quantitatively demonstrate the waterjet flow, which are responsible for the actual performances of AWJ grinding in the contact zone; Then a new fuzzy prediction system equipped with logic protocols was established and introduced to predict turbulence characteristics based upon the machining parameters by employing different flow models, therefore a set of quantified prediction results generated from the CFD (Computational Fluid Dynamics) simulation, orthogonal experiments and actual measurements can be obtained and distinguished systematically. Through a detailed performance analysis with benchmark indexes and prediction comparisons, the theoretical superiorities and specific applications of these flow models were fully discussed and then an integrated conclusion assessing their inherent influence mechanism was acquired. Based on these innovative achievements, the instantaneous machining inspection or parameter optimization in AWJ grinding process can be facilitated, simultaneously the new research ideas aimed at waterjet monitoring or grinding improvements can be presented as well. ARTICLE HISTORY

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“…To optimize the infiltration effect of sprinkler irrigation, literatures [13][14][15] demonstrated their innovative developments on the multi-objective effectiveness optimization of crop irrigation; Guan et al [16] mapped the annual effectiveness area of crop cultivation in one specific irrigation district by applying a classifier of plant phenological index; Bargués et al [17] and Nasiakou et al [18] discussed on the parameters of filtered volume and flow outlet in drip irrigation occasions, and the subsurface drip effects for smart irrigation as well. More progresses on this subject could be learned from literatures [19][20][21][22][23] also. As some scholars began paying their endeavour on the quantitative evaluations of sprinkling effectiveness, Leduc et al [24] presented some suitable and optimal effectiveness evaluation indexes to assess the photovoltaic water pumping efficiency for grassland irrigation; Garga et al [25] proposed an integrated irrigation effectiveness model characterized by non-linear calculative function in the hope of obtaining the optimum cultivation pattern and reasonable irrigation schedule for deficit irrigation.…”

Section: Introductionmentioning

confidence: 99%

Influence analysis of sprinkler irrigation effectiveness using ANFIS

Liang

Liu

Wen

et al. 2019

International Journal of Agricultural and Biological Engineering

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In order to improve sprinkler irrigation quality and promote actual irrigation efficiency, the influence analysis of sprinkler irrigation effectiveness (SIE) using ANFIS (Adaptive Neural Fuzzy Inference System) was implemented to balance moisture infiltration and water redistribution in soil field. Firstly, using a detailed description of governing equations proposed for sprinkler irrigation flow, the theoretical foundation and mathematical model of irrigation effectiveness can be established; Secondly, based on a complete preparation of experimental irrigation conditions, a series of calibration indexes quantifying SIE for sprinkler irrigation quality and infiltration efficiency were proposed; Then thirdly, a novel ANFIS system was designed and introduced to evaluate these key effectiveness indexes in actual working operations, so that a series of detailed influence analysis and comprehensive infiltration assessment focusing on sprinkler irrigation effectiveness could be achieved afterwards, which result to the realization of better infiltration equilibrium and higher water redistribution efficiency in actual irrigation test. Therefore, the qualification of sprinkler irrigation effectiveness was achieved, and in addition, the moisture infiltration improvement and soil moisture uniformity were facilitated also in return.

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Video tracking for high-similarity drug tablets based on reflective lightness intensity and fuzzy recognition system

Cited by 4 publications

References 25 publications

Hyperspectral Prediction Model of Soil Organic Matter in Black Soil Region Based on Fuzzy Recognition

Hyperspectral Prediction Model of Soil Organic Matter in Black Soil Region Based on Fuzzy Recognition

Fuzzy prediction of AWJ turbulence characteristics by using typical multi-phase flow models

Influence analysis of sprinkler irrigation effectiveness using ANFIS

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