Your search keyword '"Lee M. Miller"' showing total 49 results

1. Using Automatic Speech Recognition to Measure the Intelligibility of Speech Synthesized From Brain Signals

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Author

Suvi Varshney, Dana Farias, David M. Brandman, Sergey D. Stavisky, and Lee M. Miller

Published

2023

2. Electrophysiological Examination of Ambient Speech Processing in Children With Cochlear Implants

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Author

David P. Corina, Sharon Coffey-Corina, Elizabeth Pierotti, Brett Bormann, Todd LaMarr, Laurel Lawyer, Kristina C. Backer, and Lee M. Miller

Subjects

Speech-Language Pathology & Audiology, Linguistics and Language, Clinical Sciences, Bioengineering, Deafness, Basic Behavioral and Social Science, Language and Linguistics, Speech and Hearing, Clinical Research, Behavioral and Social Science, 2.1 Biological and endogenous factors, Humans, Speech, Aetiology, Child, Evoked Potentials, Auditory, Eye Disease and Disorders of Vision, Language, Pediatric, Assistive Technology, Prevention, Rehabilitation, Neurosciences, Ear, Linguistics, Cochlear Implantation, Cochlear Implants, Acoustic Stimulation, Evoked Potentials, Auditory, Speech Perception, Cognitive Sciences

Abstract

Purpose: This research examined the expression of cortical auditory evoked potentials in a cohort of children who received cochlear implants (CIs) for treatment of congenital deafness ( n = 28) and typically hearing controls ( n = 28). Method: We make use of a novel electroencephalography paradigm that permits the assessment of auditory responses to ambiently presented speech and evaluates the contributions of concurrent visual stimulation on this activity. Results: Our findings show group differences in the expression of auditory sensory and perceptual event-related potential components occurring in 80- to 200-ms and 200- to 300-ms time windows, with reductions in amplitude and a greater latency difference for CI-using children. Relative to typically hearing children, current source density analysis showed muted responses to concurrent visual stimulation in CI-using children, suggesting less cortical specialization and/or reduced responsiveness to auditory information that limits the detection of the interaction between sensory systems. Conclusion: These findings indicate that even in the face of early interventions, CI-using children may exhibit disruptions in the development of auditory and multisensory processing. more...

Published

2022

3. 'Unattended, distracting or irrelevant': Theoretical implications of terminological choices in auditory selective attention research

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Author

Shiri Makov, Danna Pinto, Paz Har-shai Yahav, Lee M. Miller, and Elana Zion Golumbic

Subjects

Linguistics and Language, Cognitive Neuroscience, Developmental and Educational Psychology, Experimental and Cognitive Psychology, Language and Linguistics

Abstract

For seventy years, auditory selective attention research has focused on studying the cognitive mechanisms of prioritizing the processing a 'main' task-relevant stimulus, in the presence of 'other' stimuli. However, a closer look at this body of literature reveals deep empirical inconsistencies and theoretical confusion regarding the extent to which this 'other' stimulus is processed. We argue that many key debates regarding attention arise, at least in part, from inappropriate terminological choices for experimental variables that may not accurately map onto the cognitive constructs they are meant to describe. Here we critically review the more common or disruptive terminological ambiguities, differentiate between methodology-based and theory-derived terms, and unpack the theoretical assumptions underlying different terminological choices. Particularly, we offer an in-depth analysis of the terms 'unattended' and 'distractor' and demonstrate how their use can lead to conflicting theoretical inferences. We also offer a framework for thinking about terminology in a more productive and precise way, in hope of fostering more productive debates and promoting more nuanced and accurate cognitive models of selective attention. more...

Published

2022

4. Partnering for Resilience: An Innovative Approach to Hazard Education and Child-Centered Risk Reduction

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Author

Magdalena A. Denham and Lee M. Miller

Abstract

Our study engaged graduate students enrolled in a Homeland Security and Emergency Management (HSEM) course designated as Academic Community Engagement (ACE) at an Institution of Higher Education (IHE) in rural Texas. The aim of ACE courses is to employ the scholarly endeavors of facilitating academic content and strengthening transversal competencies of learners to provide needed services in situ to communities in which the IHE is anchored. The study leveraged a nongovernmental (NGO) child-centered risk reduction initiative called the Pillowcase Project: Learn, Practice, Share by the American Red Cross (ARC) in a community with high social vulnerability. Our students taught the ARC initiative to 3rd graders. We envisioned our study to serve as a template for HSEM educators whose objectives were to (a) adopt child-centered risk reduction in contextualized teaching for post-secondary students of disaster, (b) highlight integrative, collaborative processes involved in emergency preparedness and disaster training through experiential learning; (c) engage graduate HSEM students in critical thinking with respect to complex networks of agencies involved in hazards education and with respect to existing risk-reduction educational initiatives, and (d) leverage social capita l of IHEs by providing information on hazards and clear action steps grade school children and households can take in an emergency. We assessed the impact of graduate student-delivered, child-centered risk reduction education through in-class observations, children quizzes (N = 117), Pillowcase Household Surveys (34% return rate), and graduate student reflection logs (N = 14). Our findings offer support that child-centered risk reduction education might influence households to be more likely to consider adjustments such as smoke detector installations and inspections. Moreover, experiential teaching methodology applied highlighted students’ ability to critically assess HSEM concepts and generate field recommendations for better practice. more...

Published

2019

5. Supplementary material to 'The Kinetic Energy Budget of the Atmosphere (KEBA) model 1.0: A simple yet physical approach for estimating regional wind energy resource potentials that includes the kinetic energy removal effect by wind turbines'

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Author

Axel Kleidon and Lee M. Miller

Published

2020

6. A novel EEG paradigm to simultaneously and rapidly assess the functioning of auditory and visual pathways

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Author

David P. Corina, Laurel A. Lawyer, Lee M. Miller, Andrew S. Kessler, and Kristina C. Backer

Subjects

Adult, Male, Auditory Pathways, medicine.diagnostic_test, genetic structures, Adolescent, Physiology, Computer science, General Neuroscience, Electroencephalography, Visual system, Neural activity, medicine, Evoked Potentials, Auditory, Brain Stem, Speech Perception, Innovative Methodology, Evoked Potentials, Visual, Humans, Female, Visual Pathways, Neuroscience

Abstract

Objective assessment of the sensory pathways is crucial for understanding their development across the life span and how they may be affected by neurodevelopmental disorders (e.g., autism spectrum) and neurological pathologies (e.g., stroke, multiple sclerosis, etc.). Quick and passive measurements, for example, using electroencephalography (EEG), are especially important when working with infants and young children and with patient populations having communication deficits (e.g., aphasia). However, many EEG paradigms are limited to measuring activity from one sensory domain at a time, may be time consuming, and target only a subset of possible responses from that particular sensory domain (e.g., only auditory brainstem responses or only auditory P1-N1-P2 evoked potentials). Thus we developed a new multisensory paradigm that enables simultaneous, robust, and rapid (6–12 min) measurements of both auditory and visual EEG activity, including auditory brainstem responses, auditory and visual evoked potentials, as well as auditory and visual steady-state responses. This novel method allows us to examine neural activity at various stations along the auditory and visual hierarchies with an ecologically valid continuous speech stimulus, while an unrelated video is playing. Both the speech stimulus and the video can be customized for any population of interest. Furthermore, by using two simultaneous visual steady-state stimulation rates, we demonstrate the ability of this paradigm to track both parafoveal and peripheral visual processing concurrently. We report results from 25 healthy young adults, which validate this new paradigm. NEW & NOTEWORTHY A novel electroencephalography paradigm enables the rapid, reliable, and noninvasive assessment of neural activity along both auditory and visual pathways concurrently. The paradigm uses an ecologically valid continuous speech stimulus for auditory evaluation and can simultaneously track visual activity to both parafoveal and peripheral visual space. This new methodology may be particularly appealing to researchers and clinicians working with infants and young children and with patient populations with limited communication abilities. more...

Published

2019

7. Beyond Poet Voice: Sampling the (Non-) Performance Styles of 100 American Poets

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Author

Marit J. MacArthur, Georgia Zellou, and Lee M. Miller

Subjects

Literature, SocArXiv|Arts and Humanities|Digital Humanities, History, business.industry, Modernity, media_common.quotation_subject, Sampling (statistics), SocArXiv|Arts and Humanities, Biography, Romance, bepress|Arts and Humanities|Digital Humanities, Narrative, East Asia, business, China, bepress|Arts and Humanities, media_common

Abstract

The poetry reading has, for decades, been an unavoidable aspect of the professional poet's life. And the institutionalization of creative writing, government sponsorship of the arts, access to audio and video recording technologies, and the digitization of audio recordings, have accelerated the number of poetry readings and provided scholars with greater access to recordings of them. This situation presents profound opportunities for sound studies research, which have been answered by groundbreaking work. However, among poetry scholars, even those who study poetry recordings, the methods of linguistics, and the computational approaches of the digital humanities, are often missing in the study of recorded poetry readings. Our research addresses that gap, and also offers ways to test the rich intuitions of traditional poetry scholarship about poetry reading styles and their evolution. more...

Published

2018

8. The effects of preceding lead-alone and lag-alone click trains on the buildup of echo suppression

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Author

Christopher W. Bishop, Lee M. Miller, Deepak Yadav, and Sam London

Subjects

Psychological Acoustics [66], Adult, Male, Sound localization, medicine.medical_specialty, Time Factors, Echoic memory, Acoustics and Ultrasonics, Acoustics, Lag, Perceptual Masking, Audiology, Vibration, behavioral disciplines and activities, Young Adult, Arts and Humanities (miscellaneous), Clinical Research, otorhinolaryngologic diseases, medicine, Humans, Sound Localization, Psychoacoustics, Physics, Trial Type, Spatial perception, Acoustic Stimulation, Space Perception, Female, Train, Cues, Noise

Abstract

Spatial perception in echoic environments is influenced by recent acoustic history. For instance, echo suppression becomes more effective or “builds up” with repeated exposure to echoes having a consistent acoustic relationship to a temporally leading sound. Four experiments were conducted to investigate how buildup is affected by prior exposure to unpaired lead-alone or lag-alone click trains. Unpaired trains preceded lead-lag click trains designed to evoke and assay buildup. Listeners reported how many sounds they heard from the echo hemifield during the lead-lag trains. Stimuli were presented in free field (experiments 1 and 4) or dichotically through earphones (experiments 2 and 3). In experiment 1, listeners reported more echoes following a lead-alone train compared to a period of silence. In contrast, listeners reported fewer echoes following a lag-alone train; similar results were observed with earphones. Interestingly, the effects of lag-alone click trains on buildup were qualitatively different when compared to a no-conditioner trial type in experiment 4. Finally, experiment 3 demonstrated that the effects of preceding click trains on buildup cannot be explained by a change in counting strategy or perceived click salience. Together, these findings demonstrate that echo suppression is affected by prior exposure to unpaired stimuli. more...

