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Numeral Systems With Irrational Bases For Mission-critical Applications [Hardback]

(Int'l Club Of The Golden Section, Canada & Academy Of Trinitarism, Russia)
  • Formāts: Hardback, 284 pages
  • Sērija : Series on Knots & Everything 61
  • Izdošanas datums: 08-Dec-2017
  • Izdevniecība: World Scientific Publishing Co Pte Ltd
  • ISBN-10: 981322861X
  • ISBN-13: 9789813228610
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  • Cena: 137,94 €
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Numeral Systems With Irrational Bases For Mission-critical ApplicationsPalielināt
  • Formāts: Hardback, 284 pages
  • Sērija : Series on Knots & Everything 61
  • Izdošanas datums: 08-Dec-2017
  • Izdevniecība: World Scientific Publishing Co Pte Ltd
  • ISBN-10: 981322861X
  • ISBN-13: 9789813228610
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9789813228610.html
Keywords:
This volume is the result of the author's many-years of research in this field. These results were presented in the author's two books, Introduction to the Algorithmic Measurement Theory (Moscow, Soviet Radio, 1977), and Codes of the Golden Proportion (Moscow, Radio and Communications, 1984), which had not been translated into English and are therefore not known to English-speaking audience. This volume sets forth new informational and arithmetical fundamentals of computer and measurement systems based on Fibonacci p-codes and codes of the golden p-proportions, and also on Bergman's system and 'golden' ternary mirror-symmetrical arithmetic. The book presents some new historical hypotheses concerning the origin of the Egyptian calendar and the Babylonian numeral system with base 60 (dodecahedral hypothesis), as well as about the origin of the Mayan's calendar and their numeral system with base 20 (icosahedral hypothesis). The book is intended for the college and university level. The book will also be of interest to all researchers, who use the golden ratio and Fibonacci numbers in their subject areas, and to all readers who are interested to the history of mathematics.
Preface vii
Introduction xvii
Acknowledgements xxi
Chapter 1 Preliminary Historical and Mathematical Information
1(48)
1.1 The idea of harmony in its historical development
1(5)
1.2 Proclus hypothesis: A new view on Euclid's "Elements" and the history of mathematics
6(4)
1.3 The golden ratio in Euclid's Elements
10(7)
1.4 The algebraic identities of the golden ratio
17(2)
1.5 Fibonacci numbers
19(10)
1.6 Lucas numbers
29(2)
1.7 Binet's formulas
31(2)
1.8 Pascal's triangle and Fibonacci p-numbers
33(6)
1.9 The golden p-proportions
39(3)
1.10 Phyllotaxis as the main reason for the creation of Fibonacci number theory in modern mathematics
42(7)
Chapter 2 A New View on Numeral Systems: Unusual Hypotheses, Surprising Properties and Applications
49(40)
2.1 Dodecahedron, solar system, Egyptian calendar and Babylonian numeral system
49(4)
2.2 Icosahedron and its connection with solar system, Mayan's calendar and Mayan's numeral system
53(2)
2.3 Surprising properties of the Egyptian decimal arithmetic
55(2)
2.4 Decimal system
57(3)
2.5 History of binary system: since ancient time to John von Neumann's Principles
60(5)
2.6 Canonical and symmetrical numeral systems
65(3)
2.7 Ternary-symmetrical system and ternary arithmetic
68(13)
2.8 Brusentsov's ternary principle and ternary technology
81(8)
Chapter 3 Bergman's System, "Golden" Number Theory and Mirror-Symmetrical Arithmetic
89(56)
3.1 George Bergman and Bergman's system
89(2)
3.2 The "Golden" number theory and new properties of natural numbers
91(18)
3.3 The "golden" ternary mirror-symmetrical representation
109(12)
3.4 The ternary mirror-symmetrical summation and subtraction
121(7)
3.5 The ternary mirror-symmetrical multiplication and division
128(3)
3.6 Technical realizations of the ternary mirror-symmetrical arithmetical devices
131(2)
3.7 Matrix and pipeline mirror-symmetrical arithmetical unit
133(5)
3.8 Conclusions to
Chapter 3
138(7)
Chapter 4 Fibonacci p-Codes and Concept of Fibonacci Computers
145(58)
4.1 Fibonacci p-codes
145(5)
4.2 The minimal form and redundancy of Fibonacci p-codes
150(8)
4.3 Fibonacci arithmetic
158(5)
4.4 Counting and subtracting of the binary 1's
163(3)
4.5 Fibonacci summation and subtraction
166(3)
4.6 Fibonacci multiplication and division
169(4)
4.7 Useful applications of the Fibonacci code
173(6)
4.8 Concept of the Fibonacci arithmetical processor for noise-immune computations
179(6)
4.9 Boolean realization of the original Fibonacci element basis
185(5)
4.10 Fibonacci counter based on the minimal form
190(12)
4.11 USA researches in Fibonacci computer field
202(1)
Chapter 5 Codes of the Golden p-Proportions and Their Applications in Computer Science and "Golden" Metrology
203(38)
5.1 Definition of the codes of the golden p-proportions
203(1)
5.2 Partial cases of the codes of the golden p-proportions
204(1)
5.3 Conversion of numbers from traditional numeral systems to Bergman's system
205(5)
5.4 The "golden" arithmetic
210(12)
5.5 Application of the codes of the golden p-proportions in digital metrology
222(6)
5.6 Digit-to-analog (DAC) and analog-to-digit converters (ADC) based on the "golden" resistive divisors
228(10)
5.7 Conclusion
238(3)
Bibliography 241(6)
Index 247