Librarian Bot: Add base_model information to model

README.md

@@ -1,15 +1,32 @@
 ---
 language:
 - en
-pipeline_tag: text-classification
+library_name: transformers
 metrics:
 - f1
 - accuracy
 - recall
 - precision
-library_name: transformers
+pipeline_tag: text-classification
 widget:
-- text: The past 25 years have seen a strong increase in the number of publications related to criticality in different areas of neuroscience. The potential of criticality to explain various brain properties, including optimal information processing, has made it an increasingly exciting area of investigation for neuroscientists. Recent reviews on this topic, sometimes termed brain criticality, make brief mention of clinical applications of these findings to several neurological disorders such as epilepsy, neurodegenerative disease, and neonatal hypoxia. Other clinicallyrelevant domains - including anesthesia, sleep medicine, developmental-behavioral pediatrics, and psychiatry - are seldom discussed in review papers of brain criticality. Thorough assessments of these application areas and their relevance for clinicians have also yet to be published. In this scoping review, studies of brain criticality involving human data of all ages are evaluated for their current and future clinical relevance. To make the results of these studies understandable to a more clinical audience, a review of the key concepts behind criticality (e.g., phase transitions, long-range temporal correlation, self-organized criticality, power laws, branching processes) precedes the discussion of human clinical studies. Open questions and forthcoming areas of investigation are also considered.
+- text: The past 25 years have seen a strong increase in the number of publications
+    related to criticality in different areas of neuroscience. The potential of criticality
+    to explain various brain properties, including optimal information processing,
+    has made it an increasingly exciting area of investigation for neuroscientists.
+    Recent reviews on this topic, sometimes termed brain criticality, make brief mention
+    of clinical applications of these findings to several neurological disorders such
+    as epilepsy, neurodegenerative disease, and neonatal hypoxia. Other clinicallyrelevant
+    domains - including anesthesia, sleep medicine, developmental-behavioral pediatrics,
+    and psychiatry - are seldom discussed in review papers of brain criticality. Thorough
+    assessments of these application areas and their relevance for clinicians have
+    also yet to be published. In this scoping review, studies of brain criticality
+    involving human data of all ages are evaluated for their current and future clinical
+    relevance. To make the results of these studies understandable to a more clinical
+    audience, a review of the key concepts behind criticality (e.g., phase transitions,
+    long-range temporal correlation, self-organized criticality, power laws, branching
+    processes) precedes the discussion of human clinical studies. Open questions and
+    forthcoming areas of investigation are also considered.
+base_model: arazd/MIReAD
 ---
 
 # MIReAD Neuro