Radio frequency identification (RFID) technology is witnessing a recent explosion of development in both industry and academia. A number of applications include supply chain management, electronic payments, RFID passports, environmental monitoring and control, office access control, intelligent labels, target detection and tracking, port management, food production control, animal identification, and so on. RFID is also an indispensable foundation to realize the pervasive Computing paradigm—“Internet of things.” It is strongly believed that many more scenarios will be identified when the principles of RFID are thoroughly understood, cheap components available, and when RFID security is guaranteed.
標簽: Architectures NETWORKS SENSOR RFID AND
上傳時間: 2020-06-08
上傳用戶:shancjb
Radio frequency identification (RFID) is gaining in popularity, especially as we find ourselves in this communications age and headed towards a ubiquitous Computing world. Automatic identification systems become an important aspect not just in today’s technology but also as part of our daily life. We need RFID in our cars, transportation systems, access points, and even simple transactions; we also acknowledge the need for RFID in our logistics systems, healthcare, and tracking and locating applications.
標簽: RFID-Enabled Appications Design Sensor and
上傳時間: 2020-06-08
上傳用戶:shancjb
We are in the era of ubiquitous Computing in which the use and development of Radio Frequency Iden- tification (RFID) is becoming more widespread. RFID systems have three main components: readers, tags, and database. An RFID tag is composed of a small microchip, limited logical functionality, and an antenna. Most common tags are passive and harvest energy from a nearby RFID reader. This energy is used both to energize the chip and send the answer back to the reader request. The tag provides a unique identifier (or an anonymized version of that), which allows the unequivocal identification of the tag holder (i.e. person, animal, or items).
上傳時間: 2020-06-08
上傳用戶:shancjb
This book was written by Michael Margolis with Nick Weldin to help you explore the amazing things you can do with Arduino. Arduino is a family of microcontrollers (tiny computers) and a software creation envi- ronment that makes it easy for you to create programs (called sketches) that can interact with the physical world. Things you make with Arduino can sense and respond to touch, sound, position, heat, and light. This type of technology, often referred to as physical Computing, is used in all kinds of things, from the iPhone to automobile elec- tronics systems. Arduino makes it possible for anyone—even people with no program- ming or electronics experience—to use this rich and complex technology.
上傳時間: 2020-06-09
上傳用戶:shancjb
Human Factors and Systems Interaction aims to address the main issues of concern within systems interface with a particular emphasis on the system lifecycle development and implementation of interfaces and the general implications of virtual, augmented and mixed reality with respect to human and technology interaction. Human Factors and Systems Interaction is, in the first instance, affected by the forces shaping the nature offuture Computing and systems development
標簽: Interactions Advances Factors System Human and in
上傳時間: 2020-06-10
上傳用戶:shancjb
Although state of the art in many typical machine learning tasks, deep learning algorithmsareverycostly interms ofenergyconsumption,duetotheirlargeamount of required computations and huge model sizes. Because of this, deep learning applications on battery-constrained wearables have only been possible through wireless connections with a resourceful cloud. This setup has several drawbacks. First, there are privacy concerns. Cloud Computing requires users to share their raw data—images, video, locations, speech—with a remote system. Most users are not willing to do this. Second, the cloud-setup requires users to be connected all the time, which is unfeasible given current cellular coverage. Furthermore, real-time applications require low latency connections, which cannot be guaranteed using the current communication infrastructure. Finally, wireless connections are very inefficient—requiringtoo much energyper transferredbit for real-time data transfer on energy-constrained platforms.
標簽: Embedded_Deep_Learning Algorithms
上傳時間: 2020-06-10
上傳用戶:shancjb
Computer science as an academic discipline began in the 1960’s. Emphasis was on programming languages, compilers, operating systems, and the mathematical theory that supported these areas. Courses in theoretical computer science covered finite automata, regular expressions, context-free languages, and computability. In the 1970’s, the study of algorithms was added as an important component of theory. The emphasis was on making computers useful. Today, a fundamental change is taking place and the focus is more on a wealth of applications. There are many reasons for this change. The merging of Computing and communications has played an important role. The enhanced ability to observe, collect, and store data in the natural sciences, in commerce, and in other fields calls for a change in our understanding of data and how to handle it in the modern setting. The emergence of the web and social networks as central aspects of daily life presents both opportunities and challenges for theory.
標簽: Foundations Science Data of
上傳時間: 2020-06-10
上傳用戶:shancjb
The 9th International Conference on Large-Scale Scientific Computations (LSSC 2013) was held in Sozopol, Bulgaria, during June 3–7, 2013. The conference was organized and sponsored by the Institute of Information and Communication Technologies at the Bulgarian Academy of Sciences.
