Test & Measurement

Ferroelectric Materials Could Revolutionize Data-Driven Devices

Electronic devices with unprecedented efficiency and data storage may someday run on ferroelectrics — remarkable materials that use built-in electric polarizations to read and write digital information, outperforming the magnets that are inside most popular data-driven technology. But ferroelectrics must first overcome a few key stumbling blocks, including a curious habit of "forgetting" stored data. Now, however, scientists at the U.S. Department of Energy's Brookhaven National Laboratory have discovered nanoscale asymmetries and charge preferences hidden within ferroelectrics that may explain their operational limits.

Posted in: News, Board-Level Electronics, Computers, Electronic Components, Electronics, Power Management, Metals, Measuring Instruments

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Automated Imaging System Analyzes Underground Root Systems

Researchers from the Georgia Institute of Technology and Penn State University have developed an automated imaging technique for measuring and analyzing the root systems of mature plants. The technique, believed to be the first of its kind, uses advanced computer technology to analyze photographs taken of root systems in the field. The imaging and software are designed to give scientists the statistical information they need to evaluate crop improvement efforts.“We’ve produced an imaging system to evaluate the root systems of plants in field conditions,” said Alexander Bucksch, a postdoctoral fellow in the Georgia Tech School of Biology and School of Interactive Computing. “We can measure entire root systems for thousands of plants to give geneticists the information they need to search for genes with the best characteristics.”Imaging of root systems has, until now, largely been done in the laboratory, using seedlings grown in small pots and containers. Such studies provide information on the early stages of development, and do not directly quantify the effects of realistic growing conditions or field variations in water, soil, or nutrient levels.The technique developed by Georgia Tech and Penn State researchers uses digital photography to provide a detailed image of roots from mature plants in the field. Individual plants to be studied are dug up and their root systems washed clean of soil. The roots are then photographed against a black background using a standard digital camera pointed down from a tripod. A white fabric tent surrounding the camera system provides consistent lighting.The resulting images are then uploaded to a server running software that analyzes the root systems for more than 30 different parameters, including the diameter of tap roots, root density, the angles of brace roots, and detailed measures of lateral roots.SourceAlso: Learn about Strobing to Enhance Display Legibility.

Posted in: News, Cameras, Measuring Instruments

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High Precision Multi-channel PXIe Systems Realize More Efficient Wind Tunnel Testing

Wind tunnel testing is widely used in large-scale aerodynamic design projects. Even so, the requirement for large numbers of sensors over large areas of the devices to be tested presents major challenges in data acquisition and retrieval. The article discusses use of multi-channel PXIe systems to achieve fully synchronous, high-efficiency, highly precise measurement solutions. Attributes include: PXIe technology providing effective single-system integration with multiple combinations of a wide variety of sensors PXIe platforms’ PC-based structure delivering easily deployed superior computing power along with networking capability, minimizing development time and simplifying setup

Posted in: White Papers

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NASA and Partners Use Sensing Technology to Target Megacities Carbon Emissions

The Megacities Carbon Project is an international, multi-agency pilot initiative to develop and test ways to monitor greenhouse gas emissions in megacities: metropolitan areas of at least 10 million people. Cities and their power plants are the largest sources of human-produced greenhouse gas emissions and are the largest human contributors to climate change.

Posted in: News, Environmental Monitoring, Greenhouse Gases, Sensors, Monitoring

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How to Maximize Temperature Measurement Accuracy

Thermocouples are the most versatile and widely used devices for temperature measurements. Most test engineers are aware of the measurement errors caused by thermocouples but not always about the errors caused by the measurement system itself. This technical note will focus on the lesser known and important aspect called "Self-Calibration" and how it can be used to overcome errors in temperature measurement.

Posted in: White Papers

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International Space Station Test Analyzes Rotation of Objects in Space

Objects in space tend to spin in a way that's totally different from the way they spin on Earth. Understanding how objects are spinning, where their centers of mass are, and how their mass is distributed is crucial to any space mission. MIT researchers developed a new algorithm for gauging the rotation of objects in zero gravity using only visual information. They tested the algorithm aboard the International Space Station.

Posted in: News, Cameras, Simulation Software

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Motion Analysis Detects Joint Degeneration

If joints do no longer work as usual, humans tend to compensate this by unconsciously adapting their motions. In the case of knee arthrosis, or excessive joint wear, they shift the weight to the healthy leg. This relieves the worn knee joint, but also delays the pain that would indicate the start of arthrosis. Based on a computer-supported gait analysis, researchers are developing an early warning system for routine prevention.

Posted in: News, Cameras, Patient Monitoring, Measuring Instruments, Monitoring

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