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bibknowledge.py
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bibknowledge.py
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# -*- coding: utf-8 -*-
#
## This file is part of Invenio.
## Copyright (C) 2013 CERN.
##
## Invenio is free software; you can redistribute it and/or
## modify it under the terms of the GNU General Public License as
## published by the Free Software Foundation; either version 2 of the
## License, or (at your option) any later version.
##
## Invenio is distributed in the hope that it will be useful, but
## WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
## General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with Invenio; if not, write to the Free Software Foundation, Inc.,
## 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.
from fixture import DataSet
class KnwKBData(DataSet):
class KnwKB_1:
name = u'DBCOLLID2COLL'
description = u'DbCollID to Coll name correspondance.'
kbtype = None
id = 1
class KnwKB_2:
name = u'EJOURNALS'
description = u'Knowledge base of all known electronic journals. Useful for reference linking.'
kbtype = None
id = 2
class KnwKB_3:
name = u'DBCOLLID2BIBTEX'
description = u'Mapping between the 980 field and BibTeX entry types.'
kbtype = None
id = 3
class KnwKB_4:
name = u'SEARCH-SYNONYM-JOURNAL'
description = u'Knowledge base of journal title synonyms. Used during search time.'
kbtype = None
id = 4
class KnwKB_5:
name = u'INDEX-SYNONYM-TITLE'
description = u'Knowledge base of title word synonyms. Used during indexing time.'
kbtype = None
id = 5
class KnwKB_6:
name = u'DBCOLLID2OPENGRAPHTYPE'
description = u'Maps collection 980 field to an Open Graph Type'
kbtype = None
id = 6
class KnwKB_7:
name = u'LICENSE2URL'
description = u'Map a license name to its URL'
kbtype = None
id = 7
class KnwKBRVALData(DataSet):
class KnwKBRVAL_1:
m_key = u'ARTICLE'
m_value = u'Published Article'
id = 1
id_knwKB = KnwKBData.KnwKB_1.ref('id')
class KnwKBRVAL_2:
m_key = u'PREPRINT'
m_value = u'Preprint'
id = 2
id_knwKB = KnwKBData.KnwKB_1.ref('id')
class KnwKBRVAL_3:
m_key = u'THESIS'
m_value = u'Thesis'
id = 3
id_knwKB = KnwKBData.KnwKB_1.ref('id')
class KnwKBRVAL_4:
m_key = u'BOOK'
m_value = u'Book'
id = 4
id_knwKB = KnwKBData.KnwKB_1.ref('id')
class KnwKBRVAL_5:
m_key = u'REPORT'
m_value = u'Report'
id = 5
id_knwKB = KnwKBData.KnwKB_1.ref('id')
class KnwKBRVAL_6:
m_key = u'PICTURE'
m_value = u'Pictures'
id = 6
id_knwKB = KnwKBData.KnwKB_1.ref('id')
class KnwKBRVAL_7:
m_key = u'AAS Photo Bull.'
m_value = u'AAS Photo Bull.'
id = 7
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_8:
m_key = u'Accredit. Qual. Assur.'
m_value = u'Accredit. Qual. Assur.'
id = 8
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_9:
m_key = u'Acoust. Phys.'
m_value = u'Acoust. Phys.'
id = 9
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_10:
m_key = u'Acoust. Res. Lett.'
m_value = u'Acoust. Res. Lett.'
id = 10
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_11:
m_key = u'Acta Astron.'
m_value = u'Acta Astron.'
id = 11
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_12:
m_key = u'Adv. Comput. Math.'
m_value = u'Adv. Comput. Math.'
id = 12
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_13:
m_key = u'Aequ. Math.'
m_value = u'Aequ. Math.'
id = 13
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_14:
m_key = u'Afr. Skies'
m_value = u'Afr. Skies'
id = 14
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_15:
m_key = u'Algorithmica'
m_value = u'Algorithmica'
id = 15
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_16:
m_key = u'Am. J. Phys.'
m_value = u'Am. J. Phys.'
id = 16
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_17:
m_key = u'Ann. Phys.'
m_value = u'Ann. Phys.'
id = 17
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_18:
m_key = u'Annu. Rev. Astron. Astrophys.'
m_value = u'Annu. Rev. Astron. Astrophys.'
id = 18
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_19:
m_key = u'Annu. Rev. Earth Planet. Sci.'
m_value = u'Annu. Rev. Earth Planet. Sci.'
id = 19
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_20:
m_key = u'Appl. Phys. Lett.'
m_value = u'Appl. Phys. Lett.'
id = 20
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_21:
m_key = u'Appl. Phys., A'
m_value = u'Appl. Phys., A'
id = 21
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_22:
m_key = u'Appl. Phys., B'
m_value = u'Appl. Phys., B'
id = 22
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_23:
m_key = u'Appl. Radiat. Isot.'
m_value = u'Appl. Radiat. Isot.'
id = 23
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_24:
m_key = u'Appl. Surf. Sci.'
m_value = u'Appl. Surf. Sci.'
id = 24
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_25:
m_key = u'Arch. Appl. Mech.'
m_value = u'Arch. Appl. Mech.'
id = 25
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_26:
m_key = u'Arch. Envir. Contam. Toxicol.'
m_value = u'Arch. Envir. Contam. Toxicol.'
id = 26
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_27:
m_key = u'Arch. Rational Mech. Analys.'
m_value = u'Arch. Rational Mech. Analys.'
id = 27
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_28:
m_key = u'Astron. Astrophys. Rev.'
m_value = u'Astron. Astrophys. Rev.'
id = 28
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_29:
m_key = u'Astron. Astrophys.'
m_value = u'Astron. Astrophys.'
id = 29
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_30:
m_key = u'Astron. Astrophys., Suppl.'
