12 Keyword Index
Image of the environment 189
Image of the body 151
Mapping of a source signal interval to a fire rate interval 202
Abort signal 183
dependent receptors 46
Offspring 120, 191
Derivative of spinocerebellum 155
Progeny 104
Derivatives of cortical signal neurons 172
Descendants of inhibitory interneurons 172
Descendants of signal neurons 167
Descendants of the mean neuron 167
Decrease of excitation 216
Distance-dependent damping 200, 319
Scanning neurons 221
acetylcholine 50
Aggleton 189
move actively 189
active neuron population 291
activating signal rotation 158
Capitalisation 157
Amygdala 50, 181, 195, 197, 292, 322, 349
Amygdala as feedback and output structure 181
analogue fire rate 195
analogue size 195
analog signals 195
analogue master brain 195
analogous primal brain of the choral data 195
Initial phase of Pontocerebellum 163
Angles of attack are arranged like windmills around the centre 317
Area tegmentalis ventralis 185, 349
Asla Pitkänen 189
associative structure 97
converge on the Purkinje cells 273
Inflation of the entire cortex cortex 271
Bloating of the nucleus olivaris 209
Inflations in one dimension 210
Unfolding of the neural tube 249, 250
upright and laterally correct image 73
Splitting of axon bundles 252
Splitting of modalities 254
Breakdown of vertebrates into reptiles, birds and mammals 256
ascending, sensory ladder rail 268
Eye dominance columns 320
a minimum becomes a maximum 226
Fail-safe 197
Failure safety of the system 317
External clusters 159, 165, 169
Outdoor signal 169
outer cerebellar cortex 147
Automation of motion sequences 149
Axon crossings 78
Barrel columns 320
basal amygdala 183
basal minor nucleus of the amygdala 191
Basal ganglia 196, 387, 388
Basal ganglia system 100, 106, 195, 272
Tree trunk with annual rings 69
Supporting documents for flat divergence grids 292
Special type of lateral escapement 230
Equation for determining the optimum angle 313
Betzsche pyramid cells 272
Betzsche cells 258
Betzsche giant pyramid cells 257
Hive search 183
Prey and predators 189
Moving objects 105
Detecting movements 106
Motion and change detection 107, 191
Motion detection 196
bilaterally symmetrical hose form 266
Bilateria 268
Image size diagram 294
Bridge cores 269
CA1 Region 180
CA3 Region 180
Centre médianus Luys 125
cerebellar interneurons 129
Cerebellum 196, 249, 268, 349
Cerebellum cluster 156
Cerebellum model 153
Cerebellum bark 61, 145, 269
Cerebellum animals 54
circadian control 183
circadian rhythm 114
cluster 159
Cluster group 159, 237
Cluster model 159
cluster-true 156, 161
Coding types of the vestibular sense 111
Coding function 222
Co-contraction 123
Connectome project 67
Connexins 217
Corpus callosum 94
Cortex 50, 254, 292, 319, 320, 350
Cortex of vertebrates 56
Cortex cluster 152, 156
Cortex surface as body model 271
Cortex model 152, 153
cortical mean neurons 125
cortical modality area 91
cortical signal divergence 272
cortical signal convergence 272
cortical turning floor 56, 85
cortical turning loop 85
Craniates 12
the digital format in vertebrate brain 197
the minimum of the excitation function encodes the signal value of the
original quantity 224
The output neuron is stationary 310
Decussatio tegmentalis anterior 81
Detector 224
Diencephalon 1
Difference illustration 106, 189, 196
Differential mapping in the nucleus ruber 273
Difference illustrations 191
Differential nucleus of the amygdala system 191
Differential circuit 105
Differential signal 105
Differential signals 190
digital signals 195
digital vector 228
digitized 268
Digitized signals 255
Digitization of a master size 230
divergent distribution 200
divergent forwarding 269
divergent distribution 171
Divergence grids 206, 212, 219, 221, 294, 320
Divergence lattice in the nucleus olivaris 226
Degree of divergence 208, 212
Divergence structure 206, 271
Divergence transformation 221, 224
Dopamine 57, 100, 138, 349
dopaminergic mean core 185
Dopamine receptor D1 105, 138
Dopamine receptor D2 105
Double rows of projection neurons 266
double rope ladder system 66
dorsal ventricular crest 256, 263
Three bubbles stage 253
three-part articulated vertebrate brain 195
