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实验室信息管理系统(LIMS)促进实验室认证认可 总被引:1,自引:0,他引:1
本文通过介绍实验室信息管理系统(LIMS)在实验室认证认可中的应用,探讨LIMS与实验室认证认可的关系。运用LIMS能够提高实验室能力,加强和规范实验室管理水平,促进实验室认证认可。 相似文献
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毕玉春 《现代测量与实验室管理》2009,17(5):60-61,7
0引言 LIMS(实验室信息管理系统)是利用计算机网络技术、数据存储技术、快速数据处理技术对实验室进行全方位管理的计算机软硬件系统。20世纪70年代末第一代LIMS产生,2000年在我国开始推广商业化LIMS,现在实验室管理与LIMS结合的现象已比较普遍,因此最近进行了一次我国认可实验室使用LIMS的状况调查。 相似文献
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自动校准系统与实验室信息管理系统的连接 总被引:1,自引:0,他引:1
自动校准系统是指在程序特定运行环境中,由标准器、被校准仪器在计算机指令控制下,完成校准过程,获得、保存(或含处理)校准结果的程序。使用自动校准系统,可以提高校准速度和准确度。该文采用一种方法,在Labview7.1完成了MT8801无线通信分析仪自动校准系统的程序编写,通过LIMS数据库接口,完成与LIMS(实验室信息管理系统)的自动连接,出具PDF报告,做到了信息管理一体化。文中进一步探讨LIMS中的调度功能,并做有益的尝试,得出了综合性结论。 相似文献
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《现代测量与实验室管理》2016,(1)
实验室所出具的证书报告在顾客取走之前会在实验室客服中心暂存一段时间,如何接收、保管、发放及清理都需要科学的进行管理。本文就证书管理的方式与利弊作一分析,并推荐一种有序管理的编号规则。 相似文献
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检定是指查明和确认计量器具是否符合法定要求的程序,它包括检查、加标记和(或)出具检定证书。出具的证书与结论具有一定的法律效力。它是为客户提供的“终端产品”,在特定情况下它又是仲裁、执法的技术依据和证明,是“向社会出具具有证明作用的数据和结果”。证书的准确性和可靠性,不仅直接关系到客户的切身利益,也关系到实验室自身的荣誉和社会责任。 相似文献
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实验室技术人员每天不但要完成大量检测工作,同时还要出具大量的证书和报告,精力和时间上往往都不允许,一些实验室因此安排了专人打印证书.但由于他们对检测数据不太了解,证书时常出现一些错误.编制本程序的目的就是为了让检测人员可以高效地打印证书. 相似文献
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安石 《中国新技术新产品》2008,(11)
LIMS技术的发展为地矿实验室管理的全面提升,提供了软件平台.本文就LIMS技术的特点和构成做了简要的说明和应用领域的介绍,同时结合作者所在单位对LIMS技术的地矿实验室领域成功应用的实例,全面介绍LIMS技术在地矿实验室的应用现状,为其他实验室引进LINS技术全面提高整体管理水平,起到经验介绍作用和参考之用, 相似文献
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安石 《中国新技术新产品》2008,(15):12-12
LIMS技术的发展为地矿实验室管理的全面提升,提供了软件平台,本文就LIMS技术的特点和构成做了简要的说明和应用领域的介绍,同时结合作者所在单位对LIMS技术的地矿实验室领域成功应用的实例,全面介绍LIMS技术在地矿实验室的应用现状,为其他实验室引进LINS技术全面提高整体管理水平,起到经验介绍作用和参考之用, 相似文献
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我国信息管理系统起步较晚,如今信息管理系统已经应用在各个领域.在检测和校准实验室中,实验室信息管理系统也得到了广泛的应用.大力发展实验室信息管理系统(Laboratory Information Management System,以下简称LIMS)为提高实验室核心竞争力有着重要意义.本文探讨运用LIMS提升实验室工作能力、效率,并结合ISO/IEC 17025:2005,GB/T 27025-2008,ASTM E1578-2013并以CNAS-CL35:2012为例分析了国内外对于实验室信息管理体系的标准化工作的发展现状. 相似文献
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The task of managing laboratory data is not a new one. Over the past two decades, the use of Laboratory Information Management Systems (LIMS) has revolutionized how laboratories manage their data. A LIMS is more than software; it has become the workhorse of the laboratory, encompassing laboratory work-flow combined with user input, data collection, instrument integration, data analysis, user notification, and delivery of information and reporting. Types of organizations that utilize LIMS vary greatly from research laboratories to manufacturing laboratories to environmental testing laboratories. Commercially-available LIMS have been around since the 1980s. In addition, many laboratories have designed, implemented, and maintained in-house LIMS. The heart of any LIMS is the software. Like other laboratory systems, the LIMS software is subject to quality control and quality assurance checks. In regulatory environments this associated QA/QC is referred to as "system validation." The primary purpose of system validation is to ensure that the software is performing in a manner for which it was designed. For example, the system acceptance criteria should be established and tested against quantifiable tasks to determine if the desired outcome has been achieved. LIMS features, such as autoreporting, reproducibility, throughput, and accuracy must be quantifiable and verifiable. System validation ensures that the entire system has been properly tested, incorporates required controls, and maintains and will continue to maintain data integrity. Laboratories must establish protocols and standards for the validation process and associated documentation. Although vendors of commercial LIMS perform initial internal system validations, the system must be revalidated whenever the end user, vendor or third party adds modifications or customizations to the LIMS. Currently, detailed guidance regarding system validation of LIMS is not available to the user. The issue is addressed in Good Automated Laboratory Practices (GALP) and National Environmental Laboratory Accreditation Conference (NELAC) documents which indicate specific requirements or recommendations for operational checks and periodic testing; however, it is up to the laboratory to determine suitable methods to accomplish these tasks. Proper validation of a LIMS will allow a laboratory to comply with regulations and also provide comprehensive documentation on the system that is necessary to troubleshoot future problems. 相似文献
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《国际设备工程与管理》2016,(3)
There are numerous electricians,but only a few of them have obtained certificate. Training and examination agencies provide services relating to training,examination,and certificate application and so on.Thus,training resources are not rationally utilized,and the increased training demand cannot be fully satisfied.Under such circumstances,it is recommended to transform the regulatory agency mode by establishing a scientific management process,and put forward a new mode of electrical grid access training and examination to better meet related demands. Under the coordination of examination center regulatory agency, uniform training program,training materials,charging standard,examination and certificate can be guaranteed. This project is carried out as an effort to improve the quality of electronic- engineering training and examination,so that electricity accident rate can be reduced,and the security of electrical grid operation can be guaranteed to boost the rapidly developing economy. 相似文献
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A. V. Strelkov A. B. Zhilin A. M. Gaskov Yu. D. Tretyakov 《Journal of Materials Science》1995,30(18):4737-4739
Laser-induced ion mass spectrometry (LIMS) was used for the analysis of oxide phases in the Y-Ba-Cu-O system. The formation of polynuclear ions (clusters) as a result of laser sputtering of oxides was examined. The possibility of quantitative phase analysis of inhomogeneous oxide materials in the Y-Ba-Cu-O system by the LIMS technique is demonstrated. 相似文献
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新的记者证制作中有两处采用了珠光油墨,浅析了珠光油墨的成分、显色原理以及适印方式,并且介绍了新的记者证制作中珠光油墨的配制、印刷方式及生产技术要点. 相似文献