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lif.xml 5.5 KB

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  1. <?xml version="1.0" encoding="ISO-8859-1"?>
  2. <?xml-stylesheet type="text/xsl" href="odmlTerms.xsl" xmlns:odml="http://www.g-node.org/odml"?>
  3. <!-- ********************************************************* -->
  4. <!-- Leaky integrate and fire -->
  5. <!-- ********************************************************* -->
  6. <odML version="1">
  7. <repository>http://portal.g-node.org/odml/terminologies/v1.0/terminologies.xml</repository>
  8. <version>1.0</version>
  9. <date>2011-01-21</date>
  10. <section>
  11. <type>model/lif</type>
  12. <name>Leaky integrate and fire</name>
  13. <definition>Properties to describe a leaky integrate and fire neuron model.</definition>
  14. <property>
  15. <name>Author</name>
  16. <value>
  17. <type>person</type>
  18. </value>
  19. <definition>The author of this model.</definition>
  20. </property>
  21. <property>
  22. <name>Date</name>
  23. <value>
  24. <type>date</type>
  25. </value>
  26. <definition>The simulation date.</definition>
  27. </property>
  28. <property>
  29. <name>Program</name>
  30. <value>
  31. <type>string</type>
  32. </value>
  33. <definition>The program name.</definition>
  34. </property>
  35. <property>
  36. <name>ProgramVersion</name>
  37. <value>
  38. <type>string</type>
  39. </value>
  40. <definition>The program version name.</definition>
  41. </property>
  42. <property>
  43. <name>Description</name>
  44. <value>
  45. <type>string</type>
  46. </value>
  47. <definition>A descriptive text.</definition>
  48. </property>
  49. <!-- Basics -->
  50. <property>
  51. <name>RestingPotential</name>
  52. <value>
  53. <type>float</type>
  54. <unit>V</unit>
  55. </value>
  56. <definition>The resting voltage.</definition>
  57. </property>
  58. <property>
  59. <name>ResetPotential</name>
  60. <value>
  61. <type>float</type>
  62. <unit>V</unit>
  63. </value>
  64. <definition>The potential to which the neuron's potential is set after a spike.</definition>
  65. </property>
  66. <property>
  67. <name>Resistance</name>
  68. <value>
  69. <type>float</type>
  70. <unit>Ohm</unit>
  71. </value>
  72. <definition>The membrane resistance.</definition>
  73. </property>
  74. <property>
  75. <name>Capacitance</name>
  76. <value>
  77. <type>float</type>
  78. <unit>F</unit>
  79. </value>
  80. <definition>The membrane restisance.</definition>
  81. </property>
  82. <property>
  83. <name>MembraneTimeConstant</name>
  84. <value>
  85. <type>float</type>
  86. <unit>s</unit>
  87. </value>
  88. <definition>The membrane time constant.</definition>
  89. </property>
  90. <property>
  91. <name>BiasCurrent</name>
  92. <value>
  93. <type>float</type>
  94. <unit>A</unit>
  95. </value>
  96. <definition>The offset current.</definition>
  97. </property>
  98. <property>
  99. <name>Timestep</name>
  100. <value>
  101. <type>float</type>
  102. <unit>s</unit>
  103. </value>
  104. <definition>The duration of a time step in the simulation.</definition>
  105. </property>
  106. <property>
  107. <name>VoltageEquation</name>
  108. <value>
  109. <type>string</type>
  110. </value>
  111. <definition>The equation to calculate the membrane voltage.</definition>
  112. </property>
  113. <!-- Adaptation -->
  114. <property>
  115. <name>AdaptationIncrement</name>
  116. <value>
  117. <type>float</type>
  118. <unit>A</unit>
  119. </value>
  120. <definition>When an adaptation current is implemented the amount about which the adaptation is increased when a
  121. spike is fired.
  122. </definition>
  123. </property>
  124. <property>
  125. <name>AdaptationTimeConstant</name>
  126. <value>
  127. <type>float</type>
  128. <unit>s</unit>
  129. </value>
  130. <definition>The time constant with which the adaptation current returns back to zero.</definition>
  131. </property>
  132. <property>
  133. <name>AdaptationEquation</name>
  134. <value>
  135. <type>string</type>
  136. </value>
  137. <definition>The equation to calculate the adaptation current.</definition>
  138. </property>
  139. <!-- Noise -->
  140. <property>
  141. <name>NoiseAmplitude</name>
  142. <value>
  143. <type>float</type>
  144. <unit>A</unit>
  145. </value>
  146. <definition>The amount of noise added.</definition>
  147. </property>
  148. <property>
  149. <name>NoiseType</name>
  150. <value>
  151. <type>string</type>
  152. </value>
  153. <definition>The type of noise. For example Gaussian, Ohrnstein-Uhlenbeck etc.</definition>
  154. </property>
  155. <property>
  156. <name>NoiseCorrelation</name>
  157. <value>
  158. <type>float</type>
  159. <unit>s</unit>
  160. </value>
  161. <definition>The correlation time constant used e.g. with OU noise.</definition>
  162. </property>
  163. <!-- Threshold settings -->
  164. <property>
  165. <name>Threshold</name>
  166. <value>
  167. <type>float</type>
  168. <unit>V</unit>
  169. </value>
  170. <definition>The firing threshold.</definition>
  171. </property>
  172. <property>
  173. <name>ThresholdIncrement</name>
  174. <value>
  175. <type>float</type>
  176. <unit>V</unit>
  177. </value>
  178. <definition>The voltage about which the threshold is increased once a spike has been fired.</definition>
  179. </property>
  180. <property>
  181. <name>ThresholdTimeConstant</name>
  182. <value>
  183. <type>float</type>
  184. <unit>s</unit>
  185. </value>
  186. <definition>The time constant with which the threshold returns back to baseline.</definition>
  187. </property>
  188. <property>
  189. <name>ThresholdEquation</name>
  190. <value>
  191. <type>string</type>
  192. </value>
  193. <definition>The equation to calculate the threshold.</definition>
  194. </property>
  195. </section>
  196. </odML>