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1 ards two potential targets while grasping an object.
2 waves are scattered by an electrically small object.
3  then abruptly replacing it with a different object.
4 ore adaptive, reflecting what we do with the object.
5 ing to prevent shrinkage and cracking of the object.
6 rms a model that predicts the physics of the object.
7  not depend on the brightness of the lensing object.
8 apping or increasing the speed of the moving object.
9  congruent with that afforded by a presented object.
10 ore efficient and versatile production of 3D objects.
11  full-field 3D shape of complicated specular objects.
12 llustrations that anthropomorphize inanimate objects.
13 ll objects, and can also cover nonreciprocal objects.
14 ble in datasets containing 10(8)+ histologic objects.
15 extending across the surface of the measured objects.
16 that groups different features together into objects.
17 se stereopsis for estimating the distance of objects.
18 tually dependent organization of actions and objects.
19  to use color terms when describing familiar objects.
20 dict the radar characteristics of such large objects.
21 the three-dimensional (3D) shape of specular objects.
22 niformity, or the presence of large or small objects.
23 utomation tasks involving delicate irregular objects.
24 emanding task whilst viewing task-irrelevant objects.
25 hen attention is directed toward one or more objects.
26 3 s video clips of moving faces, bodies, and objects.
27 most excited by clutter rather than isolated objects.
28 l discrimination task for scenes, faces, and objects.
29 ly levitate a wide range of liquid and solid objects.
30 ss production of small and intermediate size objects.
31 parallel learning of values for features and objects.
32 hile simulating large systems of over 20,000 objects.
33 how does the brain represent the color of an object?
34 predicted number density of icy interstellar objects (2.4 x 10(-4) per cubic astronomical unit) sugge
35 s in numerous areas, but the construction of objects, 2D and 3D crystalline lattices and devices is p
36              In contrast, the sensitivity to object 3D structure remains stable even through late adu
37 ptually organized collection of surfaces and objects, a process we refer to as perceptual integration
38 ivestock can be transmitted through fomites: objects able to convey infectious agents.
39    Here we examine how attention to multiple objects affects their neural representation.
40 energy input into mechanical work by lifting objects against gravity.
41 ltiple objects facilitates an integration of objects akin to perceptual grouping.SIGNIFICANCE STATEME
42                              When the moving object alone is experienced, the cell is weakly driven.
43  hold an object in our hand, the mass of the object alters the physics of our arm, changing the relat
44                Coherent movement of multiple objects (an artificial recreation of 'optic flow' that w
45 al femtosecond crystallography of biological objects-an application of X-ray free-electron lasers tha
46 on about the shape, size, and texture of the object and its motion across the skin.
47 ffle acoustics; they selected the best sized object and modified it appropriately to make a near opti
48  the region of the geometrical shadow of the object and reveal detailed information on the pure quant
49 -social and social memory in mice, using the object and social discrimination tests, respectively.
50                     PRC and LEC also combine object and spatial information.
51  learning of object manipulation between the object and the body.
52 han the thermal motion of a room-temperature object and thus difficult to observe.
53 ed to any other research on ancient precious objects and cultural heritage, since it does not require
54 alidate a Bayes classifier used for decoding objects and grip types.
55 is seen in the diffraction patterns of these objects and has been suggested as a way of phasing the d
56 n accretion onto white dwarfs, young stellar objects and neutron stars, for which similar magneticall
57 que for investigating the inner structure of objects and organisms.
58 ion are in the context of categories such as objects and phonemes, thereby requiring a solution to th
59 mages curated by human observers for salient objects and show that objects tend to have warm rather t
60 -state responses corresponding to individual objects and to their interaction using a frequency-taggi
61 itive use of objects or interest in parts of objects' and rs2898883 (P<6.8 x 10(-9)), which resides w
62 nteractions between a living cell and a nano-object, and in particular the effect on this of the adso
63 t activity is modulated by the height of the object, and the rate of single spikes is unaffected.
64 diffraction, and so are valid also for small objects, and can also cover nonreciprocal objects.
65 les higher-throughput microassembly of micro-objects, and cooperative manipulation using multiple mic
66 cuitry is potentiated by engaging stationary objects, and interacts with pursuit outside of conscious
67 ope tip (diameter 20 nm) - simulating a nano-object - approaches and contacts a cell.
68 sual animals must decide whether approaching objects are a threat.