m_value = u'Astron. Astrophys., Suppl.'
id = 30
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_31:
m_key = u'Astron. J.'
m_value = u'Astron. J.'
id = 31
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_32:
m_key = u'Astron. Lett.'
m_value = u'Astron. Lett.'
id = 32
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_33:
m_key = u'Astron. Nachr.'
m_value = u'Astron. Nachr.'
id = 33
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_34:
m_key = u'Astron. Rep.'
m_value = u'Astron. Rep.'
id = 34
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_35:
m_key = u'Astropart. Phys.'
m_value = u'Astropart. Phys.'
id = 35
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_36:
m_key = u'Astrophys. J.'
m_value = u'Astrophys. J.'
id = 36
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_37:
m_key = u'Astrophys. Norvegica'
m_value = u'Astrophys. Norvegica'
id = 37
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_38:
m_key = u'Balt. Astron.'
m_value = u'Balt. Astron.'
id = 38
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_39:
m_key = u'Bioimaging'
m_value = u'Bioimaging'
id = 39
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_40:
m_key = u'Biol. Cybern.'
m_value = u'Biol. Cybern.'
id = 40
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_41:
m_key = u'Bull. Astron. Belgrade'
m_value = u'Bull. Astron. Belgrade'
id = 41
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_42:
m_key = u'Bull. Astron. Inst. Czech.'
m_value = u'Bull. Astron. Inst. Czech.'
id = 42
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_43:
m_key = u'Bull. Astron. Soc. India'
m_value = u'Bull. Astron. Soc. India'
id = 43
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_44:
m_key = u'Bull. Eng. Geol. Environ.'
m_value = u'Bull. Eng. Geol. Environ.'
id = 44
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_45:
m_key = u'Bull. Environ. Contam. Toxicol.'
m_value = u'Bull. Environ. Contam. Toxicol.'
id = 45
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_46:
m_key = u'Calc. Var. Partial Differ. Equ.'
m_value = u'Calc. Var. Partial Differ. Equ.'
id = 46
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_47:
m_key = u'Chaos'
m_value = u'Chaos'
id = 47
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_48:
m_key = u'Chaos Solitons Fractals'
m_value = u'Chaos Solitons Fractals'
id = 48
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_49:
m_key = u'Chem. Phys.'
m_value = u'Chem. Phys.'
id = 49
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_50:
m_key = u'Chem. Phys. Lett.'
m_value = u'Chem. Phys. Lett.'
id = 50
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_51:
m_key = u'Chin. Astron. Astrophys.'
m_value = u'Chin. Astron. Astrophys.'
id = 51
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_52:
m_key = u'Chin. J. Astron. Astrophys.'
m_value = u'Chin. J. Astron. Astrophys.'
id = 52
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_53:
m_key = u'Class. Quantum Gravity'
m_value = u'Class. Quantum Gravity'
id = 53
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_54:
m_key = u'Clim. Dyn.'
m_value = u'Clim. Dyn.'
id = 54
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_55:
m_key = u'Colloid Polym. Sci.'
m_value = u'Colloid Polym. Sci.'
id = 55
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_56:
m_key = u'Combinatorica'
m_value = u'Combinatorica'
id = 56
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_57:
m_key = u'Combust. Theory Model.'
m_value = u'Combust. Theory Model.'
id = 57
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_58:
m_key = u'Commun. Math. Phys.'
m_value = u'Commun. Math. Phys.'
id = 58
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_59:
m_key = u'Comment. Math. Helv.'
m_value = u'Comment. Math. Helv.'
id = 59
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_60:
m_key = u'Comput. Mech.'
m_value = u'Comput. Mech.'
id = 60
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_61:
m_key = u'Comput. Phys.'
m_value = u'Comput. Phys.'
id = 61
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_62:
m_key = u'Comput. Phys. Commun.'
m_value = u'Comput. Phys. Commun.'
id = 62
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_63:
m_key = u'Comput. Sci. Eng.'
m_value = u'Comput. Sci. Eng.'
id = 63
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_64:
m_key = u'Comput. Vis. Sci.'
m_value = u'Comput. Vis. Sci.'
id = 64
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_65:
m_key = u'Computing'
m_value = u'Computing'
id = 65
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_66:
m_key = u'Constr. Approx.'
m_value = u'Constr. Approx.'
id = 66
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_67:
m_key = u'Contin. Mech. Thermodyn.'
m_value = u'Contin. Mech. Thermodyn.'
id = 67
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_68:
m_key = u'Contrib. Astron. Obs. Skaln. Pleso'
m_value = u'Contrib. Astron. Obs. Skaln. Pleso'
id = 68
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_69:
m_key = u'Contrib. Astron. Obs. Skaln. Pleso Suppl.'
m_value = u'Contrib. Astron. Obs. Skaln. Pleso Suppl.'
id = 69
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_70:
m_key = u'Cryogenics'
m_value = u'Cryogenics'
id = 70
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_71:
m_key = u'Crystallogr. Rep.'
m_value = u'Crystallogr. Rep.'
id = 71
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_72:
m_key = u'Curr. Appl. Phys.'
m_value = u'Curr. Appl. Phys.'
id = 72
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_73:
m_key = u'Curr. Opin. Solid State Mater. Sci.'
m_value = u'Curr. Opin. Solid State Mater. Sci.'
id = 73
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_74:
m_key = u'Discret. Comput. Geom.'
m_value = u'Discret. Comput. Geom.'
id = 74
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_75:
m_key = u'Displays'
m_value = u'Displays'
id = 75
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_76:
m_key = u'Distrib. Comput.'
m_value = u'Distrib. Comput.'
id = 76
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_77:
m_key = u'Distrib. Syst. Eng.'
m_value = u'Distrib. Syst. Eng.'
id = 77
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_78:
m_key = u'Dokl. Phys.'
