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1 resource for applications, including quantum information processing.
2 mation embedded in the 'bottom-up' stream of information processing.
3 est and for applications in data storage and information processing.
4 ranging from photovoltaic devices to quantum information processing.
5 olically active oligodendrocytes in cortical information processing.
6 hysics, quantum enhanced sensors and quantum information processing.
7 plausible adaptive response to the costs of information processing.
8 polities based on phased growth in scale and information processing.
9 al expectation, has a strong impact on human information processing.
10 ive sensory information is key for efficient information processing.
11 tegration, optical communication and optical information processing.
12 ical work, chemical or nuclear reactions, or information processing.
13 modulate OSN function by impacting olfactory information processing.
14 ctiveness is determined by the efficiency of information processing.
15 ponse [ASSR] and MMN) suggest improvement in information processing.
16 or larger complexes playing roles in genetic information processing.
17 uditory nuclei to allow vestibular and sound information processing.
18 for control of valley pseudospin for quantum information processing.
19 e in functionally distinct streams of visual information processing.
20 between DDA features and pathophysiology of information processing.
21 smission (E/I ratio) is important for proper information processing.
22 nchronised neuronal firing is detrimental to information processing.
23 ndency and functional contribution to visual-information processing.
24 able resource for both classical and quantum information processing.
25 l partner provided the potential for complex information processing.
26 in ways that influence the effectiveness of information processing.
27 as a resource in quantum memory and quantum information processing.
28 ne (ACh) plays an essential role in cortical information processing.
29 l code and poses a fundamental challenge for information processing.
30 lly specialized brain regions enable complex information processing.
31 um dots is a promising candidate for quantum information processing.
32 d spin ensembles for applications in quantum information processing.
33 for sensitive biosensing and on-chip optical information processing.
34 excitations that are of interest for quantum information processing.
35 nd have a key role in gamma oscillations and information processing.
36 utation presents a powerful new paradigm for information processing.
37 w abGCs distinctively contribute to local DG information processing.
38 pocampus and the mPFC at different stages of information processing.
39 cision making by improving the efficiency of information processing.
40 populations have been implicated in tactile information processing.
41 ronal energy demands as well as for neuronal information processing.
42 sory areas to modulate neuronal activity and information processing.
43 mise to be a potential candidate for quantum information processing.
44 f these oscillations, therefore, may enhance information processing.
45 mework to isolate and understand unconscious information processing.
46 the sensory environment in order to improve information processing.
47 s, including executive function and speed of information processing.
48 x operates near a critical point for optimum information processing.
49 their ability to shape temporal dynamics and information processing.
50 eas, suggesting a role in complex multimodal information processing.
51 (MTCs) form parallel output streams of odor information processing.
52 ami are central sensory pathway stations for information processing.
53 ons in areas of imaging, sensing and quantum information processing.
54 microglia that is capable of slowing neural information processing.
55 ing, metrology, optical trapping and quantum information processing.
56 mediate rapid brain plasticity for adaptive information processing.
57 ng agency in socioaffective and motivational information processing.
58 iodic inputs and can enhance the fidelity of information processing.
59 antum states-a promising approach to quantum information processing.
60 l chemosignals, but we poorly understand AOS information processing.
61 , petahertz (PHz) electronics for high-speed information processing.
62 and reconfigurable memristor array for image information processing.
63 ed brain network organization with cognitive information processing.
64 roposed to shape experience-related neuronal information processing.
65 ed networks of networks are involved in such information processing.
66 dendrites in integrating feedback in visual information processing.
67 nciple for neuronal network organization and information processing.
68 ed largely on the study of luminance-defined information processing.
69 y and flexibility and enabling plasticity in information processing.
70 scalable approach towards practical quantum information processing.
71 tional benefit does this diversity confer on information processing?
72 tes are capable of improved forms of genetic information processing?
