Excited to present my work at the #Janelia Computing Cords Meeting!
Stop by today to learn how #inhibitory circuits shape rhythmic motor patterns

#quotes #books #booksky #excerpts #citations #behave #sapolsky #behavior #brain #neurobiology #psychology #racism #cognition #violence #white #black #shooting #waves #inhibitory #fear #threat #bigotry #other

Left: Schematic of larval locomotor system model. Abdominal circuitry including initiation and wave detectors is duplicated bilaterally. HO oscillators are represented by large circles with an oscillator symbol. Intersegmental connections are represented by black lines connecting HOs. Reciprocal intersegmental connections amongst neighbouring HOs are represented by black lines. Initiation and wave detector motifs on each side are represented outside the core model. Middle column: Model compared to calcium imaging traces (righthand column) for three scenarios… Top: equal bias. Middle: forwards bias. Bottom: anterior bias.

How do #NeuralNetworks generate diverse and variable outputs? This study of the larval #fruitfly locomotor system shows that relatively simple sets of #inhibitory circuit motifs can generate a surprising degree of diversity & variability in motor programs @plosbiology.org 🧪 plos.io/3GpT3pR

Left: Schematic of larval locomotor system model. Abdominal circuitry including initiation and wave detectors is duplicated bilaterally. HO oscillators are represented by large circles with an oscillator symbol. Intersegmental connections are represented by black lines connecting HOs. Reciprocal intersegmental connections amongst neighbouring HOs are represented by black lines. Initiation and wave detector motifs on each side are represented outside the core model. Middle column: Model compared to calcium imaging traces (righthand column) for three scenarios… Top: equal bias. Middle: forwards bias. Bottom: anterior bias.

How do #NeuralNetworks generate diverse and variable outputs? This study of the larval #fruitfly locomotor system shows that relatively simple sets of #inhibitory circuit motifs can generate a surprising degree of diversity & variability in motor programs @plosbiology.org 🧪 plos.io/3GpT3pR

Left: Schematic of larval locomotor system model. Abdominal circuitry including initiation and wave detectors is duplicated bilaterally. HO oscillators are represented by large circles with an oscillator symbol. Intersegmental connections are represented by black lines connecting HOs. Reciprocal intersegmental connections amongst neighbouring HOs are represented by black lines. Initiation and wave detector motifs on each side are represented outside the core model. Middle column: Model compared to calcium imaging traces (righthand column) for three scenarios… Top: equal bias. Middle: forwards bias. Bottom: anterior bias.

How do #NeuralNetworks generate diverse and variable outputs? This study of the larval #fruitfly locomotor system shows that relatively simple sets of #inhibitory circuit motifs can generate a surprising degree of diversity & variability in motor programs @plosbiology.org 🧪 plos.io/3GpT3pR

Clarifying the role of #inhibitory control in #L2 #phonological processing: A #preregistered, close #replication of Darcy et al. (2016) by Amanda Huensch. This will be part of the
#SSLA special issue on replication in second language research doi.org/10.1017/S027...