Advanced Archive Password Recovery Pro v4.5 专业版(含注册码).rar 专注于为用户解决忘记密码的难题的一个团队,根据自己的密码字典及密码位数使用穷举法破解压缩软件的密码,官方网站www.elcomsoft.com http://www.elcomsoft.com/purchase/purchase_cb.php?product=archprn&tracking=PGM.ELCOM.35082260.29632430.CN...01.0001.DA0701000000180009000E000500CE02.ARCHPR&lang=CN Advanced Archive Password Recovery Advanced Archive Password Recovery recovers passwords and removes protection from ZIP and RAR archives created with all versions of PKZip, WinZip, RAR and WinRAR in their GUI and command-line incarnations. Being a flexible, customizable and highly-optimized password recovery tool, it offers best-in-class performance for recovering the most complex passwords. -------------------------------------------------------------------------------- Please, select the program edition: Standard Edition ($ 49) Basic edition of the program. Supported formats: ZIP ('classic' encryption only), RAR, ACE 1.X and ARJ. Professional Edition ($ 99) This edition has all functionality of the Standard one, but also supports WinZip archives with enhanced AES encryption (128-bit and 256-bit). In addition, it is able to unlock archives created by WinZip 8.0 and earlier versions in under one hour – guaranteed if there are 5 or more files in the archive.
2019-12-21 21:12:03 2.22MB Advanced Archive Password Recovery
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IDA Pro Advanced v5.5 with Hex-Rays Decompiler v1.1 Setup
2019-12-21 21:11:42 14MB IDA
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Advanced Engineering Mathematics - Michael D. Greenberg, 2nd Ed.part1.rar 太大,分开上传
2019-12-21 21:04:33 40MB Advanced Engineering Mathematics
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数字图像处理的书籍,希望能帮助大家,谢谢。
2019-12-21 20:59:28 15.85MB Digital Image Processing
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Cambridge 出版 Grammar in Use 系列的Advanced第三版,确认无误。
2019-12-21 20:57:35 101.28MB grammar
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可以破解7z -ZIP -RAR, Advanced Archive Password Recovery v4.74 build 45 最新破解压缩版本
2019-12-21 20:57:29 4.2MB
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作者Karl J. Astrom, Tore Hagglund,英文版。With a total of 13 chapters, this new book substantially expands on some of the topics covered in the previous versions and provides several new chapters that deal with controller design, feedforward design, replacement of the Ziegler-Nichols tuning rules, predictive control, loop and performance assessment and interaction. At this point in our book trilogy, we assume that the reader is highly familiar with control theory.
2019-12-21 20:51:12 26.42MB PID
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Springer International Publishing Switzerland 2017 This book consists of 30 chapters. Chapter 1 presents the theory and application of actuation of elastomeric micro-devices via capillary force technology. Chapter 2 provides insight into the fundamental design, working principles, and practical guidance of MEMS accelerometers. Details of experimental setups, signal conditioning, and data processing are also provided to construct an integrated performance assessment system. Chapter 3 gives an overview of the impact of the change from a focus on analysis, simulation, and modeling combined with outsourcing hardware design to the use of digital fabrication tools allowing a cyclic design process inside the lab, using many examples from various projects, and shares some insights and lessons learned for facilitating and implementing this process. Chapter 4 presents the design of a family of micro-robots capable of object manipulation in a fluidic environment. Chapter 5 discusses how state-of-theart mobile technologies may be integrated into human-in-the-loop cyber-physical systems and exploited to provide naturalmappings for remote interactions with such systems. A demonstrative example is used to show how an intuitive metaphor is uncovered for performing a balancing task through the teleoperation of a ball and beam test bed. Chapter 6 provides an overview on force/tactile sensor development. By exploiting optoelectronic technology, two tactile sensors that can be used to execute both fine manipulation of objects and safe interaction tasks with humans are designed and realized. Chapter 7 addresses a brief account of issues related to mechanical properties of MEMS. Micro-testing techniques including microtensile and micro-fatigue testing along with the hardware are described with typical sample type, shape, and geometry, depicted with diagrams and images. Chapter 8 studies a type of marmot-like rescue robot for mine safety detection and rescuing. The kinematics, maximum