Your search keyword '"刘佳"' showing total 17 results

1. 侧深施肥直斜偏置式免耕播种开沟器设计与试验.

Author

赵淑红, 刘佳明, 赵国鹏, 田哲名, and 杨悦乾

Abstract

No-tillage sowing can effectively alleviate the spring drought for the high corn yield in northeast China. Side-deep fertilization can also avoid seed burning for the fertilizer supply in the middle and late periods of crops. Once the side deep fertilization is applied into no-tillage sowing, the soil height on both sides of the sowing belt can be inconsistent after the fertilizer shovel operation, leading to aggravating the lateral deflection of the seeder under the uneven distribution of surface straw stubble. It is very necessary to improve the sowing depth uniformity and lateral consistency. In this study, the straigh to blique offset furrow opener was designed to reduce the resistance to the increase in the soil backfill during no-tillage sowing, in order to improve the sowing depth uniformity and lateral consistency. The furrow opener was mainly composed of a cutting oblique edge, a retaining positioning plate, and an offset bulldozing plate. The soil was cut and pushed into the side of the fertilizer furrow to widen the seed furrow during the operation. The seeds falling was avoided after the fertilizer furrow for better sowing quality. Firstly, the force analysis was implemented on the offset bulldozing plate of the furrow opener. Among them, the horizontal force balance analysis of the side deep fertilizer shovel and the sowing furrow opener was also made to design the structure of the furrow opener. The height of the retaining positioning plate and the offset bulldozing plate of the furrow opener was determined to be 160 mm, and the bottom edge spacing between the retaining positioning plate and the offset bulldozing plate was 30 mm equal to the short side width of the shovel handle, the insertion gap angle was 8°, and the inclination angle was 10.6°. Secondly, the soil disturbance was analyzed before and after the operation of the straight-oblique offset furrow opener. The straight-oblique offset furrow opener increased the soil backfill of the fertilizer furrow and seed furrow. Finally, the sliding cutting of cutting oblique edge was clarified in the motion analysis of soil particles on the offset bulldozing plate. The structural parameters of the operation performance of the furrow opener were the oblique edge sliding angle and the offset angle. A discrete element simulation model of soil-stubble-straw was established using EDEM. The three-dimensional models of stubble cutter, fertilizer shovel, and furrow opener were imported into EDEM for simulation experiments. The structural parameters of the furrow opener were optimized by a two-factor and five-level orthogonal rotation combination experiment with forward resistance, the backfill depth of the fertilizer furrow and the backfill depth of the seed furrow as experiment indexes. The optimal combination of parameters was achieved in the oblique edge sliding angle of 37° and the offset angle of 15°. A field experiment was conducted with the double disc and sharp-angle furrow openers under optimal parameters. The sowing depth variation coefficient of straight-oblique offset furrow openers was 41.12% and 19.41% lower than those of double disc and sharp angle furrow openers, respectively. The sowing lateral variation coefficients decreased by 39.00% and 28.41%, respectively. The forward resistance was reduced by 7.26% and 28.20%, respectively. The backfill depth of the fertilizer furrow increased by 9.47% and 13.68%, respectively after optimization. The backfill depth of seed furrow increased by 33.33% and 7.14% respectively. The furrow opener reduced the forward resistance, while improving the soil backfill of the fertilizer furrow and seed furrow for the sowing depth uniformity and sowing lateral consistency. The finding can provide a strong reference for the design of the seeding furrow opener. [ABSTRACT FROM AUTHOR]

Published

2024

2. 厨余堆肥污染气体减排的工艺参数优化.

