露天采矿环境下通讯稳定性的空间问题研究及应用
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摘要
“数据”对露天矿生产管理的重要性不言而喻,无线网络的不稳定性与设备的移动性都威胁着数据传输的稳定性。本文以某露天矿生产管理系统为研究背景,探究基于空间位置的移动数据传输稳定性保障策略。针对矿区环境特点,对比信号强度、传输距离、延迟时间与矿区无线网络状态的相关性,发现以延迟时间为指标获得的Kriging插值结果,可以准确反映网络状态。提出适用于Kriging插值结果的空间查询方法:将插值结果转化为矢量形式,提取特征值,进而利用最小外接矩形与精确空间判断相结合的方法进行空间查询,实现了移动终端对网络状态的动态查询,并验证了方法的可行性。将基于事务的工作流管理方式引入露天采矿移动设备事务管理,对其进行优化。以自卸车业务为例,证实了使用上述方法可以提高数据传输稳定性,为露天矿生产管理提供保障。
The importance of "data" in open-pit production management is self-evident. Theinstability of the wireless network and mobility of devices are threatening the stabilityof data transmission. In this dissertation, an open-pit production management system istaken as the research background, to explore the strategy to guarantee the stability ofspatial location-based mobile data transmission. In the light of the characteristics ofmining environment, by contrasting the dependency between signal strength,transmission distance, the delay time and wireless network status in mining area, it isfound that the Kriging interpolation results obtained by taking the delay time as anindicator can accurately reflect the network status. The spatial query method applicableto Kriging interpolation results is proposed: interpolation results is transformed intovector form, and the feature value is extracted, then spatial query is conducted by themethod of combining the minimum bounding rectangle with accurate spatial judgment,thus achieving dynamic queries of mobile terminal to the network status. Thefeasibility of the method has been verified. The research introduces the transactionalproperty-based workflow management to open-pit mobile terminal transactionmanagement and optimizes them. With truck terminal as example, it is proved that thestability of data transmission can be improved through the above mentioned method,thus providing guarantee for the open-pit production management.
The importance of "data" in open-pit production management is self-evident. Theinstability of the wireless network and mobility of devices are threatening the stabilityof data transmission. In this dissertation, an open-pit production management system istaken as the research background, to explore the strategy to guarantee the stability ofspatial location-based mobile data transmission. In the light of the characteristics ofmining environment, by contrasting the dependency between signal strength,transmission distance, the delay time and wireless network status in mining area, it isfound that the Kriging interpolation results obtained by taking the delay time as anindicator can accurately reflect the network status. The spatial query method applicableto Kriging interpolation results is proposed: interpolation results is transformed intovector form, and the feature value is extracted, then spatial query is conducted by themethod of combining the minimum bounding rectangle with accurate spatial judgment,thus achieving dynamic queries of mobile terminal to the network status. Thefeasibility of the method has been verified. The research introduces the transactionalproperty-based workflow management to open-pit mobile terminal transactionmanagement and optimizes them. With truck terminal as example, it is proved that thestability of data transmission can be improved through the above mentioned method,thus providing guarantee for the open-pit production management.
引文
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