m_value = u'Dokl. Phys.'
id = 78
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_79:
m_key = u'Electrochem. Solid State Lett.'
m_value = u'Electrochem. Solid State Lett.'
id = 79
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_80:
m_key = u'Electron. Lett.'
m_value = u'Electron. Lett.'
id = 80
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_81:
m_key = u'Elem. Math.'
m_value = u'Elem. Math.'
id = 81
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_82:
m_key = u'Environ. Geol.'
m_value = u'Environ. Geol.'
id = 82
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_83:
m_key = u'Environ. Manage.'
m_value = u'Environ. Manage.'
id = 83
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_84:
m_key = u'Eur. Biophys. J. Biophys. Lett.'
m_value = u'Eur. Biophys. J. Biophys. Lett.'
id = 84
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_85:
m_key = u'Eur. J. Phys.'
m_value = u'Eur. J. Phys.'
id = 85
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_86:
m_key = u'Eur. Phys. J., A'
m_value = u'Eur. Phys. J., A'
id = 86
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_87:
m_key = u'Eur. Phys. J., Appl. Phys.'
m_value = u'Eur. Phys. J., Appl. Phys.'
id = 87
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_88:
m_key = u'Eur. Phys. J., B'
m_value = u'Eur. Phys. J., B'
id = 88
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_89:
m_key = u'Eur. Phys. J., C'
m_value = u'Eur. Phys. J., C'
id = 89
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_90:
m_key = u'Eur. Phys. J., D'
m_value = u'Eur. Phys. J., D'
id = 90
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_91:
m_key = u'Eur. Phys. J., E'
m_value = u'Eur. Phys. J., E'
id = 91
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_92:
m_key = u'Europhys. Lett.'
m_value = u'Europhys. Lett.'
id = 92
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_93:
m_key = u'Europhys. News'
m_value = u'Europhys. News'
id = 93
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_94:
m_key = u'Exp. Fluids'
m_value = u'Exp. Fluids'
id = 94
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_95:
m_key = u'Few-Body Syst.'
m_value = u'Few-Body Syst.'
id = 95
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_96:
m_key = u'Finan. Stoch.'
m_value = u'Finan. Stoch.'
id = 96
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_97:
m_key = u'Fluid Dyn. Res.'
m_value = u'Fluid Dyn. Res.'
id = 97
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_98:
m_key = u'Geom. Funct. Anal.'
m_value = u'Geom. Funct. Anal.'
id = 98
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_99:
m_key = u'Heat Mass Transf.'
m_value = u'Heat Mass Transf.'
id = 99
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_100:
m_key = u'High Energy Phys. Libr. Webzine'
m_value = u'High Energy Phys. Libr. Webzine'
id = 100
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_101:
m_key = u'High Perform. Polym.'
m_value = u'High Perform. Polym.'
id = 101
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_102:
m_key = u'IEE Proc., Circ. Devices Syst.'
m_value = u'IEE Proc., Circ. Devices Syst.'
id = 102
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_103:
m_key = u'IEE Proc., Commun.'
m_value = u'IEE Proc., Commun.'
id = 103
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_104:
m_key = u'IEE Proc., Comput. Digit. Tech.'
m_value = u'IEE Proc., Comput. Digit. Tech.'
id = 104
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_105:
m_key = u'IEE Proc., Control Theory Appl.'
m_value = u'IEE Proc., Control Theory Appl.'
id = 105
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_106:
m_key = u'IEE Proc., Electr. Power Appl.'
m_value = u'IEE Proc., Electr. Power Appl.'
id = 106
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_107:
m_key = u'IEE Proc., Gener. Transm. Distrib.'
m_value = u'IEE Proc., Gener. Transm. Distrib.'
id = 107
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_108:
m_key = u'IEE Proc., Microw. Antennas Propag.'
m_value = u'IEE Proc., Microw. Antennas Propag.'
id = 108
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_109:
m_key = u'IEE Proc., Optoelectron.'
m_value = u'IEE Proc., Optoelectron.'
id = 109
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_110:
m_key = u'IEE Proc., Radar, Sonar Navig.'
m_value = u'IEE Proc., Radar, Sonar Navig.'
id = 110
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_111:
m_key = u'IEE Proc., Sci. Meas. Technol.'
m_value = u'IEE Proc., Sci. Meas. Technol.'
id = 111
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_112:
m_key = u'IEE Proc., Softw. Eng.'
m_value = u'IEE Proc., Softw. Eng.'
id = 112
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_113:
m_key = u'IEE Proc., Vis. Image Signal Process.'
m_value = u'IEE Proc., Vis. Image Signal Process.'
id = 113
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_114:
m_key = u'Image Vis. Comput.'
m_value = u'Image Vis. Comput.'
id = 114
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_115:
m_key = u'Inform. Forsch. Entwickl.'
m_value = u'Inform. Forsch. Entwickl.'
id = 115
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_116:
m_key = u'Inform. Spektr.'
m_value = u'Inform. Spektr.'
id = 116
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_117:
m_key = u'Infrared Phys. Technol.'
m_value = u'Infrared Phys. Technol.'
id = 117
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_118:
m_key = u'Int. J. Digit. Libr.'
m_value = u'Int. J. Digit. Libr.'
id = 118
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_119:
m_key = u'Int. J. Doc. Anal. Recogn.'
m_value = u'Int. J. Doc. Anal. Recogn.'
id = 119
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_120:
m_key = u'Int. J. Nonlinear Mech.'
m_value = u'Int. J. Nonlinear Mech.'
id = 120
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_121:
m_key = u'Int. J. Softw. Tools Technol. Transf.'
m_value = u'Int. J. Softw. Tools Technol. Transf.'
id = 121
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_122:
m_key = u'Invent. Math.'
