?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=Organismic+Supercategores%3A+II.+On+Multistable+Systems%0D%0A%0D%0A&rft.creator=Baianu%2C+Prof.+Dr.+I.C.&rft.subject=Evolution&rft.subject=Theoretical+Biology&rft.subject=Computational+Neuroscience&rft.subject=Artificial+Intelligence&rft.subject=Complexity+Theory&rft.subject=Dynamical+Systems&rft.subject=Statistical+Models&rft.subject=Neurochemistry&rft.subject=Neural+Modelling&rft.description=The+representation+of+biological+systems+in+terms+of+organismic+supercategories%2C+introduced+in+previous+papers+by+Baianu+et+al.+(Bull.+Math.+Biophysics%2C30%2C+625%E2%80%93636%3B31%2C+59%E2%80%9370)+is+further+discussed.+To+state+more+clearly+this+representation+some+new+definitions+are+introduced.+Also%2C+some+necessary+changes+in+axiomatics+are+made.+The+conclusion+is+reached+that+any+organismic+supercategory+has+at+least+one+superpushout%2C+and+this+expresses+the+fact+that+biological+systems+are+multistable.+This+way+a+connection+between+some+results+of+Rashevsky%E2%80%99s+theory+of+organismic+sets+and+our+results+becomes+obvious.&rft.publisher=Elsevier+Publs.+Co.+and+Springer+reprints%2C+DOI%3A+10.1007%2FBF02476770&rft.contributor=Rashevsky%2C+Professor+Nicolas&rft.date=1970-11-21&rft.type=Journal+(Paginated)&rft.type=PeerReviewed&rft.format=application%2Fpdf&rft.identifier=http%3A%2F%2Fcogprints.org%2F7752%2F3%2FOSIImultist1970.pdf&rft.identifier=++Baianu%2C+Prof.+Dr.+I.C.++(1970)+Organismic+Supercategores%3A+II.+On+Multistable+Systems.++%5BJournal+(Paginated)%5D+++++&rft.relation=http%3A%2F%2Fcogprints.org%2F7752%2F