WO1999049368A1

WO1999049368A1 - World map clock reflecting stars

Info

Publication number: WO1999049368A1
Application number: PCT/JP1999/000286
Authority: WO
Inventors: Hidemi Miura
Original assignee: Hidemi Miura
Priority date: 1998-03-20
Filing date: 1999-01-22
Publication date: 1999-09-30
Also published as: JP3515987B2; AU2074899A; JPH11271475A

Abstract

A device, method and medium of world clock for knowing the day part and the night part of the world immediately at any time on a world map and easily finding the positions on a world map where the sun, the moon, main planets, main fixed stars, main nebulae, and main star clusters are right above easily. Subprograms for calculating the calendar time, right ascension/declination, and bright/dark border line, painting out the night part, displaying world map data, redrawing the bright/dark border line, indicating the positions where main heavenly bodies come right above, displaying the date and time, etc., are written in the application program ROM for a microcomputer and executed. The day part (3) of a world map (2) is displayed bright while the night part (4) is displayed dark on a display screen (1) connected with the microcomputer. The positions where the sun (6), the moon (7), main planets, main fixed stars, main nebulae and main star clusters come right above are indicated on the world map (2) along with the local times (8) of several main cities in the world.

Description

Description World map clock reflecting stars

The present invention relates to a portable information terminal, a navigation system, a television receiver, and a microphone / computer incorporated in a wall clock, a table clock, a portable clock, a wristwatch, and the like. Computer written to application program ROM ■ Display connected to this micro computer by running the program The world map is displayed on the screen with the daytime parts bright and the night parts dark, and the position of the sun, moon, major planets-stars, major nebula It relates to a world clock that shows and shows the time in several major cities of the world. Background art

Humans live on the earth, and since ancient times, the time has been determined from the position of the sun, the number of days in each month has been determined from the phase of the moon, and the season has been determined from the position of the stars. Was. It is basically active during bright daylight hours and rests during dark night hours. However, because the earth's axis is tilted, the sun, moon, and stars not only move from east to west at almost constant speed, but also move north to south with a yearly cycle. The shape of day and night on the earth changes in a cycle of one year in conjunction with the movement of the sun, and it is difficult to reproduce these with one simple mechanical device. For this reason, clocks that convey time are generally analog clocks that display time with hands in recent years, as a device that simply ticks the time at a constant speed, apart from the operation of these celestial bodies. Digital clocks and the like that display the time on the Internet are used, and the time is used as the rhythm of human life, and is used during the period of human activity and rest. Day and night movements, the movement of the moon, which is very important in counting the number of days and the ebb and flow of the tide, and the movement of the stars that shines in the night sky every season and does not enjoy the eyes of people It is rare to be caught. In particular, day and night movements and the movement of the sun and moon could be captured on the world map, but the movement of stars could not be easily visually captured. . (See, for example, Japanese Patent Publication No. 54-104936, Japanese Patent Publication No. 3027820). Disclosure of the Invention

According to the present invention, the day and night movements of the world, the sun and the sun are realized by a display screen connected to a combi-user program and a microphone P / computer in which the program is written. It tries to easily capture the movement of the stars visually in conjunction with the movement of the moon and the moon, so the daytime and nighttime parts of the world are immediately identified on the world map with the time. On the world map, planets such as the sun, moon, Mercury, Venus, Mars, Jupiter, Saturn, stars such as 1st, 2nd, and some 3rd stars Nebula-By making it easy to know where the clusters are directly above each other, the time at that time is related to the movement of the sun, moon, and stars, the source of the rhythm of human life. The purpose is to grasp as a linked visual object. According to the present invention, a conventional globe or a world map that develops the globe on a plane and a celestial globe or a planetary globe that projects the globe on a hemisphere are linked by a computer program. It is illustrated on the display screen 1 of the Micro Computer 1-9, and it is intended to grasp the movement of the world day and night, the sun, the moon, and the stars. It has been the target.