Author

乔如陆, 刘佳琪, 孙玉鑫, 周陈俊男, 李明章, 仰　颉, 王凌霄, 许　钊, 艾为党, 常瑞雪, and 李彦明

Subjects

*WASTE treatment, *FOOD waste, *GREENHOUSE effect, *ORGANIC fertilizers, *COMPOSTING, *GREENHOUSE gas mitigation

Abstract

The implementation of garbage sorting policy resulted in an explosion of food waste amount in community, which makes the existing facilities of treating wastes face great challenges. Aerobic compost has the advantages of flexible treatment scale, easy adjustment of parameters and high process adaptability, and is an important technology for food waste treatment and resource utilization. However, the aerobic composting of food waste has some problems such as long fermentation period and easy to produce polluted gas, which seriously limits the promotion of local treatment and utilization. Pollution gas generation is directly related to oxygen supply and utilization in the reactor. In order to improve the fermentation rate, reduce the emission of polluted gas, and optimize the process parameters of food waste composting, a total of 9 treatments were set up in this study, and the three-factor and three-level orthogonal composting experiment L9 (34) was adopted. The food waste and maize stover were mixed according to the wet-weight ratio of 3:1, and the maize stover was crushed to 0.5-10, 10-20, 20-40 mm by the crusher, respectively. The moisture content of all the initial mixed materials was adjusted to 55%, 60% and 65% respectively, and the oxygen supply method of continuous ventilation was adopted. The ventilation intensity was 0.1, 0.2 and 0.3 L/(min·kg), respectively, and the composting test was carried out in an 8 L closed fermenter for 21 days. The influence of particle size, moisture content and ventilation rate on reactor temperature, oxygen concentration, pH value, EC value, GI value and pollution gases (H2S, NH3, N2O and CH4 ) were investigated. The results showed that the initial particle size, moisture content and ventilation rate had significant effects on the fermentation process and pollutant gas emission during the composting process of food waste. Adjusting the process parameters could accelerate the temperature rise of the pile, improve the rot degree of the pile, and shorten the composting cycle to about 11 days. The optimal treatment group increased to 60 ℃ 12 hours after the reaction began which effectively accelerated the composting process. All the physical and chemical indicators reached the NYT525-2021 organic fertilizer standards. In the pollution gases, H2S and N2O are mainly emitted during the heating and high temperature periods of compost, while NH3 and CH4 are mainly emitted during the high and low temperature periods of compost. According to the variance analysis of orthogonal test, the particle size of the material has a significant influence on H2S emission, and the moisture content and ventilation rate have a significant influence on H2S and N2O emission. The emission reduction rates of H2S, NH3, N2O and CH4 in the optimal treatment group were 63.8%, 95.8%, 20.9% and 84.9%. In terms of total greenhouse effect reduction, the reduction rate of the best treatment group was 22.3%. Considering the composting cycle and emission reduction effect of pollution gas, the optimal process parameter combination of food waste composting is as follows: initial material particle size 0.5-10 mm, initial water content 60%, ventilation rate 0.2 L/(min·kg). [ABSTRACT FROM AUTHOR]

Published

2023

3. 黄淮海北部地区夏玉米稳产高产的播期优选.

Author

刘佳鸿, 何奇瑾, 管 玥, 苏 成, 杨 夙, 秦志珩, 糜欣苑, 潘学标, 唐昕宁, and 闫梦玲

Subjects

*EXTREME weather, *METEOROLOGICAL stations, *AGRICULTURAL climatology, *SOLAR radiation, *CROP growth, *CORN