m_value = u'Invent. Math.'
id = 122
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_123:
m_key = u'Inverse Probl.'
m_value = u'Inverse Probl.'
id = 123
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_124:
m_key = u'J. Acoust. Soc. Am.'
m_value = u'J. Acoust. Soc. Am.'
id = 124
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_125:
m_key = u'J. Aerosp. Eng.'
m_value = u'J. Aerosp. Eng.'
id = 125
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_126:
m_key = u'J. Alloys. Compounds'
m_value = u'J. Alloys. Compounds'
id = 126
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_127:
m_key = u'J. Am. Assoc. Var. Star Obs.'
m_value = u'J. Am. Assoc. Var. Star Obs.'
id = 127
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_128:
m_key = u'J. Appl. Mech.'
m_value = u'J. Appl. Mech.'
id = 128
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_129:
m_key = u'J. Appl. Phys.'
m_value = u'J. Appl. Phys.'
id = 129
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_130:
m_key = u'J. Atmos. Solar Terrest. Phys.'
m_value = u'J. Atmos. Solar Terrest. Phys.'
id = 130
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_131:
m_key = u'J. Br. Astron. Assoc.'
m_value = u'J. Br. Astron. Assoc.'
id = 131
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_132:
m_key = u'J. Chem. Phys.'
m_value = u'J. Chem. Phys.'
id = 132
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_133:
m_key = u'J. Classif.'
m_value = u'J. Classif.'
id = 133
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_134:
m_key = u'J. Comput. Inf. Sci. Eng.'
m_value = u'J. Comput. Inf. Sci. Eng.'
id = 134
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_135:
m_key = u'J. Constr. Eng. Manage.'
m_value = u'J. Constr. Eng. Manage.'
id = 135
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_136:
m_key = u'J. Cryptol.'
m_value = u'J. Cryptol.'
id = 136
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_137:
m_key = u'J. Cryst. Growth'
m_value = u'J. Cryst. Growth'
id = 137
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_138:
m_key = u'J. Dyn. Syst. Meas. Control'
m_value = u'J. Dyn. Syst. Meas. Control'
id = 138
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_139:
m_key = u'J. Electrochem. Soc.'
m_value = u'J. Electrochem. Soc.'
id = 139
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_140:
m_key = u'J. Electron Spectrosc. Relat. Phen.'
m_value = u'J. Electron Spectrosc. Relat. Phen.'
id = 140
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_141:
m_key = u'J. Electron. Imaging'
m_value = u'J. Electron. Imaging'
id = 141
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_142:
m_key = u'J. Electron. Packag.'
m_value = u'J. Electron. Packag.'
id = 142
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_143:
m_key = u'J. Energy Eng.'
m_value = u'J. Energy Eng.'
id = 143
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_144:
m_key = u'J. Energy Resour. Technol.'
m_value = u'J. Energy Resour. Technol.'
id = 144
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_145:
m_key = u'J. Eng. Mater. Technol.'
m_value = u'J. Eng. Mater. Technol.'
id = 145
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_146:
m_key = u'J. Eng. Mech.'
m_value = u'J. Eng. Mech.'
id = 146
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_147:
m_key = u'J. Environ. Eng.'
m_value = u'J. Environ. Eng.'
id = 147
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_148:
m_key = u'J. Exp. Theor. Phys., JETP'
m_value = u'J. Exp. Theor. Phys., JETP'
id = 148
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_149:
m_key = u'J. Fluids Eng.'
m_value = u'J. Fluids Eng.'
id = 149
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_150:
m_key = u'J. Geom. Phys.'
m_value = u'J. Geom. Phys.'
id = 150
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_151:
m_key = u'J. Heat Transf.'
m_value = u'J. Heat Transf.'
id = 151
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_152:
m_key = u'J. High Energy Phys.'
m_value = u'J. High Energy Phys.'
id = 152
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_153:
m_key = u'J. Korean Astron. Soc.'
m_value = u'J. Korean Astron. Soc.'
id = 153
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_154:
m_key = u'J. Lumin.'
m_value = u'J. Lumin.'
id = 154
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_155:
m_key = u'J. Magn. Magn. Mater.'
m_value = u'J. Magn. Magn. Mater.'
id = 155
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_156:
m_key = u'J. Manage. Eng.'
m_value = u'J. Manage. Eng.'
id = 156
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_157:
m_key = u'J. Manuf. Sci. Eng.'
m_value = u'J. Manuf. Sci. Eng.'
id = 157
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_158:
m_key = u'J. Mater. Civ. Eng.'
m_value = u'J. Mater. Civ. Eng.'
id = 158
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_159:
m_key = u'J. Math. Biol.'
m_value = u'J. Math. Biol.'
id = 159
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_160:
m_key = u'J. Math. Phys.'
m_value = u'J. Math. Phys.'
id = 160
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_161:
m_key = u'J. Mech. Des.'
m_value = u'J. Mech. Des.'
id = 161
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_162:
m_key = u'J. Micromech. Microeng.'
m_value = u'J. Micromech. Microeng.'
id = 162
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_163:
m_key = u'J. Opt.'
m_value = u'J. Opt.'
id = 163
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_164:
m_key = u'J. Phys., A'
m_value = u'J. Phys., A'
id = 164
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_165:
m_key = u'J. Phys., B'
m_value = u'J. Phys., B'
id = 165
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_166:
m_key = u'J. Phys., Condens. Matter'
m_value = u'J. Phys., Condens. Matter'
id = 166
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_167:
m_key = u'J. Phys., D'
m_value = u'J. Phys., D'
id = 167
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_168:
m_key = u'J. Phys., G'
m_value = u'J. Phys., G'
id = 168
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_169:
m_key = u'J. Phys. I'
m_value = u'J. Phys. I'
id = 169
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_170:
m_key = u'J. Phys. II'
m_value = u'J. Phys. II'
id = 170
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_171:
m_key = u'J. Phys. III'
m_value = u'J. Phys. III'
id = 171
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_172:
m_key = u'J. Phys. Chem. Ref. Data'
m_value = u'J. Phys. Chem. Ref. Data'
id = 172
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_173:
m_key = u'J. Phys. Chem. Solids'
m_value = u'J. Phys. Chem. Solids'
id = 173
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_174:
m_key = u'J. Quant. Spectrosc. Radiat. Transf.'
