Fast Apps

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Fast Apps

机译：快速应用

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Man Truck & Bus Oster-reich AG strived to create a more efficient design for a truck assembly line. They were interested in anticipating the assembly sequence, looking to improve the assembly process significantly and make the operations faster and more efficient. MAN was able to simplify the setup process of the assembly line while also making it run more efficiently than ever before. This was possible because the designers, operators and subcontractors were able to exchange views about a 3D prototype before the manufacturing facility was in place. They were also able to reduce the time to launch and the cost by bringing line-testing operations down from two weeks to one day.

机译：曼卡车与客车公司Oster-reich AG致力于为卡车装配线创建更高效的设计。他们对预期组装顺序感兴趣，希望显着改善组装过程并使操作更快，更有效。 MAN能够简化装配线的设置过程，同时还使其运行效率比以往任何时候都高。之所以可能这样做，是因为设计人员，操作员和分包商能够在制造工厂就位之前就3D原型交换意见。他们还可以通过将线路测试操作从两周缩短到一天来减少发布时间和成本。

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《Desktop engineering 》 |2015年第1期| 55-55| 共1页
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1. Making Fast Photoswitches Faster-Using Hammett Analysis to Understand the Limit of Donor-Acceptor Approaches for Faster Hemithioindigo Photoswitches [J] . Benjamin Maerz, Sandra Wiedbrauk, Sven Oesterling, Chemistry: A European journal . 2014 ,第43期

机译：使用Hammett分析更快地制作快速光电开关，以了解更快的半硫靛蓝光电开关的供体-受体方法的局限性
2. Approximation of the Fixed Point of Multivalued Quasi-Nonexpansive Mappings via a Faster Iterative Process with Applications [J] . Godwin Amechi Okeke, Mujahid Abbas, Manuel de la Sen Discrete dynamics in nature and society . 2020 ,第4期

机译：通过应用程序的更快的迭代过程近似多值Quasi-notxpansive映射的固定点
3. Low-power MCUs continue assault on portable apps - For these devices, the usual buzzwords still apply: faster, better, cheaper [J] . Richard Nass Portable Design: The Engineer's Resource for Portable Applications . 2005 ,第3期

机译：低功耗MCU继续对便携式应用程序发起攻击-对于这些设备，惯用的流行语仍然适用：更快，更好，更便宜
4. γ-Independent H{sub}∞-Discretization of Sampled-Data Systems by Modified Fast-Sample/Fast-Hold Approximation with Fast Lifting [C] . Tomomichi Hagiwara, Koichiro Okada American Control Conference . 2008

机译：γ-独立的H {子}通过快速提升通过修改的快速样本/快速保持近似进行采样数据系统的离散化
5. Faster algorithms for read mapping and application to fusion detection [D] . Gupta, Nitish 2016

机译：更快的算法，用于读取映射并将其应用于融合检测
6. Reliability of Serum Metabolites over a Two-Year Period: A Targeted Metabolomic Approach in Fasting and Non-Fasting Samples from EPIC [O] . Marion Carayol, Idlir Licaj, David Achaintre, -1

机译：两年期间血清代谢产物的可靠性：空腹和非空腹样本中有针对性的代谢组学方法
7. The bacterial identification and antimicrobial susceptibility testing are usually performed manually. Recently, the number of samples has increased and the need for automatification has grown. BioMerieux has investigated Vitek2 for this purpose. HUSLAB has assigned us to compare the identification and antimicrobial results with respect to routine methods and Vitek2. Furthermore, we evaluate test reactions, ESBL (Extended Spectrum Beta-Lactamase) production and the time what it takes to get results with Vitek2. In this study, we examined a total of 183 bacterial isolates including 76 ESBL-strains, 40 nonfermenting rods, 41 fastidious bacteria and 26 fresh clinical isolates. The results of routine methods were gathered from the patient database and following this, compared to the results given by Vitek2. Vitek2 correctly identified more than 96 f the ESBL-strains and fresh clinical isolates. The results of nonfermenting rods and fastidious bacteri a were 70 oncordant with those of the routine methods. Test reaction results of Api20E were 94 nd Api20NE 70 n concordance with Vitek2 results. Approximately 80 f all Vitek2 antimicrobial results and 90 f ESBL test results were correct. Compared to earlier studies, Vitek2 performed the tests faster than the routine methods. These results suggest that Vitek2 is capable of giving rapid and accurate results. However, nonfermenting rods and fastidious bacteria should be studied further. [O] . Järveläinen Marika, Roslund Iira, Silander Maarit 2006

机译：细菌鉴定和抗菌药敏试验通常是手动进行的。最近，样品的数量增加了，并且对自动化的需求也在增长。 BioMerieux为此进行了Vitek2的研究。 HUSLAB已指派我们比较常规方法和Vitek2的鉴定和抗菌结果。此外，我们还评估了测试反应，ESBL（扩展频谱β-内酰胺酶）的产生以及使用Vitek2获得结果所需的时间。在这项研究中，我们检查了总共183个细菌分离株，包括76个ESBL菌株，40个非发酵棒，41个营养细菌和26个新鲜临床分离株。从患者数据库中收集常规方法的结果，然后将其与Vitek2给出的结果进行比较。 Vitek2正确鉴定出超过96种ESBL菌株和新鲜的临床分离株。与常规方法相比，非发酵棒和精制细菌的结果为70。 Api20E的测试反应结果与Vitek2结果一致为94nd Api20NE 70 n。所有Vitek2抗菌结果约80 f和ESBL测试结果90 f正确。与早期的研究相比，Vitek2的测试速度快于常规方法。这些结果表明Vitek2能够给出快速而准确的结果。但是，应进一步研究非发酵棒和营养细菌。

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