69 ack of a human hand when touching or holding objects are demonstrated.
70                  Clusters of hyperreflective objects are highly specific of AK.
71  shape percept.SIGNIFICANCE STATEMENT Visual objects are recognized through spatial integration of fe
72 ely based on the assumption that the labeled objects are stochastically displaced due to Brownian mot
73 laws, valid for reciprocal and nonreciprocal objects, are quite different from previous relations.
74 all tasks, in which subjects had to memorize object arrays composed of simple visual features (color,
75 n leads to the misidentification of harmless objects as weapons held by a Black individual.
76 visual image motion to judge the movement of objects, as well as our own movements through the enviro
77                                              Objects associated with reward draw attention and are we
78                                              Objects associated with reward draw attention and evoke
79 ng the earliest stage of learning pseudoword-object associations.
80 port observations of a far-infrared-luminous object at redshift 6.900 (less than 800 million years af
81 rstand how the brain represents ensembles of objects at many levels of perceptual analysis.
82 he idea that OFC specializes in stimulus- or object-based choices in contrast to action- or response-
83                                      We used object-based image analysis (OBIA) method to estimate th
84 n of free-floating planets down to Mars-mass objects, because the microlensing signal does not depend
85 ined information about the orientation of an object being held in memory, consistent with a memory st
86 al lobe, mapped onto a fine-grain pattern of object, body, and face selectivity.
87 g it into independent parts or presenting an object but then abruptly replacing it with a different o
88 this mapping by either presenting a coherent object but then breaking it into independent parts or pr
89  unit that represents not only an individual object, but also a bundle of objects that are grouped ba
90 ember not only that we saw a red and a round object, but that these features belong together to a sin
91 to R, supports representation of ontological objects by native R types, and provides a parsimonius se
92 s three-dimensional (3D) printing, create 3D objects by the successive adding of a material or materi
93                         To date high-density objects can only be acoustically levitated in simple sta
94 ssembly of micro-compartmentalized colloidal objects capable of controlled interactions offers a step
95                  Sexual displays enriched by object carrying serve to increase individual male fitnes
96  improves memory for the shared structure of object categories, while simultaneously preserving objec
97 greater in dorsal than ventral regions, with object category and task relevance both contributing sig
98                                We found that object category representations in all the regions exami
99 ed object detectors identifying 20 different objects classes in scenes from a standard computer visio
100 orption electrospray ionization with plastic objects coated by 2,5-dimethoxybenzoic acid.
101            In striking contrast, spatial and object coding remained intact.
102 was boosted when naming artificially colored objects compared with natural objects, suggesting that i
103                Quark nuggets are theoretical objects composed of approximately equal numbers of up, d
104 ss in the chemical construction of colloidal objects comprising integrated biomimetic functions is pa
105 "V4" input) allowed for comparable levels of object-decoding performance and that removing a large fr
106 ith varying resolution, uses retino-specific object detection classifiers to guide eye movements, ali
107                                 We found the object detection threshold for this species to be 0.13 d
108 paired face detection while sparing body and object detection.
109                     We compared the foveated object detector against a non-foveated version of the sa
110                        We develop a foveated object detector that processes the entire scene with var
111 r against a non-foveated version of the same object detector which processes the entire image at homo
112  we first focus on visual search and combine object detectors from computer vision with a recent mode
113 he accuracy of the foveated and non-foveated object detectors identifying 20 different objects classe
114 icipants (13 females) whether the visuomotor object-directed action representation system that includ
115 ts of both sexes encoded and retrieved novel objects during periods of safety and threat of unpredict
116 also revealed some limitations especially on object edges and steep slopes.
117 which are intrinsically two dimensional nano-objects exhibiting nontrivial electronic and magnetic be
118 re also activated and reactivated for haptic object exploration and haptically guided grasping.
119 tivity, which we found to be associated with object exploration, returned to baseline by 1 h in the s
120                        Attention to multiple objects facilitates an integration of objects akin to pe
121 ntrast, saccades do change for tasks such as object following and to a lesser extent during search.
122  constitutively encodes observed manipulable objects for the actions they afford is still debated.
123 mented to reconstruct the 3D structure of an object from a number of 2D projections.
124 rea may assist with detection of approaching objects from behind, potentially representing an adaptat
125 iscriminate highly similar scenes, faces, or objects from multiple viewpoints, and has revealed selec
126      The ability to estimate the distance of objects from one's self and from each other is fundament
127 bility of mice to discriminate large, global objects from small, disjointed stimuli.
