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Neural computers -- See Also Artificial intelligence


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Neural computers.   38
Neural computers -- Circuits -- Design.   2
Neural computers -- Congresses.   27
Neural computers -- Design and construction. : Scope: Body Science  2014 1
Neural computers -- History. : Artificial intelligence and neurocomputing : historical aspects / Marian S. Kurzyn  1993 1
Neural computers -- Periodicals.   8
  Neural Conduction -- 2 Related Subjects   2
Neural conduction.   14
Neural conduction -- Atlases : Atlas of nerve conduction studies and electromyography / A. Arturo Leis, Michael P. Schenk  2013 1
Neural conduction -- Computer simulation. : NeuroDynamix II : concepts of neurophysiology illustrated by computer simulations / W. Otto Friesen and Jonathon A. Friesen  2010 1
Neural conduction -- Handbooks, manuals, etc.   2
Neural conduction -- Mathematical models.   2
Neural conduction -- Measurement. : Membrane potential imaging in the nervous system : methods and applications / editors, Marco Canepari, Dejan Zecevic  2010 1
Neural conduction -- Measurement -- Handbooks, manuals, etc. : Manual of nerve conduction study and surface anatomy for needle electromyography / Hang J. Lee, Joel A. DeLisa  2005 1
Neural Conduction -- physiology   7
Neural conduction -- Research -- History. : Galvani's spark : the story of the nerve impulse / Alan J. McComas  2011 1
Neural conduction -- Testing. : Easy EMG : a guide to performing nerve conduction studies and electromyography / Jay M. Weiss, Lyn D. Weiss, Julie K. Silver  2015 1
 

Neural Conductions -- See Neural Conduction


The propagation of the NERVE IMPULSE along the nerve away from the site of an excitation stimulus
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Neural crest.   5
 

Neural Crest Cell -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
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Neural Crest Cells -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
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Neural crest -- Cytology. : Neural crest cells : evolution, development and disease / edited by Paul A. Trainor  2014 1
Neural Crest -- embryology.   4
Neural Crest -- growth & development. : Neural crest induction and differentiation / edited by Jean-Pierre Saint-Jeannet  2006 1
Neural Crest -- physiology.   2
Neural crest -- Research. : Neural crest stem cells : breakthroughs and applications / editor, Maya Sieber-Blum  2012 1
 

Neural Crests -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
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Neural Fold -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
  1
 

Neural Folds -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
  1
 

Neural Groove -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
  1
 

Neural Grooves -- See Neural Crest


The two longitudinal ridges along the PRIMITIVE STREAK appearing near the end of GASTRULATION during development of nervous system (NEURULATION). The ridges are formed by folding of NEURAL PLATE. Between the ridges is a neural groove which deepens as the fold become elevated. When the folds meet at midline, the groove becomes a closed tube, the NEURAL TUBE
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Neural Inhibition -- physiology. : Inhibitory regulation of excitatory neurotransmission / Mark G. Darlison (ed.)  2008 1
 

Neural Interconnection -- See Neural Pathways


Neural tracts connecting one part of the nervous system with another
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Neural Interconnections -- See Neural Pathways


Neural tracts connecting one part of the nervous system with another
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Neural net computers -- See Neural computers


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neural nets   3
 

Neural nets (Computer science) -- See Neural networks (Computer science)


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Neural nets (Neurobiology) -- See Neural networks (Neurobiology)


  1
 

Neural Network (Anatomic) -- See Nerve Net


A meshlike structure composed of interconnecting nerve cells that are separated at the synaptic junction or joined to one another by cytoplasmic processes. In invertebrates, for example, the nerve net allows nerve impulses to spread over a wide area of the net because synapses can pass information in any direction
  1
 

Neural Network (Computer) -- See Neural Networks (Computer)


A computer architecture, implementable in either hardware or software, modeled after biological neural networks. Like the biological system in which the processing capability is a result of the interconnection strengths between arrays of nonlinear processing nodes, computerized neural networks, often called perceptrons or multilayer connectionist models, consist of neuron-like units. A homogeneous group of units makes up a layer. These networks are good at pattern recognition. They are adaptive, performing tasks by example, and thus are better for decision-making than are linear learning machines or cluster analysis. They do not require explicit programming
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Neural network computers -- See Neural computers


  1
 

Neural Network Model -- See Neural Networks (Computer)


A computer architecture, implementable in either hardware or software, modeled after biological neural networks. Like the biological system in which the processing capability is a result of the interconnection strengths between arrays of nonlinear processing nodes, computerized neural networks, often called perceptrons or multilayer connectionist models, consist of neuron-like units. A homogeneous group of units makes up a layer. These networks are good at pattern recognition. They are adaptive, performing tasks by example, and thus are better for decision-making than are linear learning machines or cluster analysis. They do not require explicit programming
  1
 

Neural Network Models -- See Neural Networks (Computer)


A computer architecture, implementable in either hardware or software, modeled after biological neural networks. Like the biological system in which the processing capability is a result of the interconnection strengths between arrays of nonlinear processing nodes, computerized neural networks, often called perceptrons or multilayer connectionist models, consist of neuron-like units. A homogeneous group of units makes up a layer. These networks are good at pattern recognition. They are adaptive, performing tasks by example, and thus are better for decision-making than are linear learning machines or cluster analysis. They do not require explicit programming
  1
 

Neural Networks (Anatomic) -- See Nerve Net


A meshlike structure composed of interconnecting nerve cells that are separated at the synaptic junction or joined to one another by cytoplasmic processes. In invertebrates, for example, the nerve net allows nerve impulses to spread over a wide area of the net because synapses can pass information in any direction
  1
Neural networks & fuzzy systems. : Self-learning and adaptive algorithms for business applications : a guide to adaptive neuro-fuzzy systems for fuzzy clustering under uncertainty conditions / by Zhengbing Hu, Yevgeniy V. Bodyanskiy, Oleksii K. Tyshchenko  2019 1
Neural Networks (Computer)   93
Neural Networks (Computer) [MESH] : Neural networks for pattern recognition / Christopher M. Bishop  1995 1
Neural Networks (Computer) -- periodicals : Neurocomputing (Online)    1
  Neural networks (Computer science) -- 4 Related Subjects   4
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