Search Results - "noise"

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  1. 321

    Urban Rail Transit

    Open Access
    Electronic Journal
  2. 322

    Atopological Trilogy: Deleuze and Guattari / by Aracagok, Zafer

    Published 2020
    Full text available:
    Electronic eBook
  3. 323

    Atopological Trilogy: Deleuze and Guattari / by Aracagok, Zafer

    Published 2020
    Full text available:
    Electronic eBook
  4. 324

    A companion to media authorship

    Published 2013
    Table of Contents: “…Transmedia Architectures of Creation: An Interview with Ivan Askwith (Jonathan Gray) 17. Dubbing the Noise: Square Enix and Corporate Creation of Videogames (Mia Consalvo) IV. …”
    An electronic book accessible through the World Wide Web; click to view
    Electronic eBook
  5. 325

    A companion to media authorship

    Published 2013
    Table of Contents: “…Transmedia Architectures of Creation: An Interview with Ivan Askwith (Jonathan Gray) 17. Dubbing the Noise: Square Enix and Corporate Creation of Videogames (Mia Consalvo) IV. …”
    An electronic book accessible through the World Wide Web; click to view
    Electronic eBook
  6. 326

    Zootechnologies : A Media History of Swarm Research / by Vehlken, Sebastian

    Published 2019
    Table of Contents: “…Deformations: A Media Theory of Swarming; 1. Theory: Noise; Amalgamations of Perplexity; Bodies without Surfaces; The Paradox of the Parasite; Radical Relationality; 2. …”
    Full text available:
    Electronic eBook
  7. 327

    Zootechnologies : A Media History of Swarm Research / by Vehlken, Sebastian

    Published 2019
    Table of Contents: “…Deformations: A Media Theory of Swarming; 1. Theory: Noise; Amalgamations of Perplexity; Bodies without Surfaces; The Paradox of the Parasite; Radical Relationality; 2. …”
    Full text available:
    Electronic eBook
  8. 328
  9. 329
  10. 330

    Tuning and control loop performance / by McMillan, Gregory K., 1946-

    Published 2015
    Table of Contents: “…Unified methodology -- 2.1 Introduction -- 2.1.1 Perspective -- 2.1.2 Overview -- 2.1.3 Recommendations -- 2.2 PID features -- 2.2.1 PID form -- 2.2.2 External reset feedback -- 2.2.3 PID structure -- 2.2.4 Split range -- 2.2.5 Signal characterization -- 2.2.6 Feedforward -- 2.2.7 Decoupling -- 2.2.8 Output tracking and remote output -- 2.2.9 Setpoint filter, lead-lag, and rate limits -- 2.2.10 Enhanced PID for wireless and analyzers -- 2.3 Automation system difficulties -- 2.3.1 Open loop gain problems -- 2.3.2 Time constant problems -- 2.3.3 Dead time problems -- 2.3.4 Limit cycle problems -- 2.3.5 Noise problems -- 2.3.6 Accuracy and precision problems -- 2.4 Process objectives -- 2.4.1 Maximize turndown -- 2.4.2 Maximize safety and environmental protection -- 2.4.3 Minimize product variability -- 2.4.4 Maximize process efficiency and capacity -- 2.5 Step-by-step solutions -- 2.6 Test results -- Key points --…”
    An electronic book accessible through the World Wide Web; click to view
    Electronic eBook
  11. 331

    Tuning and control loop performance / by McMillan, Gregory K., 1946-

    Published 2015
    Table of Contents: “…Unified methodology -- 2.1 Introduction -- 2.1.1 Perspective -- 2.1.2 Overview -- 2.1.3 Recommendations -- 2.2 PID features -- 2.2.1 PID form -- 2.2.2 External reset feedback -- 2.2.3 PID structure -- 2.2.4 Split range -- 2.2.5 Signal characterization -- 2.2.6 Feedforward -- 2.2.7 Decoupling -- 2.2.8 Output tracking and remote output -- 2.2.9 Setpoint filter, lead-lag, and rate limits -- 2.2.10 Enhanced PID for wireless and analyzers -- 2.3 Automation system difficulties -- 2.3.1 Open loop gain problems -- 2.3.2 Time constant problems -- 2.3.3 Dead time problems -- 2.3.4 Limit cycle problems -- 2.3.5 Noise problems -- 2.3.6 Accuracy and precision problems -- 2.4 Process objectives -- 2.4.1 Maximize turndown -- 2.4.2 Maximize safety and environmental protection -- 2.4.3 Minimize product variability -- 2.4.4 Maximize process efficiency and capacity -- 2.5 Step-by-step solutions -- 2.6 Test results -- Key points --…”
    An electronic book accessible through the World Wide Web; click to view
    Electronic eBook
  12. 332

    Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

    Published 2013
    Table of Contents: “…Devices and sensors for linear acceleration measurement -- 5.1 Introduction -- 5.2 Types of accelerometers -- 5.2.1 Linear and pendulous accelerometers -- 5.2.2 Direct conversion accelerometers and compensating accelerometers -- 5.2.2.1 Direct conversion accelerometers -- 5.2.2.2 Compensating accelerometers -- 5.3 Accelerometer parameters -- 5.3.1 Acceleration measurement range azmax -- 5.3.2 Resolution azmin -- 5.3.3 Zero signal (bias) a0 -- 5.3.4 Scale factor Ka -- 5.3.5 Biasing error (misalignment) -- 5.3.6 Accelerometer frequency characteristics -- 5.3.7 Special accelerometer parameters -- 5.3.7.1 Magnetic leakage -- 5.3.7.2 Electromagnetic noise -- 5.3.7.3 Readiness time -- 5.3.7.4 Noise level in the accelerometer output -- 5.3.7.5 Sensitivity to external constant and variable magnetic fields -- 5.3.7.6 Sensitivity to changes in power supply voltage -- 5.3.7.7 Sensitivity to external pressure, humidity, and radiation -- 5.4 Float pendulous accelerometer (FPA) -- 5.4.1 Basic EMU design schemes -- 5.4.1.1 Advantages -- 5.4.1.2 Disadvantages -- 5.4.2 Hydrostatic accelerometer suspensions -- 5.4.3 FPA float balancing -- 5.4.4 Hydrodynamic forces and moments in the FPA -- 5.4.5 Movement of FPA float under vibration -- 5.5 Micromechanical accelerometers (MMAS) -- 5.5.1 The single-axis MMA -- 5.5.2 The three-axis MMA -- 5.5.3 The compensating type MMA -- 5.5.4 Solid-state MMA manufacturing techniques -- References --…”
    An electronic book accessible through the World Wide Web; click to view
    Electronic eBook
  13. 333

    Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

    Published 2013
    Table of Contents: “…Devices and sensors for linear acceleration measurement -- 5.1 Introduction -- 5.2 Types of accelerometers -- 5.2.1 Linear and pendulous accelerometers -- 5.2.2 Direct conversion accelerometers and compensating accelerometers -- 5.2.2.1 Direct conversion accelerometers -- 5.2.2.2 Compensating accelerometers -- 5.3 Accelerometer parameters -- 5.3.1 Acceleration measurement range azmax -- 5.3.2 Resolution azmin -- 5.3.3 Zero signal (bias) a0 -- 5.3.4 Scale factor Ka -- 5.3.5 Biasing error (misalignment) -- 5.3.6 Accelerometer frequency characteristics -- 5.3.7 Special accelerometer parameters -- 5.3.7.1 Magnetic leakage -- 5.3.7.2 Electromagnetic noise -- 5.3.7.3 Readiness time -- 5.3.7.4 Noise level in the accelerometer output -- 5.3.7.5 Sensitivity to external constant and variable magnetic fields -- 5.3.7.6 Sensitivity to changes in power supply voltage -- 5.3.7.7 Sensitivity to external pressure, humidity, and radiation -- 5.4 Float pendulous accelerometer (FPA) -- 5.4.1 Basic EMU design schemes -- 5.4.1.1 Advantages -- 5.4.1.2 Disadvantages -- 5.4.2 Hydrostatic accelerometer suspensions -- 5.4.3 FPA float balancing -- 5.4.4 Hydrodynamic forces and moments in the FPA -- 5.4.5 Movement of FPA float under vibration -- 5.5 Micromechanical accelerometers (MMAS) -- 5.5.1 The single-axis MMA -- 5.5.2 The three-axis MMA -- 5.5.3 The compensating type MMA -- 5.5.4 Solid-state MMA manufacturing techniques -- References --…”
    An electronic book accessible through the World Wide Web; click to view
    Electronic eBook