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  <title><![CDATA[PhD Defense by Varun Sharma]]></title>
  <body><![CDATA[<p>In partial fulfillment of the requirements for the degree of<br><br>Doctor of Philosophy in Quantitative Biosciences<br>in the School of Biological Sciences<br><br><strong>Varun Sharma</strong></p><p>&nbsp;</p><p>Defends his thesis:</p><p><strong>Multisensory Integration and Memory in Hover Feeding Hawkmoths</strong></p><p>&nbsp;</p><p>Wednesday, July 23, 2025</p><p>9:00am Eastern</p><p>Location: Howey Physics Building N201-202</p><p>Zoom:&nbsp;<a href="https://gatech.zoom.us/j/5708722028?omn=99074316368">https://gatech.zoom.us/j/5708722028?omn=99074316368</a></p><p>&nbsp;</p><p><strong>Advisor:&nbsp;</strong></p><p>Dr. Simon Sponberg</p><p>School of Physics, School of Biological Sciences</p><p>Georgia Institute of Technology</p><p>&nbsp;</p><p><strong>Committee:&nbsp;</strong></p><p>Dr. Tim Cope</p><p>School of Biological Sciences</p><p>Georgia Institute of Technology</p><p>&nbsp;</p><p>Dr. Young-hui Chang</p><p>School of Biological Sciences</p><p>Georgia Institute of Technology</p><p>&nbsp;</p><p>Dr. Gordon Berman</p><p>Department of Physics</p><p>Emory University</p><p>&nbsp;</p><p>Dr. Flavio Fenton&nbsp;</p><p>School of Physics</p><p>Georgia Institute of Technology</p><p>&nbsp;</p><p><strong>Abstract:</strong></p><p>     Animals perform continuous, goal-directed behaviors by combining sensory modalities, internal states and neuromuscular control. Agile flight behaviors in insects are especially exciting avenues for studying sensorimotor control, due to their small nervous systems and relatively fast experimental turnaround times. Hawkmoths are a model system for sensorimotor control, due to their remarkably linear hover-feeding behavior, large size, and agile flight.</p><p>&nbsp;</p><p>Flower-tracking behavior in the hover-feeding hawkmoths, <em>Manduca sexta</em> is remarkably amenable to control theoretical treatment. Beyond system identification, it is composed of object recognition, 3D tracking, active sensing, multi-sensory and multi-frequency integration, short-term memory, attention, airflow response and motor adaptation, and may have links to navigation circuits. In this work, we focus on behavioral identification of their control system, and kinematic identification of short-term reference points (goals) in this control. Further, we investigate the neural basis of these behavioral observations and develop novel techniques for behavioral electrophysiology.</p><p>&nbsp;</p><p>In Aim 1, we study the effects of luminance context on visual and mechanosensory feedback control of flower-tracking. Specifically, we test the effect of light-levels on mechanosensory response and measure the tracking performance as a function of luminance change.&nbsp; We use robotic flowers to present sensory conflict and test the system’s linearity across luminance contexts.<br>In Aim 2, we observe memory like kinematics in hover-feeding, indicating the presence of positional memory in this control. We apply time-series approaches to formalize this as a memory-based system and further test the positional and velocity contributions to the control using a screen-feeding free-behavior VR system to present step-changes in position.</p><p>In Aim 3, we investigate the neural basis of multisensory integration, in a bottleneck layer between the brain and the motor circuits. We characterize the anatomy of this bottleneck using Transmission Electron Microscopy. Further, we use multichannel, extracellular electrodes to record neural activity in this neck-connective while presenting visual and mechanosensory stimuli with robotic flowers. Finally, we develop a novel behavioral electrophysiology technique, allowing the moths to flap their wings during electrophysiology. We test two alternative behavioral measurement techniques for this setup, one based on force-sensing, and another based on kinematics. These approaches bring us closer to having behaving animals on an electrophysiology rig, for studying closed-loop feedback control in small nervous systems.</p><p>&nbsp;</p>]]></body>
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