ライフサイエンスコーパス: reverberation

1 flect persistence of an active memory (i.e., reverberation).

2 vironment, constrained by a prior on natural reverberation.

3 well as indirectly via reflections known as reverberation.

4 ed by statistical regularities of real-world reverberation.

5 ) depth and distance-dependent loss of AM in reverberation.

6 an, additive white and pink (1/f) noise, and reverberation.

7 eld potentials, indicative of local synaptic reverberation.

8 processing pathway for sound localization in reverberation.

9 ism for improving directional sensitivity in reverberation.

10 tion is severely degraded in the presence of reverberation.

11 headphones, with and without simulated room reverberation.

12 y transmission with bicuculline enhanced the reverberation.

13 acellular stores also modulated the level of reverberation.

14 release by strontium substantially enhanced reverberation.

15 l role in the emergent phenomenon of network reverberation.

16 in recurrently connected networks as active reverberation.

17 orted copies of the original sound, known as reverberation.

18 hance intelligibility-across three levels of reverberation.

19 tribute to resilience against the effects of reverberation.

20 examines how the auditory system copes with reverberation.

21 ately in realistic conditions with noise and reverberation.

22 of the activity patterns through hundreds of reverberations.

23 ents process information dynamically through reverberations.

24 are complicated by post-shock annealing and reverberations.

25 signal excitation and in a common room with reverberations.

26 usly, and that the existence of long-lasting reverberation after a novel experience requires addition

27 sis to explain these observations is seismic reverberation after impact events.

28 Our brains usually cope well with reverberation, allowing us to recognize sound sources re

29 Increased reverberation also reduced SRM in all listening conditio

30 imbalances in the cerebral cortex cause the reverberation and amplification of prior beliefs and sen

31 to the vowel /i/ in four different levels of reverberation and analyzed based on their spectro-tempor

32 s no correlation between prior or likelihood reverberation and autistic traits across the whole sampl

33 s are often decorrelated between the ears by reverberation and background noise, degrading the fideli

34 gs are interpreted in the context of network reverberations and self-sustained activity in neural sys

35 al location in two room conditions (low/high reverberation) and identified target speech in the prese

36 ction between hearing loss, hearing aid use, reverberation, and performance in auditory selective att

37 evolutionary dynamics of HGT and its genetic reverberations, and recommend careful examination of bac

38 e effective than single pulses in triggering reverberation, apparently by eliciting higher levels of

39 he actual cellular processes underlying such reverberation are not well understood.

40 e in IED secondary afterdischarges and their reverberation between CA3a and CA3c, and (3) shift in th

41 gest that auditory cortical neurons adapt to reverberation by adjusting their filtering properties in

42 In contrast, reverberation can cause severe difficulties for speech r

43 d comparably to speaking in a room with long reverberation, challenging the conventional view of clea

44 A custom exposure setup, a reverberation chamber, was designed, built, and characte

45 e signals, but their abilities degraded when reverberation characteristics deviated from those of rea

46 However, in quiet and across nearly all reverberation conditions, musicians showed more robust r

47 manipulation such as acoustic camouflage and reverberation control, opening up exciting new possibili

48 Such wave-mediated reverberation could contribute to short-term memory and

49 Thus, oscillatory reverberations create something out of nothing: A third

50 ience-dependent effect, is more resistant to reverberation degradation which may explain their enhanc

51 Although reverberation degraded both rate and temporal coding of

52 We find that reverberation degrades the directional sensitivity of si

53 udible noises were generated by local ground reverberation during the arrival of seismic body waves.

54 sensory processing such as an intracortical reverberation during the processing of visual stimuli.

55 Reverberation encountered in everyday environments can s

56 internal states may emerge from inter-areal reverberation, even in a regime where none of the isolat

57 discriminated only if the monaural sound in reverberation had AM.

58 For both groups, reverberation had little effect on the neural encoding o

59 ntal and modeling work has begun to test the reverberation hypothesis at the cellular level.

60 an psychophysical pitch-discrimination task, reverberation impaired the ability to distinguish a high

61 een hypothesized to be sustained by synaptic reverberation in a recurrent circuit.

62 gs suggest that there is no increased signal reverberation in autism, despite the known presence of e

63 es are available, directional sensitivity in reverberation is comparable throughout the tonotopic axi

64 erious problem; stability can be achieved if reverberation is largely mediated by NMDA receptors at r

65 ation can be achieved robustly if excitatory reverberation is primarily mediated by NMDA receptors; o

66 t iron L emission has enabled us to detect a reverberation lag of about 30 s between the direct X-ray

67 Observations of X-ray reverberation lags in supermassive black-hole systems(12

68 The timescale of the reverberation lags shortens by an order of magnitude ove

69 es, however, reveal equivalent (mass-scaled) reverberation lags that are much larger(16), leading to

70 ing conditions including each combination of reverberation level (T60=0, 270, and 540 ms), number of

71 ole mass measurements based on emission line reverberation mapping can be calibrated against other dy

72 a corresponding correction to emission line reverberation masses of black holes if they are calibrat

73 Our technique, termed reverberation microscopy, enables the monitoring of neur

74 n observed in autism, suggesting that signal reverberation might be present in that condition as well

75 en trained in unnatural environments without reverberation, noise or natural sounds, these performanc

76 Further, reverberation of past evoked states in spontaneous spiki

77 arly afterglow emission can be understood as reverberation of the energy input measured by prompt emi

78 pontaneous spiking activity shows detectable reverberation of the movie-evoked responses.

79 Previous studies of the reverberation of X-rays from its accretion disk revealed

80 er, long-lasting (up to approximately 48 h) "reverberation" of neural activity patterns induced by a

81 des resilience to the degradative effects of reverberation on subcortical representations of pitch an

82 We investigated the effects of reverberation on the directional sensitivity of single n

83 To assess the effect of reverberation on the neural coding of amplitude envelope

84 g of amplitude envelope relatively robust in reverberation: one general mechanism operating for all s

85 tions (e.g., interaural decorrelation due to reverberation), or, in humans, bilateral clinical device

86 Reverberation profoundly distorts the sound from a sourc

87 er cent of its current age, so GRB afterglow reverberations provide clues about the environments arou

88 s more than room acoustics across the tested reverberation range.

89 s degradation increases with both increasing reverberation strength and channel bandwidth.

90 e maintain better directional sensitivity in reverberation than high-CF cells sensitive to ITDs in th

91 Measurements of the early afterglow reverberations therefore probe the structure of the envi

92 We find that the reverberation time lags between the continuum-emitting c

93 ulation method allowing precise control over reverberation times and sound-source locations.

94 The observed reverberation timescale is comparable to the light-cross

95 we did not observe significant long-lasting reverberation using either the template matching or the

96 The reverberation was likely to arise from recurrent excitat

97 ng asynchronous release by EGTA-AM abolished reverberation, whereas elevating asynchronous release by

98 Models of persistent activity often invoke reverberations within local cortical circuits, but long-

99 Shock reverberation yields lower temperature and deviatoric st