5 results on '"Zhao, Runmao"'
Search Results
2. Optimization Design and Experimental Testing of a Laser Receiver for Use in a Laser Levelling Control System
- Author
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Lian Hu, Chen Gaolong, Huang Hao, Meng Shibo, Du Pan, Zang Ying, Zhao Runmao, Luo Xiwen, and Jiao Jinkang
- Subjects
Materials science ,Computer Networks and Communications ,0208 environmental biotechnology ,signal modulation ,lcsh:TK7800-8360 ,02 engineering and technology ,01 natural sciences ,Signal ,Digital signal (signal processing) ,Standard deviation ,law.invention ,010309 optics ,photoelectric conversion ,Optics ,Sampling (signal processing) ,law ,0103 physical sciences ,Electrical and Electronic Engineering ,business.industry ,Levelling ,Amplifier ,lcsh:Electronics ,Elevation ,laser levelling ,Laser ,020801 environmental engineering ,laser ,laser receiver ,Hardware and Architecture ,Control and Systems Engineering ,Signal Processing ,business - Abstract
The elevation detection accuracy of the laser receiver in the laser levelling control system directly affects land-levelling operations. To effectively improve the effect of levelling operations and meet the requirements for the accuracy of elevation detection in different industries, this study optimization designed a multilevel adjustable laser receiver. First, we examined the laser signal detection technology and processing circuit, designed the photoelectric conversion array for the detection of the rotating laser, and converted it into a photocurrent signal. We also designed the filter, amplifier, and shaping and stretching circuits for analogue-to-digital conversion of the photocurrent signal. The digital signal was calculated based on the deviation of the elevation by using a microprocessor and was output by a controller area network (CAN) bus. The laser beam spot diameter transmission and diffusion were then studied, and with the detectable spot diameters were compared and analyzed. Accordingly, an algorithm was proposed to calculate the deviation of laser receiver elevation. The resolution of the elevation deviation was set to ±, 3 mm, however, this value could be adjusted to ±, 6 mm, ±, 9 mm, ±, 12 mm, and ±, 15 mm, according to the requirements. Finally, the laser receiver was tested and analyzed, and the test results of the elevation detection accuracy showed that when the laser receiver was within a radius of 90 m, the elevation detection accuracy was within the ±, 3 mm range. The outcomes of the farmland-levelling test showed that the standard deviation S d of the field surface decreased from 9.54 cm before levelling to 2.42 cm after levelling, and the percentage of sampling points associated with absolute errors of &le, 3 cm was 84.06%. These outcomes meet the requirements of high-standard farmland construction. The test results of concrete levelling showed that within a radius of 30 m, the standard deviation S d of the elevation adjustment of the left laser receiver was 1.389 mm, and the standard deviation S d of the elevation adjustment of the right laser receiver was 1.316 mm. Furthermore, the percentage of the sampling points associated with absolute elevation adjustment errors of &le, 3 mm in the cases of the two laser receivers was 100% after levelling, whereas the standard deviation S d of the sand bed surface was 0.881 mm. Additionally, the percentage of the sampling points associated with absolute errors of &le, 3 mm was 100%. This met the construction standards of the concrete industry.
- Published
- 2020
- Full Text
- View/download PDF
3. Method and experiment for height measurement of scraper with water surface as benchmark in paddy field
- Author
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Jing He, Ying Zang, Xiwen Luo, Tang Lingmao, Zhao Runmao, Zhou Hao, and Lian Hu
- Subjects
Attenuation ,05 social sciences ,Forestry ,04 agricultural and veterinary sciences ,Horticulture ,Laser ,Computer Science Applications ,law.invention ,Scraper site ,law ,Benchmark (surveying) ,0502 economics and business ,040103 agronomy & agriculture ,0401 agriculture, forestry, and fisheries ,Paddy field ,Environmental science ,Diffusion (business) ,Agronomy and Crop Science ,050212 sport, leisure & tourism ,Energy (signal processing) ,Reliability (statistics) ,Marine engineering - Abstract
Leveling technology of paddy fields is an important part of the mechanization of rice production, which ensures the consistent depth of water layers to restrain the growth of weeds and improve the utilization of pesticides and fertilizers. However, when the working distance increases in paddy fields (due to laser energy attenuation and laser spot diffusion), the reliability and efficiency of existing laser-leveling technology decreases. To address those problems, a new leveling technology that uses water surface as a benchmark is introduced. The proposed method of water surface as a benchmark to measure the height of the scraper and a benchmark-Recognition algorithm embedded in the proposed method was developed. Experiments were conducted to validate the effectiveness and accuracy of the proposed method by comparing the results with those of existing methods (height measurement for scraper with laser plane as benchmark). The results obtained by the proposed method have similar trends in variation and higher resolution.