128  may facilitate the detection of approaching objects from the front and behind while grazing with the
129 sion being to segregate contours that define objects from those that form textured surfaces.
130  uniquely established for any linear optical object, give orthogonal input beams that are coupled one
131   Light-curve observations indicate that the object has an extremely oblong shape, with a length abou
132 nal study of the microscale soft noble metal objects has been hindered by sample preparation.
133 wledge about the causal relationship between objects has been studied extensively in human infants, a
134                                        These objects have a unique basket shape; they possess a cavit
135                   As a result, very few such objects have been detected so far.
136 es in the receiver's subjective valuation of objects, ideas, and behaviors.
137 t representations that are both specific for object identity and robust against identity-preserving t
138 ong-standing problem of keeping tissue-scale objects immobilized while performing AFM.
139 prioritizes the processing of any beneficial object, importantly including stimuli that are associate
140 ons, and (iv) the possibility to include any object in either a water or oil-based liquid core, which
141                              When we hold an object in our hand, the mass of the object alters the ph
142 h object, regardless of the position of that object in relation to the individual).
143 etween each VWM representation and an actual object in the environment.
144  tracking of rapidly moving, sub-diffraction objects in a crowded, noisy environment.
145 l grouping.SIGNIFICANCE STATEMENT Individual objects in a visual scene are seen as distinct entities
146 antities in their environment and manipulate objects in daily activities.
147 orithms are surprisingly good at recognizing objects in images.
148  to a single object rather than to different objects in our environment?
149                                   The use of objects in sexual displays by non-human mammals is rare
150 nts because they no longer correspond to the objects in the environment.
151  mapping between the representations and the objects in the environment.
152 how generalist pollinators recognize "flower objects" in vastly different ecologies and environments.
153 tion involves the interaction with inanimate objects) in proximity to tools/artifacts in ventral LOTC
154 ural response to faces (but not to bodies or objects) in the rpSTS, right anterior STS (raSTS), and r
155  emissivities and the absorptivities for any object, including nonreciprocal ones.
156 ffect perception of face-compatible non-face objects, including objects normally represented in other
157 tical activity changed in the presence of an object independently of the kinematics that were being g
158 t al. hypothesize that the absence of visual object individuation limits infants' numerical skills an
159 e of hippocampal phase precession to include object information relevant to memory and behavior.
160 n laterally to primary visual cortex, encode object information.
161 d MEG studies to reveal supra-additive scene-object interactions.
162                The radar cross section of an object is an important electromagnetic property that is
163 the ventral pathway that processes "what" an object is and the dorsal pathway that processes "where"
164                             Moreover, if the object is grasped in the dark after a delay, these areas
165 ion process, each sectional image of the 3-D object is recovered by convolving its encrypted hologram
166 ic measurements show that the surface of the object is spectrally red, consistent with comets or orga
167                                      When an object is stationary, we view it with fixational eye mov
168                                       If the object is unfamiliar to us, our first movement will exhi
169 o the demand of the task, reflecting what an object is, dorsal representations are more adaptive, ref
170 hway are more invariant and reflect "what an object is," those in the dorsal pathway are more adaptiv
171 eself as separate from other individuals and objects is difficult to investigate in non-human animals
172                       Detection of nanoscale objects is highly desirable in various fields such as ea
173 ive challenge; i.e., introduction of a novel object, is used to cause reproducible behavioural change
174 mework for studying language development and object knowledge in constrained laboratory settings, but
175 sly to the category-specific organization of object knowledge.
176 al infants were more accurate at recognizing objects labeled in same-language sentences ("Find the do
177 t to have evolutionary origins, highlighting objects likely to provide benefit in the future.
178          A similar pattern was observed with object location and recognition, suggesting that this re
179                  Specific behavioural tests (object location and Y-maze continuous alternation tasks)
180 uring tactile sensation and the delay epoch, object location was represented in motor cortex areas th
181 t maximized variance across either different object locations or grip types.
182 t experienced string as a support to hold up objects looked more at impossible images with string han
183 stem thus seems to partition the learning of object manipulation between the object and the body.