m_value = u'J. Quant. Spectrosc. Radiat. Transf.'
id = 174
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_175:
m_key = u'J. R. Astron. Soc. Can.'
m_value = u'J. R. Astron. Soc. Can.'
id = 175
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_176:
m_key = u'J. Radio. Prot.'
m_value = u'J. Radio. Prot.'
id = 176
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_177:
m_key = u'J. Rheol.'
m_value = u'J. Rheol.'
id = 177
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_178:
m_key = u'J. Solar Energy Eng.'
m_value = u'J. Solar Energy Eng.'
id = 178
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_179:
m_key = u'J. Solid State Electrochem.'
m_value = u'J. Solid State Electrochem.'
id = 179
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_180:
m_key = u'J. Struct. Eng.'
m_value = u'J. Struct. Eng.'
id = 180
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_181:
m_key = u'J. Surv. Eng.'
m_value = u'J. Surv. Eng.'
id = 181
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_182:
m_key = u'J. Tribol.'
m_value = u'J. Tribol.'
id = 182
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_183:
m_key = u'J. Turbomach.'
m_value = u'J. Turbomach.'
id = 183
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_184:
m_key = u'J. Vac. Sci. Technol.'
m_value = u'J. Vac. Sci. Technol.'
id = 184
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_185:
m_key = u'J. Vac. Sci. Technol., A'
m_value = u'J. Vac. Sci. Technol., A'
id = 185
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_186:
m_key = u'J. Vac. Sci. Technol., B'
m_value = u'J. Vac. Sci. Technol., B'
id = 186
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_187:
m_key = u'J. Vib. Acoust.'
m_value = u'J. Vib. Acoust.'
id = 187
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_188:
m_key = u'JETP'
m_value = u'JETP'
id = 188
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_189:
m_key = u'JETP Lett.'
m_value = u'JETP Lett.'
id = 189
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_190:
m_key = u'Low Temp. Phys.'
m_value = u'Low Temp. Phys.'
id = 190
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_191:
m_key = u'Mach. Vis. Appl.'
m_value = u'Mach. Vis. Appl.'
id = 191
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_192:
m_key = u'Mater. Res. Innov.'
m_value = u'Mater. Res. Innov.'
id = 192
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_193:
m_key = u'Mater. Sci. Eng., B'
m_value = u'Mater. Sci. Eng., B'
id = 193
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_194:
m_key = u'Math. Ann.'
m_value = u'Math. Ann.'
id = 194
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_195:
m_key = u'Math. Model. Numer. Anal.'
m_value = u'Math. Model. Numer. Anal.'
id = 195
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_196:
m_key = u'Math. Program.'
m_value = u'Math. Program.'
id = 196
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_197:
m_key = u'Math. Z.'
m_value = u'Math. Z.'
id = 197
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_198:
m_key = u'Meas. Sci. Technol.'
m_value = u'Meas. Sci. Technol.'
id = 198
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_199:
m_key = u'Med. Phys.'
m_value = u'Med. Phys.'
id = 199
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_200:
m_key = u'Meteorit. Planet. Sci.'
m_value = u'Meteorit. Planet. Sci.'
id = 200
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_201:
m_key = u'Microelectron. Eng.'
m_value = u'Microelectron. Eng.'
id = 201
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_202:
m_key = u'Micron'
m_value = u'Micron'
id = 202
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_203:
m_key = u'Microsc. Microanal.'
m_value = u'Microsc. Microanal.'
id = 203
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_204:
m_key = u'Microsyst. Technol.'
m_value = u'Microsyst. Technol.'
id = 204
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_205:
m_key = u'Mon. Not. R. Astron. Soc.'
m_value = u'Mon. Not. R. Astron. Soc.'
id = 205
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_206:
m_key = u'Multim. Syst.'
m_value = u'Multim. Syst.'
id = 206
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_207:
m_key = u'Nanotech.'
m_value = u'Nanotech.'
id = 207
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_208:
m_key = u'Naturwiss.'
m_value = u'Naturwiss.'
id = 208
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_209:
m_key = u'Network'
m_value = u'Network'
id = 209
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_210:
m_key = u'New Astron.'
m_value = u'New Astron.'
id = 210
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_211:
m_key = u'New Astron. Rev.'
m_value = u'New Astron. Rev.'
id = 211
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_212:
m_key = u'Nonlinearity'
m_value = u'Nonlinearity'
id = 212
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_213:
m_key = u'Nucl. Instrum. Methods Phys. Res., A'
m_value = u'Nucl. Instrum. Methods Phys. Res., A'
id = 213
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_214:
m_key = u'Nucl. Instrum. Methods Phys. Res., B'
m_value = u'Nucl. Instrum. Methods Phys. Res., B'
id = 214
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_215:
m_key = u'Nucl. Phys. B, Proc. Suppl.'
m_value = u'Nucl. Phys. B, Proc. Suppl.'
id = 215
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_216:
m_key = u'Nucl. Phys., A'
m_value = u'Nucl. Phys., A'
id = 216
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_217:
m_key = u'Nucl. Phys., B'
m_value = u'Nucl. Phys., B'
id = 217
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_218:
m_key = u'Num. Math.'
m_value = u'Num. Math.'