標簽: Large-Scale Scientific Computing
上傳時間: 2020-06-10
上傳用戶:shancjb
1.1.概述Advanced TCA(Advanced Telecom Computing Architecture,簡稱ATCA)標準是由Compact PCI標準進一步發展而來,由于在高性能和高穩定性上有了很大的提升,因此,可以滿足未來幾年電信領域技術發展的需求。目前,ATCA標準已在公司某些產品線提出需求和引用,為配合硬件平臺和產品線即將對ATCA標準展開的全面的產品研發,結構系統部提出對ATCA標準的結構提前預研設計,避免發生類似前期產品設計中在新標準的引用上時間緊、對標準理解不透、產品缺乏實際應用檢驗就批量生產等現象而導致的一系列問題。ATCA標準中對機械結構部分的相關接口、尺寸和形式等作了詳細描述。由于本項目為結構預研項目,所以本方案僅涉及插箱部分關鍵結構形式方面的內容描述,不對實際產品應用中的結構形式作分析。1.2.目標1、對目前市場上的ATCA類產品的結構性能做對比分析;2、插箱總體結構上體現整機結構功能模塊的布局和性能實現,單板結構方面重點對起拔器性能做分析;3、滿足ATCA際準對設備散熱能力的要求;4、滿足設備在EMCESD方面的性能要求;5、體現局部功能單元的方案實現細節。
標簽: ATCA標準
上傳時間: 2022-07-04
上傳用戶:
Matlab_2016a 完整破解版下載 使用增強的設計環境和 UI 組件集開發 MATLAB 應用。深度學習用于圖像分類問題。訪問模板、最新模型以及精選示例。創建包含事件操作和新模塊的離散事件模型和調度程序。使用標準座艙儀器顯示飛行條件。在線編輯器,用于:開發包含結果和圖形以及相關代碼的實時腳本創建用于分享的交互式描述,包括代碼、結果和圖形以及格式化文本、超鏈接、圖像及方程式MATLAB應用設計器,使用增強的設計環境和擴展的 UI 組件集構建帶有線條圖和散點圖的 MATLAB?應用全新多 y-軸圖、極坐標圖和等式可視化暫停、調試和繼續 MATLAB 代碼執行Neural Network Toolbox使用 Parallel Computing Toolbox? 中的 GPU 加速深入學習圖像分類任務的卷積神經網絡 (CNN)Symbolic Math Toolbox與 MATLAB 在線編輯器集成,以便編輯符號代碼和可視化結果,并將 MuPAD? 筆記本轉換為實時腳本Statistics and Machine Learning ToolboxClassification Learner 應用,可以自動培訓多個模型,按照級別標簽對結果進行可視化處理,并執行邏輯回歸分類Control System Toolbox新建及重新設計的應用,用于設計 SISO 控制器、自動整定 MIMO 系統和創建降階模型Image Acquisition Toolbox支持 Kinect? for Windows? v2 和 USB 3 VisionComputer Vision System Toolbox光學字符識別 (OCR) 訓練程序應用、行人偵測和來自針對 3-D 視覺的動作和光束平差的結構體Trading Toolbox對交易、靈敏性和交易后執行的交易成本分析Simulink 產品系列Simulink通過訪問模板、最近模型和精選示例更快開始或繼續工作的起始頁自動求解器選項可更快速地設置和仿真模型針對異構設備的系統模型仿真,例如 Xilinx?和 Altera? SoC 架構Simulink? 單位,可在 Simulink、Stateflow? 和 Simscape? 組件的接口指定單位、對其進行可視化處理并檢查變量源和接收器模塊,用于定義變量條件并使用生成代碼中的編譯器指令將其傳播至連接的功能Aerospace Blockset標準座艙儀器,用于顯示飛行條件SimEvents全新離散事件仿真和建模引擎,包括事件響應、MATLAB 離散事件系統對象制作以及 Simulink 和 Stateflow 自動域轉換Simscape全新方程簡化和仿真技術,用于生成代碼的快速仿真和運行時參數調整Simscape FluidsThermal Liquid 庫,用于對屬性隨溫度而變化的液體的系統建模Simulink Design Optimization用于實驗設計、Monte Carlo 仿真和相關性分析的靈敏度分析工具Simulink Report Generator三向模型合并,以圖形方式解決 Simulink 項目各修訂版之間的沖突信號處理和通信Antenna Toolbox電介質建模,用于分析天線和有限天線陣列中的基質效果RF ToolboxRF Budget Analyzer,用于為級聯的射頻組件計算增益、噪聲系數和 IP3SimRF自動射頻測試工作臺生成Audio System Toolbox一款用于設計和測試音頻處理系統的新產品WLAN System Toolbox一款用于對 WLAN 通信系統的物理層進行仿真、分析和測試的新產品代碼生成Embedded Coder編譯器指令生成,將信號維度作為 #define 進行實施HDL Coder針對 HDL 優化的 FFT 和 IFFT,支持每秒 G 字節采樣 (GSPS) 設計的幀輸入HDL VerifierPCIe FPGA 在環,用于通過 PCI Express? 接口仿真 Xilinx? KC705/VC707 和 Altera?Cyclone? V GT/Stratix V DSP 開發板上的算法驗證和確認Polyspace Code Prover支持 long-double 浮點,并且改進了對無窮大和 NaN 的支持Simulink Design Verifier對 C 代碼 S-function 自動生成測試IEC Certification Kit對 Simulink Verification and Validation? 提供 IEC 62304 醫學標準支持Simulink Test使用 Simulink Real-Time? 制作和執行實時測試
上傳時間: 2013-07-09
上傳用戶:eeworm