third floor 56
third turning floor 56
Third segment 51
fragrance mixtures 319
scent receptors 319
DVR 256, 263, 292
DVR as vertical convergence grating 263
flat divergence grids 290, 292, 295
plane convergence grids 292, 295
plane divergence grating 271, 281, 282, 293, 321
echo generator 180
Echoneurons 178
Core cluster 159
more effective exercise 63
Own apparatus 156, 254
Self-protection of the living being 149
Self-signal 170, 245
Special signal of the Purkinje cell 170
Independent signal shape 196
a flat divergence grating does not require any learning processes 317
one-dimensional case 225
simplest explanation 301
entrance floor 56, 145
Input core 56
Input cores of the fuselage 100
Entry neurons of the hippocampus 181
Input system 56
Single eyes 73
protozoa 13
unicellular eukaryota 13
Elementary signal 160
Elementary vector 228
Elementary line of Purkinje cells 212
End brain 1
enormous increase in the number of Purkinje cells 210
distance-dependent damping 271
Embossing 246
Origin of the frontal cortex of mammals 256
epileptic seizures 183
not affecting net income 146
Increase in reliability 291
Detection output 171
Detection signal 196
Ernst Haekel 16
Exciting interneurons 145
Exciting differential signal 107
Excitation propagation in the plane 225
Excitation propagation in a continuous substitute model 220
Excitation limitation 109, 141
Excitation function 276
Excitation function of the (linear) divergence grating 220
Excitation function of the plane divergence grating 282
Excitation maximum 282
Minimum excitation 319
Minimum excitation 224
first derivation 222
first expansion phase of spinocerebellum 269
first extension phase of the original Pontocerebellum 152
first extension phase of the original spinocerebellum 145
first floor 50
first segment 50
Extension of the self-contained apparatus 147
generating input neurons 208
Existence of convergence grids 292
Exoskeleton 64
exponential damped 296, 319
exponential damping 205, 295
exponential sensitivity characteristic 205
exponential characteristic 114
exponential connection 201
extrapyramidal system 200
Extreme point of the associated divergence grating 295
extreme value coded signals 291
Extreme value coding 197
Extreme value coding of a master size 224
Extreme values 271
Extreme value selection 228, 230
Extreme value selection in plane divergence grids 291
Extreme value reversal 116, 117
compound eyes 73
pleats 271
Wrinkle formation 210, 302
wrinkled structure 210
Colour vision 388
Absence of myelin 200
more finely controlled motor function 302
Direction of remote location 54
fire or remain silent 302
Fire rate 195, 201
Fire rate of the ganglion cell 303
Fire rate of a retinal ganglion cell 307
Fire rate function 218, 277
Fire rate interval 202
Fire rate average 203
Flat ribbon cable from axons 66
Sequence of action potentials 180
Consequences of redundancy 200
Consequences of signal divergence in the cortex areas 274
Formatio reticularis 58, 118, 119, 123, 125, 138, 145, 156
External influences 149
External signal 245
External signals 165
Frequency multiplication 63, 180
predator 189
Frontalcortex 126, 127, 256, 263, 265
Frontal cortex of vertebrates 255
Frontal cortex only in mammals 257
frontal reversing loop 126
Frontal lobe 251, 256
early primordial cerebellum 129
early, primitive Pontocerebellum 273
fifth turnaround days 56
Functional change of the nucleus ruber 106
Functionality of plane divergence gratings 276
gelatinous protective layer 110
Gap Junction 217
Gaussian bell curve 204
Turned reversing loop 251
Present signal 104
Present signals 107
Joint with several degrees of freedom 291
Joints with several degrees of freedom 271
Joint angle 319
Closed signal circuits 157
Equal treatment of signals 139
Equal treatment of signal classes 138
Equal ranking of the head modalities 85
Equations (3.1.7) of the divergence grating 297
Global mean value signals 158
Globus pallidus 109, 349
Glutamate->GABA 60
glycinergic interneurons 158
Golgi cells 147, 148, 172, 246
Gradient gradient 104
graduated potentials 218
grey matter 200, 251, 271, 292
Pit eyes 78
Hair cells 51, 111
hair cell receptors 268
