about
Australia is 'free to choose' economic growth and falling environmental pressures.A model of ant route navigation driven by scene familiarity.Image-matching during ant navigation occurs through saccade-like body turns controlled by learned visual featuresInsect-inspired navigation algorithm for an aerial agent using satellite imageryRoute learning by insects.Social Life in Arid Environments: The Case Study of Cataglyphis Ants.Scene perception and the visual control of travel direction in navigating wood antsInsect navigation: do ants live in the now?Ant navigation: priming of visual route memories.The Sensory Ecology of Ant Navigation: From Natural Environments to Neural Mechanisms.Vision for navigation: What can we learn from ants?Desert ants locate food by combining high sensitivity to food odors with extensive crosswind runs.Insect Navigation: What Backward Walking Reveals about the Control of Movement.Insect navigation: do honeybees learn to follow highways?Animal cognition: multi-modal interactions in ant learning.Which portion of the natural panorama is used for view-based navigation in the Australian desert ant?How might ants use panoramic views for route navigation?Visual scanning behaviours and their role in the navigation of the Australian desert ant Melophorus bagoti.Insect Orientation: The Travails of Going Straight.How do field of view and resolution affect the information content of panoramic scenes for visual navigation? A computational investigation.Navigation-specific neural coding in the visual system of Drosophila.View-based matching can be more than image matching: The importance of considering an animal's perspective.Using neural networks to understand the information that guides behavior: a case study in visual navigation.Visual cues for the retrieval of landmark memories by navigating wood ants.Still no convincing evidence for cognitive map use by honeybees.Neural coding in the visual system of Drosophila melanogaster: How do small neural populations support visually guided behaviours?The co-activation of snapshot memories in wood ants.Visual scene perception in navigating wood ants.Ants use the panoramic skyline as a visual cue during navigation.Snapshot memories and landmark guidance in wood ants.Bi-directional route learning in wood ants.Phase-dependent visual control of the zigzag paths of navigating wood ants.Switching destinations: memory change in wood ants.The binding and recall of snapshot memories in wood ants (Formica rufa L.).What can be learnt from analysing insect orientation flights using probabilistic SLAM?The interaction of path integration and terrestrial visual cues in navigating desert ants: what can we learn from path characteristics?A motor component to the memories of habitual foraging routes in wood ants?Snapshots in ants? New interpretations of paradigmatic experiments.The influence of beacon-aiming on the routes of wood ants.Insect vision: emergence of pattern recognition from coarse encoding.
P50
Q31017904-F298E0C0-BE76-4309-B914-0816E776D7C5Q34126242-0F81A28A-A22A-4943-BB27-2D4ABE8E508EQ34136591-276D653E-1C41-49E9-AE6B-119B93409B3FQ35432286-7847AB84-DE5E-4BBB-9E57-9FE372DFC5B3Q35603001-C2974A38-7519-49DA-8E27-7A15DA8E5050Q36196875-191229D9-C497-4D8B-9AB3-5775534A3240Q38176335-8B9D15BD-F087-4A6C-837D-35ADC537EE6EQ38383582-9695FB88-1C75-4CA8-BD8C-C36CBB6C119EQ38574788-44976AD9-300C-479E-9C1F-72D390C8961AQ38623063-ABB8E09D-6320-4B01-A53A-2D650B261669Q38656759-D2DDD79F-E7A3-4D39-971C-F31CD58C270AQ38925033-3C446732-881C-4449-9630-D8E0852D31B8Q38950027-8AD86C00-590B-4249-8AE8-5BD7C175AD52Q39028019-CD7D7423-A9D0-4024-8032-B204715E6E4CQ39030885-F7A58765-E2BC-4670-BC6A-F9397D2541B6Q39030892-0263E069-FB04-40A4-A565-5DB18CAC7BF9Q39353867-9D2428A5-E3D9-43F0-951F-50184EBB3F96Q39606680-C1B89092-7EF9-458E-BECE-41D23BE5D4A6Q39705016-D52D3CFE-2E69-47F3-A0F1-75B4829F65C8Q40306170-376DB8F7-DE30-4BA4-B4F7-8087A8A46976Q40603989-5B16B021-047A-42F6-8551-DC90D8E915EBQ41590189-246C4E76-DE39-4060-BA79-526C25C3EE69Q41696451-BCC2F3D8-CE50-4A02-A0E9-3048107AB2ADQ42118756-38C1C07F-B051-4D78-AE3A-89180913AEDCQ42962817-7AF6AF86-B2B7-479A-B7DA-10CE0EE736EEQ44241865-6C8A2B44-FF7F-4BC8-A3AF-5E0AEC06B1EDQ44646142-31C18A7D-1ED6-4A8D-A28B-BCBB198BD1A2Q44927578-9FFE1772-E00D-495C-BFB5-B3B7CE95C5E0Q45144520-1DAC6F8B-46BD-4BEC-BC50-AE773C60B829Q45385563-99F2E6C3-24CB-46FD-B376-9DB7BC90437DQ45998607-26722DC3-2135-4CD9-B711-284CD9F3F2DEQ46389456-F7DA65E9-12A3-4F64-B687-4449C8645882Q46890645-D8C80544-80A3-41C0-B34B-30EB2F28B7B9Q47302724-8A39D6A2-897C-425D-BDB5-E32A1922A3CAQ48265788-DA9A39B3-0954-4AB3-8091-535162EA860CQ48288603-3CA3810D-4DE6-46D1-87DE-FBF74725C535Q48304443-773B84ED-147A-4A3A-A591-120FFBD77665Q50763230-DD229E8A-50A8-43B5-88BF-A4459C14961AQ52008678-6C75AD64-F444-4ADD-86F8-0B9D653593B3Q52765337-F9EF6B6C-9E36-45B6-93A8-62E91B0C6EE6
P50
description
British neuroscientist
@en
neurowetenschapper
@nl
name
Paul Graham
@ast
Paul Graham
@en
Paul Graham
@es
Paul Graham
@nl
type
label
Paul Graham
@ast
Paul Graham
@en
Paul Graham
@es
Paul Graham
@nl
prefLabel
Paul Graham
@ast
Paul Graham
@en
Paul Graham
@es
Paul Graham
@nl
P106
P1153
7201373562
P21
P2381
P31
P496
0000-0002-3745-0940