Abstract

Extreme weather has posed a great threat to the production safety of corn under global warming, such as seriously agrometeorological disasters. The sowing date can be adjusted in the crop growth period against the climate resources. In this study, a sowing date experiment was carried out in Wuqiao County, Hebei Province of China in 2017-2020. Five sowing dates were set as June 5, 10, 15, 20 and 25. Two varieties of summer maize, Zhengdan958 (ZD958) and Denghai605 (DH605), were selected in the northern region of Huang-Huai-Hai (Beijing, Tianjin, and Hebei Province). The experimental observation included the growth stage (emergence, elongation, big flare, tasseling, silking, flowering, and mature stage), and the yield of summer maize. The historical meteorological data was utilized at Wuqiao County and 16 meteorological stations. The suitable sowing date was determined for the high and stable yield of summer maize, according to the climate resources, the main agrometeorological disasters, and the yield during the growth period. The results were obtained as follows. 1) The growth stage of summer maize was gradually advanced, and the duration of the growth period was significantly shortened, with the delay of the sowing date, where the total active accumulated temperature and total radiation during the growth period decreased, while the precipitation at the flowering stage increased gradually. There was no significant difference in the active accumulated temperature between the years of the same sowing date, but the large differences in the solar radiation and precipitation, where the maximum inter-annual difference was 336 MJ/m2 and 255 mm, respectively. The precipitation distribution during the growth period of summer maize was depended mainly on the sowing date and year type. 2) The occurrence frequency of heat damage at the flowering stage was lower than that of the continuous rain, indicating an increasing trend in the recent decade. The occurrence frequency of the heat damage and continuous rain on June 15 was significantly lower than that on the other sowing dates (P<0.05), which were 0.8% and 23.3%, respectively. 3) The yield of summer maize was higher on the sowing date of June 10 and 15, where there was a significant quadratic correlation with the active accumulated temperature ≥15 ℃ after flowering (P<0.05). The ZD958 and DH605 reached the maximum yield, when the active accumulated temperatures ≥15 ℃ after flowering were around 1 550 ℃·d (the sowing date of June 10) and 1 480 ℃·d (the sowing date of June 15), respectively. Consequently, June 15 was the suitable sowing date for the summer maize in the study area. The finding can provide a strong reference for the sowing date adjustment of crops in response to climate change, particularly for the stable and high yield of summer maize. [ABSTRACT FROM AUTHOR]

Published

2022

4. 玉米机械粒收籽粒含杂率与穗轴特性关系分析.

Author

赵 波, 孔凡磊, 陈 祥, 刘佳媛, 李小龙, 杜 霞, 陈谋浩, and 袁继超

Subjects

HARVESTING time, GRAIN harvesting, BENDING strength, CORN breeding, COMBINES (Agricultural machinery)

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

5. 基于 DSSAT 作物模型的中美大豆主产区单产模拟与验证.

Author

徐春萌, 田芷源, 陈威, 刘佳佳, and 白洁

Subjects

CROP yields, LEAF area index, STANDARD deviations, CROP growth, HARVESTING time, SENSE data, SOYBEAN farming, SOYBEAN yield

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

6. 连续夹持输送式苎麻剥麻机设计与试验.

Author

向 伟, 马 兰, 刘佳杰, 颜 波, 邱化蛟, and 吕江南

Subjects

FIBER testing, RAMIE, PREDICTION models, FIBERS, MATHEMATICAL models

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

7. 基于堆积试验的黏壤土仿真物理参数标定.

Author

向 伟, 吴明亮, 吕江南, 全 伟, 马 兰, and 刘佳杰

Subjects

POISSON'S ratio, CLAY loam soils, STATIC friction, ROLLING friction

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

8. GF-1 多时相组合近红外数据水稻识别能力.

Author

王利民, 刘佳, 杨福刚, 姚保民, 邵杰, and 杨玲波

Subjects

*RICE farming, *NEAR infrared spectroscopy, *TEMPORAL databases, *COHEN'S kappa coefficient (Statistics), *RICE industry

