The Design of Intelligent Monitoring System on Tropical Greenhouse Crop Production Environment

Ling Ling Wang; Hong Xia Luo; Jian Hua Cao; Kun Lu; Ji Hua Fang; Shuai Chen

doi:10.4028/www.scientific.net/AMR.1073-1076.530

Paper Titles

Analysis of the Characteristics of Haze and its Pollutants in Wuhan
p.513

Investigation and Analysis on Heavy Metal Pollution Status in a Southern Landfill Site of Dredged Sediment
p.517

Optimization Monitoring Points of Urban Road Traffic Noise in Binzhou City
p.522

Research on Environmental Master Factors Discrimination of Sea Area in Tianjin Port
p.526

The Design of Intelligent Monitoring System on Tropical Greenhouse Crop Production Environment
p.530

Variability in δ¹³C and δ¹⁵N Stable Isotope Signatures in Mangrove Ecosystem of Hainan, China
p.535

Analysis of Contaminants Found from Soils in the Abandoned Railroad Sites
p.541

Analysis of Discharge Characteristics of Typical Rural Domestic Wastewater along the Tuojiang River
p.545

Application of Internet of Things in Air Pollution Monitoring
p.554

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1073-1076The Design of Intelligent Monitoring System on...

The Design of Intelligent Monitoring System on Tropical Greenhouse Crop Production Environment

Abstract:

Based on the growth characteristic of tropical greenhouse crop and field intelligent management demands for information of temperature, humidity, gas and light, the intelligent monitoring system on tropical greenhouse crop production environment is studied and designed respectively. The system includes two parts of hardware and software. In the part of hardware, mainly expounding hardware's function and communication protocol with software. It is composed of TINY210 development board and sensors. Software includes JAVA programming language, COM communication port, communication protocol, data collection and management. Finally, the system has been tested in the laboratory and the scheme's feasibility has been validated.

You might also be interested in these eBooks

Environmental Protection and Resource Utilization IV

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 1073-1076)

Pages:

530-534

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1073-1076.530

Citation:

Cite this paper

Online since:

December 2014

Authors:

Ling Ling Wang*, Hong Xia Luo, Jian Hua Cao, Kun Lu, Ji Hua Fang, Shuai Chen

Keywords:

Data Acquisition, Environment Information, Field Management, Sensor, Tropical Crops

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Wang Lingling, Huang Jiajian, Weng Shaojie, et al. Field information collection system for characteristic and tropical farming based on RFID [J]. Transactions of the CSAE, 2010, 26(Supp. 2): 98-102. (in Chinese with English abstract).

Google Scholar

[2] Yingbo Kan, Lingling Wang, Yishan Zhang, et al. Research on Control System of Tropical Intelligent Agriculture in Hainan [J]. Applied Mechanics and Materiaks, 2013, 385-386: 923-926.

DOI: 10.4028/www.scientific.net/amm.385-386.923

Google Scholar

[3] Li Nan, Liu Chengliang, Li Yanming, et al. Development of remote monitoring system for soil moisture based on 3S technology alliance[J]. Transactions of the CSAE, 2010, 26(4): 169－174. (in Chinese with English abstract).

Google Scholar

[4] Sharma S, Gifford S. Using RFID to evaluate evacuation behavior models[J]. Fuzzy Information Processing Society, 2005. NAFIPS2005. Annual Meeting of the North American, 26-28June2005: 804-808.

DOI: 10.1109/nafips.2005.1548643

Google Scholar

[5] Haiqing Yang. Modelling and Instrumentation of Soil and Plant Selected Properties Based on Visible-near-infrared Spectroscopy[D]. Zhejiang University(2011). (in Chinese with English abstract).

Google Scholar

[6] Xu Fuan, Xin Xiuli. Wireless Monitoring System for Environmental Parameters in Field and Its Application [J]. 8-10, 14.

Google Scholar

[7] Huang Liyan. Xiao Jiang. Ecological environment monitors of Flower Base used the technology of wireless sensor network[J]. Science and Technology Innovation Herald. 2005, No. 05: 15-16. (in Chinese with English abstract).

Google Scholar

[8] Fang Hui. The research on field information on collection system based Palm-sized PC[D]. Zhejiang University(2013). (in Chinese with English abstract).

Google Scholar

[9] Zhang Shujuan. The study of the collection and process of field information of Precision Agriculture based on the GPS and GIS[D]. Zhejiang University(2003). (in Chinese with English abstract).

Google Scholar

[10] Sun Yanghong. Configuration of Wireless Sensor Network on Collection Data of Field Information[D]. Henan Agricultural University(2010). (in Chinese with English abstract).

Google Scholar

[11] Zhao Yandong1, Bai Chenxiang1, Kuang Qiuming. Performance of three types of soil moisture sensors: SWR, TDR and FD. JournalofBeijingForestryUniversity(2006)Vol. 28(3): 158-160. (in Chinese with English abstract).

Google Scholar

[12] Kuang Yingchun. Studies on the Automatic Regulating System for Rice Water-Saving Irrigation in South Hilly Region[D]. Hunan Agricultural University(2011). (in Chinese with English abstract).

Google Scholar