Published

2014

9. The Impact of Hurricane Katrina on the U.S. Foster-Care System

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Author

Mary Ann Davis and Lee M. Miller

Subjects

Foster care, Hurricane katrina, Sociology, General Medicine, Public administration

Published

2014

10. The Role of Alpha Activity in Spatial and Feature-Based Attention

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Author

Joy J. Geng, Rosanne M. van Diepen, Ali Mazaheri, Lee M. Miller, Graduate School, Adult Psychiatry, and Other departments

Subjects

Male, 1.2 Psychological and socioeconomic processes, Electroencephalography, Neuropsychological Tests, Functional Laterality, 0302 clinical medicine, Distraction, Feature based, Attention, Theta Rhythm, medicine.diagnostic_test, General Neuroscience, 05 social sciences, Brain, General Medicine, New Research, Alpha Rhythm, Mental Health, Pattern Recognition, Visual, Neurological, Sensory and Motor Systems, Female, Psychology, Visual, Cognitive psychology, Adult, alpha, Sensory system, Stimulus (physiology), Pattern Recognition, 050105 experimental psychology, Lateralization of brain function, 03 medical and health sciences, Young Adult, Clinical Research, Underpinning research, medicine, Reaction Time, Humans, 0501 psychology and cognitive sciences, Analysis of Variance, Neurosciences, attention, poststimulus, spatial, feature, Relevant information, Alpha power, Neuroscience, 030217 neurology & neurosurgery, Photic Stimulation

Abstract

Modulations in alpha oscillations (∼10 Hz) are typically studied in the context of anticipating upcoming stimuli. Alpha power decreases in sensory regions processing upcoming targets compared to regions processing distracting input, thereby likely facilitating processing of relevant information while suppressing irrelevant. In this electroencephalography study using healthy human volunteers, we examined whether modulations in alpha power also occur after the onset of a bilaterally presented target and distractor. Spatial attention was manipulated through spatial cues and feature-based attention through adjusting the color-similarity of distractors to the target. Consistent with previous studies, we found that informative spatial cues induced a relative decrease of pretarget alpha power at occipital electrodes contralateral to the expected target location. Interestingly, this pattern reemerged relatively late (300–750 ms) after stimulus onset, suggesting that lateralized alpha reflects not only preparatory attention, but also ongoing attentive stimulus processing. Uninformative cues (i.e., conveying no information about the spatial location of the target) resulted in an interaction between spatial attention and feature-based attention in post-target alpha lateralization. When the target was paired with a low-similarity distractor, post-target alpha was lateralized (500–900 ms). Crucially, the lateralization was absent when target selection was ambiguous because the distractor was highly similar to the target. Instead, during this condition, midfrontal theta was increased, indicative of reactive conflict resolution. Behaviorally, the degree of alpha lateralization was negatively correlated with the reaction time distraction cost induced by target–distractor similarity. These results suggest a pivotal role for poststimulus alpha lateralization in protecting sensory processing of target information. more...

Published

2016

11. Spatial attention modulates the precedence effect

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Author

Lee M. Miller, Christopher W. Bishop, and Sam London

Subjects

Adult, Volition, Sound localization, Auditory perception, Selective auditory attention, Adolescent, Spatial ability, media_common.quotation_subject, Poison control, Experimental and Cognitive Psychology, Article, Behavioral Neuroscience, Arts and Humanities (miscellaneous), Perception, Precedence effect, Reaction Time, Humans, Attention, Sound Localization, media_common, Communication, business.industry, Acoustic space, Space Perception, Auditory Perception, Visual Perception, Cues, Noise, Psychology, business, Cognitive psychology

Abstract

Communication and navigation in real environments rely heavily on the ability to distinguish objects in acoustic space. However, auditory spatial information is often corrupted by conflicting cues and noise such as acoustic reflections. Fortunately the brain can apply mechanisms at multiple levels to emphasize target information and mitigate such interference. In a rapid phenomenon known as the precedence effect, reflections are perceptually fused with the veridical primary sound. The brain can also use spatial attention to highlight a target sound at the expense of distracters. Although attention has been shown to modulate many auditory perceptual phenomena, rarely does it alter how acoustic energy is first parsed into objects, as with the precedence effect. This brief report suggests that both endogenous (voluntary) and exogenous (stimulus-driven) spatial attention have a profound influence on the precedence effect depending on where they are oriented. Moreover, we observed that both types of attention could enhance perceptual fusion while only exogenous attention could hinder it. These results demonstrate that attention, by altering how auditory objects are formed, guides the basic perceptual organization of our acoustic environment. more...

Published

2012

12. Neural time course of visually enhanced echo suppression

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Author

Christopher W. Bishop, Sam London, and Lee M. Miller

Subjects

Adult, Male, Auditory perception, Visual perception, Physiology, Photic Stimulation, Speech recognition, Models, Neurological, Discrimination, Psychological, Precedence effect, Humans, Spatial analysis, Communication, business.industry, General Neuroscience, Echo (computing), Articles, Spatial perception, Acoustic Stimulation, Space Perception, Time course, Auditory Perception, Evoked Potentials, Auditory, Visual Perception, Female, business, Psychology, psychological phenomena and processes

Abstract

Auditory spatial perception plays a critical role in day-to-day communication. For instance, listeners utilize acoustic spatial information to segregate individual talkers into distinct auditory “streams” to improve speech intelligibility. However, spatial localization is an exceedingly difficult task in everyday listening environments with numerous distracting echoes from nearby surfaces, such as walls. Listeners' brains overcome this unique challenge by relying on acoustic timing and, quite surprisingly, visual spatial information to suppress short-latency (1–10 ms) echoes through a process known as “the precedence effect” or “echo suppression.” In the present study, we employed electroencephalography (EEG) to investigate the neural time course of echo suppression both with and without the aid of coincident visual stimulation in human listeners. We find that echo suppression is a multistage process initialized during the auditory N1 (70–100 ms) and followed by space-specific suppression mechanisms from 150 to 250 ms. Additionally, we find a robust correlate of listeners' spatial perception (i.e., suppressing or not suppressing the echo) over central electrode sites from 300 to 500 ms. Contrary to our hypothesis, vision's powerful contribution to echo suppression occurs late in processing (250–400 ms), suggesting that vision contributes primarily during late sensory or decision making processes. Together, our findings support growing evidence that echo suppression is a slow, progressive mechanism modifiable by visual influences during late sensory and decision making stages. Furthermore, our findings suggest that audiovisual interactions are not limited to early, sensory-level modulations but extend well into late stages of cortical processing. more...

Published

2012

13. Hazards of neoliberalism: delayed electric power restoration after Hurricane Ike1

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Author

Robert J. Antonio, Alessandro Bonanno, and Lee M. Miller

Subjects

Sociology and Political Science, Economic policy, media_common.quotation_subject, Damages, Neoliberalism, Poison control, Public policy, Disaster recovery, Sociology, Public good, Natural disaster, Metropolitan area, media_common

Abstract

This case study explores how neoliberal policies shape the impacts of a natural disaster. We investigate the reactions to major damages to the electric power system and the restoration of power in the wake of Hurricane Ike, which devastated the Houston, Texas, metropolitan area in September 2008. We argue that the neoliberal policy agenda insured a minimalist approach to the crisis and generated dissatisfaction among many residents. The short-term profitability imperative shifted reconstruction costs to consumers, and prevented efforts to upgrade the electric power infrastructure to prepare for future disasters. We illustrate the serious obstacles for disaster mitigation and recovery posed by neoliberal policies that privatize public goods and socialize private costs. Neoliberalism neither addresses the needs of a highly stratified public nor their long-term interests and safety. more...

Published

2011

14. Distinct core thalamocortical pathways to central and dorsal primary auditory cortex

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Author

Lee M. Miller, Monty A. Escabí, Heather L. Read, Jeffery A. Winer, David W. Nauen, and Christoph E. Schreiner

Subjects

Dorsum, Central nervous system, Thalamus, Auditory cortex, Models, Biological, Brain mapping, Article, medicine, Animals, Auditory Cortex, Cell Nucleus, Neurons, Brain Mapping, Core (anatomy), Brain, Geniculate Bodies, Anatomy, Medial geniculate body, Sensory Systems, medicine.anatomical_structure, Acoustic Stimulation, Cats, Neuron, Psychology, Neuroscience

Abstract

The cat primary auditory cortex (AI) is usually assumed to form one continuous functional region. However, the dorsal and central parts of the AI iso-frequency domain contain neurons that have distinct response properties to acoustic stimuli. In this study, we asked whether neurons projecting to dorsal versus central regions of AI originate in different parts of the medial geniculate body (MGB). Spike rate responses to variations in the sound level and frequency of pure tones were used to measure characteristic frequency (CF) and frequency resolution. These were mapped with high spatial density in order to place retrograde tracers into matching frequency regions of the central narrow-band region (cNB) and dorsal AI. Labeled neurons projecting to these two parts of AI were concentrated in the middle and rostral thirds of the MGB, respectively. There was little evidence that differences in dorsal and central AI function could be due to convergent input from cells outside the ventral division of the MGB (MGBv). Instead, inputs arising from different locations along the caudal-to-rostral dimension of MGBv represent potential sources of response differences between central and dorsal sub-regions of AI. more...

