File
File的相关文献在1991年到2022年内共计184篇,主要集中在自动化技术、计算机技术、畜牧、动物医学、狩猎、蚕、蜂、无线电电子学、电信技术
等领域,其中期刊论文181篇、会议论文1篇、专利文献2篇;相关期刊81种,包括软件、计算机应用文摘、电脑爱好者等;
相关会议1种,包括中国电子学会电子对抗分会第十一届学术年会等;File的相关文献由166位作者贡献,包括霍莉·韦伯、波莉·邓巴、肖棉袄等。
File
-研究学者
- 霍莉·韦伯
- 波莉·邓巴
- 肖棉袄
- 张继春
- 王志军
- 飘零雪
- OKBOY
- 冯亦参
- 刘景云
- 奚舸
- 姚路
- 王厚勇
- 王昌平
- 阿楠1
- 2. Department of Resource and Environment Sciences Jiangxi Normal University Nanchang 3300
- 2.State Key Laboratory of Software Engineering Wuhan UniversityWuhan 430072 China
- Akira Sawada
- Basheer Riskhan
- Bright U. Ezeoha
- Burnett
- Cao Yang
- Cry
- DAN
- Don't
- Emmanuel N. Ekwonwune
- FRAKES
- Fossen
- Ge Wei
- HU Bao-qing14 JIANG Mei-xin2 JUN Su-lan3 ZENG Qiao-song4 ( 1. Department of Geography Guangxi Normal College Narming 530001 P. R. China
- Hiroaki Tanabe
- Jason
- JoeSalemi
- Kamaruddin Malik Mohamad
- Karen Bemowski
- Koichiro Yamakado
- Li Bing 1 Lu Zheng ding 1 Peng De chun 2 1.College of Computer Science TechnologyHuazhong University of Science TechnologyWuhan 430074 China
- Mark
- Masaki Kokubo
- Masaki Sueoka
- Masao Tanooka
- Mork
- Moukouop Nguena Ibrahim
- Moupojou Matango Emmanuel
- Noboru Okuuchi
- Nurul Azma Abdullah
- Raza Muhammad
- Rosziati Ibrahim
- Salem.J
- Sho Taniuchi
- Steve Seguis
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童乐安1
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摘要:
常常见到有人因不小心删除了有用文件而捶陶顿足或垂头丧气。其实,即便是清空了回收站,甚至是格式化了存储设备,文件也还可能有救。我们可以尝试用一款免费软件Orion File Recovery来恢复文件。
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马震安1
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摘要:
想将某个文件夹所包含的文件的文件名提取出来,放在工作表中作为他用,如果一个一个地录入或用复制粘贴的办法都是非常费事的。其实,只需要FILE、INDEX这两个函数配合使用,文件名的提取就是小事一桩。
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阿楠1
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摘要:
有时,我们需要在两个文件夹之间进行文件同步操作,以便完成文件备份或更新任务。如果使用手动拷贝的方式来同步或更新文件,不但效率比较低,还可能因误操作造成文件遗漏或旧文件覆盖新文件的情况。若利用Free File Sync免费同步软件进行操作,就可以避免这类问题的发生。
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阿楠1
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摘要:
如果磁盘中收藏了许多照片、视频、音乐或电子书等文件,当遇到磁盘空间紧张的情况时,查找重复的文件并对它们进行清理,是腾出磁盘空间的手段之一。利用Auslogics Duplicate File Finder软件,可以高效地查找并清理电脑中重复的文件。
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老万1
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摘要:
Q:现在很多软件程序都有一些流氓属性,它们经常会在系统后台悄悄地读取一些文件。通过什么方法可以快速了解到,哪些文件被哪些程序读写过?A:下载运行File Activity Watch这款工具,运行后它就可以实时监控当前系统中正在读写的所有文件,并且通过列表的形式给出文件的名称、读写进程的名称、进程PID等相关信息。另外通过不同的颜色,对文件读写的状态进行区分。
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Masaki Sueoka;
Akira Sawada;
Hiroaki Tanabe;
Yuki Okada;
Sho Taniuchi;
Noboru Okuuchi;
Masao Tanooka;
Masaki Kokubo;
Koichiro Yamakado
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摘要:
Purpose: We performed both, dosimetric and positional accuracy verification of dynamic tumor tracking (DTT) intensity modulated radiation therapy (IMRT), with the Vero4DRT system using a moving phantom (QUASAR respiratory motion platform;QUASAR phantom) and system log files. Methods: The QUASAR phantom was placed on a treatment couch. Measurement of the point dose and dose distribution was performed for conventional IMRT, with the QUASAR phantom static and moving;for DTT IMRT, this was performed with the phantom moving for pyramid shaped, prostate, paranasal sinus, and pancreas targets. The QUASAR phantom was driven by a sinusoidal signal in the superior-inferior direction. Furthermore, predicted positional errors induced by the Vero4DRT system and mechanical positional errors of the gimbal head, were calculated using the system log files. Results and Conclusion: For DTT IMRT, the dose at the evaluation point was within 3% compared with the verification plan, and the dose distribution in the passing rates of γ was 97.9%, with the criteria of 3% dose and 3 mm distance to agreement. The position error calculated from the log files was within 2 mm, suggesting the feasibility of employing DTT IMRT with high accuracy using the Vero4DRT system.
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韩怡;
付宏宇;
侯晓玫
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摘要:
目的:比较ProGlider、HyFlex EDM Glidepath File、RaCe ISO 10、PathFile和手动不锈钢K锉在树脂模拟根管制备的通畅通道对ProTaper Next成形能力的影响。方法:40个模拟根管,随机分为5组,分别制备通畅通道,随后统一用ProTaper Next根备到X2,记录通畅锉和ProTaper Next的操作时间;使用Photoshop和ImageJ测量从根尖止点开始,每隔1mm内外侧壁树脂去除量,计算中心定位能力。结果:HyFlex EDM Glidepath File和RaCe ISO 10制备的通畅通道形态显著降低后续ProTaper Next根备时间。中心定位能力方面,距根尖孔0~2mm处,HyFlex EDM Glidepath File+ProTaper Next最优,不锈钢K锉+ProTaper Next偏移最大。距根尖孔3~6mm处,HyFlex EDM Glidepath File和RaCe ISO10+ProTaper Next最优,ProGlider+ProTaper Next的偏移显著增大,超过不锈钢K锉+ProTaper Next的偏移量。结论:通畅通道形态对ProTaper Next根管预备形态有显著影响。根尖偏移小,中上段开敞好的通道,ProTaper Next中心定位能力最优。
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Emmanuel N. Ekwonwune;
Bright U. Ezeoha
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摘要:
The bane of achieving a scalable distributed file sharing system is the centralized data system and single server oriented file [sharing] system. In this paper, the solution to the problems in a distributed environment is presented. Thus, inability to upload sizeable files, slow transportation of files, weak security and lack of fault tolerance are the major problems in the existing system. Hence, the utmost need is to build a client-server network that runs on two or more server systems in order to implement scalability, such that when one server is down, the other(s) would still hold up the activities within the network. And to achieve this reliable network environment, LINUX network operating system is recommended among others as a preferred platform for the synchronization of the server systems, such that every user activity like sending of internal memos/mails, publication of academic articles, is replicated;thereby, achieving the proposed result. Hence, Scalable Distributed File Sharing System provides the robustness required to having a reliable intranet.
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