Abstract

Near-infrared wave bands have double sensitivities on water bodies and crop growth. Using near-infrared wave band on rice identification has notable advantage, and it is a key wave band in crop identification. The study chose 5 counties of Yinchuan City, Ningxia Hui Autonomous Region as the study area and took the near-infrared (770-890 nm) data of GF-1/WFV (wide field view) images on May 18, June 16, July 30, and September 13, 2016 as its data sources. By using decision-tree classification method, the study achieved the rice identification of 7 temporal combinations, including 4 single temporal data in May, June, July, and September, as well as 3 multi-temporal data of May/June, May/July, and May/June/July/September, and made a comparison with supervision classification results of full wave bands (0.45-0.52, 0.52-0.59, 0.63-0.69, 0.77-0.89 μm) of corresponding GF-1/WFV data. The rice identification accuracies of near-infrared wave bands of single temporal data in May, June, July, and September were 83.63%, 57.40%, 75.82% and 62.61% respectively. Except that the accuracy of May data was 5.75% higher than the full wave bands, the identification accuracies of other temporal phases were lower than that of full wave bands. The highest accuracy deviation was in June, 30.23%, and the lowest accuracy deviation was in July, 1.58%. The deviations in May and September were 5.75% and 25.47% respectively. The rice identification accuracies under 3 multi-temporal near-infrared combinations of May/June, May/July, May/June/July/September were 83.76%, 93.93%, and 94.03% respectively. The accuracies of near-infrared combinations of May/July, and May/June/July/September were 8.58% and 0.73% higher than that of full wave band data results respectively, but the accuracy of May/June was 5.47% lower. Regardless of near-infrared data or full wave band data, the minimum value, average value and maximum value of single temporal data identification accuracies were 57.40%, 76.31% and 88.10% respectively, with the Kappa coefficients of 0.22, 0.44 and 0.64 respectively; the minimum value, average value and maximum value of multi-temporal data identification accuracies were 83.76%, 89.98% and 94.03% respectively, with the Kappa coefficients of 0.52, 0.68 and 0.77 respectively; all identification accuracies of single temporal data were lower than the identification accuracies of the multi-temporal data. If using single temporal data as the data source of rice remote sensing identification, the identification accuracy can reach 75.82% based on the near-infrared WFV data of rice in middle growth period of July, which is consistent with the full wave band data result of this time phase; to reach the accuracy above 88.10%, it is necessary to use full wave band WFV data in September. If taking multi-temporal data of WFV data of temporal combinations of 2 rice growth periods i.e. early period of May and middle period of July as the data source of rice remote sensing identification, the identification accuracy can reach 93.93%, which is close to the highest identification accuracy of multi-temporal data. The study result shows that, for the near-infrared wave band, and in the applications with requirement on the rice identification accuracy of about 75%-85%, the 2 single temporal infrared WFV data in early growth period of May and middle growth period of July can be taken as the data sources of remote sensing identification. To reach the identification accuracy above 86%, it is necessary to choose the combination of near-infrared WFV data in early growth period of May and middle growth period of July as the remote sensing data sources, so as to achieve rice area spatial distribution results with relatively high identification accuracy. After further correction with visual observation, it can be taken as the crop area remote sensing supervision results. [ABSTRACT FROM AUTHOR]

Published

2017

9. 基于多时相 OLI 数据的宁夏大尺度水稻面积遥感识别.

Author

刘佳, 王利民, 姚保民, 杨福刚, 杨玲波, 王小龙, and 曹怀堂

Abstract

In order to objectively obtain Ningxia rice area spatial distribution information, to lay a technical foundation for regional crop remote sensing monitoring, and according to the principle of spectral consistency, this paper, by taking Ningxia Hui Autonomous Region as its study area, divided the study area into 6 ground types of rice, sparse forest and shrub, dry land/woodland, abandoned land, wetland/water bodies, and others. The period before July 10, 2016 was taken as the early stage of rice growth. The normalized difference vegetation index (NDVI), infrared reflectance (IR) and short waved index (SWI) were established by choosing the data of Operational Land Imager (OLI) carried by US LandSat-8 and using the images taken in the 6 periods of March 11th, April 12th, April 28th, May 30th, June 15th and July 1st. Based on the analysis of dynamic change of 3 indexes of NDVI, IR and SWI, especially on maximum NDVI, minimal IR, and minimal SWI, a decision tree was established, and the identification of rice types in the study area was conducted by using images between March 11 and July 1 of 2016. The basic processes of decision tree classification were: firstly the ground objects such as cities and towns and deserts were eliminated by using maximum NDVI from March to June; the sparse forest and shrubs were eliminated by using maximum NDVI from March to April; the dry land/woodlands were eliminated by using minimum IR from May to June; then wetland/water bodies were eliminated by using minimum IR from March to April; finally, the abandoned lands were eliminated by using minimum SWI from May to June. The remaining pixels were taken as rice. The accuracy verification was also conducted by using the remote sensing survey results of rice area background of this region. The total extraction error was only 4.22% with the Kappa coefficient of 0.83; the user's classification accuracy of rice spatial distribution was 85.11% with the mapping accuracy of 81.67%. Compared with the user's accuracy of maximum likelihood supervised classification algorithm on the rice area extraction of 76.98% and the mapping accuracy of 61.66% in this area, the method used in this paper showed an increase of 8.13 percentage points in the user's accuracy, and an increase of even 20.01 percentage points in the mapping accuracy. The result shows that, the method proposed here of establishment of decision classifying tree by using the satellite images of early stage OLI remote sensing time series of rice growth before July 10, and based on the analysis of changing pattern of time series of staple crops can accurately extract the staple crop planting area, and it is a potential method for regional crop area remote sensing monitoring operations. [ABSTRACT FROM AUTHOR]