Published

2011

15. Neural Time Course of Echo Suppression in Humans

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Author

Lee M. Miller, Kristina C. Backer, Antoine J. Shahin, and Kevin T. Hill

Subjects

Adult, Male, Auditory perception, medicine.medical_specialty, Perceptual Masking, Audiology, Stimulus (physiology), Electroencephalography, behavioral disciplines and activities, Article, Young Adult, Reference Values, Reaction Time, otorhinolaryngologic diseases, medicine, Humans, Psychoacoustics, Evoked Potentials, Analysis of Variance, Communication, medicine.diagnostic_test, business.industry, General Neuroscience, Auditory Threshold, Phase synchronization, Acoustic space, Percept, business, Psychology

Abstract

In reverberant environments, the brain can suppress echoes so that auditory perception is dominated by the primary or leading sounds. Echo suppression comprises at least two distinct phenomena whose neural bases are unknown: spatial translocation of an echo toward the primary sound, and object capture to combine echo and primary sounds into a single event. In an electroencephalography study, we presented subjects with primary-echo (leading–lagging) click pairs in virtual acoustic space, with interclick delay at the individual's 50% suppression threshold. On each trial, subjects reported both click location (one or both hemifields) and the number of clicks they heard (one or two). Thus, the threshold stimulus led to two common percepts:SuppressedandNot Suppressed. On some trials, a subset of subjects reported an intermediate percept, in which two clicks were perceived in the same hemifield as the leading click, providing a dissociation between spatial translocation and object capture. We conducted time–frequency and event-related potential analyses to examine the time course of the neural mechanisms mediating echo suppression. Enhanced gamma band phase synchronization (peaking at ∼40 Hz) specific to successful echo suppression was evident from 20 to 60 ms after stimulus onset. N1 latency provided a categorical neural marker of spatial translocation, whereas N1 amplitude still reflected the physical presence of a second (lagging) click. These results provide evidence that (1) echo suppression begins early, at the latest when the acoustic signal first reaches cortex, and (2) the brain spatially translocates a perceived echo before the primary sound captures it. more...

Published

2010

16. Development of Auditory Phase-Locked Activity for Music Sounds

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Author

Laurel J. Trainor, Lee M. Miller, Antoine J. Shahin, Kristina C. Backer, and Larry E. Roberts

Subjects

Adult, Auditory perception, Aging, Periodicity, medicine.medical_specialty, Time Factors, Adolescent, Physiology, Human Development, media_common.quotation_subject, Stimulus (physiology), Electroencephalography, Audiology, computer.software_genre, Auditory cortex, Young Adult, Perception, Neural Pathways, medicine, Humans, Child, Audio signal processing, media_common, Analysis of Variance, Communication, medicine.diagnostic_test, business.industry, General Neuroscience, Brain, Articles, Fundamental frequency, Acoustic Stimulation, Child, Preschool, Auditory Perception, Evoked Potentials, Auditory, Psychology, business, computer, Timbre, Music

Abstract

The auditory cortex undergoes functional and anatomical development that reflects specialization for learned sounds. In humans, auditory maturation is evident in transient auditory-evoked potentials (AEPs) elicited by speech or music. However, neural oscillations at specific frequencies are also known to play an important role in perceptual processing. We hypothesized that, if oscillatory activity in different frequency bands reflects different aspects of sound processing, the development of phase-locking to stimulus attributes at these frequencies may have different trajectories. We examined the development of phase-locking of oscillatory responses to music sounds and to pure tones matched to the fundamental frequency of the music sounds. Phase-locking for theta (4–8 Hz), alpha (8–14 Hz), lower-to-mid beta (14–25 Hz), and upper-beta and gamma (25–70 Hz) bands strengthened with age. Phase-locking in the upper-beta and gamma range matured later than in lower frequencies and was stronger for music sounds than for pure tones, likely reflecting the maturation of neural networks that code spectral complexity. Phase-locking for theta, alpha, and lower-to-mid beta was sensitive to temporal onset (rise time) sound characteristics. The data were also consistent with phase-locked oscillatory effects of acoustic (spectrotemporal) complexity and timbre familiarity. Future studies are called for to evaluate developmental trajectories for oscillatory activity, using stimuli selected to address hypotheses related to familiarity and spectral and temporal encoding suggested by the current findings. more...

Published

2010

17. Brain oscillations during semantic evaluation of speech

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Author

Lee M. Miller, Terence W. Picton, and Antoine J. Shahin

Subjects

Adult, Male, medicine.medical_specialty, Echoic memory, Speech perception, Brain activity and meditation, Cognitive Neuroscience, Experimental and Cognitive Psychology, Neuropsychological Tests, Audiology, Electroencephalography, Brain mapping, Article, Cognition, Arts and Humanities (miscellaneous), Gamma Rhythm, Reaction Time, Developmental and Educational Psychology, medicine, Humans, Attention, Beta Rhythm, Brain Mapping, medicine.diagnostic_test, Brain, Semantics, Alpha Rhythm, Neuropsychology and Physiological Psychology, Speech Perception, Female, Psychology, Cognitive psychology

Abstract

Changes in oscillatory brain activity have been related to perceptual and cognitive processes such as selective attention and memory matching. Here we examined brain oscillations, measured with electroencephalography (EEG), during a semantic speech processing task that required both lexically mediated memory matching and selective attention. Participants listened to nouns spoken in male and female voices, and detected an animate target (p = 20%) in a train of inanimate standards or vice versa. For a control task, subjects listened to the same words and detected a target male voice in standards of a female voice or vice versa. The standard trials of the semantic task showed enhanced upper beta (25–30 Hz) and gamma band (GBA, 30-60 Hz) activity compared to the voice task. Upper beta and GBA enhancement was accompanied by a suppression of alpha (8–12 Hz) and lower to mid beta (13–20 Hz) activity mainly localized to posterior electrodes. Enhancement of phase-locked theta activity peaking near 275 ms also occurred over the midline electrodes. Theta, upper beta, and gamma band enhancement may reflect lexically mediated template matching in auditory memory, whereas the alpha and beta suppression likely indicate increased attentional processes and memory demands. more...

Published

2009

18. Auditory Attentional Control and Selection during Cocktail Party Listening

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Author

Lee M. Miller and Kevin T. Hill

Subjects

Auditory perception, Auditory Pathways, Time Factors, Cognitive Neuroscience, Speech recognition, Precentral sulcus, Inferior frontal gyrus, Superior parietal lobule, Auditory cortex, behavioral disciplines and activities, Functional Laterality, Young Adult, Cellular and Molecular Neuroscience, Image Processing, Computer-Assisted, otorhinolaryngologic diseases, medicine, Humans, Attention, Auditory Cortex, medicine.diagnostic_test, Attentional control, Articles, Superior temporal sulcus, Magnetic Resonance Imaging, Oxygen, Acoustic Stimulation, Space Perception, Auditory Perception, Cues, Psychology, Functional magnetic resonance imaging, Perceptual Masking, psychological phenomena and processes, Cognitive psychology

Abstract

In realistic auditory environments, people rely on both attentional control and attentional selection to extract intelligible signals from a cluttered background. We used functional magnetic resonance imaging to examine auditory attention to natural speech under such high processing-load conditions. Participants attended to a single talker in a group of 3, identified by the target talker's pitch or spatial location. A catch-trial design allowed us to distinguish activity due to top-down control of attention versus attentional selection of bottom-up information in both the spatial and spectral (pitch) feature domains. For attentional control, we found a left-dominant fronto-parietal network with a bias toward spatial processing in dorsal precentral sulcus and superior parietal lobule, and a bias toward pitch in inferior frontal gyrus. During selection of the talker, attention modulated activity in left intraparietal sulcus when using talker location and in bilateral but right-dominant superior temporal sulcus when using talker pitch. We argue that these networks represent the sources and targets of selective attention in rich auditory environments. more...

Published

2009

19. Multisensory integration enhances phonemic restoration

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Author

Lee M. Miller and Antoine J. Shahin

Subjects

Adult, Sound Spectrography, Time Factors, Visual perception, Speech perception, Acoustics and Ultrasonics, media_common.quotation_subject, Illusion, Multisensory integration, Phonetics, Context (language use), Speech Perception [71], Semantics, Cognition, Arts and Humanities (miscellaneous), Perception, Speech Perception, Visual Perception, Humans, Percept, Noise, Psychology, media_common, Cognitive psychology

Abstract

Phonemic restoration occurs when speech is perceived to be continuous through noisy interruptions, even when the speech signal is artificially removed from the interrupted epochs. This temporal filling-in illusion helps maintain robust comprehension in adverse environments and illustrates how contextual knowledge through the auditory modality (e.g., lexical) can improve perception. This study investigated how one important form of context, visual speech, affects phonemic restoration. The hypothesis was that audio-visual integration of speech should improve phonemic restoration, allowing the perceived continuity to span longer temporal gaps. Subjects listened to tri-syllabic words with a portion of each word replaced by white noise while watching lip-movement that was either congruent, temporally reversed (incongruent), or static. For each word, subjects judged whether the utterance sounded continuous or interrupted, where a “continuous” response indicated an illusory percept. Results showed that illusory filling-in of longer white noise durations (longer missing segments) occurred when the mouth movement was congruent with the spoken word compared to the other conditions, with no differences occurring between the static and incongruent conditions. Thus, phonemic restoration is enhanced when applying contextual knowledge through multisensory integration. more...

Published

2009

20. Neural mechanisms for illusory filling-in of degraded speech

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Author

Antoine J. Shahin, Lee M. Miller, and Christopher W. Bishop

Subjects

Adult, Male, Speech perception, Cognitive Neuroscience, media_common.quotation_subject, Speech recognition, Illusion, Context (language use), Sensory system, Article, Angular gyrus, Cognition, Perception, Humans, media_common, Cerebral Cortex, Filling-in, Superior temporal sulcus, Middle Aged, Illusions, Magnetic Resonance Imaging, Semantics, Neurology, Auditory Perception, Speech Perception, Female, Psychology, Cognitive psychology

Abstract

The brain uses context and prior knowledge to repair degraded sensory inputs and improve perception. For example, listeners hear speech continuing uninterrupted through brief noises, even if the speech signal is artificially removed from the noisy epochs. In a functional MRI study, we show that this temporal filling-in process is based on two dissociable neural mechanisms: the subjective experience of illusory continuity, and the sensory repair mechanisms that support it. Areas mediating illusory continuity include the left posterior angular gyrus (AG) and superior temporal sulcus (STS) and the right STS. Unconscious sensory repair occurs in Broca's area, bilateral anterior insula, and pre-supplementary motor area. The left AG/STS and all the repair regions show evidence for word-level template matching and communicate more when fewer acoustic cues are available. These results support a two-path process where the brain creates coherent perceptual objects by applying prior knowledge and filling-in corrupted sensory information. more...

