Brett Graham
Brett Graham
Harvard Center for Brain Science
Verified email at fas.harvard.edu
Title
Cited by
Cited by
Year
Anatomy and function of an excitatory network in the visual cortex
WCA Lee, V Bonin, M Reed, BJ Graham, G Hood, K Glattfelder, RC Reid
Nature 532 (7599), 370-374, 2016
2732016
Whole-brain serial-section electron microscopy in larval zebrafish
DGC Hildebrand, M Cicconet, RM Torres, W Choi, TM Quan, J Moon, ...
Nature 545 (7654), 345-349, 2017
1502017
A self-calibrating, camera-based eye tracker for the recording of rodent eye movements
D Zoccolan, BJ Graham, DD Cox
Frontiers in neuroscience 4, 193, 2010
472010
Reconstruction of motor control circuits in adult Drosophila using automated transmission electron microscopy
JT Maniates-Selvin, DGC Hildebrand, BJ Graham, AT Kuan, LA Thomas, ...
bioRxiv, 2020
132020
High-throughput transmission electron microscopy with automated serial sectioning. bioRxiv
BJ Graham, DGC Hildebrand, AT Kuan, JT Maniates-Selvin, LA Thomas, ...
72019
A Petascale Automated Imaging Pipeline for Mapping Neuronal Circuits with High-throughput Transmission Electron Microscopy
W Yin, D Brittain, J Borseth, ME Scott, D Williams, J Perkins, C Own, ...
bioRxiv, 791889, 2019
72019
Avoidance behavior controlled by a model of vertebrate midbrain mechanisms
DPM Northmore, BJ Graham
International Work-Conference on the Interplay Between Natural and …, 2005
72005
High-throughput transmission electron microscopy with automated serial sectioning
BJ Graham, DGC Hildebrand, AT Kuan, JT Maniates-Selvin, LA Thomas, ...
bioRxiv, 657346, 2019
42019
Reel-to-Reel Electron Microscopy: Latency-Free Continuous Imaging of Large Sample Volumes
CS Own, MF Murfitt, LS Own, D Brittain, N da Costa, RC Reid, ...
Microscopy and Microanalysis 21 (S3), 157-158, 2015
42015
A spiking neural network model of midbrain visuomotor mechanisms that avoids objects by estimating size and distance monocularly
BJ Graham, DPM Northmore
Neurocomputing 70 (10-12), 1983-1987, 2007
42007
A model of proximity measurement by the teleost nucleus isthmi
BJ Graham, DPM Northmore
Neurocomputing 69 (10-12), 1281-1285, 2006
42006
A Customizable Low-Cost System for Massively Parallel Zebrafish Behavior Phenotyping
W Joo, MD Vivian, BJ Graham, ER Soucy, SB Thyme
bioRxiv, 2020
2020
Natural sensory context drives diverse brain-wide activity during C. elegans mating
V Susoy, W Hung, D Witvliet, JE Whitener, M Wu, BJ Graham, M Zhen, ...
bioRxiv, 2020
2020
Implementation of a Peltier-based cooling device for localized deep cortical deactivation during in vivo object recognition testing
K Marra, B Graham, S Carouso, D Cox
APS 2012, Q39. 003, 2012
2012
Biologically inspired collision avoidance system for unmanned vehicles
FE Ortiz, B Graham, K Spagnoli, EJ Kelmelis
Unmanned Systems Technology XI 7332, 73320B, 2009
2009
A parametric study of the teleost nucleus isthmi
B Graham
University of Delaware, 2009
2009
Bidirectional communication of posterior commissure axons between the nuclei isthmi in a teleost.
B Graham, DPM Northmore
Spiking Neuron Models based on Midbrain Mechanisms that Guide Visual Behavior.
BJ Graham, DPM Northmore
An ancient mechanism for deriving distance from motion
BJ Graham, DPM Northmore
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Articles 1–19