77 hetic biology are enabling us to exploit the information-processing abilities of living cells to diag
78 ortant implications for our understanding of information processing across different parts of the neo
79 rimental marker for a generalized deficit in information processing across functional disorders that
80 stigated the time course of low-level visual information processing across saccades by decoding the s
81 y olfactory bulb, the first central stage of information processing along the accessory olfactory pat
82 r, it is impossible to understand individual information processing and acceptance without taking int
83 permitting unfiltered sensory cues to enter information processing and activate sensory representati
86 t midrange time-scale regulation of cortical information processing and consistent goal-directed beha
87 of the "neurocomputational cost" of sensory information processing and decision making in the optima
89 wth in polity scale, then by improvements in information processing and economic systems, and then by
91 ility of these lasers in trapped ion quantum information processing and for probing weak coherent opt
92 efect ensembles with applications to quantum information processing and fundamental studies of many-b
93 fundamental relationship between arousal and information processing and indicates that pupil size can
94 OCs to explore scrambling, bounds on quantum information processing and investigation of black hole a
95 cations in linear matrix operations, quantum information processing and microwave photonics, and exam
96 hat in flies control auditory and vestibular information processing and motor coordination, as do MHB
97 nductors are versatile platforms for quantum information processing and nanoscale sensing, where spin
102 ngle networks to derive insights into neural information processing and rather suggest that computati
105 regulation of cellular processes and genetic information processing and up-regulation of some metabol
106 nitive vulnerability on sustained attention, information processing and visual-motor performance, par
107 apy produces long-term impairment in memory, information processing, and attention that contribute to
108 ate pathways contribute critically to visual information processing, and both midbrain and forebrain
109 rise functionally distinct pathways for odor information processing, and suggest that the reformattin
110 ed as a key site for cognitive and affective information processing, and the anteroventral bed nuclei
111 attention and memory interact to facilitate information processing, and thus a more integrative appr
112 genides (TMDs) hold great promise for future information processing applications utilizing a combinat
114 nons(4) and will lead to quantum sensors and information-processing approaches(5) that use chip-scale
115 y correlate in a dissociable manner with the information-processing architecture of the subnetworks t
116 d photonics is a robust platform for quantum information processing, architectures for photonic quant
117 oundation of current computation and digital information processing, are reaching final limits in pro
118 rior olfactory nucleus (AON) as an olfactory information processing area sends extensive projections
119 We point out that fundamental limits to information processing arise at thermodynamic equilibriu
121 y drive hypothesis that recognizes efficient information processing as a driving force in signal evol
122 cialized inhibitory interactions that govern information processing at the earliest stages of olfacto
123 gest that mechanisms of categorization shape information processing at the earliest stages of the vis
124 e of the algebra to demonstrate the parallel information processing at the level of the ensemble.
125 ic resonance images and the Adult Memory and Information Processing Battery in 145 unilateral refract
126 eshold for societies, beyond which growth in information processing becomes paramount, and an Informa
127 mber and a given effector that is key to the information processing, but the change in the distributi
129 and feeling (mood), functions that depend on information processing by brain cortical cell microcircu
131 humans, monkeys, and rodents to propose that information processing can be understood as 'social' or
133 uccess of animals with extraordinary sensory information processing capabilities that allow them to s
134 pus arm nervous systems have great arm-local information processing capabilities, raising the possibi
135 this striking phenomenon and its underlying information processing capabilities, we built a mathemat
138 ue or alternatively compensating for limited information processing capacity by fixating on a segment
140 system pathways and up-regulation of genetic information processing, carbohydrate metabolism, lipid m
141 s detrimental or beneficial to the cognitive information processing carried out in the parahippocampa
142 e is essential if it plays a role in genetic information processing, cell envelope maintenance or ene
144 the assumption that oligotrophy favors lower information-processing costs whereas copiotrophy favors
146 discuss how they inform our understanding of information processing deficits as vulnerability markers
147 t a role for feedforward parietal-prefrontal information processing deficits in delusional psychopath
149 ssible use of electrostrictive materials for information processing devices has been widely discussed
150 uding energy harvesting, virtual reality and information processing devices, or medical imaging.
152 ctoral chemistry students' understanding and information processing during the interpretation of (1)H
153 pology and the ascending arousal system with information processing dynamics, and suggest that the co
156 eurons; irregular spiking can interfere with information processing especially for low-contrast image
157 as examined it from the perspective of early information processing events, there has been relatively
158 MedDiet adherence was not associated with information processing, executive functioning, or WMH.
160 egration could also allow more sophisticated information processing, for example as shown by the clas
161 s promising applications in emerging quantum information processing hardware and has expectation to a
163 nd included down-regulation of environmental information processing, immune and nervous system pathwa
164 ains whether myelination also contributes to information processing in addition to speeding up conduc
165 rays, and EGT application for spatiotemporal information processing in an SNN are yet to be demonstra
168 es electrophysiological measures of auditory information processing in both healthy subjects (HS) and
169 from the retina significantly affects visual information processing in both rod and cone pathways.