Published

2009

21. Music training leads to the development of timbre-specific gamma band activity

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Author

Wilkin Chau, Lee M. Miller, Larry E. Roberts, Laurel J. Trainor, and Antoine J. Shahin

Subjects

Adult, Male, Cognitive Neuroscience, Speech recognition, media_common.quotation_subject, education, Electroencephalography, Auditory cortex, Article, Education, Violin, Perception, medicine, Humans, Pitch Perception, media_common, medicine.diagnostic_test, Piano, Cognition, Acoustic Stimulation, Neurology, Child, Preschool, Data Interpretation, Statistical, Female, Psychology, Timbre, Gamma band, Music

Abstract

Oscillatory gamma band activity (GBA, 30-100 Hz) has been shown to correlate with perceptual and cognitive phenomena including feature binding, template matching, and learning and memory formation. We hypothesized that if GBA reflects highly learned perceptual template matching, we should observe its development in musicians specific to the timbre of their instrument of practice. EEG was recorded in adult professional violinists and amateur pianists as well as in 4- and 5-year-old children studying piano in the Suzuki method before they commenced music lessons and 1 year later. The adult musicians showed robust enhancement of induced (non-time-locked) GBA, specifically to their instrument of practice, with the strongest effect in professional violinists. Consistent with this result, the children receiving piano lessons exhibited increased power of induced GBA for piano tones with 1 year of training, while children not taking lessons showed no effect. In comparison to induced GBA, evoked (time-locked) gamma band activity (30-90 Hz, approximately 80 ms latency) was present only in adult groups. Evoked GBA was more pronounced in musicians than non-musicians, with synchronization equally exhibited for violin and piano tones but enhanced for these tones compared to pure tones. Evoked gamma activity may index the physical properties of a sound and is modulated by acoustical training, while induced GBA may reflect higher perceptual learning and is shaped by specific auditory experiences. more...

Published

2008

22. Two thalamic pathways to primary auditory cortex

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Author

Jeffery A. Winer, Christoph E. Schreiner, Lee M. Miller, and Heather L. Read

Subjects

Auditory Cortex, Neurons, Brain Mapping, Auditory Pathways, General Neuroscience, Thalamus, Central nervous system, Anatomy, Medial geniculate body, Auditory cortex, Sound intensity, Article, medicine.anatomical_structure, Acoustic Stimulation, nervous system, Cats, medicine, Animals, Neuron, Psychology, Neuroscience, Binaural recording, Nucleus

Abstract

Neurons in the center of cat primary auditory cortex (AI) respond to a narrow range of sound frequencies and the preferred frequencies in local neuron clusters are closely aligned in this central narrow bandwidth region (cNB). Response preferences to other input parameters, such as sound intensity and binaural interaction, vary within cNB; however, the source of this variability is unknown. Here we examined whether input to the cNB could arise from multiple, anatomically independent subregions in the ventral nucleus of the medial geniculate body (MGBv). Retrograde tracers injected into cNB labeled discontinuous clusters of neurons in the superior (sMGBv) and inferior (iMGBv) halves of the MGBv. Most labeled neurons were in the sMGBv and their density was greater. iMGBv somata were significantly larger. These findings suggest that cNB projection neurons in superior and iMGBv have distinct anatomic and possibly physiologic organization. more...

Published

2008

23. List of Contributors

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Author

Hermann Ackermann, Mauro Adenzato, Diana R. Alkire, Luc H. Arnal, Cesar Ávila, Bruno G. Bara, Brian Barton, Shari R. Baum, Michael S. Beauchamp, Jeffrey R. Binder, Ferdinand Christoph Binkofski, Shane Blau, Sheila E. Blumstein, Tobias Bormann, Ina Bornkessel-Schlesewsky, Francesca M. Branzi, Bettina Brendel, Alyssa A. Brewer, Iris Broce, Timothy T. Brown, Bradley R. Buchsbaum, David Caplan, Svenja Caspers, Tracy M. Centanni, Edward F. Chang, Jennifer Chesters, Derya Çokal, Emily L. Connally, David P. Corina, H. Branch Coslett, Albert Costa, Steven C. Cramer, Suzanne Curtin, Matthew H. Davis, Gary S. Dell, Özlem Ece Demir, Isabelle Deschamps, Anthony Steven Dick, Frederic Dick, Danielle S. Dickson, Hugues Duffau, E. Susan Duncan, Guinevere F. Eden, Crystal T. Engineer, Ivan Enrici, Julia L. Evans, Tanya M. Evans, Luciano Fadiga, Kara D. Federmeier, Fernanda Ferreira, Evelyn C. Ferstl, Julie A. Fiez, Simon E. Fisher, Carol A. Fowler, Julius Fridriksson, Angela D. Friederici, Jackson T. Gandour, Fatemeh Geranmayeh, Morton Ann Gernsbacher, Marta Ghio, Anne-Lise Giraud, Susan Goldin-Meadow, Maria Luisa Gorno-Tempini, Vincent L. Gracco, Elizabeth J. Grace, Deanna J. Greene, Frank H. Guenther, Peter Hagoort, Uri Hasson, Olaf Hauk, Shannon Heald, Arturo E. Hernandez, Gregory Hickok, Argye E. Hillis, Lori L. Holt, Norbert Hornstein, John F. Houde, William J. Idsardi, Cassandra L. Jacobs, Ned Jenkinson, Ingrid S. Johnsrude, Michael P. Kilgard, Tilo Kircher, Juliane Klann, Serena Klos, Sonja A. Kotz, Anthony J. Krafnick, Ananthanarayan Krishnan, Saloni Krishnan, Dorothee Kuemmerer, Marta Kutas, Robert Leech, Matthew K. Leonard, Christina N. Lessov-Schlaggar, Susan C. Levine, Daniel A. Llano, Andrew J. Lotto, Alec Marantz, Conor T. McLennan, Lars Meyer, Lee M. Miller, Bettina Mohr, Philip J. Monahan, Emily M. Morson, Mariachristina Musso, Srikantan S. Nagarajan, Arne Nagels, Hal X. Nguyen, Nazbanou Nozari, Howard Nusbaum, Olumide A. Olulade, Karalyn Patterson, Silke Paulmann, Michael Petrides, David B. Pisoni, David Poeppel, Peter Pressman, Friedemann Pulvermüller, Liina Pylkkänen, Anjali Raja Beharelle, Matthew A. Lambon Ralph, Kathleen Rastle, Josef P. Rauschecker, Jessica D. Richardson, Michel Rijntjes, Giacomo Rizzolatti, Jennifer M. Rodd, Corianne Rogalsky, Stefano Rozzi, Ayşe Pinar Saygin, Bradley L. Schlaggar, Gottfried Schlaug, Matthias Schlesewsky, Myrna F. Schwartz, Michael Schwartze, Sophie K. Scott, Steven L. Small, Kimberly Smith, Jon Sprouse, Anja Staiger, Craig E.L. Stark, Shauna M. Stark, Adrian Staub, Edward Taub, Marco Tettamanti, Sharon L. Thompson-Schill, Donna C. Tippett, Pascale Tremblay, Peter Turkeltaub, Michael T. Ullman, Kate E. Watkins, Cornelius Weiller, Richard J.S. Wise, Jeffrey M. Zacks, and Wolfram Ziegler more...

Published

2016

24. Neural Mechanisms of Attention to Speech

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Author

Lee M. Miller

Subjects

medicine.diagnostic_test, Hearing loss, Attentional control, medicine, Selection (linguistics), Noise (video), Neurocomputational speech processing, medicine.symptom, Electroencephalography, Psychology, Cocktail party effect, Cognitive psychology, Task (project management)

Abstract

In everyday environments, listeners can selectively attend to one talker even in the presence of multiple competing sounds. Although this so-called cocktail party effect has been studied behaviorally for more than half a century, our understanding of its neural mechanisms has advanced rapidly only in the past decade. The brain networks that coordinate attentional control to speech largely overlap with those for vision, suggesting a supramodal system for both volitional and reflexive allocation of attention. In contrast, the levels of attentional selection where speech representations are modulated may vary depending on task goals and stimuli, for instance, how acoustically distinguishable the speech and noise happen to be. The brain then selects one speech message for conscious awareness and further processing, in part by the relative neural response to the attended speech envelope (the slower, syllable-rate power fluctuations). Ultimately, understanding the neural bases of attention to speech might improve our approaches to common, costly challenges such as aging and hearing loss. more...

