{ "item_title" : "Memory, Learning, and Higher Function", "item_author" : [" C. D. Woody "], "item_description" : "The basis of learning appears to be a network of interconnected adaptive elements (such as those found in the brain) by means of which transforms between inputs and outputs are performed. By adaptive I mean that the element can change in some systematic manner and in so doing alter the transform between input and output. In living systems, transmission within the neural network involves cpded nerve impulses and other physical chemical processes that form reflections of sensory stimuli and incipient motor behavior. The properties of the transmission network become significant determinants of behavior and depend on the mechanisms of neuronal adaptation, the means by which the connectivities between different neurons are modified. Particular paths through the network become labeled with reference to specific inputs and outputs. The network then operates through labeled interconnections linking specific elements within the network and through the mechanisms that underlie each element's adaptation. The adap- tive features are crucial to learning and imply some associated, underlying mnemonic process. The labeling is of consequence with regard to the resulting specificities of stimulus reception and motor performance that characterize adaptive behavior. Memory involves time-dependent information processing relying on en- coding and retrieval as well as storage itself. In the brain, engrams can be defined as those elemental adaptive changes that take place when learning and memory storage occur. Persistent engrammatic modifications of neuronal structure commonly arise through the same associative mechanisms responsi- ble for learned behavior397, 486, 759, 1020].", "item_img_path" : "https://covers2.booksamillion.com/covers/bam/1/46/125/644/1461256445_b.jpg", "price_data" : { "retail_price" : "54.99", "online_price" : "54.99", "our_price" : "54.99", "club_price" : "54.99", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : "" } }

Memory, Learning, and Higher Function|C. D. Woody

Memory, Learning, and Higher Function : A Cellular View

by C. D. Woody

Ship to Me

In Stock.

FREE Shipping for Club Members

In-Store Pickup

Overview

The basis of learning appears to be a network of interconnected adaptive elements (such as those found in the brain) by means of which transforms between inputs and outputs are performed. By adaptive I mean that the element can change in some systematic manner and in so doing alter the transform between input and output. In living systems, transmission within the neural network involves cpded nerve impulses and other physical chemical processes that form reflections of sensory stimuli and incipient motor behavior. The properties of the transmission network become significant determinants of behavior and depend on the mechanisms of neuronal adaptation, the means by which the connectivities between different neurons are modified. Particular paths through the network become labeled with reference to specific inputs and outputs. The network then operates through labeled interconnections linking specific elements within the network and through the mechanisms that underlie each element's adaptation. The adap- tive features are crucial to learning and imply some associated, underlying mnemonic process. The labeling is of consequence with regard to the resulting specificities of stimulus reception and motor performance that characterize adaptive behavior. Memory involves time-dependent information processing relying on en- coding and retrieval as well as storage itself. In the brain, engrams can be defined as those elemental adaptive changes that take place when learning and memory storage occur. Persistent engrammatic modifications of neuronal structure commonly arise through the same associative mechanisms responsi- ble for learned behavior 397, 486, 759, 1020].

This item is Non-Returnable

Customers Also Bought

Details

ISBN-13: 9781461256441
ISBN-10: 1461256445
Publisher: Springer
Publish Date: October 2011
Dimensions: 9.21 x 6.14 x 1.02 inches
Shipping Weight: 1.55 pounds
Page Count: 484

Related Categories

Favorites

What We Recommend

Featured

Shop by Category

Fiction

Nonfiction

Shop By Format

More Information

Favorites

Featured

Shop By Author A-G

Shop by Author G-L

Shop By Author L-R

Shop by Author R-Z

Shop By Series A-G

Shop By Series H-M

Shop By Series N-Z

Customers Also Liked

More in Manga

Favorites

Favorite Characters

Kids Fiction

Nonfiction

Shop by Age

Top Authors

Educational Resources

More Categories

Favorites

Popular Authors

Bestselling Series A-K

Bestselling Series L-Z

Favorites

Music

Featured

Page to Screen

Tabletop Role-playing

Fandoms

LEGO

Bestsellers

Games & Puzzles

Favorites

Best Books of 2026

#BookTok

Best Gifts for Kids

Toys & Games

For Teens & Young Adults

Pop Culture & Fandoms

Pen to Paper Shop

Faith-Based Gifts

Bargains in Fiction

Bargains in Nonfiction

Bargains in Young Adult Books

Bargains in Kids Fiction

Bargains in Kids Nonfiction

Bargains in Faith & Inspiration

Bargain Favorites

Memory, Learning, and Higher Function : A Cellular View

Overview

Customers Also Bought

Details

You May Also Like...

BAM Customer Reviews