Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long distances. Many mechanisms have been proposed for how animals acquire, store, and retrace learned routes, yet many of these hypotheses appear incongruent with behavioral observations and the animals' neural constraints. The "Navigation by Scene Familiarity Hypothesis" proposed originally for insect navigation offers an elegantly simple solution for retracing previously experienced routes without the need for complex neural architectures and memory retrieval mechanisms. This hypothesis proposes that an animal can return to a target location by simply moving toward the most familiar scene at any given point. Proof of concept simulations have u...
Autonomous navigation is a major challenge in the development of MAVs. When an algorithm has to be e...
The ability to navigate in a complex environment is crucial for both animals and robots. Many animal...
Visual navigation is a critical behaviour formanyanimals, and it has been particularly well studied...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...
The use of visual information for navigation appears to be a universal strategy for sighted animals,...
In this paper we propose a model of visually guided route navigation in ants that captures the known...
Insects have — over millions of years of evolution — perfected many of the systems that roboticists ...
In this paper we propose a model of visually guided route navigation in ants that captures the known...
It is known that ants learn long visually guided routes through complex terrain. However, the mechan...
Small-brained insects are expert at many tasks that are currently difficult for robots, but especial...
Insect-Inspired models of visual navigation, that operate by scanning for familiar views of the worl...
The navigation of bees and ants from hive to food and back has captivated people for more than a cen...
Insects are remarkably apt in navigating through a complex environment. Honeybees for instance are a...
Animals are often able to solve complex navigational tasks in very challenging terrain, despite usi...
Autonomous navigation is a major challenge in the development of MAVs. When an algorithm has to be e...
The ability to navigate in a complex environment is crucial for both animals and robots. Many animal...
Visual navigation is a critical behaviour formanyanimals, and it has been particularly well studied...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...
The use of visual information for navigation appears to be a universal strategy for sighted animals,...
In this paper we propose a model of visually guided route navigation in ants that captures the known...
Insects have — over millions of years of evolution — perfected many of the systems that roboticists ...
In this paper we propose a model of visually guided route navigation in ants that captures the known...
It is known that ants learn long visually guided routes through complex terrain. However, the mechan...
Small-brained insects are expert at many tasks that are currently difficult for robots, but especial...
Insect-Inspired models of visual navigation, that operate by scanning for familiar views of the worl...
The navigation of bees and ants from hive to food and back has captivated people for more than a cen...
Insects are remarkably apt in navigating through a complex environment. Honeybees for instance are a...
Animals are often able to solve complex navigational tasks in very challenging terrain, despite usi...
Autonomous navigation is a major challenge in the development of MAVs. When an algorithm has to be e...
The ability to navigate in a complex environment is crucial for both animals and robots. Many animal...
Visual navigation is a critical behaviour formanyanimals, and it has been particularly well studied...