Published

2016

25. Sensitivity of EEG and MEG to the N1 and P2 Auditory Evoked Responses Modulated by Spectral Complexity of Sounds

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Author

Lee M. Miller, Antoine J. Shahin, Larry E. Roberts, Claude Alain, and Kelly L. McDonald

Subjects

Adult, Male, Auditory perception, Auditory Pathways, genetic structures, Speech recognition, Stimulus (physiology), Electroencephalography, Auditory cortex, behavioral disciplines and activities, Brain mapping, Article, Sensation, Reaction Time, medicine, Humans, Radiology, Nuclear Medicine and imaging, Pitch Perception, Auditory Cortex, Brain Mapping, Radiological and Ultrasound Technology, medicine.diagnostic_test, Magnetoencephalography, Amplitude, Acoustic Stimulation, Neurology, Auditory Perception, Evoked Potentials, Auditory, Female, Neurology (clinical), Anatomy, Psychology, psychological phenomena and processes

Abstract

Acoustic complexity of a stimulus has been shown to modulate the electromagnetic N1 (latency approximately 110 ms) and P2 (latency 190 ms) auditory evoked responses. We compared the relative sensitivity of electroencephalography (EEG) and magnetoencephalography (MEG) to these neural correlates of sensation. Simultaneous EEG and MEG were recorded while participants listened to three variants of a piano tone. The piano stimuli differed in their number of harmonics: the fundamental frequency (f ( 0 )), only, or f ( 0 ) and the first two or eight harmonics. The root mean square (RMS) of the amplitude of P2 but not N1 increased with spectral complexity of the piano tones in EEG and MEG. The RMS increase for P2 was more prominent in EEG than MEG, suggesting important radial sources contributing to the P2 only in EEG. Source analysis revealing contributions from radial and tangential sources was conducted to test this hypothesis. Source waveforms revealed a significant increase in the P2 radial source amplitude in EEG with increased spectral complexity of piano tones. The P2 of the tangential source waveforms also increased in amplitude with increased spectral complexity in EEG and MEG. The P2 auditory evoked response is thus represented by both tangential (gyri) and radial (sulci) activities. The radial contribution is expressed preferentially in EEG, highlighting the importance of combining EEG with MEG where complex source configurations are suspected. more...

Published

2007

26. Functional Connectivity of Cortical Networks Involved in Bimanual Motor Sequence Learning

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Author

Ajay A. Rao, Lee M. Miller, Mark D'Esposito, and Felice T. Sun

Subjects

Adult, Male, Serial reaction time, Cognitive Neuroscience, education, Prefrontal Cortex, computer.software_genre, Premotor cortex, Cellular and Molecular Neuroscience, Voxel, Neural Pathways, Task Performance and Analysis, medicine, Humans, Learning, Motor skill, Blood-oxygen-level dependent, Supplementary motor area, medicine.diagnostic_test, Motor Cortex, medicine.anatomical_structure, Motor Skills, Female, Sequence learning, Nerve Net, Functional magnetic resonance imaging, Psychology, Neuroscience, computer

Abstract

Motor skill learning requires the involvement and integration of several cortical and subcortical regions. In this study, we focus on how the functional connectivity of cortical networks changes with the acquisition of a novel motor skill. Using functional magnetic resonance imaging, we measured the localized blood oxygenation level--dependent (BOLD) signal in cortical regions while subjects performed a bimanual serial reaction time task under 2 conditions: 1) explicitly learning a novel sequence (NOVEL) and 2) playing a previously learned sequence (LEARNED). To investigate stages of learning, each condition was further divided into nonoverlapping early and late conditions. Functional connectivity was measured using a task-specific low-frequency coherence analysis of the data. We show that within the cortical motor network, the sensorimotor cortex, premotor cortex, and supplementary motor area have significantly greater inter- and intrahemispheric coupling during the early NOVEL condition compared with the late NOVEL condition. Additionally, we observed greater connectivity between frontal regions and cortical motor regions in the early versus late NOVEL contrast. No changes in functional connectivity were observed in the LEARNED condition. These results demonstrate that the functional connectivity of the cortical motor network is modulated with practice and suggest that early skill learning is mediated by enhanced interregional coupling. more...

Published

2006

27. Measuring temporal dynamics of functional networks using phase spectrum of fMRI data

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Author

Lee M. Miller, Mark D'Esposito, and Felice T. Sun

Subjects

Adult, Male, Cognitive Neuroscience, Posterior parietal cortex, Functional Laterality, Premotor cortex, Parietal Lobe, Image Processing, Computer-Assisted, medicine, Humans, Coherence (signal processing), Temporal dynamics of music and language, Analysis of Variance, Brain Mapping, Supplementary motor area, medicine.diagnostic_test, Motor Cortex, SMA, Magnetic Resonance Imaging, Electrophysiology, medicine.anatomical_structure, Neurology, Visual Perception, Female, Cues, Nerve Net, Primary motor cortex, Psychology, Functional magnetic resonance imaging, Neuroscience, Algorithms

Abstract

We present a novel method to measure relative latencies between functionally connected regions using phase-delay of functional magnetic resonance imaging data. Derived from the phase component of coherency, this quantity estimates the linear delay between two time-series. In conjunction with coherence, derived from the magnitude component of coherency, phase-delay can be used to examine the temporal properties of functional networks. In this paper, we apply coherence and phase-delay methods to fMRI data in order to investigate dynamics of the motor network during task and rest periods. Using the supplementary motor area (SMA) as a reference region, we calculated relative latencies between the SMA and other regions within the motor network including the dorsal premotor cortex (PMd), primary motor cortex (M1), and posterior parietal cortex (PPC). During both the task and rest periods, we measured significant delays that were consistent across subjects. Specifically, we found significant delays between the SMA and the bilateral PMd, bilateral M1, and bilateral PPC during the task condition. During the rest condition, we found that the temporal dynamics of the network changed relative to the task period. No significant delays were measured between the SMA and the left PM and left M1; however, the right PM, right M1, and bilateral PPC were significantly delayed with respect to the SMA. Additionally, we observed significant map-wise differences in the dynamics of the network at task compared to the network at rest. These differences were observed in the interaction between the SMA and the left M1, left superior frontal gyrus, and left middle frontal gyrus. These temporal measurements are important in determining how regions within a network interact and provide valuable information about the sequence of cognitive processes within a network. more...

Published

2005

28. Auditory thalamocortical transformation: structure and function

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Author

Lee M. Miller, Charles C. Lee, Jeffery A. Winer, and Christoph E. Schreiner

Subjects

Cerebral Cortex, Auditory Pathways, Modalities, Transformation (function), Thalamus, General Neuroscience, Information processing, Animals, Humans, Complex network, Psychology, Neuroscience, Structure and function

Abstract

Communicative, predatory, and reproductive behaviors rely on the auditory thalamocortical system, a key nexus that combines, transforms, and distributes virtually all acoustic information relevant to survival. The rules of connectivity for this complex network, both anatomically and functionally, are only beginning to be uncovered. Although the auditory thalamocortical system shares many features with other modalities, its connectivity and information processing principles differ from those of other modalities in many ways. Some physiological and anatomical bases for these differences are the subject of this review. more...

Published

2005

29. Coherence between fMRI time-series distinguishes two spatial working memory networks

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Author

Felice T. Sun, Clayton E. Curtis, Mark D'Esposito, and Lee M. Miller

Subjects

Adult, Male, Adolescent, Eye Movements, Cognitive Neuroscience, Prefrontal Cortex, Sensory system, Fixation, Ocular, Spatial memory, Image Interpretation, Computer-Assisted, medicine, Humans, Echo-Planar Imaging, Working memory, Motor control, Coherence (statistics), Frontal eye fields, Magnetic Resonance Imaging, Oxygen, Dorsolateral prefrontal cortex, Memory, Short-Term, medicine.anatomical_structure, Neurology, Space Perception, Saccade, Female, Cues, Nerve Net, Psychology, Algorithms, Cognitive psychology

Abstract

Widespread and distributed brain regions are thought to form networks that together support working memory. We recently demonstrated that different cortical areas maintain relatively different codes across a memory delay (Curtis et. al., J Neurosci, 2004; 24:3944-3952). The frontal eye fields (FEF), for example, were more active during the delay when the direction of the memory-guided saccade was known compared to when it was not known throughout the delay. Other areas showed the opposite pattern. Despite these task-dependent differences in regional activity, we could only assume but not address the functional interactions between the identified nodes of the putative network. Here, we use a bivariate technique, coherence, to formally characterize functional interactions between a seed region and other brain areas. We find that the type of representational codes that are being maintained in working memory biases frontal-parietal interactions. For example, coherence between FEF and other oculomotor areas was greater when a motor representation was an efficient strategy to bridge the delay period. However, coherence between the FEF and higher-order heteromodal areas, e.g., dorsolateral prefrontal cortex, was greater when a sensory representation must be maintained in working memory. more...

Published

2005

30. Functional interactions between oculomotor regions during prosaccades and antisaccades

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Author

Mark D'Esposito, Clayton E. Curtis, Lee M. Miller, and Felice T. Sun

Subjects

Adult, Male, genetic structures, Intraparietal sulcus, Stimulus (physiology), Neuroimaging, Neural Pathways, Saccades, medicine, Humans, Radiology, Nuclear Medicine and imaging, Research Articles, Visual Cortex, Brain Mapping, Radiological and Ultrasound Technology, Artificial neural network, Motor Cortex, Cognition, Human brain, Frontal eye fields, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Female, Neurology (clinical), Anatomy, Antisaccade task, Psychology, Neuroscience, Photic Stimulation

Abstract

Human behavior reflects a continual negotiation of automatic and directed actions. The oculomotor network is a well‐characterized neural system in which to study this balance of behavioral control. For instance, saccades made toward and away from a flashed visual stimulus (prosaccades and antisaccades, respectively) are known to engage different cognitive processes. Brain regions important for such controlled execution include the presupplementary motor area (pre‐SMA), frontal eye fields (FEF), and intraparietal sulcus (IPS). Recent work has emphasized various elements of this network but has not explored the functional interactions among regions. We used event‐related fMRI to image human brain activity during performance of an interleaved pro/antisaccade task. Since traditional univariate statistics cannot address issues of functional connectivity, a multivariate technique is necessary. Coherence between fMRI time series of the pre‐SMA with the FEF and IPS was used to measure functional interactions. The FEF, but not IPS, showed significant differential coherence between pro‐ and antisaccade trials with pre‐SMA. These results suggest that the pre‐SMA coordinates with FEF to maintain a controlled, preparatory set for task‐appropriate oculomotor execution. Hum Brain Mapp, 2005. © 2005 Wiley‐Liss, Inc. more...