Hair cell senses in the temporal lobe 251
Hair cell systems 96
semi-cylindrical structures 72
inhibitory interneurons 182
inhibiting component of a differential mapping 272
inhibitory neurons 114
obstructive projection 141
inhibiting feedback 128
Escapement breaks 141
Escapement layer 230
Sufficient conditions 286
Series connection of a divergence grating with an inversion grating, an
extreme value selection and a convergence grating 233
Rear horn 68
hippocampal theta 182
Hippocampus 50, 179, 180
Brain stem 1, 60
high redundancy 268
higher reliability 273
concave mirrors 257, 259
horizontal basket cell escapement 165
horizontal signal propagation 165
Human Brain Project 221
Hydroskeleton 64
Hyperbola function 281
Hyperpallium 256, 292
Hyperpallium of birds 265
hypothalamus 183
idealized neural tube nervous system 67
idealized rope ladder nervous system 42
transformed into fire rates 293
Interior clusters 159, 165, 169
Interior signal 169
Inner skeleton 64, 147
inner parallel fiber excitation 162
Input neuron 115
Input vector 219, 221
Island cortex of the brain 251
Integration neuron 179
Intelligence of vertebrates 272
Interactions 154
intralaminar cores 126
inverse mapping topology 77
inverse excitation 139
inverse excitation of the contralateral mean centres 156
inverse excitation of motor opponents 122, 195
inverse contralateral excitation 123
Inversion core 118, 121
Inversion cores 124
Inversion neuron 115
Inversion circuit 113, 115
Inversion mirroring 259
Inversion system 350
Inversion transformation 115
inverted 268
inverted vestibular signals 119
inverted signal 114
isthmic region 6
Yes-no principle 302
John Evangelista Purkinje 59
Cable equation 219
Cable equation for non-markless axons 276
Cable equation for non-markless fibers 216, 274
Core of grey matter 216
Gray matter nuclei 292
Class of climbing fibre signals 108
small, roundish dendrite trees 147
cerebellar nuclei 147
cerebellar cortex 119
Climbing fibre input 155
Climbing fibres 129, 139, 156, 349
Climbing fiber signal 142
Climbing fibre signals 124
Climbing fiber signal 349
Coactivation 273
Colony of cells 15
Commissures 42
Commissur neurons 42
Compatibility of modalities 203
complementary fire rates 282
complementary receptors 224
complementary signals 207
Complementary signal pair 208
compound eyes 73
complex signals 195, 196
Complex signal 163, 170
Complex signals 166, 175, 197
Complex signal storage 196
concave compound eyes 73
Connective neurons 42
continuous replacement model 220
contralateral escapement 58, 94, 195, 268
contralateral inhibition at brainstem level 60
contralateral inhibition at segment level 60
contralateral inhibition in the brain system 94
contralateral inverse excitation 273
contralateral body view 81
contralateral escapement 42
contralateral nucleus ruber 58
contralateral subsystem 200
Contrast enhancement 104, 123, 182
Convergence grid in the cortex 292
Convergence circuit 255
Convergence circuit inside the ventricle 256
Convergence structure 200, 206
convex compound eyes 56
convex compound eyes 73
concentration gradient of markers 32
Coordinates of the maximum point 282
Per capita share 68
Header area 46
Head segment 50
Basket and star cells 168
Basket cells 147, 148, 164
Grain cells 146, 147, 148, 178, 269
Granule cell population 147
Body image of one half of the body 149
Body mean values 135
Body model 92, 97, 149
Body models 266
Body side mirroring 78
Cross commissions 42, 268
Cross-connectors 94
Crossing axons 80
Crossing floor 56, 111, 117, 118, 119, 125, 269
free of crossings 72
Crossing segment 78, 81
Ball segment 302
Curve graphs 293
Short term memory 196
Position correction 117
Longitudinal constant of the neuron 276
Long term depression 143, 155
Long term memory 181
Long term potentiation 143, 155
Long term potentiation (LTP) 143
lateral escapement 104, 157, 164, 165, 168, 182, 226, 290, 291, 295
Lateral inhibition for contrast enhancement 33
lateral neighboring escapement 101, 163
lateral escapement 158
Running time of the signals 182
Runtime system 196
Leo Gerbilsky 209
Learning algorithm 143
adaptive neural network 273
Learning ability of the Pontocerebellum 142
