共查询到19条相似文献,搜索用时 62 毫秒
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为得到高精度海洋CTD测量,应考虑到仪器的几方面校准,温度、电导率和压力传感器应在固定周期(每年3次)内和在每个航次前后进行检测。校准期间测量和记录传感器漂移对修正数据十分重要,可证实传感器工作状况,校准标准本身应与基准相比测,并与其他校准实验室互校,海上校准测试对验证传感器漂移率稳定性也很重要(对电导率传感器尤为重要,当通过大洋表面油层下降时,其校准可明显变化),如实验室校准及现场测量与单一传感 相似文献
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宋文洋 《山东海洋学院学报》1985,(C00):272-273
认识海洋是海洋科学的任务,改进作业技术、仪器设备和调查方法则是海洋技术的任务。他们之间是密切相关、相互促进的。虽然各项海洋活动,都有它本身的特殊要求,但是共同的科学和技术知识几乎所有的海洋科学的发展都需要它们。近代海洋科学技术的发展,要求它的探测仪器和设备更加现代化,所以这样要求是由海洋性质决定的。 相似文献
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加强海洋仪器质量管理之我见郭长松质量是根本,质量是海洋技术所的生命。只有狠抓质量,强化管理,才能形成拳头产品,才能争得市场,赢得用户。海洋仪器是海洋环境监测、海洋资源开发中必不可少的手段。而海洋作业环境条件恶劣,这就要求海洋仪器必须先进可靠,其质量问... 相似文献
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宋文洋 《山东海洋学院学报》1985,(C00):279-279
海洋环境使用的海洋仪器由于受到多种复杂外界因素的影响使实验室不存在的问题在现场使用却成为很大问题。海洋仪器与装置多数情况下是在水下使用,因此要求仪器的水密性能可靠,尤其在深海使用时水密问题就更加重要了。由于设计或工艺制造上不慎就是在100~200米水深使用的仪器也能引起渗漏使仪器无法正常工作, 相似文献
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针对海洋数据格式与海洋信息应用系统的异构性,提出一种基于移动代码(Mobile code)的海洋大数据处理软件体系结构。首先,利用统一的网络服务接口与数据交换格式,规范海洋信息应用系统之间的数据访问与共享。其次,通过移动代码将海洋大数据的处理过程移至云端,提高信息处理效率。应用示例实现了异构海洋信息应用系统间的互操作,并且缩短了海量数据的处理时间,验证了该体系结构在海洋大数据处理中的通用性与有效性。 相似文献
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It is demonstrated that the Jason-1 measurements of sea surface height (SSH), wet path delay, and ionosphere path delay are within required accuracies, via a global cross-calibration with similar measurements made by TOPEX/Poseidon (T/P) over a 6-month period. Since the two satellites were on the same groundtrack separated in time by only 70 s, measurements were recorded at approximately the same location and time. The variations in the wet path delay measured by Jason-1 compared to T/P are only 5 mm RMS, well within the required performance of 1.2 cm RMS. The RMS of the ionosphere differences is also well within the expected values, with a mean RMS of 1.2 cm. The largest difference is that the Jason-1 SSH is biased high relative to T/P SSH by 144 mm after the T/P and Jason-1 data are both corrected with improved sea state bias (SSB) models. However, the bias will change if a different SSB model is used, so the user should be cautious that the bias used matches the SSB models. The bias is generally constant within ± 10 mm in the open ocean, but appears to be higher or lower in some regions. Additionally, the SSH has been verified by comparison with 36 island tide gauges over the same period. After removing the global relative bias, the Jason-1 SSH data agree with tide gauges within 3.7 cm RMS and with T/P data within about 3.5 cm RMS on average for 1-s measurements, meeting the required accuracy of 4.2 cm RMS. 相似文献
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《Marine Geodesy》2013,36(3-4):305-317
It is demonstrated that the Jason-1 measurements of sea surface height (SSH), wet path delay, and ionosphere path delay are within required accuracies, via a global cross-calibration with similar measurements made by TOPEX/Poseidon (T/P) over a 6-month period. Since the two satellites were on the same groundtrack separated in time by only 70 s, measurements were recorded at approximately the same location and time. The variations in the wet path delay measured by Jason-1 compared to T/P are only 5 mm RMS, well within the required performance of 1.2 cm RMS. The RMS of the ionosphere differences is also well within the expected values, with a mean RMS of 1.2 cm. The largest difference is that the Jason-1 SSH is biased high relative to T/P SSH by 144 mm after the T/P and Jason-1 data are both corrected with improved sea state bias (SSB) models. However, the bias will change if a different SSB model is used, so the user should be cautious that the bias used matches the SSB models. The bias is generally constant within ± 10 mm in the open ocean, but appears to be higher or lower in some regions. Additionally, the SSH has been verified by comparison with 36 island tide gauges over the same period. After removing the global relative bias, the Jason-1 SSH data agree with tide gauges within 3.7 cm RMS and with T/P data within about 3.5 cm RMS on average for 1-s measurements, meeting the required accuracy of 4.2 cm RMS. 相似文献
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