Published

2005

31. Measuring interregional functional connectivity using coherence and partial coherence analyses of fMRI data

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Author

Mark D'Esposito, Felice T. Sun, and Lee M. Miller

Subjects

Adult, Male, Adolescent, Cognitive Neuroscience, Motor Activity, Functional Laterality, Oxygen Consumption, Neuroimaging, Image Processing, Computer-Assisted, medicine, Biological neural network, Humans, Coherence (signal processing), Attention, Computer vision, Dominance, Cerebral, Mathematical Computing, Mathematics, Brain Mapping, Fourier Analysis, medicine.diagnostic_test, Resting state fMRI, business.industry, Functional connectivity, Motor Cortex, Brain, Pattern recognition, Cognition, Image Enhancement, Magnetic Resonance Imaging, Neurology, Linear Models, Female, Artificial intelligence, Nerve Net, Functional magnetic resonance imaging, business, Psychomotor Performance, Partial coherence

Abstract

Understanding functional connectivity within the brain is crucial to understanding neural function; even the simplest cognitive operations are supported by highly distributed neural circuits. We developed a novel method to measure task-related functional interactions between neural regions by applying coherence and partial coherence analyses to functional magnetic resonance imaging (fMRI) data. Coherence and partial coherence are spectral measures that estimate the linear time-invariant (LTI) relationship between time series. They can be used to generate maps of task-specific connectivity associated with seed regions of interest (ROIs). These maps may then be compared across tasks, revealing nodes with task-related changes of connectivity to the seed ROI. To validate the method, we applied it to an event-related fMRI data set acquired while subjects performed two sequence tapping tasks, one of which required more bimanual coordination. Areas showing increased functional connectivity with both tasks were the same as those showing increased activity. Furthermore, though there were no significant differences in mean activity between the two tasks, significant increases in interhemispheric coherence were found between the primary motor (M1) and premotor (PM) regions for the task requiring more bimanual coordination. This increase in interhemispheric connectivity is supported by other brain imaging techniques as well as patient studies. more...

Published

2004

32. Naturalistic Auditory Contrast Improves Spectrotemporal Coding in the Cat Inferior Colliculus

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Author

Heather L. Read, Lee M. Miller, Christoph E. Schreiner, and Monty A. Escabí

Subjects

Auditory perception, Inferior colliculus, Loudness Perception, Action Potentials, Behavioral/Systems/Cognitive, Stimulus (physiology), medicine, Animals, Premovement neuronal activity, Auditory system, Natural sounds, Neurons, Communication, business.industry, General Neuroscience, Neural adaptation, Inferior Colliculi, Kinetics, medicine.anatomical_structure, Receptive field, Data Interpretation, Statistical, Auditory Perception, Cats, business, Psychology, Neuroscience

Abstract

Statistical analysis of natural sounds and speech reveals logarithmically distributed spectrotemporal modulations that can cover several orders of magnitude. By contrast, most artificial stimuli used to probe auditory function, including pure tones and white noise, have linearly distributed amplitude fluctuations with a limited average dynamic range. Here we explore whether the operating range of the auditory system is physically matched to the statistical structure of natural sounds. We recorded single-unit and multi-unit neuronal activity from the central nucleus of the cat inferior colliculus (ICC) in response to dynamic spectrotemporal sound sequences to determine whether ICC neurons respond preferentially to linear or logarithmic spectrotemporal amplitudes. We varied the intensity, dynamic range, and contrast statistics of these sounds to mimic those of natural and artificial stimuli. ICC neurons exhibited monotonic and nonmonotonic contrast dependencies with increasing dynamic range that were independent of the stimulus intensity. Midbrain neurons had higher firing rates and higher receptive field energies and showed a net improvement in spectrotemporal encoding ability for logarithmic stimuli, with an increase in the mutual information rate of approximately 50% over linear amplitude sounds. This efficient use of logarithmic spectrotemporal modulations by auditory midbrain neurons reflects a neural adaptation to structural regularities in natural sounds and likely underlies human perceptual abilities. more...

Published

2003

33. Empirical comparison of Landsat 7 and IKONOS multispectral measurements for selected Earth Observation System (EOS) validation sites

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Author

Paul Davis, Lee M. Miller, David C. Fleming, John R. Townshend, and Samuel N. Goward

Subjects

Pixel, Thematic Mapper, Multispectral image, Soil Science, Environmental science, Geology, Land cover, Computers in Earth Sciences, Subpixel rendering, Image resolution, Remote sensing, Panchromatic film, Multispectral pattern recognition

Abstract

The Space Imaging IKONOS observatory may provide an important benefit in terrestrial scientific research. The five-band, 1 m panchromatic and 4 m multispectral measurements have the potential to provide a source of measurements to evaluate subpixel land cover variability in measurements from observatories such as Landsat 7 Enhanced Thematic Mapper Plus (ETM+) and Terra MODIS sensor. The IKONOS observations are at a spatial scale equivalent to field measurements typically carried out in ecological and land cover research. As such, the IKONOS observations may serve as a source of “virtual” ground measurements, for the lower spatial resolution, global observatories. In this study we examine how well IKONOS sensor observations replicate Landsat 7 ETM+ visible/near infrared observations for selected Earth Observation System (EOS) validation sites in the United States. The sites examined—Beltsville, MD, Konza Prairie, KS, and Sevilleta, NM—sample the east–west moisture gradient across the United States. Observations for each site were acquired, as nearly time-coincident as possible, from ETM+ and the IKONOS sensor, several times over the growing season. This was done to insure that we compared these two sensors over the widest range of observing conditions possible. We also examined IKONOS imagery from Phoenix, AZ, where Space Imaging had and had not applied a modulation transfer function compensation (MTFC) process. The MTFC is their standard product. We found that this product, at the original 4 m spatial resolution, appears to have minor radiometric artifacts as a result of the process. When the IKONOS observations were aggregated to 30 m, this problem was essentially absent, allowing us to proceed with the remainder of our study. We processed the IKONOS sensor and ETM+ measurements to produce close approximates of each other. Our processing steps included ortho-rectification, calibration to planetary reflectance, pixel alignment and pixel aggregation. We initially found radiometric differences between the two sensors that increased with increasing wavelength. Space Imaging updated their calibration information, based on analyses from NASA Stennis Space Center staff, which removed much of this discrepancy. We now find that the IKONOS red and near infrared measurements differ between the two sensors, with IKONOS generally producing higher reflectance in the red band and lower reflectance in the near infrared band than the Landsat 7 ETM+ sensor. This results in the IKONOS sensor producing lower spectral vegetation index measurements, for the same target, than ETM+, a measurement variation that has been observed between other sensors. We also encountered far more cirrus cloud (and shadow) contamination in these paired observations that we had expected. After careful initial selection, we lost over half of our image pairs from the analysis because of cirrus cloud contamination. We do not know whether this is simply because of the paired, comparative design of this study or whether it relates to the increased spatial and radiometric resolution of the IKONOS sensor. The results of this study not only provide a baseline assessment of IKONOS versus Landsat 7 ETM+ visible and near infrared measurements but also suggest some of the issues that need more attention when comparing other sensor systems as well as developing the design of future land observatories. more...

Published

2003

34. Geospatial habitat change analysis in Pacific Northwest coastal estuaries

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Author

Ronald M. Thom, Amy B. Borde, Steven Rumrill, and Lee M. Miller

Subjects

Shore, geography, geography.geographical_feature_category, Marsh, biology, Estuary, Wetland, Aquatic Science, biology.organism_classification, Oceanography, Habitat, Environmental Chemistry, Zostera marina, Bay, Restoration ecology, General Environmental Science

Abstract

We assessed historical changes in the location and amount of potential estuarine habitat in three of the four largest coastal estuaries in the United States Pacific Northwest (Grays Harbor, Willapa Bay, and Coos Bay) as part of the Pacific Northwest Coastal Ecosystem Regional Study (PNCERS). To accomplish the historical assessment, navigation charts, hydrographic survey data, maps, and published descriptions were used to gain information on the location of the shoreline, bathymetry, and vegetated habitats, which were then digitized and subjected to geospatial analysis using a geographic information system (GIS). We used present-day elevational boundaries for marshes, flats, and eelgrass meadows to help define habitat areas where they were not indicated, on historical maps. The analysis showed that tidal flats have decreased in all study areas, potential eelgrass,Zostera marina L., habitat has increased in Grays Harbor and Willapa Bay and decreased slightly in Coos Bay, tidal wetland area has declined in all three coastal estuaries with increases in localized areas due to filling and sedimentation, and dramatic changes have occurred at the mouths of Grays Harbor and Willapa Bay. These data illustrate that direct physical alteration (filling and diking) has resulted in large changes to habitats. Forest practices in the watershed, as well as variation in climatic factors and oceanographic processes, may also have contributed to changes. The information provides more evidence for managing estuarine habitats in the region and employing historical templates to plan habitat restoration in the future. more...

Published

2003

35. Putative mechanisms mediating tolerance for audiovisual stimulus onset asynchrony

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Author

Mark A. Pitt, Jyoti Bhat, Antoine J. Shahin, and Lee M. Miller

Subjects

Male, medicine.medical_specialty, Speech perception, Physiology, Movement, Electroencephalography, Stimulus (physiology), Audiology, Young Adult, medicine, Humans, Cortical Synchronization, Auditory Cortex, Communication, Mouth, medicine.diagnostic_test, business.industry, General Neuroscience, Stimulus onset asynchrony, Alpha Rhythm, Acoustic Stimulation, Auditory stimuli, Auditory Perception, Evoked Potentials, Auditory, Speech Perception, Visual Perception, Voice, Female, business, Psychology, Beta Rhythm, Photic Stimulation

Abstract

Audiovisual (AV) speech perception is robust to temporal asynchronies between visual and auditory stimuli. We investigated the neural mechanisms that facilitate tolerance for audiovisual stimulus onset asynchrony (AVOA) with EEG. Individuals were presented with AV words that were asynchronous in onsets of voice and mouth movement and judged whether they were synchronous or not. Behaviorally, individuals tolerated (perceived as synchronous) longer AVOAs when mouth movement preceded the speech (V-A) stimuli than when the speech preceded mouth movement (A-V). Neurophysiologically, the P1-N1-P2 auditory evoked potentials (AEPs), time-locked to sound onsets and known to arise in and surrounding the primary auditory cortex (PAC), were smaller for the in-sync than the out-of-sync percepts. Spectral power of oscillatory activity in the beta band (14–30 Hz) following the AEPs was larger during the in-sync than out-of-sync perception for both A-V and V-A conditions. However, alpha power (8–14 Hz), also following AEPs, was larger for the in-sync than out-of-sync percepts only in the V-A condition. These results demonstrate that AVOA tolerance is enhanced by inhibiting low-level auditory activity (e.g., AEPs representing generators in and surrounding PAC) that code for acoustic onsets. By reducing sensitivity to acoustic onsets, visual-to-auditory onset mapping is weakened, allowing for greater AVOA tolerance. In contrast, beta and alpha results suggest the involvement of higher-level neural processes that may code for language cues (phonetic, lexical), selective attention, and binding of AV percepts, allowing for wider neural windows of temporal integration, i.e., greater AVOA tolerance. more...

