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- A Capacitive 3-Axis MEMS Accelerometer for Medipost: a Portable System Dedicated to Monitoring Imbalance Disorders
- Terrestrial Applications of a Nano-G Accelerometer
- Inertial Navigation for Guided Missile Systems
- Gravity-Based Methods for Heading Computation in Pedestrian Dead Reckoning
- Using Ios Devices for Noise and Vibration Measurements Andrew Smith, Studio Six Digital, LLC, Santa Cruz, California
- Space Vehicle Accelerometer Applications
- Accelerometer Based Motion Gestures for Mobile Devices
- A Folded Pendulum Isolator for Evaluating Accelerometer Performance
- Physical Pendulum Experiment Re-Investigated with an Accelerometer Sensor
- A Dedicated Earth-Orbiting Spacecraft for Investigating Gravitational Physics and the Space Environment
- Precision Accelerometers for Gravity Gradient Measurements
- Integrated System for a High Resolution MEMS Accelerometer
- An Ios Framework for Real-Time Plotting of Wireless Sensors
- Structural Designing of a MEMS Capacitive Accelerometer for Low Temperature Coefficient and High Linearity
- Automated Testing of Accelerometer Transverse Sensitivity
- The MICROSCOPE Space Mission to Test the Equivalence Principle Pierre Touboul, Gilles Metris, Manuel Rodrigues, Yves André, Alain Robert
- MMA7361L ±1.5G
- A Guide to Smartphone Sensors
- Inertial Instruments and Inertial Navigation
- Learning-Based Practical Smartphone Eavesdropping with Built-In Accelerometer
- Iphone 4S Specifications Size and Weight
- SENSOR MONITOR for ANDROID a Project Presented to the Faculty Of
- Detecting User Activities Using the Accelerometer on Android Smartphones
- An Introduction to Inertial Navigation
- V. Theoretical Fundamentals of Inertial Gravimetry
- Characteristics Research of a High Sensitivity Piezoelectric MOSFET Acceleration Sensor
- Surface Mount Micromachined Accelerometer
- Motion-Based Side-Channel Attack on Mobile Keystrokes
- Choosing the Right Type of Accelerometer
- ADXL193 Single-Axis, High-G, Imems® Accelerometer Data Sheet
- Laboratory Exercise 1: Pendulum Acceleration Measurement and Prediction Laboratory Handout AME 20213: Fundamentals of Measurements and Data Analysis
- Accelerometer Calibration with the Earth's Field Dynamic Calibrator NATIONAL BUREAU of STANDARDS
- A Study on Human Activity Recognition Using Accelerometer Data from Smartphones Akram Bayat∗, Marc Pomplun, Duc A
- Design of a Low Power Capacitive Sensor for a Micromachined
- Airborne and Marine Quantum Gravimetry
- Acceleration Energy 272 Acceleration Sensors 493, 510 Accelerometer
- Tilt Sensing Using a Three-Axis Accelerometer By: Mark Pedley
- 3-V Accelerometer Featuring TLV2772
- Micro-Accelerometer Based on Vertically Movable Gate Field Effect Transistor
- 3-Axis, ±2 G/±4 G/±8 G/±16 G Digital Accelerometer ADXL345
- Triaxial Accelerometers for Improved Seismic and Geodetic Measurements
- 12 Things to Consider When Selecting an Accelerometer
- Airborne Vector Gravimetry Using GPS/INS
- Validity and Reliability of a Smartphone Accelerometer for Measuring Lift Velocity in Bench-Press Exercises
- Infineon Application Brief Multicopters
- The Interaction of Smartphone's Accelerometer and Gyroscope In
- UCGE Reports Improving the Accuracy and Resolution of SINS/DGPS Airborne Gravimetry Alexander Mark Bruton
- Smartphone Hardware Sensors
- On Temporal and Frequency Responses of Smartphone Accelerometers for Explosives Detection
- Analysis of Android Device-Based Solutions for Fall Detection
- NAVIGATION USING INERTIAL SENSORS Paul D. Groves University College London United Kingdom [email protected] Abstract This Tutor
- Integrated Three-Axis Accelerometers with Nanometer Scale Capacitive Gaps And
- Accelerometer Approaches
- Design and Error Analysis of Accelerometer-Based Inertial Navigation Systems
- Satellite Gravimetry
- Arxiv:1903.10284V1 [Physics.App-Ph] 8 Feb 2019
- Android Application to Assess Smartphone Accelerometers and Bluetooth for Real-Time Control
- Acceleration Sensing Technologies for Severe Mechanical Shock
- Introduction to Inertial Navigation (INS Tutorial – Short)
- An Introduction to MEMS (Micro-Electromechanical Systems)
- The Microscope Space Mission and the Inflight Calibration Approach for Its Instrument
- Activity Recognition with Smartphone Sensors
- Smart-Phone Sensor of Pendulum Motion
- A. Theoretical Fundamentals of Airborne Gravimetry, Parts I and II (Monday, 23 May 2016) B. Theoretical Fundamentals of Gravity