184 n primates performing three different tasks (Object-Match, Category-Match, and Category-Saccade assoc
185 Generally, image motion components caused by object motion and self-motion are confounded in the reti
186 stibular signals play a role in dissociating object motion and self-motion, and recent computational
187 enhance the separability of joint tuning for object motion and self-motion.
188 s may be exploited to decode self-motion and object motion from the population activity of neurons in
189 eferences, whereas they stabilize tuning for object motion in neurons with discrepant preferences.
190    The dendrites of neighboring LC11s encode object motion retinotopically, but the axon terminals fu
191 he dense VG3-AC plexus to contribute precise object motion signals to diverse targets without distort
192    All VG3-AC neurites responded strongly to object motion, but remained silent during global image m
193 is problem in the context of self-motion and object motion, which are inherently confounded in the re
194 r signals help to dissociate self-motion and object motion.
195 arge datasets of faces, hand-written digits, objects, newswire articles, sensor readings from the Spa
196  face-compatible non-face objects, including objects normally represented in other parts of inferotem
197 The ability to locate high-contrast tabletop objects not seen with the implant OFF was partially rest
198 ily converted into its equivalent JavaScript Object Notation (JSON) format, a lightweight data interc
199                                          The object of this study was the HDH enzyme from the model l
200 rs of BCI-FES neuroprosthetics to manipulate objects of different sizes and weights without dropping
201 atistical information from groups of similar objects-often in a brief glance.
202 spatial details on bright days and large dim objects on moonless nights.
203 r integration of any fluid-dispersed 2D nano-objects on silicon-on-insulator photonics platform.
204 he regularity of the packing of protein-like objects on the surface.
205 scene, enabling us to attend to one auditory object or stream while ignoring others.
206 otion signals originating either from moving objects or from retinal slip caused by self-motion.
207 between 'the degree of the repetitive use of objects or interest in parts of objects' and rs2898883 (
208    People perceive and act to understand new objects or to promote specific behavior to their partner
209 her by genome scale metabolic networks or an object-oriented approach.
210  viscoelasticity.A skyrmion is a topological object originally introduced to model elementary particl
211              When we grasp and manipulate an object, populations of tactile nerve fibers become activ
212 nd nasal area may help the discrimination of objects (predators, conspecifics) in the lateral and pos
213 ys a role in supporting a distinct aspect of object processing, namely attending to the arrangement o
214 nd smooth movement interact for simultaneous object pursuit and gaze stabilization is not understood.
215 y in their values for disordered packings of objects ranging from atoms to grains, spanning seven ord
216 t these features belong together to a single object rather than to different objects in our environme
217  architectures that better support invariant object recognition also produce image representations th
218 duced lasting cognitive impairments in novel object recognition and less severe deficits in Y-maze be
219 d found, that affect influenced the speed of object recognition by modulating the speed and amplitude
220 -order visual patterns in the early stage of object recognition hierarchy.
221 ibition, improved social behavior, and novel object recognition memory in NMDA receptor hypofunctioni
222 t memory-enhancing effects in a rat model of object recognition memory.
223  cognitive performance in working memory and object recognition paradigms at baseline and after psych
224 erve as an important contextual influence on object recognition processes.
225 ognitive activity (1 mg/kg, ip) in the novel object recognition task as a model of memory deficit.
226     Mutant mice showed deficits in the novel object recognition task, suggesting hippocampal dysfunct
227 ve alterations, including defects in a novel object recognition task.
228 e profile as it improved memory in the novel object recognition test but had no antidepressant or anx
229 dark box test) and cognitive function (novel object recognition test).
230 gnitive impairment, as assessed by the novel object recognition test, but not signs of brain inflamma
231 ted by Y-maze spontaneous alternation, novel object recognition, and Barnes maze spatial memory tests
232                               Impairments in object recognition, spatial memory retention, and networ
233 separation, whereas, CA3 underpins identical object recognition.
234 mprehension difficulties after factoring out object recognition.
235 oral (PIT) cortex cells contribute to visual object recognition.
236 d short-term memory deficits, as assessed by object-recognition tests, and was effective at improving
237 ic neglect (neglect of the left side of each object, regardless of the position of that object in rel
238  allows us to measure the height of emitting objects relative to the focus of the microscope.
239  contrast, responses to unfamiliar faces and objects remained linear.
240 e that the ability to derive fine-grained 3D object representations emerges after a prolonged develop
241 d the ventral stream, which rapidly computes object representations that are both specific for object
242 g, namely attending to the arrangement of an object's component features.SIGNIFICANCE STATEMENT Alzhe
243 logical terms, "form" is used to describe an object's shape and size.
