Tibetan calendar astronomical almanac demonstration method and system

A demonstration method, the technology of astronomical calendar, applied in the field of astronomical calendar calculation, can solve the problems of cost, time, huge manpower, difficulty in ensuring accuracy, etc., and achieve the goal of improving reliability, reducing time consumption, and short calculation time Effect

Pending Publication Date: 2020-01-14
西藏自治区藏医院
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The compilation of "Astronomical and Meteorological Almanac" requires a lot of data calculation work. Historically, data calculations have been done by manual sand table calculations. If you calculate a genre of 2,000-year data, use the traditional calculation tool sand table to use the fastest quick calculation method In terms of calculation, a few people can only calculate the basic data of 226 years a year, and so on, manually calculate the four calendars of Zhuzipur School, Jizi (Zuozi School), Chuer School, and Gandeng Xinsuan for 2,000 years. It takes more than 30 years for the basic data, and the cost, time, and manpower required are huge, and the accuracy is difficult to guarantee

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A demonstration method for Tibetan astronomical and calendar calculations, comprising the following steps:

[0025] A. Acquire data, the data includes year, month, day, and data algorithm faction, and the data algorithm faction includes at least one faction among Jizi faction, Puer faction, Chuer faction, and Ganden Xinshu faction;

[0026] B. Perform leap year data query encapsulation and non-leap year data query encapsulation on the data;

[0027] C. Traversing the database to find data corresponding to leap year data information and non-leap year data information and encapsulating the queried data, the database stores astronomical calendar data, and the astronomical calendar data includes all data of the day, five element values, Five-day value, Rahu value, accumulated month balance, leap month, double day and missing day data;

[0028] D. Render and display according to the found data information.

[0029] The method of this solution can be completed based on a co...

Embodiment 2

[0036] Based on the methods in the foregoing embodiments, this solution discloses a system for realizing the foregoing methods.

[0037] A demonstration system for Tibetan astronomical and calendar calculations, including:

[0038] Query information input module: obtain the data of the information to be queried, the data includes year, month, day, data algorithm school, and the data algorithm school includes at least a faction;

[0039] Storage module: used to store astronomical and calendar data, said astronomical and calendar data includes all data of the day, five element values, five values, Luohu value, cumulative month balance, leap month, double day and missing day data;

[0040] Query data encapsulation module: encapsulate and transform the data obtained by the query information input module;

[0041] Query module: query and match related data in the storage module according to the data entered into the module by query information;

[0042] Return data encapsulation...

Embodiment 3

[0045] After Kalachakra was introduced to Tibet around 1027 A.D., the Kalachakra calendar also became popular in various parts of Tibet, forming various schools of calendar calculation such as the system school and the function school. The reason for the emergence of many schools is that after the development and prosperity of astronomical and calendar calculations, scholars from all walks of life have different understandings of the Kalachakra Root Sutra, Shelue Sutra, and Kalachakra Calculus. The second is the result of continuous improvement and improvement in practice in order to conform to natural phenomena and observation results such as astronomical phenomena, solar terms, solar and lunar eclipses. Among these calendar schools, Jizi, Puer School, Chuer School, and Ganden Xinsuan, which are based on the Kalachakra Sutra, have had a greater influence in history. Looking at home and abroad, there are many almanacs with a long time span related to the Gregorian calendar and...

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PUM

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Abstract

The invention discloses a Tibetan calendar astronomical almanac calculation demonstration method and system, and the method comprises the following steps: obtaining data which comprises year, month, day and data algorithm dispatches, wherein the data algorithm factions comprise at least one of a JIZI faction, a Pur faction, a Chuer faction and a Gandeng new calculation faction; performing leap year data query encapsulation and non-leap year data query encapsulation on the data; traversing a database to search leap year data information and non-leap year data information corresponding to the data, and packaging the queried data, the database storing astronomical almanac calculation data, the astronomical almanac calculation data including all data of the day, five element values, five dizzyvalues, a Rahu value, integral month remainder, leap months, double days and lack day data; and performing rendering display according to the searched data information. According to the method, intelligent output of the Tibetan calendar can be realized, data such as five elements of all systems, five elements of action and five planet motion values of the sun day are matched and output accordingto input information, the calculation time consumption is short, the manual calculation time consumption is reduced, and the calculation reliability is improved.

Description

technical field [0001] The present invention relates to the field of astronomical calendar calculation methods, and more specifically relates to a demonstration method and system for Tibetan calendar astronomical calendar calculations. Background technique [0002] Many nationalities in the world have their own languages ​​and cultures, but very few have their own numbers, astronomical calendars and calendars. Tibetan astronomical calendar is an important part of the excellent traditional culture of the motherland. It is based on the early local calendar in Tibet, plus the five elements, the time wheel calendar, the divination technique, and the later introduced Shixian calendar. It has a long history, rich literature, complete system, scientific theory and uninterrupted inheritance and continues to this day. Different genres of almanacs were promulgated in various periods of history, such as Sakya almanac, Balbung almanac, Minlin almanac, Menzikang almanac, etc., which pla...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F16/2455G06F16/248G06F16/9538
CPCG06F16/2455G06F16/248G06F16/9538Y02D10/00
Inventor 银巴
Owner 西藏自治区藏医院
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