id = 218
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_219:
m_key = u'Nuovo Cimento, A'
m_value = u'Nuovo Cimento, A'
id = 219
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_220:
m_key = u'Nuovo Cimento, B'
m_value = u'Nuovo Cimento, B'
id = 220
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_221:
m_key = u'Nuovo Cimento, C'
m_value = u'Nuovo Cimento, C'
id = 221
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_222:
m_key = u'Nuovo Cimento, D'
m_value = u'Nuovo Cimento, D'
id = 222
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_223:
m_key = u'Obs.'
m_value = u'Obs.'
id = 223
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_224:
m_key = u'Opt. Commun.'
m_value = u'Opt. Commun.'
id = 224
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_225:
m_key = u'Opt. Eng.'
m_value = u'Opt. Eng.'
id = 225
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_226:
m_key = u'Opt. Lasers Eng.'
m_value = u'Opt. Lasers Eng.'
id = 226
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_227:
m_key = u'Opt. Mater.'
m_value = u'Opt. Mater.'
id = 227
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_228:
m_key = u'Opt. Spectrosc.'
m_value = u'Opt. Spectrosc.'
id = 228
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_229:
m_key = u'Phys. At. Nucl.'
m_value = u'Phys. At. Nucl.'
id = 229
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_230:
m_key = u'Phys. Chem. Miner.'
m_value = u'Phys. Chem. Miner.'
id = 230
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_231:
m_key = u'Phys. Educ.'
m_value = u'Phys. Educ.'
id = 231
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_232:
m_key = u'Phys. Fluids'
m_value = u'Phys. Fluids'
id = 232
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_233:
m_key = u'Phys. Fluids, A'
m_value = u'Phys. Fluids, A'
id = 233
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_234:
m_key = u'Phys. Fluids, B'
m_value = u'Phys. Fluids, B'
id = 234
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_235:
m_key = u'Phys. Lett., A'
m_value = u'Phys. Lett., A'
id = 235
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_236:
m_key = u'Phys. Lett., B'
m_value = u'Phys. Lett., B'
id = 236
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_237:
m_key = u'Phys. Med. Biol.'
m_value = u'Phys. Med. Biol.'
id = 237
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_238:
m_key = u'Phys. Part. Nucl.'
m_value = u'Phys. Part. Nucl.'
id = 238
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_239:
m_key = u'Phys. Plasmas'
m_value = u'Phys. Plasmas'
id = 239
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_240:
m_key = u'Phys. Rep.'
m_value = u'Phys. Rep.'
id = 240
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_241:
m_key = u'Phys. Rev., A'
m_value = u'Phys. Rev., A'
id = 241
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_242:
m_key = u'Phys. Rev., B'
m_value = u'Phys. Rev., B'
id = 242
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_243:
m_key = u'Phys. Rev., C'
m_value = u'Phys. Rev., C'
id = 243
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_244:
m_key = u'Phys. Rev., D'
m_value = u'Phys. Rev., D'
id = 244
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_245:
m_key = u'Phys. Rev., E'
m_value = u'Phys. Rev., E'
id = 245
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_246:
m_key = u'Phys. Rev., ser. 1'
m_value = u'Phys. Rev., ser. 1'
id = 246
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_247:
m_key = u'Phys. Rev. Lett.'
m_value = u'Phys. Rev. Lett.'
id = 247
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_248:
m_key = u'Phys. Rev. Spec. Top. Accel. Beams'
m_value = u'Phys. Rev. Spec. Top. Accel. Beams'
id = 248
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_249:
m_key = u'Phys. Rev.'
m_value = u'Phys. Rev.'
id = 249
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_250:
m_key = u'Phys. Solid State'
m_value = u'Phys. Solid State'
id = 250
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_251:
m_key = u'Physica, A'
m_value = u'Physica, A'
id = 251
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_252:
m_key = u'Physica, B'
m_value = u'Physica, B'
id = 252
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_253:
m_key = u'Physica, C'
m_value = u'Physica, C'
id = 253
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_254:
m_key = u'Physica, D'
m_value = u'Physica, D'
id = 254
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_255:
m_key = u'Physica, E'
m_value = u'Physica, E'
id = 255
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_256:
m_key = u'Physiol. Meas.'
m_value = u'Physiol. Meas.'
id = 256
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_257:
m_key = u'Planet. Space Sci.'
m_value = u'Planet. Space Sci.'
id = 257
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_258:
m_key = u'Plasma Phys. Control. Fusion'
m_value = u'Plasma Phys. Control. Fusion'
id = 258
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_259:
m_key = u'Plasma Phys. Rep.'
m_value = u'Plasma Phys. Rep.'
id = 259
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_260:
m_key = u'Plasma Sources Sci. Technol.'
m_value = u'Plasma Sources Sci. Technol.'
id = 260
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_261:
m_key = u'Polym. Bull.'
m_value = u'Polym. Bull.'
id = 261
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_262:
m_key = u'Powder Diffraction'
m_value = u'Powder Diffraction'
id = 262
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_263:
m_key = u'Probab. Theory Relat. Fields'
m_value = u'Probab. Theory Relat. Fields'
id = 263
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_264:
m_key = u'Proc. Astron. Soc. Aust.'
m_value = u'Proc. Astron. Soc. Aust.'
id = 264
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_265:
m_key = u'Proc. Nat. Acad. Sci.'
m_value = u'Proc. Nat. Acad. Sci.'
id = 265
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_266:
m_key = u'Prog. Cryst. Growth Charact. Mat.'
m_value = u'Prog. Cryst. Growth Charact. Mat.'
id = 266
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_267:
m_key = u'Prog. Part. Nucl. Phys.'
m_value = u'Prog. Part. Nucl. Phys.'
id = 267
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_268:
m_key = u'Prog. Quantum Electron.'
