Sentences with phrase «other noise sources»

There is no evidence that health or health - related effects from wind turbine noise would be any different to those from other noise sources at similar levels.

However, noise that remains in the rs - fMRI data after preprocessing has limited the reliability of individual - subject results, wherein scanner artifacts, subject movements, and other noise sources induce non-neural temporal correlations in the blood oxygen level - dependent (BOLD) timeseries.

Providing white noise also blocks out other sources of stimulation that might be causing your baby stress.

«So against the background of the rapidly growing use of leisure boats and other sources of noise in the marine environment, it is important to understand how fish are affected by noise.»

Remarkably, however, it was only within the final second that the signal reached high enough frequencies and high enough amplitudes for LIGO to detect it, above the general background noise from other non-cosmic sources.

The scientists developed an algorithm to distinguish rockfalls from other sources of seismic noise, like rainstorms, avalanches, and earthquakes.

(Let's say for the sake of argument that winds overnight will be very light, the skies are clear and other sources for «noise» during the relevant period are low)

Group 1: Materials, Resonators, & Resonator Circuits A. Fundamental Properties of Materials B. Micro - and Macro-Fabrication Technology for Resonators and Filters C. Theory, Design, and Performance of Resonators and Filters, including BAW, FBAR, MEMS, NEMS, SAW, and others D. Reconfigurable Frequency Control Circuits, e.g., Arrays, Channelizers Group 2: Oscillators, Synthesizers, Noise, & Circuit Techniques A. Oscillators — BAW, MEMS, and SAW B. Oscillators - Microwave to Optical C. Heterogeneously Integrated Miniature Oscillators, e.g., Single - Chip D. Synthesizers, Multi-Resonator Oscillators, and Other Circuitry E. Noise Phenomena and Aging F. Measurements and Specifications G. Timing Error in Digital Systems and Applications Group 3: Microwave Frequency Standards A. Microwave Atomic Frequency Standards B. Atomic Clocks for Space Applications C. Miniature and Chip Scale Atomic Clocks and other instrumentation D. Fundamental Physics, Fundamental Constants, & Other Applications Group 4: Sensors & Transducers A. Resonant Chemical Sensors B. Resonant Physical Sensors C. Vibratory and Atomic Gyroscopes & Magnetometers D. BAW, SAW, FBAR, and MEMS Sensors E. Transducers F. Sensor Instrumentation Group 5: Timekeeping, Time and Frequency Transfer, GNSS Applications A. TAI and Time Scales, Time and Frequency Transfer, and Algorithms B. Satellite Navigation (Galileo, GPS,...) C.Telecommunications Network Synchronization, RF Fiber Frequency Distribution D. All - optical fiber frequency transfer E. Optical free - space frequency transfer F. Frequency and Time Distribution and Calibration Services Group 6: Optical Frequency Standards and Applications A. Optical Ion and Neutral Atom Clocks B. Optical Frequency Combs and Frequency Measurements C. Ultrastable Laser Sources and Optical Frequency Distribution D. Ultrastable Optical to Microwave Conversion E. Fundamental Physics, Fundamental Constants, and Other ApplicaOther Circuitry E. Noise Phenomena and Aging F. Measurements and Specifications G. Timing Error in Digital Systems and Applications Group 3: Microwave Frequency Standards A. Microwave Atomic Frequency Standards B. Atomic Clocks for Space Applications C. Miniature and Chip Scale Atomic Clocks and other instrumentation D. Fundamental Physics, Fundamental Constants, & Other Applications Group 4: Sensors & Transducers A. Resonant Chemical Sensors B. Resonant Physical Sensors C. Vibratory and Atomic Gyroscopes & Magnetometers D. BAW, SAW, FBAR, and MEMS Sensors E. Transducers F. Sensor Instrumentation Group 5: Timekeeping, Time and Frequency Transfer, GNSS Applications A. TAI and Time Scales, Time and Frequency Transfer, and Algorithms B. Satellite Navigation (Galileo, GPS,...) C.Telecommunications Network Synchronization, RF Fiber Frequency Distribution D. All - optical fiber frequency transfer E. Optical free - space frequency transfer F. Frequency and Time Distribution and Calibration Services Group 6: Optical Frequency Standards and Applications A. Optical Ion and Neutral Atom Clocks B. Optical Frequency Combs and Frequency Measurements C. Ultrastable Laser Sources and Optical Frequency Distribution D. Ultrastable Optical to Microwave Conversion E. Fundamental Physics, Fundamental Constants, and Other Applicaother instrumentation D. Fundamental Physics, Fundamental Constants, & Other Applications Group 4: Sensors & Transducers A. Resonant Chemical Sensors B. Resonant Physical Sensors C. Vibratory and Atomic Gyroscopes & Magnetometers D. BAW, SAW, FBAR, and MEMS Sensors E. Transducers F. Sensor Instrumentation Group 5: Timekeeping, Time and Frequency Transfer, GNSS Applications A. TAI and Time Scales, Time and Frequency Transfer, and Algorithms B. Satellite Navigation (Galileo, GPS,...) C.Telecommunications Network Synchronization, RF Fiber Frequency Distribution D. All - optical fiber frequency transfer E. Optical free - space frequency transfer F. Frequency and Time Distribution and Calibration Services Group 6: Optical Frequency Standards and Applications A. Optical Ion and Neutral Atom Clocks B. Optical Frequency Combs and Frequency Measurements C. Ultrastable Laser Sources and Optical Frequency Distribution D. Ultrastable Optical to Microwave Conversion E. Fundamental Physics, Fundamental Constants, and Other ApplicaOther Applications Group 4: Sensors & Transducers A. Resonant Chemical Sensors B. Resonant Physical Sensors C. Vibratory and Atomic Gyroscopes & Magnetometers D. BAW, SAW, FBAR, and MEMS Sensors E. Transducers F. Sensor Instrumentation Group 5: Timekeeping, Time and Frequency Transfer, GNSS Applications A. TAI and Time Scales, Time and Frequency Transfer, and Algorithms B. Satellite Navigation (Galileo, GPS,...) C.Telecommunications Network Synchronization, RF Fiber Frequency Distribution D. All - optical fiber frequency transfer E. Optical free - space frequency transfer F. Frequency and Time Distribution and Calibration Services Group 6: Optical Frequency Standards and Applications A. Optical Ion and Neutral Atom Clocks B. Optical Frequency Combs and Frequency Measurements C. Ultrastable Laser Sources and Optical Frequency Distribution D. Ultrastable Optical to Microwave Conversion E. Fundamental Physics, Fundamental Constants, and Other ApplicaOther Applications