Published

2017

10. 基于高光谱的春玉米大斑病害遥感监测指数选择.

Author

王利民, 刘佳, 邵 杰, 杨福刚, and 高建孟

Abstract

Leaf blight is one of the major diseases of spring corns. Analyzing crop canopy spectral features and establishing remote sensing monitoring indices by employing the method of ground spectrum test are the foundation for implementing regional disease remote sensing monitoring, and the major basis for designing satellite sensor spectrum. By taking 4 varieties of spring corns i.e. highly resistant, resistant, infected, and highly infected spring corns as the study objects, this paper designed an artificially controlled plot experiment in Meixian County, Shannxi Province. Through artificial inoculation of leaf blight spores with different concentrations, the study established 4 disease infected land plots including normal corn, mildly infected corn, moderately infected corn, and severely infected corn, and conducted ground hyperspectral observation of 4 development stages i.e. tasseling stage, silking stage, milk-ripe stage and ripe stage of spring corns. In order to realize the remote sensing monitoring on leaf blight of spring corns, based on the spring corn canopy spectral data, this paper analyzed the change features of spring corn canopy spectral reflectance and first derivative spectral value of crop areas with different disease severities and at different growth stages, and identified the sensitive band range of spring corn leaf blight and proper disease monitoring period; meanwhile the study established a special remote sensing index for spring corns based on the spectral features of sensitive wave bands, namely, the first derivative of spectral in red edge core area. Finally, to validate the effectiveness of the index proposed in this paper, the study used a total of 180 spectral observation samples in the 4 crop areas, which were obtained by using the crossing sampling method, and made a comparison between the indices and the other commonly used disease monitoring indices in terms of their correlation with disease severity. The result showed that, spring corn leaf blight with different order of severity could be more significantly represented during the milk-ripe stage of the spring corn. Along with the increase of disease severity, the reflectance in near-infrared band decreased gradually, and showed a change of gradient, which was suitable for the leaf blight remote sensing monitoring and classification of disease severity; response of first derivative of spring corn canopy spectrum was relatively sensitive, especially within the range of red edge core area (725-740 nm). There was a significant monotonous change relation between first derivative of spectrum and disease severity, showing a very significant negative correlation. The experimental result also showed that there was a relatively high correlation between the remote sensing monitoring index proposed in this paper and the disease index, with the correlation coefficient of 0.9950. Classification accuracy of different disease severity reached 100%, and the dispersion degree of index values was lower than that of other commonly used monitoring indices, with a higher distribution stability, indicating that the indices proposed in this paper can be applied in remote sensing monitoring operations. [ABSTRACT FROM AUTHOR]