- Published
- 2018
4. Optimization Design and Experimental Testing of a Laser Receiver for Use in a Laser Levelling Control System.
- Author
-
Zang, Ying, Meng, Shibo, Hu, Lian, Luo, Xiwen, Zhao, Runmao, Du, Pan, Jiao, Jinkang, Huang, Hao, and Chen, Gaolong
- Subjects
CONCRETE construction industry ,LASERS ,EXPERIMENTAL design ,SIGNAL detection ,LASER beams ,OPTICAL communications - Abstract
The elevation detection accuracy of the laser receiver in the laser levelling control system directly affects land-levelling operations. To effectively improve the effect of levelling operations and meet the requirements for the accuracy of elevation detection in different industries, this study optimization designed a multilevel adjustable laser receiver. First, we examined the laser signal detection technology and processing circuit, designed the photoelectric conversion array for the detection of the rotating laser, and converted it into a photocurrent signal. We also designed the filter, amplifier, and shaping and stretching circuits for analogue-to-digital conversion of the photocurrent signal. The digital signal was calculated based on the deviation of the elevation by using a microprocessor and was output by a controller area network (CAN) bus. The laser beam spot diameter transmission and diffusion were then studied, and with the detectable spot diameters were compared and analyzed. Accordingly, an algorithm was proposed to calculate the deviation of laser receiver elevation. The resolution of the elevation deviation was set to ±3 mm; however, this value could be adjusted to ±6 mm, ±9 mm, ±12 mm, and ±15 mm, according to the requirements. Finally, the laser receiver was tested and analyzed, and the test results of the elevation detection accuracy showed that when the laser receiver was within a radius of 90 m, the elevation detection accuracy was within the ±3 mm range. The outcomes of the farmland-levelling test showed that the standard deviation S d of the field surface decreased from 9.54 cm before levelling to 2.42 cm after levelling, and the percentage of sampling points associated with absolute errors of ≤3 cm was 84.06%. These outcomes meet the requirements of high-standard farmland construction. The test results of concrete levelling showed that within a radius of 30 m, the standard deviation S d of the elevation adjustment of the left laser receiver was 1.389 mm, and the standard deviation S d of the elevation adjustment of the right laser receiver was 1.316 mm. Furthermore, the percentage of the sampling points associated with absolute elevation adjustment errors of ≤3 mm in the cases of the two laser receivers was 100% after levelling, whereas the standard deviation S d of the sand bed surface was 0.881 mm. Additionally, the percentage of the sampling points associated with absolute errors of ≤3 mm was 100%. This met the construction standards of the concrete industry. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
5. A review of global precision land-leveling technologies and implements: Current status, challenges and future trends.
- Author
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Chen, Gaolong, Hu, Lian, Luo, Xiwen, Wang, Pei, He, Jie, Huang, Peikui, Zhao, Runmao, Feng, Dawen, and Tu, Tuanpeng
- Subjects
- *
GLOBAL Positioning System , *AGRICULTURAL technology , *LAND use , *PRECISION farming , *NEUROTRANSMITTERS - Abstract
• Described the current status of land-leveling implements. • Analyzed the current status of laser-controlled leveling technology. • Analyzed the current status of GNSS-control leveling technology. • Analyzed the benefits of the application of land-leveling technology. • Discussed the challenges and future trends of land-leveling technology. Land leveling technology is necessary for land cultivation and is an important support for sustainable agricultural development. First, this paper reviews the current status of land-leveling implements, including dry-land and paddy-field leveling implements. Second, two precision land-leveling technologies, laser-controlled systems and the Global Navigation Satellite System (GNSS), are reviewed. The current status of laser-controlled leveling technology is considered in terms of its three primary components, the laser transmitter, laser receiver, and control terminal. The current status of GNSS-controlled leveling technology is also considered in terms of three aspects: three-dimensional (3D) topographical measurement of farmland, calculation of reference height and soil volume, and planning of work paths. The actual benefits of land-leveling technology applied to the production of different crops are statistically analyzed using metrics including improved land utilization, water savings, and increased yields. Finally, the challenges and future trends in land-leveling implements and technologies are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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