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1 influence the event of a misdirected leading haptic.
2 umstances the percept is clearly affected by haptics.
3 n was less reliable, vision adapted to match haptics.
4 veitis (15.7%), glaucoma (13.1%), and broken haptic (2.6%).
5                      These results show that haptic actions not only activate "visual" areas during o
6  haptic responses in LOC, but her pattern of haptic activation in other brain regions was remarkably
7    Most importantly, the ratio of visual and haptic adaptation was quantitatively predicted by relati
8               When vision was more reliable, haptics adapted to match vision.
9 finer than is possible with either vision or haptics alone; indeed, they approach statistical optimal
10 ithin-modality experiments (vision-alone and haptics-alone) and in an intermodality experiment (visio
11    A novel fixation method that uses scleral haptics also has been introduced to increase stability.
12 nterests were the orientation of the leading haptic and optic on insertion, the degree of intrawound
13 s one of the following: (1) haptic only, (2) haptic and stereoscopic (providing binocular shape infor
14 with thermal sensitivity and some aspects of haptics and kinesthesis.
15  because of slippage of one of the iris-claw haptics and spontaneous complete posterior dislocation o
16           Subjects indicated whether visual, haptic, and visual-haptic planar surfaces appeared slant
17 ut not when different modalities (vision and haptics) are combined.
18 uli may activate such networks through visuo-haptic associations established by behavioral training.
19      Here we probe the internal structure of haptic combination by directing the two signal streams t
20 acrylic, foldable IOL with a modified C-loop haptic configuration was implanted in all eyes.
21  study interacting rats to investigate audio-haptic coordination and multisensory integration in the
22  3b, 1, and 2) of monkeys performing a visuo-haptic delay task, which required the memorization of a
23 task but no such activity in a control visuo-haptic delayed matching task.
24 nsory cortex of monkeys trained to perform a haptic delayed matching to sample task with objects of i
25 y volunteers (16 females) through a wearable haptic device, by selectively superimposing two levels o
26           For six out of eight patients, the haptic display induced the realistic illusion of walking
27                                   A portable haptic display was tested in eight patients in a setup w
28 te, determines the degree to which vision or haptics dominates.
29 h greater utilitarian actions in virtual and haptic environments when compared to traditional questio
30 m geometric considerations; the precision of haptic estimates did not.
31 red the variances associated with visual and haptic estimation of height.
32 stimation is lower than that associated with haptic estimation.
33 he retrosplenial cortex (RSC) for visual and haptic exploration of information-matched scenes but not
34      We examined activation during visual or haptic exploration of objects and action execution (gras
35 tation within early visual areas during both haptic exploration of objects and subsequent actions tow
36 ents and in feature extraction during active haptic exploration of objects and surfaces.
37               Here, we used an unconstrained haptic exploration task to evoke a set of hand postures
38  identified and mentally represented through haptic exploration.
39 l" regions are implicated in both visual and haptic exploration; however, touch also recruits high-ac
40 ap from object representations to visual and haptic features, respectively, and uses a Bayesian infer
41 ding perceptual tasks), participants receive haptic feedback after each trial.
42 xplains the technical challenges of creating haptic feedback for robot-assisted surgery and provides
43 t results that evaluate the effectiveness of haptic feedback in mock surgical tasks.
44                   The cost-benefit ratio for haptic feedback in RMIS has not been established.
45  together to develop effective solutions for haptic feedback in RMIS.
46 sculpture, we now also incorporate realistic haptic feedback into virtual moral simulations.
47 ndition 3), mimicking the time course of the haptic feedback of conditions 1 and 2, substantial learn
48                                              Haptic feedback systems for RMIS are still under develop
49            Thus, in grasping, DF can rely on haptic feedback to compensate for her deficit in size-pe
50 e system could be augmented in reality, with haptic feedback, size reduction, and development of new
51 s grasping was only normal when she received haptic feedback.
52 amber IOL implantation using Hoffman scleral haptic fixation and sutureless Sharioth technique in pat
53                                      Loss of haptic (force and tactile) feedback in MIS procedures is
54          It is hypothesized that the lack of haptic (force and tactile) feedback presented to the sur
55 ng motor task using a cursor controlled by a haptic glove.
56 ther problems recorded were trapped trailing haptic, haptic-optic adhesion, overriding of the plunger
57 , and (iii) those with delay activity in the haptic-haptic delayed matching task but no such activity
58                                   Vision and haptics have different limitations and advantages becaus
59                                        A new haptic illusion is described, in which the location of t
60 ly evident in relation to the sulcus-fixated haptic in the case of 1-piece lenses.