limbic signaling pathway 349
limbic system 196, 292
Line with constant angle of attack 303
Lens eyes 55, 73
Lissajous figure 293
Lissajous figures 291
logarithmic mean value mirroring 115
Logical operation 166
local, non-spiking interneurons 217
local minimum 222
LTD 143, 155, 158, 169
LTP 143, 155, 158, 169
magnocellular neurons 255
magnocellular neurons in nucleus ruber 213
magnocellular mean neuron 61
Maria Pikkarainen 189
unmarked 292
non-markless axons 196
material locations of signal storage 171
Material location of the time-sensitive difference representation 106
mathematical transformation 221
mathematical transformations 201
Matrix 104
Matrix of the striatum 273
Matrix neurons 105
Maximum 289, 295
maximum coded 119, 319, 349
maximum coded signals 268, 271, 291
maximum coded signal populations 302
maximum coded paleovestibular sense 111
maximum coded population vector encoded Direction of movement 301
maximum coded signal vector 226
maximum coded signal 115
Maximum coding 197, 271, 292
Maximum coding of the original quantities in the plane divergence grating
282
Mediana eyes 73
Medulla oblongata 1
Ambiguity problem 204
Multiple embossing 174
Multicellular organisms 15
noticeable time delay 63
mesencephalon 1
Metazoa 13
Metencephalon 1
Minimum 222
minimum coded 222, 321
minimum coded signals 268, 291
minimum coded signals of the fragrance mixtures 321
minimum coded neovestibular sense 111
minimum coded output vector 226
Minimum coded signal vector 225
Minimum coded signal 115
Minimum coding 197, 271
Minimum coding of fragrance mixtures 319
Midbrain 1
Center distance of the Se 304
Averaging 191
Mean value excitation 156
Mean value excitation of cerebellar nuclei 124
Mean value areas 137
Average core 100, 117
Mean value cores 114
Mean value neuron 115
Class 6 mean neuron 152
Mean value neurons 127
Mean value signal of a cortex cluster 163
Mean value systems 126
Mean value center 119, 182, 183
Mean value centre of the thalamic floor 152
Centre of mean value of the seventh segment 57
Modality areas 268
Modality half ring 96
Modality ladder 85
Modality ring 68, 252
Modality rings 96, 252
Modality strip 253
Modality separation 268
Modality cylinder 70
Monotonic reversal 116
Monotony course 226
Moss fibre bundle 147
Moss fibre input 155
Moss fibres 145, 148, 178, 211
Moss fibre system 269
motor neurons 268
motor activation 50
motor contralateral inhibition 93
motorized crossing 80
motorized ladder rail 42
motor responses 183
motor pacemakers 123
motor output core 57
motor cortex 91, 196, 268
motor homunculus 271
motor marker 32
motorized body model 70
motorized crossing segment 81
Muscle sensors 268
Muscle spindle signals 145
Myelencephalon 1
ordered by signal pairs 207
Neighbouring escapement 164
Neighbourhood relations 70
downstream inversion grid 230
Proximity to the ventricular wall 251
secondary hoses 266
Small and mid caps 228
negative feedback 182
Angle of inclination of a dark line 303
Neovestibular sense 110
Neovestibular sense 269
Nidifugous birds 318
Retina 189
new modules 254
new cortical reversible structure 255
new difference illustration 273
new reversing loop 264
Neural tube 66, 145
Class 6 neuron 152
neural digitizing circuit 231
neural mixed type 148
neural storage instruction 196
Class 1 neurons 33, 102, 256
Neurons of class 2 58, 147, 181, 268
neurons of class 3 126, 145, 146, 147, 148, 178, 183, 252, 255, 256, 268,
269, 271, 272, 302, 319
neurons of class 3b 41
neurons of class 4 126, 127, 147, 148, 183, 252, 253, 255, 256, 269, 271,
302, 319
neurons of class 5 126, 127, 135, 152, 181, 256, 268, 269, 271, 272, 302
neurons of class 6 127, 135, 148, 256
Neurons encode arbitrary movements 299
Neuron group 197
Neuron class 5 155, 258
Neuron class 6 156
Neuron classes 42, 106
Neuron model 210
Neuron populations encoded Direction of movement 299
Neuron layers 145
Neuron cord 66
non-linear deviations 116
Low-frequency activation of a Purkinje cell 246
Nuclei intralaminaris 125
Nucleus accumbens 349
caudate nucleus 258
Nucleus centromedianus 125, 126, 127
Nucleus cuneatus 56
Nucleus cuneatus and gracilis 100
Nucleus Deiters 83, 117, 118, 120
Nucleus dentatus 136, 156
