南京师范大学学报:工程技术版
南京師範大學學報:工程技術版
남경사범대학학보:공정기술판
Journal of Nanjing Nor Univ: Eng and Technol
2012年
2期
69-73
,共5页
朱晓舒%时斌%齐亮%葛学峰
硃曉舒%時斌%齊亮%葛學峰
주효서%시빈%제량%갈학봉
ZigBee%水质监控系统%CC2530
ZigBee%水質鑑控繫統%CC2530
ZigBee%수질감공계통%CC2530
ZigBee%water quality monitoring system%CC2530
针对现有水质监测系统存在的问题,设计实现了基于ZigBee无线网络技术和嵌入式系统技术的水质在线监控系统.系统以CC2530和ADSl234为核心,组成水质监控节点,部署于监控水域对水质信息进行采集、预处理和无线发送等工作,通过基于ARMll的嵌入式网关与以太网连接,将采集数据传输至远程主机,通过远程监控中心系统实现对采集数据处理和实时监控.试验结果表明,系统实现了稳定可靠的数据传输,时效性好,运行成本低,适合水质信息的远程和实时监控.
針對現有水質鑑測繫統存在的問題,設計實現瞭基于ZigBee無線網絡技術和嵌入式繫統技術的水質在線鑑控繫統.繫統以CC2530和ADSl234為覈心,組成水質鑑控節點,部署于鑑控水域對水質信息進行採集、預處理和無線髮送等工作,通過基于ARMll的嵌入式網關與以太網連接,將採集數據傳輸至遠程主機,通過遠程鑑控中心繫統實現對採集數據處理和實時鑑控.試驗結果錶明,繫統實現瞭穩定可靠的數據傳輸,時效性好,運行成本低,適閤水質信息的遠程和實時鑑控.
침대현유수질감측계통존재적문제,설계실현료기우ZigBee무선망락기술화감입식계통기술적수질재선감공계통.계통이CC2530화ADSl234위핵심,조성수질감공절점,부서우감공수역대수질신식진행채집、예처리화무선발송등공작,통과기우ARMll적감입식망관여이태망련접,장채집수거전수지원정주궤,통과원정감공중심계통실현대채집수거처리화실시감공.시험결과표명,계통실현료은정가고적수거전수,시효성호,운행성본저,괄합수질신식적원정화실시감공.
Based on the ZigBee wireless communication and embedded system technique, a new water quality monitoring system is developed and tested for solving the shortcomings of existing water monitoring system. The water monitor node centered on CC2530 and ADS1234 is used to take charge of data sampling, preprocessing and wireless transmitting collected data transmitted through the gateway based on ARM11 to the remote host PC. Remote monitoring centre system can achieve data analysis and remote, real-time monitoring. The experimental results show that the new system has a stable data transmission, good timeliness and low operation cost, which can meet the need of water qualitymonitoring under the new situation.