m_value = u'Prog. Quantum Electron.'
id = 268
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_269:
m_key = u'Prog. Surf. Sci.'
m_value = u'Prog. Surf. Sci.'
id = 269
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_270:
m_key = u'Program'
m_value = u'Program'
id = 270
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_271:
m_key = u'Publ. Astron. Soc. Aust.'
m_value = u'Publ. Astron. Soc. Aust.'
id = 271
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_272:
m_key = u'Publ. Astron. Soc. Jpn.'
m_value = u'Publ. Astron. Soc. Jpn.'
id = 272
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_273:
m_key = u'Publ. Astron. Soc. Pac.'
m_value = u'Publ. Astron. Soc. Pac.'
id = 273
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_274:
m_key = u'Publ. Underst. Sci.'
m_value = u'Publ. Underst. Sci.'
id = 274
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_275:
m_key = u'Pure Appl. Opt.: J. Eur. Opt. Soc. P. A'
m_value = u'Pure Appl. Opt.: J. Eur. Opt. Soc. P. A'
id = 275
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_276:
m_key = u'Quantum Semiclass. Opt.: J. Eur. Opt. Soc. P. B'
m_value = u'Quantum Semiclass. Opt.: J. Eur. Opt. Soc. P. B'
id = 276
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_277:
m_key = u'Radiat. Environ. Biophys.'
m_value = u'Radiat. Environ. Biophys.'
id = 277
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_278:
m_key = u'Radiat. Meas.'
m_value = u'Radiat. Meas.'
id = 278
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_279:
m_key = u'Radiat. Phys. Chem.'
m_value = u'Radiat. Phys. Chem.'
id = 279
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_280:
m_key = u'Radiologe'
m_value = u'Radiologe'
id = 280
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_281:
m_key = u'Radioprotection'
m_value = u'Radioprotection'
id = 281
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_282:
m_key = u'Rep. Math. Phys.'
m_value = u'Rep. Math. Phys.'
id = 282
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_283:
m_key = u'Rep. Prog. Phys.'
m_value = u'Rep. Prog. Phys.'
id = 283
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_284:
m_key = u'Res. Exp. Med.'
m_value = u'Res. Exp. Med.'
id = 284
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_285:
m_key = u'Rev. Mex. Astron. Astrofis.'
m_value = u'Rev. Mex. Astron. Astrofis.'
id = 285
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_286:
m_key = u'Rev. Mod. Phys.'
m_value = u'Rev. Mod. Phys.'
id = 286
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_287:
m_key = u'Rev. Sci. Instrum.'
m_value = u'Rev. Sci. Instrum.'
id = 287
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_288:
m_key = u'Sel. Math., New Ser.'
m_value = u'Sel. Math., New Ser.'
id = 288
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_289:
m_key = u'Semicond.'
m_value = u'Semicond.'
id = 289
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_290:
m_key = u'Semicond. Sci. Technol.'
m_value = u'Semicond. Sci. Technol.'
id = 290
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_291:
m_key = u'Shock Waves'
m_value = u'Shock Waves'
id = 291
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_292:
m_key = u'SIAM J. Appl. Math.'
m_value = u'SIAM J. Appl. Math.'
id = 292
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_293:
m_key = u'SIAM J. Comput.'
m_value = u'SIAM J. Comput.'
id = 293
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_294:
m_key = u'SIAM J. Math. Anal.'
m_value = u'SIAM J. Math. Anal.'
id = 294
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_295:
m_key = u'SIAM J. Numer. Anal.'
m_value = u'SIAM J. Numer. Anal.'
id = 295
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_296:
m_key = u'SIAM J. Optim.'
m_value = u'SIAM J. Optim.'
id = 296
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_297:
m_key = u'SIAM Rev.'
m_value = u'SIAM Rev.'
id = 297
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_298:
m_key = u'Smart Mat. Struct.'
m_value = u'Smart Mat. Struct.'
id = 298
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_299:
m_key = u'Soft Comput.'
m_value = u'Soft Comput.'
id = 299
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_300:
m_key = u'Softw. Concepts Tools'
m_value = u'Softw. Concepts Tools'
id = 300
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_301:
m_key = u'Solar Phys.'
m_value = u'Solar Phys.'
id = 301
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_302:
m_key = u'Solid State Commun.'
m_value = u'Solid State Commun.'
id = 302
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_303:
m_key = u'Solid State Electron.'
m_value = u'Solid State Electron.'
id = 303
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_304:
m_key = u'Solid State Ion.'
m_value = u'Solid State Ion.'
id = 304
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_305:
m_key = u'Sov. Astron. Lett.'
m_value = u'Sov. Astron. Lett.'
id = 305
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_306:
m_key = u'Superconductor Science and Technology'
m_value = u'Superconductor Science and Technology'
id = 306
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_307:
m_key = u'Surf. Coatings Techn.'
m_value = u'Surf. Coatings Techn.'
id = 307
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_308:
m_key = u'Surf. Sci.'
m_value = u'Surf. Sci.'
id = 308
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_309:
m_key = u'Surf. Sci. Rep.'
m_value = u'Surf. Sci. Rep.'
id = 309
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_310:
m_key = u'Surf. Sci. Spectra'
m_value = u'Surf. Sci. Spectra'
id = 310
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_311:
m_key = u'Synth. Metals'
m_value = u'Synth. Metals'
id = 311
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_312:
m_key = u'Syst. Fam.'
m_value = u'Syst. Fam.'
id = 312
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_313:
m_key = u'Tech. Phys.'
m_value = u'Tech. Phys.'
id = 313
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_314:
m_key = u'Tech. Phys. Lett.'
m_value = u'Tech. Phys. Lett.'
id = 314
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_315:
m_key = u'Theor. Comput. Fluid Dyn.'