Published

2017

11. MODIS 数据辅助的GF-1 影像晴空光合有效辐射反演.

Author

王利民, 刘佳, 杨玲波, 滕飞, 杨福刚, and 邵杰

Abstract

GF-1 satellite was launched in April 2013. Since then various researches and operations using the GF-1 imagery have been conducted. This study tries to establish the inversion model for the biophysical variable photosynthetically active radiation (PAR) derived from GF-1 imagery. The inversion of the variable aerosol optical depth (AOD) is first carried out using the surface reflectance product of MODIS (moderate-resolution imaging spectroradiometer) (it is MOD09A1). Based on the typical ground-object spectral library data provided by the United States Geological Survey (USGS), and spectral response function of the GF-1/WFV sensors, the study has found that the difference in terms of the blue band surface reflectance generated by 2 sensors of GF-1/WFV and MODIS is very small. MODIS data can thus be assimilated to create GF-1 surface reflectance library. The second simulation of satellite signal in the solar spectrum (6S) atmospheric radiation transfer model is applied to produce an atmospheric parameter look-up table (LUT). By comparing solar incident irradiance at top of atmosphere (TOA) and radiation brightness value at the entrance pupil of the sensor, and using surface reflectance product from MODIS, the authors have achieved the ground-air decoupling and the inversion of AOD. After establishing AOD library, the atmospheric parameters such as atmospheric transmittance, atmospheric hemisphere albedo, and atmospheric diffuse transmittance are computed and interpolated to LUT. Combined with the calculation of sun incident radiation intensity, the ground solar radiation intensities at red, green and blue bands of GF-1 are produced. By analyzing the relationship between the ground solar radiation intensities and overall 400-700 nm PAR values provided by MOD09A1, 3 conversion coefficients are computed. The coefficients have the values of 0.09156, 0.09951, and 0.1007 respectively for the blue, green and red bands, realizing the inversion from the ground solar radiation intensity of 3 discrete wavebands to PAR. By selecting Yucheng region, Shandong Province as a study area, and using 13 GF-1 images registered from January to December in 2014, the authors generated the values of PAR for the study region and conducted the accuracy assessment for the inversion using the ground measured values of PAR. The results show that the PAR acquired by the inversion approach described in this paper has an overall accuracy of 92.63%, with an averaged absolute value of error of 14.56 W/m2 and an averaged relative error of 7.37%. Study shows that GF-1 data can be effectively applied for the inversion of PAR; the establishment of reflectance library is feasible by including MOD09A product, and generating LUT through the 6S model. Finally this PAR inversion approach can provide reliable data support for crop growth monitoring, and parameter estimation based on GF-1 imagery. [ABSTRACT FROM AUTHOR]

Published

2017

12. 季节性冻融区井渠结合灌域地下水动态预报.

Author

杨文元, 郝培静, 朱焱, 刘佳帅, 于健, and 杨金忠

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

13. 基于暗目标法和 GF-1 的农作物光合有效辐射反演.

Author

王利民, 杨玲波, 刘佳, 杨福刚, 邵杰, and 姚保民

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

14. 基于小波包变换的农作物分类无人机遥感影像适宜尺度筛选.

Author

张 超, 刘佳佳, 苏 伟, 乔 敏, 杨建宇, and 朱德海

Abstract

For the high-resolution remote sensing imagery, the space scale has effect on the classification accuracy and efficiency. The UAV image can achieve very high spatial resolution, which has promoted the development of object-oriented classification, at the same time, it also takes some influence on high-resolution remote sensing imagery classification. Therefore, it’s necessary to select optimal scale for classification. In this paper, to resolve high-resolution remote sensing imagery classification problem, we used UAV aerial crop images in Zhuozhou, Hebei province, as a data source, and applied wavelet packet transform to the multi-scale quantitative analysis of classification characteristics that belong to high-resolution remote sensing imagery. Wavelet packet decomposition was applied to seven of the most popular crops images, and then considering multi-factors, the most optimal wavelet packet decomposition tree were selected. Then, we selected the high frequency leaf node of each level according to the optimal wavelet packet decomposition tree and built the texture characteristic vector by four kinds of textural information including mean, variance, energy and energy difference which were computed statistically by the wavelet packet coefficient of selected node. Spectral information was obtained from the low frequency part. The classification characteristic vector was built by integrating the texture characteristic vector and the spectral information. To analyze the separability of the crop sample in different levels of wavelet packet decomposition tree, we needed to calculate the J-M distance of the classification characteristic vector between samples in different levels by matching the wavelet packet levels and the resolution, and then acquiring the optimal spatial scales for object-oriented classification. To verify the result, we conducted object-oriented classification experiment based on wavelet packet transform on imagery of different resolution, and chose accuracy of object-oriented classification and time-consuming of division as evaluation criterion to evaluate the result. The original images were decomposed to five levels, from which wavelet packet transform method was used. The texture information and spectral information which can extract from the optimal wavelet packet decomposition tree were used to build classification characteristic diagram. Then we acquired resampling images of different resolutions which matched with the wavelet packet decomposition levels. Classification characteristic diagram as the thematic layers was used to classify the imagery. Finally we employed overall accuracy, Kappa and time-consuming to assess the suitable scale. The results showed that, 1) In the third and fourth levels of wavelet packet decomposition tree (the spatial resolution was 0.32-0.64 m), the J-M distance of different samples become maximum which meant the strongest separability; 2) The accuracy of object-oriented classification based on wavelet packet transform was the highest in overall accuracy (0.90 and 0.89) when the spatial resolution was 0.32-0.64 m, and also saved a lot of time than the higher resolution (0.16 m). We concluded that it was suitable for crop object-oriented classification in the third and fourth levels of wavelet packet decomposition (the spatial resolution is 0.32-0.64 m). The method used in this paper for selecting optimal spatial scale for crop classification in high-resolution remote sensing imagery base on wavelet packet transform can accurately select the spatial scale with optimal classification accuracy and the highest classification efficiency. To some extent, the classification accuracy was improved by the classification characteristic which extracted via the method of wavelet packet transform. This proposed method may help with the fine recognition of crops using high-resolution remote sensing images. [ABSTRACT FROM AUTHOR]