61 er visual information can be as effective as haptics in driving visual recalibration and whether incr
62  valuable tool in confirming the presence of haptic-induced ocular irritation and in assisting the ma
63 e nervous system seems to combine visual and haptic information in a fashion that is similar to a max
64 only when provided with veridical visual and haptic information pertaining to the object, lacking whi
65   An ideal observer that combines visual and haptic information weights them differently as a functio
66 he importance of vibrotactile signals during haptic interactions, but little is known of how vibratio
67 ons differentiate tissue stiffness through a haptic interface device.
68                                              Haptic memory in particular can retain the sensation of
69  state, confirming the recyclability of this haptic memory material for use in practical applications
70                                        Thus, haptic memory materials, having simple structures and hi
71 c assemblies assisted by halogen bonding for haptic memory.
72 omic materials with enhanced performance for haptic memory.
73                             Intraocular lens haptic misplacement was confirmed by ultrasound biomicro
74                                       In the haptic modality, the independent movement of multiple se
75 gration into motor commands to guide further haptic movement.
76 areas are also activated and reactivated for haptic object exploration and haptically guided grasping
77       Feedback was one of the following: (1) haptic only, (2) haptic and stereoscopic (providing bino
78                                              Haptic-only feedback resulted in substantial learning; t
79 blems recorded were trapped trailing haptic, haptic-optic adhesion, overriding of the plunger over th
80 ivery behavior was achieved with the leading haptic orientating to the left of the surgeon and thus d
81 n frequently dominates the integrated visual-haptic percept, for example when judging size, shape or
82 ynamics, to instantaneously assess affective haptic perception using electrocardiogram-derived inform
83 daptation-and-transfer paradigm, a change in haptic perception was induced by slant-adaptation using
84 ount the movements of multiple body parts in haptic perception, and they show that the effects of act
85 re able to finely characterize the affective haptic perception, with a recognition accuracy of 69.79%
86 s at the sensory follicle that most underlie haptic perception.
87                               The visual and haptic perceptual systems are understood to share a comm
88  to compensate for a novel and unpredictable haptic perturbation of finger extension.
89 the compensatory response in the presence of haptic perturbations during prehension.
90 ts in processing the corrective responses to haptic perturbations of the finger during prehension.
91 indicated whether visual, haptic, and visual-haptic planar surfaces appeared slanted positively or ne
92 e demonstrate that the elastic behavior of a haptic probe provides a robust edge detection mechanism
93 isual recognition and to a lesser degree for haptic recognition and visually guided actions.
94 e recognition tasks, it is not essential for haptic recognition of object shape.
95 bjects served as static visual, auditory and haptic reference points.
96 ived frontoparallel, and measured visual and haptic reliabilities.
97                                              Haptic reliability was fixed.
98 I, M.C. showed no object-selective visual or haptic responses in LOC, but her pattern of haptic activ
99 urther supported by a similar preference for haptic scenes found with blind participants.
100                                      Hoffman haptic scleral fixation was performed in 31 eyes, Shario
101 a receives further support from the field of haptic search.
102 ibility to robotic surgical systems, loss of haptic sensation with the device, and lack of prospectiv
103 s to cortical neuron networks engaged in the haptic sense.
104 touch and she showed normal sensitivity to a haptic shape illusion.
105                             The hands supply haptic shape information by means of tactile and proprio
106 ht to be critical for recognizing visual and haptic shape information is the lateral occipital comple
107    However, causal evidence linking LOC with haptic shape processing is lacking.
108 We investigated whether LOC is essential for haptic shape recognition in humans by studying behaviora
109 gh LOC is routinely active during visual and haptic shape recognition tasks, it is not essential for
110 ical somatosensory processing participate in haptic short-term memory.
111 ect shape representations from visual and/or haptic signals.
112 nt object representations from visual and/or haptic signals.
113 raining with the Procedicus, computer-based, haptic simulator.
114  preadaptation, we determined the visual and haptic slants of perceived frontoparallel, and measured
115 ter adaptation, we remeasured the visual and haptic slants of perceived frontoparallel.
116 es with a discrepancy between the visual and haptic slants.
117 8%]), and IOL subluxation (3 [13%]) owing to haptic slippage within 3 months of the procedure.
118  adaptation, subjects were exposed to visual-haptic surfaces with a discrepancy between the visual an
119 behaved very similarly to humans in a visual-haptic task.
120 ior intraparietal sulcus and LOtv during the haptic than visual exploration of shapes in the dark.
121 d in an intermodality experiment (vision and haptics together).
122 chniques for stabilizing posture by means of haptic touch and for studying and modeling postural mech
123 uous shading information, can be modified by haptic (touch) feedback.
124  recorded in both the cross-modal task and a haptic unimodal task, where the animal had to retain a t
125 presence of static anchor points that can be haptic, visual and auditory reference signals; 2) real o
126                         In 75% of the eyes 1 haptic was embedded in the iris; it extended into the ci
127 ality experiment, humans adjusted visual and haptic weights in a fashion quite similar to that of the
128 uspicion of misplacement of intraocular lens haptics were reviewed.

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