But they still took great pains to rule out alternative explanations, scrutinizing a variety of detector data and the output of numerous on - site instruments that measure seismic activity, radio interference and many other possible sources of «noise» that could conceivably mimic a gravitational - wave signal, team members said.

Still, this isn't a perfect presentation: a few instances of digital noise reduction and edge enhancement can be spotted along the way, but all of the other imperfections seem to be related to the film's source material.

«Crocodile» Dundee's 2.35:1, 1080p transfer is pleasingly grainy (except during the title sequence — heavily DVNR'd, I presume, to tone down optical noise), but the source betrays pinhole artifacts and other signs of debris, and the image has a tendency to exhibit the sort of dimness you'd expect at a movie theatre trying to conserve the bulb life of the projector.

It is impossible to focus on schoolwork when landscaping equipment, construction projects, idling delivery trucks, and other major sources of noise are present while students are trying to learn.

Although the engine is unchanged, Honda has gone to greater lengths to isolate the driver from it (and from other sources of noise), with increased sound deadening and acoustic glass for the front doors and the windshield.

These other two main noise sources are well controlled though, aided by the previously mentioned low - rolling resistance tyres and aerodynamic shape.

As far as the noise, other sources can mimic differential noise, such as tire defects, worn wheel bearings, and so forth.

Other than the engine under load, the tyres were the most intrusive source of noise — and most apparently on the coarse - chip country bitumen that comprised most of the drive program.

Tyre noise was muffled, and there was little other noise from any other source, although the suspension was audible over sharper impacts such as cobblestones.

Driveline noise was more prevalent than any other source with the roof raised, although the 18 - inch Pirellis were audible on coarse - chip bitumen too.

Leave a radio, television or other sound source on at a level that will mask the scary noises.

Alongside the bones that can be used in dog training during the teething phase, you may wish to consider buying the dog some chew toys which will not only give the dog something to chew on but will also give them a source of entertainment, especially if they make noises or other such things to work as a distraction.

In order to understand the potential importance of the effect, let's look at what it could do to our understanding of climate: 1) It will have zero effect on the global climate models, because a) the constraints on these models are derived from other sources b) the effect is known and there are methods for dealing the errors they introduce c) the effect they introduce is local, not global, so they can not be responsible for the signal / trend we see, but would at most introduce noise into that signal 2) It will not alter the conclusion that the climate is changing or even the degree to which it is changing because of c) above and because that conclusion is supported by multiple additional lines of evidence, all of which are consistent with the trends shown in the land stations.

(Let's say for the sake of argument that winds overnight will be very light, the skies are clear and other sources for «noise» during the relevant period are low)

Unlike other industrial noise sources, the noise level emitted by wind turbines is a function of wind speed.

In rural Australia, acoustical consultants working for the wind industry or other noise polluters are regarded almost universally with complete contempt by those people whose health has been harmed by the noise pollution, regardless of the source of the noise (eg mining, CSG field compressors, gas fired power stations as well as wind turbines).

relationship between noise sources, the method used to generate the wave produces exactly the same wave over and over and over again on multiple other known not valid values when run in simulation.

In order to make a comparison, I will introduce the other extreme position that the amplitude of the TOA noise flux is the exclusive source of natural global temperature variation.

Noise can propagate from other sources and it is worthwhile to track those through any laws of physics you can apply.

Your point is that there may be other sources of noise than T, for example a cocktail party in the adjoining apartment, making it clear that additional energy may be needed to shout over those other sources.

Is there evidence to suggest that specific aspects of wind turbine sound such as infrasound and low frequency sound have unique potential health effects not associated with other sources of environmental noise?

The gain or loss is determined by changes in sources and sinks which are controlled by other climatic factors, in particular, temperature and soil moisture, and that these changes are sufficient to reduce the anthropogenic contribution to the level of noise.

Therefore people are exposed to higher levels of wind farm noise than they would expect from other new industrial noise sources.

I have heard a similar range and pattern of symptoms from residents affected by industrial infrasound and low frequency noise from other sources including gas fired power stations (Uranquinty) and open cut coal mining (residents formerly from Wollar and the Cumbo Valley in the Upper Hunter).

Noise from wind turbines, including its content of low - frequency noise and infrasound, is similar to noise from many other natural and human - made souNoise from wind turbines, including its content of low - frequency noise and infrasound, is similar to noise from many other natural and human - made sounoise and infrasound, is similar to noise from many other natural and human - made sounoise from many other natural and human - made sources.

Acting for food production businesses, transport operators, manufacturing and engineering businesses and other commercial operators in the successful appeals of numerous abatement notices for statutory nuisances arising from diverse sources including food odours, industrial noise, odours from waste operations, dog barking, church bells and fireworks.

Under a low 20 - lux tungsten light source, fine detail preservation is good compared to other smart phones we've tested, but luminance noise is very prominent, too