Published

2016

15. 短波红外波段对玉米大豆种植面积识别精度的影响.

Author

王利民, 刘佳, 杨玲波, 杨福刚, and 富长虹

Abstract

To study the impact of short infrared wave bands (1 100-2 500 nm) setting on crop classification accuracy, and to provide data and application support for designed new types of sensors, in the study, we took north part of Bei'an city, Heilongjiang province as the study area, and studied the impact of the short infrared wave bands of 1 560-1 660 nm (SWIR 1) and 2 100-2 300 nm (SWIR 1) on identification accuracy of two crops of corn (Zea may L) and soybean (Glycine max) by selecting OLI (Operational Land Imager) data carried by US LandSat-8. Based on the mono temporal and multi-temporal conditions, and on the basis of five wave bands of coastal blue (433-453 nm), blue (450-515 nm), green (525-600 nm), red (630-680 nm), and near-infrared (845-885 nm), with five wave band combinations without short infrared wave band were used. One additional short infrared wave band (SWIR 1) was involved, and two additional short infrared wave band (SWIR 1and SWIR 2) were also used, with a total of 6 alternative schemes. In the study, we analyzed the remote sensing identification ability of short infrared on two crops: corns and soybeans, based on the maximum likelihood supervised classification method. Mono temporal OLI image Data of August 7, 2014 were taken for the study and five multi temporal image data of June 13, June 29, July 15, August 7, and September 17 of 2014 were also taken. The 5 km × 5 km grids of the covered study area were taken as the study units and under the principle of equal probability of corn and soybean area ratio, and 21 ground samples were chosen as training samples. used A visual interpretation method was used for identification of crop within ground samples. Accuracy verification data were from the background investigation results of crop areas in the study area. These data were obtained by using visual correction based on Rapideye image automatic classification with a spatial resolution of 5 m. The result showed that under the condition of mono temporal image classification, introduction of short infrared wave band can greatly improve the classification capacity of corn and soybean. Under the condition of introducing one short infrared wave band, the overall classification accuracy has been improved from 87.0% to 90.8%, up by 3.8%, Kappa coefficient was improved from 0.74 to 0.82, with a significant decrease of "Pepper salt problem", The user's accuracy of corn classification has been improved from original 85.4% to 91.5%, up by 6.1%. Mapping accuracy was improved from 89.6% to 90.3%. The mapping accuracy of soybean has been improved from original 84.5% to 91.5%, up by 7.0%, with user's accuracy improved from 88.9% to 90.2%. The separation degree of corn and soybean has been improved from 1.53 to 1.93, indicating that the short wave infrared wave band can remarkably improve the separation capacity of corn and soybean. Under the condition of multi-temporal image classification, the improvement of identification capacity of corn and soybean by introducing of short infrared wave band was limited. Under the condition of introducing one short infrared wave band, the overall classification accuracy was improved from 92.4% to 92.9%, only up by 0.5%, indicating that multi-temporal data, to some extent, can replace short infrared wave band on improving crop identification effect. Regardless of mono temporal or multi-temporal conditions, introduction of two short infrared wave bands did not show any significant changes on overall identification capacity compared with one short infrared wave band. Both correlations of five images on two short infrared wave bands exceeded 0.96, indicating that introduction of redundant bands with strong correlation has limited effect in improving crop area identification accuracy. The results have further quantified the separating capacity of short infrared wave bands on two crops of corns and soybean, and provided basis for wave band setting of domestic satellite short-wave sensors. [ABSTRACT FROM AUTHOR]