Published

2014

36. Shaken, not stirred: emergence of neural selectivity in a 'cocktail party'

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Author

Lee M. Miller

Subjects

medicine.anatomical_structure, Computer science, General Neuroscience, Speech recognition, Neuroscience(all), medicine, otorhinolaryngologic diseases, Cocktail party, Human brain, Auditory cortex, Article

Abstract

The ability to focus on and understand one talker in a noisy social environment is a critical social-cognitive capacity, whose underlying neuronal mechanisms are unclear. We investigated the manner in which speech streams are represented in brain activity and the way that selective attention governs the brain’s representation of speech using a ‘Cocktail Party’ Paradigm, coupled with direct recordings from the cortical surface in surgical epilepsy patients. We find that brain activity dynamically tracks speech streams using both low frequency phase and high frequency amplitude fluctuations, and that optimal encoding likely combines the two. In and near low level auditory cortices, attention ‘modulates’ the representation by enhancing cortical tracking of attended speech streams, but ignored speech remains represented. In higher order regions, the representation appears to become more ‘selective,’ in that there is no detectable tracking of ignored speech. This selectivity itself seems to sharpen as a sentence unfolds. more...

Published

2013

37. Introduction

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Author

Lee M. Miller

Published

2012

38. 7. Katrina Evacuee Reception in Rural East Texas

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Author

Lee M. Miller

Subjects

History, Disaster recovery, Environmental planning

Published

2012

39. Patients' satisfaction with dermatology residents

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Author

Lee M. Miller, Andrew D. Lee, Steven R. Feldman, Amy J. McMichael, Monica Huynh, and Scott A. Davis

Subjects

Waiting time, Adult, Male, medicine.medical_specialty, Adolescent, media_common.quotation_subject, Dermatology, Medical care, Young Adult, Medicine, Humans, Quality (business), media_common, Web site, Aged, Physician-Patient Relations, Descriptive statistics, business.industry, Data Collection, Internship and Residency, General Medicine, Middle Aged, Late period, Patient Satisfaction, Scale (social sciences), Online doctor, Female, business

Abstract

OBJECTIVES Patients' perception of quality is a critical primary outcome of medical care. Important downstream effects of perceived quality include a more trusting attitude toward the physician, more adherence to treatment, and better treatment outcomes. Patients' satisfaction issues are important to address during dermatology residency training. The aim of the study was to determine patients' satisfaction with dermatology residents and identify potential areas that could be targeted to improve satisfaction. METHODS Dermatology residents informed patients about a survey on an online doctor rating/patients' satisfaction Web site (www.DrScore.com), provided the patients with cards with the Web site address, and requested that they complete the survey. Respondents provided an overall rating, open comments, and detailed information in seven core areas. The numerical ratings were on a scale from 0 (not at all satisfied) to 10 (extremely satisfied). Patients had the option of indicating aspects of care that could be improved. Descriptive statistics are reported. RESULTS A total of 148 surveys were collected with a mean rating for the six residents of 9.7 out of 10, with a range of 9.4 to 10. The average during the early period was 9.7 out of 10, whereas the average during the late period was 9.8 out of 10. Fifty-two surveys (35%) indicated areas for improvement, with the most common issues related to staff, parking availability, waiting time, waiting area, and ability to obtain information. CONCLUSIONS Patients were generally satisfied with the care provided by dermatology residents. Areas for improvement were identified, but these were largely areas over which residents do not have direct control. more...

Published

2012

40. Hazards of neoliberalism: delayed electric power restoration after Hurricane Ike

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Author

Lee M, Miller, Robert J, Antonio, and Alessandro, Bonanno

Subjects

Disasters, Socioeconomic Factors, Cyclonic Storms, Politics, Disaster Planning, Public Policy, Models, Theoretical, Texas, Power Plants, State Government

Abstract

This case study explores how neoliberal policies shape the impacts of a natural disaster. We investigate the reactions to major damages to the electric power system and the restoration of power in the wake of Hurricane Ike, which devastated the Houston, Texas, metropolitan area in September 2008. We argue that the neoliberal policy agenda insured a minimalist approach to the crisis and generated dissatisfaction among many residents. The short-term profitability imperative shifted reconstruction costs to consumers, and prevented efforts to upgrade the electric power infrastructure to prepare for future disasters. We illustrate the serious obstacles for disaster mitigation and recovery posed by neoliberal policies that privatize public goods and socialize private costs. Neoliberalism neither addresses the needs of a highly stratified public nor their long-term interests and safety. more...

Published

2011

41. Controlling disasters: recognising latent goals after Hurricane Katrina

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Author

Lee M. Miller

Subjects

Sociological theory, Engineering, Risk Management, business.industry, Cyclonic Storms, General Social Sciences, Disaster recovery, Poison control, New Orleans, Public relations, Computer security, computer.software_genre, Relief Work, Economic Justice, Social Control, Formal, Disasters, General Earth and Planetary Sciences, Humans, Organizational Objectives, Suspect, business, computer, Social control, Risk management, Criminal justice

Abstract

Classic sociological theory can be used to interpret the aftermath of Hurricane Katrina, which made landfall in the United States on 29 August 2005. The delayed and ineffective response to the storm and the subsequent failure of the levees become more understandable when one considers the latent goals of social control in disaster recovery. Constructing the survivors as suspect or criminal and conceptualising the impacts of the disaster as individual problems occurred in order to justify the emphasis on controlling the survivors of Katrina rather than on assisting them. Parallels are drawn here between the disaster response featuring social control efforts and a recent paradigmatic shift in criminal justice from justice to ‘risk management’. Recognition of the implicit aims of the inadequate disaster response provides a more complete explanation of why post-Katrina efforts failed to achieve the manifest goals of response and recovery. The conclusion suggests ways to ensure more equitable and just disaster responses. more...

Published

2011

42. Integration of DNA barcoding into an ongoing inventory of complex tropical biodiversity

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Author

Jose Montero, Winnie Hallwachs, Isidro Chacón, Jean Fran Çois Landry, M. Alex Smith, Robert K. Robbins, M. Alma Solis, Paul Thiaucourt, Eugene Munroe, Lee M. Miller, Daniel H. Janzen, David B. Wahl, Axel Hausmann, Don Lafontaine, Ian J. Kitching, John G. Franclemont, William A. Haber, Norman E. Woodley, Susan J. Weller, Paul D. N. Hebert, James B. Whitfield, Keith R. Willmott, John M. Burns, James Miller, J. Bolling Sullivan, Suzanne Rab Green, Tanya Dapkey, Marc E. Epstein, Donald J. Harvey, Michael J. Sharkey, Patrick Blandin, Jacqueline Y. Miller, Bernardo Espinoza, Claude Lemaire, Rodolphe Rougerie, I. D. Gauld, Andrew R. Deans, John E. Rawlins, Sujeevan Ratnasingham, Jason P. W. Hall, John J. Wilson, Scott E. Miller, Mehrdad Hajibabaei, Jean Marie Cadiou, Josephine J. Rodriguez, and D. Monty Wood more...

Subjects

Species complex, Mitochondrial DNA, biology, Ecology, fungi, Tachinidae, Zoology, biology.organism_classification, Barcode, DNA barcoding, law.invention, Lepidoptera genitalia, law, Genetics, Taxonomy (biology), Braconidae, Ecology, Evolution, Behavior and Systematics, Biotechnology

Abstract

Inventory of the caterpillars, their food plants and parasitoids began in 1978 for today's Area de Conservacion Guanacaste (ACG), in northwestern Costa Rica. This complex mosaic of 120 000 ha of conserved and regenerating dry, cloud and rain forest over 0–2000 m elevation contains at least 10 000 species of non-leaf-mining caterpillars used by more than 5000 species of parasitoids. Several hundred thousand specimens of ACG-reared adult Lepidoptera and parasitoids have been intensively and extensively studied morphologically by many taxonomists, including most of the co-authors. DNA barcoding — the use of a standardized short mitochondrial DNA sequence to identify specimens and flush out undisclosed species — was added to the taxonomic identification process in 2003. Barcoding has been found to be extremely accurate during the identification of about 100 000 specimens of about 3500 morphologically defined species of adult moths, butterflies, tachinid flies, and parasitoid wasps. Less than 1% of the species have such similar barcodes that a molecularly based taxonomic identification is impossible. No specimen with a full barcode was misidentified when its barcode was compared with the barcode library. Also as expected from early trials, barcoding a series from all morphologically defined species, and correlating the morphological, ecological and barcode traits, has revealed many hundreds of overlooked presumptive species. Many but not all of these cryptic species can now be distinguished by subtle morphological and/or ecological traits previously ascribed to ‘variation’ or thought to be insignificant for species-level recognition. Adding DNA barcoding to the inventory has substantially improved the quality and depth of the inventory, and greatly multiplied the number of situations requiring further taxonomic work for resolution. more...