Nucleus emboliformis 122, 136
Nucleus emboliformis cerebelli 126
Nucleus fastegii 119, 123, 126, 135
Nucleus globosus 122, 136
Nucleus gracilis 56
Nucleus interpositus 122
Nucleus olivaris 59, 122, 129, 135, 145, 200, 208, 209, 249, 256, 257, 268,
271, 291, 319
Nucleus olivaris as divergence structure 206
Nucleus Purkinje 118
Nucleus reticularis thalami 94
Nucleus ruber 57, 58, 122, 135, 138, 145, 196, 200, 249, 268, 273
Nucleus ruber as convergence structure 206
Nucleus subthalamicus 56, 100, 109, 138, 152, 178
Nucleus subthalamicus as body model 238
Nucleus suprachiasmaticus 55, 56, 183, 196
Nucleus ventralis lateralis 127, 255, 256
Nucleus vestibularis lateralis 120
Zero signal output 163
Sovereignty over subsystems 260
Oberschlundganglion 85
supreme commissioner 56
Off signal 201
Occipital lobe 85, 271
Occipital loop 86, 268, 269
olfactory floor 179, 182
olfactory receptors 50
olfactory signals 178
olfactory sense 178
olfactory and limbic system 251
On signal 201
optical monocular differential imaging 192
optical Tectum 56
Organisational principle of cluster topology 160
oriented line elements 318
Orientation columns 303, 318
Local and temporal summation 218
Output structure of the olfactory floor 181
Output vector 219, 221
Output vector with sparse coding 226
Pair formation of muscles 207
Paleovestibular sense 53, 110, 117
Parallel fiber input 156
Parallel fibres 146, 212, 269
parallel shifted 310
Parietal eyes 55
parietal cortex 271
Parietal lobe 85, 271
Parietal loop 86, 268
Parital loop 269
periodic interruption 142
Phase of the divergence grating 298
Phase of the convergence grid 298
Phase shift by π/2 297
Phase shift from π/2 298
Phase angle 294
Phase angle in image size diagram 294, 297
Phase angle in the original size diagram 293
Phase angle theorem 294
Polar coordinates 293
Pontocerebellum 59, 135, 136, 152, 155, 234
Pontocerebellums 139
positive feedback 182
Coining 169, 245, 349
Embossing signal 169, 170, 245
Embossing reversal 246
primary cortex areas 292
primary motor signals 127, 145
primary sensory cortex areas 269
primary cortex as a flat divergence grating 270
primary motor signal 127
primary subbrain 195
primary vertebrate brain 195
Principle of signal redundancy 206
Projections from the sensory input surfaces of the frontalcortex into the
motor output surfaces 260
Prokaryota 13
prosencephalon 1
Point mirroring 81
Point-to-point mapping 104, 210
Point-to-point projection 61
Point-to-point connection 72
Purkinj groups 172
Purkinjekern 59, 61, 118, 119, 136, 145
Purkinje cells 122, 139, 145
Purkinje cells as mean value neurons 153
Putamen 258
Pyramidal track 257
square consideration of the distance 281
quadratic exponential damping 279
Quotients of a signal and its inverted signal 203
marginal cluster 159
spatial changes in the brain system 234
spatial expansion 179
Diamond brain 1
Reaction of a magnocellular ganglion cell of retina 303
Reaction speed 63
right angles 148
redundant signal transmission 209, 319
Redundancy 200, 208, 317
Redundancy principle 206
refractory time 183
relative inhibition of average signals 116
Replication level 1 14
Replication level 2 16
Resonance point 204
Resonance point receptors 204
residual excitation 166
Residual signal 105, 169
Retina 74
Rhombencephalon 1
Direction of the parallel fibres corresponds to the body axis 211
Directional selectivity 303
Directional selectivity of the orientation columns 317
Directional selectivity is the result of signal propagation on non-markless
fibers 317
Directional selectivity is independent of movement 317
Directional Theorem 67, 148
Olfactory surface of the nasal mucosa 189
Giant neurons 118
Annelids 62
Rotational memory 157
Rotary storage device 196
rotating signal 183
Spinal cord 1, 2, 3, 5, 11
Feedback of hippocampal signals 181
Reversal of signal divergence 272
Feedback 181
Rear projection 109
Rear projection of the mean value centers 101
Fuselage section 68
Fuselage area 46
Fuselage segments 56
Theorem of Pythagoras 296, 304
Saunders 189
Schaffer Collaterals 179, 180
Stratification in neuron classes 92
fast conducting axons 230
pacemaker-like activity 143
Earth's gravity field 53
