Presentation	2021-06-17 Entropy Effect in Channel Propagation Kumon Tokumaru,
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Abstract(in Japanese)	(See Japanese page)
Abstract(in English)	Long lasting syllables (=a character set) and interactive syllables (= bit) enabled linguistic humans to communicate with authors beyond time and space. If we can remove noise effect (= thermodynamic in channel propagation from linguistic information, we can revive speech voice of authors, and virtually experience the birth of scientific concepts.
Keyword(in Japanese)	(See Japanese page)
Keyword(in English)	Thermodynamic Entropy / Regenerative Reception of Knowledge / Forward Error Correction / Low Noise Environment / Linguistic Information / Ionosphere D Layer
Paper #	AP2021-19
Date of Issue	2021-06-10 (AP)

Conference Information
Committee	AP
Conference Date	2021/6/17(1days)
Place (in Japanese)	(See Japanese page)
Place (in English)	Online
Topics (in Japanese)	(See Japanese page)
Topics (in English)	Antennas and Propagation
Chair	Hiroyoshi Yamada(Niigata Univ.)
Vice Chair	Mitoshi Fujimoto(Univ. of Fukui)
Secretary	Mitoshi Fujimoto(NTT DOCOMO)
Assistant	Minseok Kim(Niigata Univ.)

Paper Information
Registration To	Technical Committee on Antennas and Propagation
Language	JPN
Title (in Japanese)	(See Japanese page)
Sub Title (in Japanese)	(See Japanese page)
Title (in English)	Entropy Effect in Channel Propagation
Sub Title (in English)	Themodynamic Interpretation of Information Theory Entropy
Keyword(1)	Thermodynamic Entropy
Keyword(2)	Regenerative Reception of Knowledge
Keyword(3)	Forward Error Correction
Keyword(4)	Low Noise Environment
Keyword(5)	Linguistic Information
Keyword(6)	Ionosphere D Layer
1st Author's Name	Kumon Tokumaru
1st Author's Affiliation	Writer(Writer)
Date	2021-06-17
Paper #	AP2021-19
Volume (vol)	vol.121
Number (no)	AP-65
Page	pp.pp.1-6(AP),
#Pages	6
Date of Issue	2021-06-10 (AP)