Published

2011

43. Visual influences on echo suppression

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Author

Lee M. Miller, Sam London, and Christopher W. Bishop

Subjects

Auditory perception, Sound localization, Visual perception, Time Factors, Speech recognition, Stimulus (physiology), Biology, Article, 050105 experimental psychology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Hearing, Coincident, Precedence effect, Humans, 0501 psychology and cognitive sciences, Sound Localization, Sensory cue, Vision, Ocular, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), 05 social sciences, Acoustic Stimulation, Receptive field, Auditory Perception, Visual Perception, General Agricultural and Biological Sciences, Perceptual Masking, 030217 neurology & neurosurgery, Photic Stimulation

Abstract

Summary Locating sounds in realistic scenes is challenging because of distracting echoes and coarse spatial acoustic estimates. Fortunately, listeners can improve performance through several compensatory mechanisms. For instance, their brains perceptually suppress short latency (1–10 ms) echoes by constructing a representation of the acoustic environment in a process called the precedence effect [1]. This remarkable ability depends on the spatial and spectral relationship between the first or precedent sound wave and subsequent echoes [2]. In addition to using acoustics alone, the brain also improves sound localization by incorporating spatially precise visual information. Specifically, vision refines auditory spatial receptive fields [3] and can capture auditory perception such that sound is localized toward a coincident visual stimulus [4]. Although visual cues and the precedence effect are each known to improve performance independently, it is not clear whether these mechanisms can cooperate or interfere with each other. Here we demonstrate that echo suppression is enhanced when visual information spatially and temporally coincides with the precedent wave. Conversely, echo suppression is inhibited when vision coincides with the echo. These data show that echo suppression is a fundamentally multisensory process in everyday environments, where vision modulates even this largely automatic auditory mechanism to organize a coherent spatial experience. more...

Published

2010

44. Populations of auditory cortical neurons can accurately encode acoustic space across stimulus intensity

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Author

Gregg H. Recanzone and Lee M. Miller

Subjects

Sound localization, Adult, Male, Action Potentials, Stimulus (physiology), Auditory cortex, Macaque, Brain mapping, Young Adult, biology.animal, medicine, otorhinolaryngologic diseases, Animals, Humans, Sound Localization, Auditory Cortex, Neurons, Brain Mapping, Multidisciplinary, biology, Anatomy, Haplorhini, Biological Sciences, Acoustic space, Kinetics, medicine.anatomical_structure, Acoustic Stimulation, Cerebral cortex, Female, Neuroscience, Neural decoding

Abstract

The auditory cortex is critical for perceiving a sound's location. However, there is no topographic representation of acoustic space, and individual auditory cortical neurons are often broadly tuned to stimulus location. It thus remains unclear how acoustic space is represented in the mammalian cerebral cortex and how it could contribute to sound localization. This report tests whether the firing rates of populations of neurons in different auditory cortical fields in the macaque monkey carry sufficient information to account for horizontal sound localization ability. We applied an optimal neural decoding technique, based on maximum likelihood estimation, to populations of neurons from 6 different cortical fields encompassing core and belt areas. We found that the firing rate of neurons in the caudolateral area contain enough information to account for sound localization ability, but neurons in other tested core and belt cortical areas do not. These results provide a detailed and plausible population model of how acoustic space could be represented in the primate cerebral cortex and support a dual stream processing model of auditory cortical processing. more...

Published

2009

45. The contribution of spike threshold to acoustic feature selectivity, spike information content, and information throughput

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Author

Lee M. Miller, Heather L. Read, Monty A. Escabí, Christoph E. Schreiner, and Reza Nassiri

Subjects

Inferior colliculus, Communication, Information transfer, business.industry, General Neuroscience, Postsynaptic cell, Models, Neurological, Action Potentials, Auditory Threshold, Mutual information, Behavioral/Systems/Cognitive, Stimulus (physiology), Acoustic Stimulation, Sensory coding, Cats, Animals, business, Neural coding, Biological system, Selectivity, Mathematics

Abstract

Hypotheses of sensory coding range from the notion of nonlinear “feature detectors” to linear rate coding strategies. Here, we report that auditory neurons exhibit a novel trade-off in the relationship between sound selectivity and the information that can be communicated to a postsynaptic cell. Recordings from the cat inferior colliculus show that neurons with the lowest spike rates reliably signal the occurrence of stereotyped stimulus features, whereas those with high response rates exhibit lower selectivity. The highest information conveyed by individual action potentials comes from neurons with low spike rate and high selectivity. Surprisingly, spike information is inversely related to spike rates, following a trend similar to that of feature selectivity. Information per time interval, however, was proportional to measured spike rates. A neuronal model based on the spike threshold of the synaptic drive accurately accounts for this trade-off: higher thresholds enhance the spiking fidelity at the expense of limiting the total communicated information. Such a constraint on the specificity and throughput creates a continuum in the neural code with two extreme forms of information transfer that likely serve complementary roles in the representation of the auditory environment. more...

Published

2005

46. Perceptual fusion and stimulus coincidence in the cross-modal integration of speech

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Author

Mark D'Esposito and Lee M. Miller

Subjects

Adult, Male, medicine.medical_specialty, Speech perception, Auditory Pathways, genetic structures, Adolescent, media_common.quotation_subject, Video Recording, Inferior frontal gyrus, Intraparietal sulcus, Behavioral/Systems/Cognitive, Stimulus (physiology), Audiology, behavioral disciplines and activities, Lateralization of brain function, Perception, medicine, otorhinolaryngologic diseases, Humans, media_common, medicine.diagnostic_test, General Neuroscience, Superior temporal sulcus, Magnetic Resonance Imaging, Oxygen, Acoustic Stimulation, Speech Perception, Female, Psychology, Functional magnetic resonance imaging, psychological phenomena and processes, Cognitive psychology

Abstract

Human speech perception is profoundly influenced by vision. Watching a speaker's mouth movements significantly improves comprehension, both for normal listeners in noisy environments and especially for the hearing impaired. A number of brain regions have been implicated in audiovisual speech tasks, but little evidence distinguishes them functionally. In an event-related functional magnetic resonance imaging study, we differentiate neural systems that evaluate cross-modal coincidence of the physical stimuli from those that mediate perceptual binding. Regions consistently involved in perceptual fusion per se included Heschl's gyrus, superior temporal sulcus, middle intraparietal sulcus, and inferior frontal gyrus. Successful fusion elicited activity biased toward the left hemisphere, although failed cross-modal binding recruited regions in both hemispheres. A broad network of other areas, including the superior colliculus, anterior insula, and anterior intraparietal sulcus, were more involved with evaluating the spatiotemporal correspondence of speech stimuli, regardless of a subject's perception. All of these showed greater activity to temporally offset stimuli than to audiovisually synchronous stimuli. Our results demonstrate how elements of the cross-modal speech integration network differ in their sensitivity to physical reality versus perceptual experience. more...

Published

2005

47. Feature selectivity and interneuronal cooperation in the thalamocortical system

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Author

Lee M. Miller, Monty A. Escabí, and Christoph E. Schreiner

Subjects

Nervous system, Auditory Cortex, Auditory Pathways, General Neuroscience, Action Potentials, Geniculate Bodies, Sensory system, Stimulus (physiology), Medial geniculate body, Auditory cortex, medicine.anatomical_structure, Acoustic Stimulation, Thalamus, Cortical cell, Receptive field, Interneurons, medicine, Cats, Reaction Time, Animals, ARTICLE, Psychology, Neuroscience

Abstract

Action potentials are a universal currency for fast information transfer in the nervous system, yet few studies address how some spikes carry more information than others. We focused on the transformation of sensory representations in the lemniscal (high-fidelity) auditory thalamocortical network. While stimulating with a complex sound, we recorded simultaneously from functionally connected cell pairs in the ventral medial geniculate body and primary auditory cortex. Thalamic action potentials that immediately preceded or potentially caused a cortical spike were more selective than the average thalamic spike for spectrotemporal stimulus features. This net improvement of thalamic signaling indicates that for some thalamic cells, spikes are not propagated through cortex independently but interact with other inputs onto the same target cell. We then developed a method to identify the spectrotemporal nature of these interactions and found that they could be cooperative or antagonistic to the average receptive field of the thalamic cell. The degree of cooperativity with the thalamic cell determined the increase in feature selectivity for potentially causal thalamic spikes. We therefore show how some thalamic spikes carry more receptive field information than average and how other inputs cooperate to constrain the information communicated through a cortical cell. more...

Published

2001

48. Speech Cues Contribute to Audiovisual Spatial Integration

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Author

Christopher W. Bishop and Lee M. Miller

Subjects

Male, Visual perception, Visual System, Computer science, lcsh:Medicine, Social and Behavioral Sciences, computer.software_genre, 0302 clinical medicine, Psychology, lcsh:Science, Audio signal processing, media_common, Multidisciplinary, 05 social sciences, Cognition, Phonology, Sensory Systems, Mental Health, Auditory System, Auditory Perception, Speech Perception, Visual Perception, Medicine, Female, Sensory Perception, Cues, Research Article, Psychoacoustics, Cognitive psychology, Adult, Auditory perception, Speech perception, media_common.quotation_subject, Ambient noise level, Illusion, Speech comprehension, 050105 experimental psychology, Young Adult, 03 medical and health sciences, Psychophysics, Humans, Speech, 0501 psychology and cognitive sciences, Biology, lcsh:R, Reproducibility of Results, Linguistics, Acoustic Stimulation, Space Perception, lcsh:Q, McGurk effect, computer, 030217 neurology & neurosurgery, Neuroscience

Abstract

Speech is the most important form of human communication but ambient sounds and competing talkers often degrade its acoustics. Fortunately the brain can use visual information, especially its highly precise spatial information, to improve speech comprehension in noisy environments. Previous studies have demonstrated that audiovisual integration depends strongly on spatiotemporal factors. However, some integrative phenomena such as McGurk interference persist even with gross spatial disparities, suggesting that spatial alignment is not necessary for robust integration of audiovisual place-of-articulation cues. It is therefore unclear how speech-cues interact with audiovisual spatial integration mechanisms. Here, we combine two well established psychophysical phenomena, the McGurk effect and the ventriloquist's illusion, to explore this dependency. Our results demonstrate that conflicting spatial cues may not interfere with audiovisual integration of speech, but conflicting speech-cues can impede integration in space. This suggests a direct but asymmetrical influence between ventral ‘what’ and dorsal ‘where’ pathways. more...

Published

2011

49. Gain Control of Cortical Speech Representations by Selective Attention in a 'Cocktail Party'

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Author

Jess R. Kerlin, Antoine J. Shahin, and Lee M. Miller

Subjects

Neurology, Cognitive Neuroscience, Cocktail party, Automatic gain control, Selective attention, Psychology, Cognitive psychology

Published

2009