Vibration pauses are synchronized 143
Six signal classes 42
Sixth turnaround days 56
Segmented Bilateria 62
segmented body model 91
Segment number 68
Segment rings 68
Segment strips 92
Segment animals 63
visual receptors 268
lateral line system 54
inverted and upside down image 73
Change of pages 81
Secondary eyes 55
Secondary motor signals 127, 145
Secondary motor signal 127
secondary subbrain 195
Sensory center disintegrates into modality centers 252
sensory single nuclei 252
sensory contralateral inhibition 93
sensory crossing 80
sensory modality bands 252
sensory modality areas 91
sensory cortex 196, 268
sensory homunculus 271
Sensor ladder rail 42
sensory marker 32
sensory body model 70
sensory crossing segment 81
sensory center 178
Septum 50, 56, 101, 182
sequential divergence 171, 175
seventh turnaround days 56
seventh segment 117
Signal image of the environment 189
Signal aspects 150, 151
Signal propagation in plane divergence gratings 317
Signal attenuation 268
Signal divergence 200, 206, 208, 209, 209, 218, 256, 291, 301, 302, 317, 320
Signal divergence of olfactory signals 321
Signal divergence of the nucleus olivaris 263, 265
Signal divergence in the nucleus olivaris 210, 231
Signal divergence in the primary cortex areas 302
Undo signal divergence 295
Class 5 signals 138
Class 6 signals 138
Signals of the tendon organs 145
Signals rotated 157
Signal function 201
Signal inversion 112, 115, 117, 118, 124, 129, 135, 147, 226, 319
Signal inversion in spinocerebellum 226
Signal inversion 123
Signal chains 153
Signal class 5 139, 144
Signal class 6 139, 144
Signal class of the interpolated signals 255
Signal classes 42, 106
Signal combinations 166
Signal convergence 200, 206, 231, 257, 273, 302
Signal convergence in nucleus ruber 213
Signal crossing 81, 117
Signal maximum 111
Signal minimum 111
Signal mean value 203
Class 5 signal neurons 172
Signal pauses 169
Signal redundancy 319
Signal strength comparison 107
Signal strength ratio 222, 233
Signal path 32
Signal vector with sparse coding 230
Signal relationship 152, 167
save and recognize 196
Specialization of dependent receptors 46
Specializations of the mean value cores 62
specific signal rotation 158
spinal autologous apparatus 149
Spinal fluid 249
dorsal root ganglia 68
Spinal canal 70, 249
Spinal canal 251
Spinocerebellum 122, 124, 126, 136, 145, 195, 226, 273
Spinocerebellums 256
Split Brain 94
Stable outer armour 147
Stabilization of the mean value excitation 147
Continuous contraction commands 157
severe distension of the nucleus olivaris 209
strong lateral escapement 228
Strong lateral neighboring escapement 228
strong signal divergence 255, 268
strong signal divergence in the primary cortical areas 271
strong signal convergence 255
strong swelling of the cerebellum bark 210
Starting point for a development 272
statocyste 51
Statoconia 110
Star cells 147, 148, 164
Stop signal 183
strip-like, curved surface 253
striatum 138, 258, 272, 349
Rope ladder nervous system 178
Rope ladder system 272, 302
Rope ladder systems 41, 268
Striosomal climbing fibre signals 143
Striosomes 104, 138
Striosomes in Class 5 139
Striosomes in Class 6 139
striosome neuron 273
Striosome neurons 105
striosome neurons in Class 5 144
Striosome neurons in Class 6 138, 141
Class 6 striosome signal 143
Striosome system 139, 169
Striosome system of the basal ganglia 143
Striosome system of the early basal ganglia 142
Substantia nigra pars compacta 57, 100, 109, 138, 143, 273, 349
Substantia nigra pars reticularis 109
Synaptic coupling strength 171
Synchronisation 182
Synchronized breaks 144
Synchronicity of the oscillation processes 143
Clock generators 139
Touch and pain signals 149
Palpation receptors of the body surface 189
Tectum 260
Tectum opticum 195
Tegmentum 6
Telencephalon 1
Temporal lobe 85, 271
Temporal lobe of the brain 251
Temporal soap 269
Temporal loop 86, 268
tertiary subbrain 195
tertiary system 196
tetanic oscillations 143
tetanic oscillation interrupted by pauses 141
tetraneural nervous system 268
tetraneural nervous system 62, 66
tetrapods 123
thalamic level 254
thalamic floor 109
thalamic structures 273
