Add to ORKGBats have long been the envy of engineers due to their ability to use echolocation to fly with speed and agility through complex 3D environments. By understanding the neurobiological basis for echolocation, we hope to emulate the efficient implementation demonstrated by nature. Bats use interaural level differences (ILD) as their primary cue for azimuthal echolocation. The Lateral Superior Olive (LSO) is bat's first ILD processing center and plays an important role. We have designed a CMOS VLSI circuit based neuromorphic system that mimics ILD processing in the bat LSO. In this paper,we propose a simple spiking neural model of LSO cells, and a VLSI implementation of an array of cells representing the LSO population
Abstract: Echolocation systems used by bats may be used by engineers wishing to emulate the performa...
The localization and orientation to various novel or interesting events in the environment is a crit...
The brainstem's lateral superior olive (LSO) is thought to be crucial for localizing high-frequency ...
Abstract. The azimuthal localization of objects by echolocating bats is based on the difference of e...
Abstract. The azimuthal localization of objects by echolocating bats is based on the difference of e...
Bats have long fascinated both scientists and engineers due to their superb ability to use echoloca...
Auditory localization is an interesting and challenging problem; the location of the sound source is...
Bats are known for their ability to pursue a goal while avoiding obstacles in a cluttered environmen...
The sophisticated biosonar systems of horseshoe bats have enabled these animals to navigate and purs...
The neural computations that support bat echolocation are of great interest to both neuroscientists ...
There are various approaches to understanding the echolocation phenomenon of bats. A part of the ech...
When a bat approaches a target, it continuously modifies its echolocation sounds and relies on incom...
In this paper we address sound source localization in the azimuthal plane. Various models, from the ...
The localization and orientation to various novel or interesting events in the environment is a crit...
This study explores the principles of echolocation in bats which can be potentially adopted for bio-...
Abstract: Echolocation systems used by bats may be used by engineers wishing to emulate the performa...
The localization and orientation to various novel or interesting events in the environment is a crit...
The brainstem's lateral superior olive (LSO) is thought to be crucial for localizing high-frequency ...
Abstract. The azimuthal localization of objects by echolocating bats is based on the difference of e...
Abstract. The azimuthal localization of objects by echolocating bats is based on the difference of e...
Bats have long fascinated both scientists and engineers due to their superb ability to use echoloca...
Auditory localization is an interesting and challenging problem; the location of the sound source is...
Bats are known for their ability to pursue a goal while avoiding obstacles in a cluttered environmen...
The sophisticated biosonar systems of horseshoe bats have enabled these animals to navigate and purs...
The neural computations that support bat echolocation are of great interest to both neuroscientists ...
There are various approaches to understanding the echolocation phenomenon of bats. A part of the ech...
When a bat approaches a target, it continuously modifies its echolocation sounds and relies on incom...
In this paper we address sound source localization in the azimuthal plane. Various models, from the ...
The localization and orientation to various novel or interesting events in the environment is a crit...
This study explores the principles of echolocation in bats which can be potentially adopted for bio-...
Abstract: Echolocation systems used by bats may be used by engineers wishing to emulate the performa...
The localization and orientation to various novel or interesting events in the environment is a crit...
The brainstem's lateral superior olive (LSO) is thought to be crucial for localizing high-frequency ...