Generalizable Learning: Practice Makes Perfect — But at What?

Slides:

Advertisements

Similar presentations

Sea turtles Current Biology

Advertisements

Niche construction drives social dependence in hermit crabs

Volume 27, Issue 11, Pages R447-R448 (June 2017)

Convergent Evolution: Gene Sharing by Eukaryotic Plant Pathogens

Polyethylene bio-degradation by caterpillars?

Cell Adhesion: Sizing Up a Sticky Situation

Laminopathies: Too Much SUN Is a Bad Thing

Nuclear envelope Current Biology

Eye position predicts what number you have in mind

Aaron R. Seitz, Praveen K. Pilly, Christopher C. Pack Current Biology

Comparative Cognition: Action Imitation Using Episodic Memory

Sensory-Motor Integration: More Variability Reduces Individuality

Visual Categorization: When Categories Fall to Pieces

Whistled Turkish alters language asymmetries

Visual Development: Learning Not to See

Integrative Cell Biology: Katanin at the Crossroads

Linguistic Relativity: Does Language Help or Hinder Perception?

Sexual Selection: Roles Evolving

Volume 21, Issue 20, Pages R837-R838 (October 2011)

Cell Division: SACing the Anaphase Problem

Mimicry in plants Current Biology

Infant cognition Current Biology

Volume 23, Issue 23, Pages R1025-R1026 (December 2013)

Hydra Kristine M. Glauber, Catherine E. Dana, Robert E. Steele

American birds: Audubon was not the first

Visual Attention: Size Matters

Ecology: The Tropical Deforestation Debt

Plant vacuoles Current Biology

Life History Evolution: What Does a Menopausal Killer Whale Do?

Elephant cognition Current Biology

Honeybee Communication: A Signal for Danger

Fiddler crabs Current Biology

Volume 24, Issue 2, Pages R60-R61 (January 2014)

Volume 23, Issue 7, Pages R265-R266 (April 2013)

Volume 23, Issue 9, Pages R364-R365 (May 2013)

Brain Evolution: Getting Better All the Time?

Evolution: Mirror, Mirror in the Pond

Volume 25, Issue 19, Pages R815-R817 (October 2015)

Sea turtles Current Biology

The Human Genetic History of the Americas: The Final Frontier

Locomotion: Why We Walk the Way We Walk

Volume 24, Issue 7, Pages R262-R263 (March 2014)

Imaginal discs Current Biology

Volume 16, Issue 21, Pages R906-R910 (November 2006)

Non-cortical magnitude coding of space and time by pigeons

Elementary motion detectors

Developmental Patterning: Putting the Squeeze on Mis-specified Cells

Planar Cell Polarity: Microtubules Make the Connection with Cilia

Daniel Hanus, Josep Call Current Biology

Volume 15, Issue 13, Pages R483-R484 (July 2005)

Volume 23, Issue 21, Pages R963-R965 (November 2013)

Magic and cognitive neuroscience

Visual Development: Learning Not to See

Centrosome Size: Scaling Without Measuring

Volume 22, Issue 18, Pages R784-R785 (September 2012)

FOXO transcription factors

Neuronal Plasticity: How Do Neurons Know What To Do?

Conservation Biology: The Importance of Wilderness

Spontaneous planning for future stone throwing by a male chimpanzee

Horizontal Gene Transfer: Accidental Inheritance Drives Adaptation

Jenni Deveau, Daniel J. Ozer, Aaron R. Seitz Current Biology

Volume 28, Issue 2, Pages R58-R60 (January 2018)

American birds: Audubon was not the first

Jonathan Redshaw, Thomas Suddendorf Current Biology

Basal bodies Current Biology

Axis Formation: Squint Comes into Focus

Vision: Attending the Invisible

Volume 18, Issue 5, Pages R198-R202 (March 2008)

Volume 24, Issue 11, Pages R508-R510 (June 2014)

Volume 24, Issue 20, Pages R987-R988 (October 2014)

Presentation transcript:

Generalizable Learning: Practice Makes Perfect — But at What? Aaron R. Seitz Current Biology Volume 27, Issue 6, Pages R225-R227 (March 2017) DOI: 10.1016/j.cub.2017.01.064 Copyright © 2017 Elsevier Ltd Terms and Conditions

Figure 1 Different patterns of immediate transfer and learning rates. The green line in each sub-figure represents naïve trial by trial learning on a hypothetical task. The red line in each sub-figure represents how learning on that task could be altered by prior experience on a related task; green highlight shows positive immediate transfer, yellow no immediate transfer, and red negative immediate transfer. The graphs on the left show no benefits to learning rate, and those on the right show positive transfer of learning rates. Current Biology 2017 27, R225-R227DOI: (10.1016/j.cub.2017.01.064) Copyright © 2017 Elsevier Ltd Terms and Conditions