thalamic turning floor 56, 85
thalamic mean centre 135
thalamic centre 85
thalamus 252
Thalamus kernels 292
Thalamus structures 50
tonic excited 109, 158, 182
Topology of sensory body models 292
Topology reversal 259
topological body image 70
Topological body model of each modality 254
Torus semicircularis 96, 195, 260
Torus and tectum region 6
Tractus tegmentalis centralis 108, 140
Tractus vestibulothalamicus 120
Transformation of sensor signals into motor control signals 195
transformations 189
Transformation structures 196
Transformation systems 196
Transmitters ACH 273
Separation of the sensory and motor parts 82
truncothalamic core group 125
Transition from worm-shaped elongated to hemispherical shape 267
Outline 318
Switching core 60, 102
Switching neuron 115
Changeover process 125
Conversion to a maximum coded representation 225
independent receptors 46
unmyelinated axons 178
Harmlessness of signal divergence and convergence 233
Unsegmented Bilateria 36
Different signal types 201
Misappropriation ganglion 85
great size 201, 202
Great sizes 281, 293
great size diagram 293
Primeval brain 119
Initial interval 224
Source signal interval 202
original segmentation 68
Urstriatum 106
original Pontocerebellum 136, 137, 155
original spinocerebellum 200
original rope ladder system 68
vegetative propagation 14
ventral striatum 349
ventricle 249
Ventricular cavity 82
Ventricular system 251
Change in neural body models 266
Inheritance of the mean value property 153
Past signal 105
Past signals 107
Transience 178
Ratio of input fire rates 222
extended mark 1
Vermis cerebelli 137
Merger 62
Merger of the header segments 84
vertically oriented in space 265
vertical projection 164
vertical signal projection 161
vertical star cell escapement 164
vertical convergence grating 264, 265
Retarding core 102, 104, 106
vestibular semicircular function 79
vestibular circular function 79
vestibular mantle function 79
vestibular signals 51
vestibular mean nucleus 118
Vestibular sense 51, 110
Vestibulocerebellum 135, 137, 195, 269
Vestibulocerebellums 113
Four-strand system 62
fourth turning point 56
quarter rings 252
Quarter rings 70
quarter cylinder 253
virtual excitation function 220
virtual excitation function of the divergence grating 224
visual mapping function 74
visual semicircle function 75
visual circular function 74
visual sheath function 75
visual signals 51
visual cortex V1 303
standard visual motor projection with body side mirroring 78
standard visual motor projection without body side reflection 76
measured by receptors 293
Forebrain 1
Front horn 68
Pre-excitation 33, 128
Driving signals 54
further working methods of the chordate brain 195
further pair of eyes 55, 56
important differentiating factor 292
Repetition of signals 178
Coils 212
Angles are arranged like windmills 315
Angle selectivity of the orientation columns 315
Spinal column 147
Vertebrates 147
Well-order of the different neuron classes 90
Cerebellum worm 137
time-controlled cores 183
Time-controlled interruption of rotation 183
temporal changes in the signal averages 139
time sensitive difference mapping 106, 138, 169
time-sensitive differential mapping of class 5 106
time-sensitive difference mapping of the mean value signals 139
time-sensitive differential mapping of muscle tension receptors 139
Time signal 183
delayed and inhibited copy of the cortex signals 272
Time delay 104, 141, 196
Time delay of dopaminergic signals 142
Time delay of striosome signals 138
Cell nucleus 13
Cell columns 320
central amygdala 183
central core of the amygdala 184
assigned inhibitory neuron 102
Increase in the number of Purkinje cells 171
Composite characteristic 204
Relationship between signal and inverted signal 203
two further modes of operation in the vertebrate brain 195
two-dimensional excitation function f(x,y) 289
two-dimensional case 225
second expansion phase of Cerebellum 209
second expansion phase of the Pontocerebellum 176
second extension phase of spinocerebellum 197, 206
second floor 50
second inversion circuit 118
second segment 51
Interbrain 1
Cylindrical outer surface 70
Monograph
of Dr. rer.
nat. Andreas Heinrich
Malczan