m_value = u'Theor. Comput. Fluid Dyn.'
id = 315
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_316:
m_key = u'Theory Comput. Syst.'
m_value = u'Theory Comput. Syst.'
id = 316
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_317:
m_key = u'Thin Solid Films'
m_value = u'Thin Solid Films'
id = 317
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_318:
m_key = u'Tribol. Int.'
m_value = u'Tribol. Int.'
id = 318
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_319:
m_key = u'Ultramicroscopy'
m_value = u'Ultramicroscopy'
id = 319
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_320:
m_key = u'Vacuum'
m_value = u'Vacuum'
id = 320
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_321:
m_key = u'VLDB J.'
m_value = u'VLDB J.'
id = 321
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_322:
m_key = u'Virtual J. Nanoscale Sci. Technol.'
m_value = u'Virtual J. Nanoscale Sci. Technol.'
id = 322
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_323:
m_key = u'Virtual J. Biol. Phys. Res.'
m_value = u'Virtual J. Biol. Phys. Res.'
id = 323
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_324:
m_key = u'Vis. Comput.'
m_value = u'Vis. Comput.'
id = 324
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_325:
m_key = u'Wave Motion'
m_value = u'Wave Motion'
id = 325
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_326:
m_key = u'Waves Random Media'
m_value = u'Waves Random Media'
id = 326
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_327:
m_key = u'Wear'
m_value = u'Wear'
id = 327
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_328:
m_key = u'Z. Angew. Math. Phys.'
m_value = u'Z. Angew. Math. Phys.'
id = 328
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_329:
m_key = u'Z. Phys., A'
m_value = u'Z. Phys., A'
id = 329
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_330:
m_key = u'Z. Phys., B'
m_value = u'Z. Phys., B'
id = 330
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_331:
m_key = u'Z. Phys., C'
m_value = u'Z. Phys., C'
id = 331
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_332:
m_key = u'Zphys-e.C'
m_value = u'Zphys-e.C'
id = 332
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_333:
m_key = u'ATLAS eNews'
m_value = u'ATLAS eNews'
id = 333
id_knwKB = KnwKBData.KnwKB_2.ref('id')
class KnwKBRVAL_334:
m_key = u'PICTURE'
m_value = u'unpublished'
id = 334
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_335:
m_key = u'PREPRINT'
m_value = u'techreport'
id = 335
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_336:
m_key = u'ARTICLE'
m_value = u'article'
id = 336
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_337:
m_key = u'REPORT'
m_value = u'techreport'
id = 337
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_338:
m_key = u'BOOK'
m_value = u'book'
id = 338
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_339:
m_key = u'THESIS'
m_value = u'phdthesis'
id = 339
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_340:
m_key = u'POETRY'
m_value = u'unpublished'
id = 340
id_knwKB = KnwKBData.KnwKB_3.ref('id')
class KnwKBRVAL_341:
m_key = u'PHRVD'
m_value = u'Phys. Rev., D'
id = 341
id_knwKB = KnwKBData.KnwKB_4.ref('id')
class KnwKBRVAL_342:
m_key = u'Phys.Rev.D'
m_value = u'Phys. Rev., D'
id = 342
id_knwKB = KnwKBData.KnwKB_4.ref('id')
class KnwKBRVAL_343:
m_key = u'beta'
m_value = u'\u03b2'
id = 343
id_knwKB = KnwKBData.KnwKB_5.ref('id')
class KnwKBRVAL_344:
m_key = u'\u03b2'
m_value = u'beta'
id = 344
id_knwKB = KnwKBData.KnwKB_5.ref('id')
class KnwKBRVAL_345:
m_key = u'ARTICLE'
m_value = u'article'
id = 345
id_knwKB = KnwKBData.KnwKB_6.ref('id')
class KnwKBRVAL_346:
m_key = u'BOOK'
m_value = u'book'
id = 346
id_knwKB = KnwKBData.KnwKB_6.ref('id')
class KnwKBRVAL_347:
m_key = u'VIDEO'
m_value = u'video.other'
id = 347
id_knwKB = KnwKBData.KnwKB_6.ref('id')
class KnwKBRVAL_348:
m_key = u'CERN'
m_value = u'http://copyright.cern.ch/'
id = 348
id_knwKB = KnwKBData.KnwKB_7.ref('id')
class KnwKBRVAL_349:
m_key = u'CC-BY-3.0'
m_value = u'http://creativecommons.org/licenses/by/3.0/'
id = 349
id_knwKB = KnwKBData.KnwKB_7.ref('id')
class KnwKBRVAL_350:
m_key = u'CC-BY-SA-3.0'
m_value = u'http://creativecommons.org/licenses/by-sa/3.0/'
id = 350
id_knwKB = KnwKBData.KnwKB_7.ref('id')
class KnwKBRVAL_351:
m_key = u'CC-BY-NC-3.0'
m_value = u'http://creativecommons.org/licenses/by-nc/3.0/'
id = 351
id_knwKB = KnwKBData.KnwKB_7.ref('id')
class KnwKBRVAL_352:
m_key = u'CC-BY-ND-3.0'
m_value = u'http://creativecommons.org/licenses/by-nd/3.0/'
id = 352
id_knwKB = KnwKBData.KnwKB_7.ref('id')
class KnwKBRVAL_353:
m_key = u'CC-BY-NC-SA-3.0'
m_value = u'http://creativecommons.org/licenses/by-nc-sa/3.0/'
id = 353
id_knwKB = KnwKBData.KnwKB_7.ref('id')
class KnwKBRVAL_354:
m_key = u'CC-BY-NC-ND-3.0'
m_value = u'http://creativecommons.org/licenses/by-nc-nd/3.0/'
id = 354
id_knwKB = KnwKBData.KnwKB_7.ref('id')

Event Timeline

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