stiffness, minimum stiffness, and global stiffness of the head section of the rescue robot are modeled and analyzed. Chapter 9 presents a systematic review of key control schemes for reconfigurable robotic systems, highlighting their benefits and disadvantages, and also reviews the application of these systems at microscale. Chapter 10 gives a detailed overview of MEMSbased sensors and actuators. Chapter 11 proposes a novel sensing approach to in situ particulate material (soot) load measurement in a diesel particulate filter using electrical capacitance tomography (ECT). Chapter 12 provides an overview of three actuation mechanisms that are relevant for biomedical applications of microfluidics. The topics dealt with include dielectrophoresis, acoustophoresis, and magnetophoresis. Chapter 13 reviews a few mechatronic devices designed and used in ASD screening and discusses a few devices used for therapeutic purposes. Chapter 14 conducts a critical and thorough review on vapor/gas sensing properties of a wide range of electrochemically derivedmetal oxide nano-forms as the sensing layer employing a different device configuration. Chapter 15 develops a wearable blood pressure monitoring system using ultrasound and a microperfusion system using a metal needle with micro-flow channel for measurement of subepidermal biological substances. Chapter 16 discusses the fabrication strategies and materials for the development of physical, chemical, and biosensors. The emerging applications of flexible electronics in wound healing, wearable electronics, implantable devices, and surgical tools, as well as point-of-care diagnostic devices, are also explored. Chapter 17 presents several MEMS devices where the main application is agriculture. Chapter 18 shows the design, fabrication, and testing of a multifunctional MEMS sensor for use in hydraulic systems. The MEMS device is incorporated into a typical fluid power component. Chapter 19 proposes a piezoelectric-actuated rigid nano-needle for single cell wall (SCW) cutting. A fabricated tungsten (W) nano-needle is assembled with a commercial piezoelectric actuator laterally and perpendicularly. Chapter 20 develops a process planning-driven approach for the development of a robotic percussive riveting system for aircraft assembly automation. Chapter 21 introduces photoinduced fabrication technologies for 3D MEMS devices and examines four technologies and their outcome of applications where fabricated feature sizes decrease and resolution increases. Chapter 22 presents a design principle of the OKES by deriving a mathematical model and characterized the OKES performance in terms of working range, positioning accuracy, resolution, linearity, bandwidth, and control effectiveness with the nano-positioning systems. Chapter 23 presents a lab-on-chip microfluidics system for SCM measurement, related to the force required to drag a single cell and Newton’s law of motion inside microfluidics channel. Chapter 24 focuses on the characteristics of micromanipulation in terms of the types and principles of gripping forces. Chapter 25 discusses three important aspects of inertial microfluidics: fundamental mechanism, microchannel designs, and applications. Chapter 26 provides a detailed overview of the different types of piezoelectric force sensors and the dynamic calibration techniques that have been used to calibrate these sensors. Chapter 27 introduces a magnetically driven micro-robotics system to explain the procedure of developing a magnetic levitation stage and proposes a sensor switching mechanismthat combines magnetic flux measurement-based position determination and optical sensor-based position detection. Chapter 28 applies 3D printing molding methods to fabricate a miniature magnetic actuator for an optical image stabilizer, and the application of robust control techniques to actuate the developed miniature magnetic actuators is discussed. Chapter 29 deals with the concept of biofeedback control systems and its structure, and various applicable control methods which are designed to fulfill different system requirements are provided. Chapter 30 develops an inverse adaptive controller design method for the purpose of mitigating the hysteresis effect in the magnetostrictive-actuated dynamic systems.
2019-12-21 20:48:32 36.06MB MEMS Mechatronics Devices
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在开发板上安装linux系统时使用的一款烧写工具,使用很方便快速,烧写固件。
2019-12-21 20:43:28 2.47MB Linux 固件
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kaggle中的房价预测数据集,一共三个csv文件,包括:测试集,训练集和房价真实值
2019-12-21 20:37:59 191KB kaggle
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