244 : infants exhibit shape selectivity, but not object selectivity, in this region.
245 ng inhibitory ionic currents abolishes small object sensitivity and facilitates responses to elongate
246 s examined were influenced by whether or not object shape was task-relevant.
247 over time is sometimes required to determine object shape.
248 at 25% of the learning was attributed to the object (simply because of the use of the same cup) and 5
249 uously presented objects were isolated in an object-specific way.
250 dynamics of fluids composed of self-spinning objects such as chiral grains or colloidal particles sub
251                   Primates recognize complex objects such as faces with remarkable speed and reliabil
252 osen spanned the range of 0-Dimensional (0D) objects such as particles, 1D nanowires and fibres, 2D f
253 noninvasively identify the depth of a buried object, such as breast calcifications, using simple tran
254 ion for the separation of purely diamagnetic objects, such as bio-macromolecules or heavy metals.
255                                        These objects suggest the presence of a dark-matter halo with
256 cially colored objects compared with natural objects, suggesting that industrialization promotes colo
257 quire a contactless method for monitoring an object surrounded inside a metallic enclosure.
258 ial color patch), while presenting images of objects systematically varied in hue.
259  latency to vocalize when faced with a novel object task.
260  observers for salient objects and show that objects tend to have warm rather than cool colors.
261 cipants estimated the arrival time of a real object that moved with constant acceleration (-0.7, 0, +
262 y an individual object, but also a bundle of objects that are grouped based on prior knowledge.
263 n produces differential image motion between objects that are located at different distances from the
264 lation even perturbed the percept of certain objects that did not activate the stimulated face patch
265                           Cells are physical objects that exert mechanical forces on their surroundin
266 ve mobility of active matter (self-propelled objects that transduce energy into mechanical work to dr
267 es from 16 phyla transported over 6 years on objects that traveled thousands of kilometers across the
268 with a simulation of flying past an elevated object, the spike burst activity is modulated by the hei
269 al version of a radiation law for reciprocal objects-the absorptivity of any input beam equals the em
270 luenced by physical properties of the moving object, though the neural mechanisms underlying this pro
271                        However, when viewing objects through air, the increase in eye size provided a
272                             Finding relevant objects through vision, or visual search, is a crucial f
273  Most promising are those attempts where the object to be separated is attached to a strong magnetic
274 tal to a variety of behaviours from grasping objects to navigating.
275 situations that involve a destruction of the objects-to-representations correspondence.
276 n be performed directly in situ, leaving the object unchanged and intact.
277  categories, while simultaneously preserving object-unique information.
278 l system can represent relationships between objects using a metric that depends on associative stren
279 ish were trained to discriminate between two objects using both senses and were subsequently tested u
280 as involved in odor learning, represent odor objects using distributive population codes; these findi
281 escribing treatments, and naming animals and objects using written information as stimuli.
282 oint estimation of alignment errors, and the object, using an iterative refinement procedure.
283  a decreased ability to discriminate between objects visually when vision and electrolocation provide
284 dy and background, search, fixate, and track objects visually.
285 hat corresponded with the hand being near an object, we developed an online scaling feature in the BC
286                          When acting upon an object, we need to represent its visual features (e.g. s
287 r hippocampus became less involved as schema objects were encoded successively.
288 o the processing of 2 continuously presented objects were isolated in an object-specific way.
289                                          The objects were placed below the fixation point and accordi
290  Strikingly, this mapping occurred also when objects were presented outside subjects' reach, but with
291                     Crucially, the different objects were sequentially sampled at a rate of about 2 H
292 l interaction that occurs between individual objects when attention is directed toward one or more ob
293 that P2 characterizes familiarity with sound objects, whereas beta-band oscillation signifies involve
294 ominant response was inhibition by valueless objects, which generated disinhibition of cdlSNr neurons
295 ur days are filled with looking for relevant objects while ignoring irrelevant visual information.
296 oided even if observers are certain that the object will move.
297 ed distances below the surface of conducting objects with a resolution well below these limiting valu
298 roposed method enables simple fabrication of objects with complex geometries and precisely controllab
299 h to the fabrication of functional nanoscale objects with high shape anisotropy.
300 during inspection of large individual visual objects with similarly-sized external stimulus displacem

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