Published

2016

16. RapidEye 卫星红边波段对农作物面积提取精度的影响.

Author

刘佳, 王利民, 滕飞, 杨玲波, 高建孟, 姚保民, and 杨福刚

Abstract

Adding rededge waveband (690-730 nm) based on traditional visible light and infrared band is a notable trend of the development of current high resolution satellite sensors.RapidEye satellite carries red-edge waveband sensors.Based on the RapidEye satellite remote sensing data of Dongsheng town, Bei'an city, Helongjiang province on July 27, 2014, and by employing the monitoring classification method, this paper comparatively analyzed the impact of the red-edge waveband on the estimation accuracy of crop planting area under 2 kinds of waveband combinations.The indices including the separable measure, the classification accuracy and the degree of landscape fragmentation of the 3 kinds of ground objects i.e.corn, soybean and the others were computed under the conditions of 2 types of band combinations, which were with or without the involvement of rededge waveband.Training samples of monitoring classification took the 2 km × 2 km grids covering study area as their basic units. Under the principle of equal probability of corn and soybean area proportion, 10 grids were chosen as training samples.Identification of crop within ground samples employed visual interpretation method. Accuracy verification adopted the background survey results of the crop area covering the study area. Based on the preliminary classification of RapidEye data with spatial resolution of 5 m, the background survey was conducted by using visual observation correction method combined with ground survey according to the seasonal changing rule of multitemporal Landsat-8/OLI (Operational Land Imager) data.The result showed that, the overall identification accuracy of 3 types of ground objects (corn, soybean and the others) with rededge was 88.4%, the Kappa coefficient was 0.81, and the mapping accuracies of 3 types of ground objects were 93.1%, 86.0% and 87.3% respectively; the overall identification accuracy of 3 types of ground objects without rededge was 81.7%, the Kappa coefficient was 0.71, and the mapping accuracies of 3 types of ground objects were 83.9%, 73.4% and 84.6% respectively.By introducing rededge band, the overall identification accuracy of 3 ground objects was improved by 6.7%, and the identification accuracies of 3 types of ground objects were improved by 9.20%, 12.6% and 2.7% respectively.By employing JeffriesMatusita method, we calculated the degree of separation of 3 types of ground objects.The degrees of separation between corns and soybeans, corns and the others, as well as soybeans and the others were improved from 0.84 to 1.73, from 1.37 to 1.81, and from 1.27 to 1.29 respectively; by employing fragmentation index, we calculated the landscape fragmentation.The number of land parcels was reduced by 69.2%, with the average parcel area increased by 2.2 times, the average parcel perimeter increased by 60.5%, and the ratio between parcel area and perimeter increased by 1.0 time. So, by introducing rededge band, the study has improved the separable measure of different ground objects, reduced the increase of landscape fragment caused by "Pepper salt" effect, and improved the overall identification accuracy of crop planting area.Currently, more and more satellites carry rededge devices, and the domesticallyproduced satellites to be launched also plan to add rededge band so as to improve crop identification capacity.The result of this paper will provide a reference for the application of domesticallyproduced rededge satellite data in agriculture. [ABSTRACT FROM AUTHOR]

Published

2016

17. 三峡库区非点源污染负荷时空分布模型的构建及应用.

Author

龙天渝, 刘敏, and 刘佳

Abstract

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Published

2016