170 C-dependent mechanisms regulate translation information processing in cerebellar cortex output neuro
173 ctivity and can improve our understanding of information processing in evolutionary ancient and moder
175 ever, such variability can be beneficial for information processing in neural networks if it is of a
176 erefore suggest that navigationally relevant information processing in OPA undergoes prolonged develo
177 t that OT affects central measures of social information processing in patients with schizophrenia an
178 place risk taking within existing models of information processing in pediatric anxiety disorders an
179 e include developing computational models of information processing in scene regions, investigating h
180 inhibition (LI) is a fundamental feature of information processing in sensory systems, enhancing con
181 nfra-slow rhythmicity.SIGNIFICANCE STATEMENT Information processing in the accessory olfactory bulb (
183 teractions, suggesting more complex modes of information processing in the basal ganglia for differen
186 music listening, we measured the dynamics of information processing in the brain on a moment-to-momen
188 transformed our understanding of feedforward information processing in the brain's sensory periphery,
189 characterize how political attitudes biased information processing in the brain, the language most l
190 al oscillations provides a temporal code for information processing in the brain, we tested whether t
191 al excitation is a fundamental mechanism for information processing in the brain, which is mediated b
196 states may modulate firing rates and likely information processing in the MEC.SIGNIFICANCE STATEMENT
197 in the olfactory system is not essential for information processing in the olfactory signaling pathwa
198 re important for monitoring and coordinating information processing in the service of executive contr
200 would be able to delineate markers of slowed information processing in this paradigm removed from the
201 we asked whether noisy spiking and/or crude information processing in visual cortex limit infant vis
202 xt years will transform the areas of quantum information processing including communication, storage,
203 Among the different platforms for quantum information processing, individual electron spins in sem
209 sponses in early visual cortex to facilitate information processing, it is not clear whether the valu
211 sing way to advance the understanding of the information processing mechanisms in the human cerebellu
212 rent cognitive theories are cast in terms of information-processing mechanisms that use mental repres
214 mance, suggesting both factors contribute to information processing models of driving performance in
216 We approach the C. elegans connectome as an information processing network that receives input from
217 functionality of network subgraphs in other information-processing networks, including biological an
218 economical fast spiking and high throughput information processing, neurons need to optimize multipl
219 finite coherence budget to invest in quantum information processing, noisy devices with about 50 qubi
222 t is contained within the smallest module of information processing of the cerebral cortex; one which
223 sic suppression of cortical excitability and information processing once per alpha cycle, resulting i
225 using MEG/EEG to reveal novel principles of information processing or to translate findings into new
227 function and memory impairments), affective information processing patterns (e.g., rigid, negative b
228 s (such as control theory) to understand the information processing performed by brain circuits durin
232 g, memory, visuospatial, executive function, information processing, psychomotor functioning, as well
234 omplexes could be used as qubits for quantum information processing (QIP) requires that the molecules
235 high-precision unitary operations in quantum information processing (QIP), are derived from composite
236 long to different cortical streams of visual information processing, receive projections from at leas
238 here we show that it also plays an important information-processing role in olfactory navigation.
239 xed degree of segregation and integration of information processing, shedding light into the early me
240 ty of neurons to use synaptic clustering for information processing.SIGNIFICANCE STATEMENT A fundamen
241 orting an active role of astrocytes in brain information processing.SIGNIFICANCE STATEMENT Cardioresp
242 s required in the initial stages of auditory information processing.SIGNIFICANCE STATEMENT Elucidatin
244 but not global, network efficiency and lower information processing speed (standardized beta coeffici
245 Expanded Disability Status Scale (EDSS)) and information processing speed (Symbol Digit Modalities Te
247 ensity volume, local network efficiency, and information processing speed scores are interrelated, an
248 articular, the relationship between WMHs and information processing speed was mediated (percentage me
250 disordered thought content, verbal learning, information processing speed, and family history of psyc
258 ssociated with a more detail-oriented visual information processing strategy and that this effect mig
259 Conversely, distal threats allow increased information processing supported by model-based (MB) ope
264 The development of classical and quantum information-processing technology calls for on-chip inte
266 e complement of cell subtypes determines the information processing that a local brain circuit can pe
268 onal advantages, offering flexibility in the information processing that can be performed with only s
269 ity, cost, and efficiency of the biochemical information processing that underpins metabolism and rep
270 independently address the two components of information processing: the representation of stimuli in
272 t influence and where within the sequence of information processing those interactions transpire.
278 e, we analyze the role of myelin in auditory information processing using paradigms that are also goo
279 Diffusion modelling showed that the speed of information processing was affected by low-level scene c
282 ether they are detrimental or beneficial for information processing, we believe that clarifying how c
283 ct and elucidate synaptic impact on neuronal information processing, we propose the concept of effect
285 an SNN with the capability of spatiotemporal information processing, where spike sequences with diffe
286 d to subserve two parallel streams of social information processing, which allow a single molecule to
287 an applied voltage can be directly used for information processing, which is essential for future ME
288 ul and enigmatic resource central to quantum information processing, which promises capabilities in c
289 ional changes in these major hubs of tactile information processing, whisker stimulation during genui
290 dache and global dysfunction in multisensory information processing, whose underlying cellular and ci
291 he and by global dysfunction in multisensory information processing, whose underlying cellular and ci
292 upplement linear cause-and-effect chains and information processing with circular loops of purpose an
295 new constraints for theories of its role in information processing within and across cortical circui
296 ating deficits, based on a disintegration of information processing within cortico-striato-thalamo-co
300 n neocortex plays a crucial role in cortical information processing, yet a complete census of its cel