In order to achieve the above object, according to the present invention, a portable information terminal, a navigation device, a television receiver, a wall clock, a table clock, a portable clock, and a wrist watch are also provided. Central processing unit (CPU), system ROM, application / software ROM, execution RAM, (A) Calculate calendar time in R0M for application software of micro computer consisting of video RAM for display, clock function, etc. (A) Sub-program for calculating the right ascension and declination of major celestial bodies, (ゥ) Sub-program for calculating and drawing the dark and dark field lines, (e) Night Sub-program for pre-painting the part of the sub-program, (o) sub-program for reading and displaying the world map data, and (power) sub-program for redrawing the light and dark field lines with the calendar time. (G) Sub-program that displays the position of the main celestial body directly above, (c) Sub-program that displays the date and time, (q) Other supplementary information Sub-programs to add items, computers and programs By writing and executing it, on a display screen that can display several hundred or more dots vertically or horizontally in a grid connected to this micro computer, densely Display the world map with the daytime brighter and the nighttime darker using the Mercator projection, the grid projection, the equidistant projection, etc., and display the sun, moon, Planets such as Mercury, Venus, Mars, Jupiter, and Saturn, 1st and 2nd stars, some 3rd and other stars, major nebulae and clusters are shown directly above each other. Realize a world clock that displays the time in several major cities. BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a plan view showing an embodiment of the present invention using a world map by the Mercator projection, and FIG. 2 is a plan view using a liquid crystal display panel as a display screen. BRIEF DESCRIPTION OF THE DRAWINGS It is sectional drawing of the apparatus which shows the Example of invention. BEST MODE FOR CARRYING OUT THE INVENTION

The embodiment will be described with reference to the drawings. The world map shown in FIG. 1 is an example based on the metropolitan projection, and the daytime of the world at noon in Japan during the summer solstice. And the night scene. The shape of the day and night moves with time from the east to the west with a period of one day, and the shape changes with a period of one year, and the north and south are replaced.

FIG. 2 is a cross-sectional view of a device showing an embodiment in which a liquid crystal display panel is used for a display screen, and includes a central processing unit (CPU), a system R0M, and an application. Application software of micro-computer 9 consisting of software ROM, execution RAM, display video RAM, clock function, etc. By executing the computer-program written in the ROM for the air, the daytime portion 3 is displayed on the display screen 1 connected to the micro computer 9. Sun and moon on the world map 2 along with the world map 2 and the planets such as Mercury, Venus, Mars, Jupiter, Saturn, 1st magnitude, 2 Positions where the major star, the major nebula and the star cluster come directly above, respectively, the equal star, several third magnitude stars, etc. (Sun: June; Moon: 7) Illustrated. In addition to displaying the time 8 of some of the major cities around the world.

The present invention uses a computer 'program, a microphone port on which the program is written, and a display screen 1 connected to a computer 9 to control the day and night movements of the world, the movement of the sun and the moon, and the like. At the same time, it tries to easily capture the movement of stars visually, so that daytime part 3 and nighttime part 4 of the world can be immediately understood on the world map 2 with the time. Then, on the world map 2, stars such as Sun, Moon, Mercury, Venus, Mars, Jupiter, Saturn, stars such as 1st, 2nd, and some 3rd stars, main nebula A device as a world map clock that makes it easy to know the position directly above each (sun: 6, moon: 7), and a computer program that realizes this function. And a computer program for recording the program.

As a method for realizing this world map clock, a computer program consisting of the following sub-programs is used. (A) is included and the others are repeated except (ii) to (o). (A) Sub-program for calculating calendar time

This computer program redraws the day and night parts of the world as a world clock function, with the sun, moon, major planets, stars, major nebulae, and star clusters directly above The cycle for redrawing the position that comes in is 1 second. However, if the CPU or display speed of the display screen 1 exceeds 1 second, the clock function of the micro computer 9 will be set so that the cycle will be at a fixed time interval. The calendar time is calculated every 5 seconds or 10 seconds based on the date and time indicated by.

(B) Sub-program that calculates the RA and declination of major celestial bodies

Based on the calendar time calculated in (a), for example, the sun, moon, and planets such as Mercury, Venus, Mars, Jupiter, and Saturn, by the abbreviated formula of “astronomical calendar” issued by the Japan Coast Guard waterway, for example. Calculate the right ascension and declination where is located. At that time, the radial radius of each planet in the eccentric coordinate system and the radial radius of the moon in the eccentric coordinate system are also calculated.

(ゥ) Sub-program that calculates and draws the light / dark field line

Based on the right ascension and declination of the sun calculated in (a), the daytime part 3 and the night part 4 of the world at that time are calculated. The light-dark line 5 is calculated, and the world map 2 is displayed in (o). The light-dark field line 5 is drawn in gray on the screen 1 in advance. Assuming that the longitude and the latitude of a certain point on the light and dark field line 5 are A degrees and the latitude is B degrees,

It is given by B arc t a n (cos (A-U + T) / t a n V). Here, T is the time of the Greenwich star at that time, and U and V are the right ascension and declination of the sun at that time, respectively. However, this formula cannot be applied when the declination on the equinox and the equinox is zero, and the boundary between day and night is a great circle passing through the North Pole and the South Pole.

(E) A sub-program that pre-paints the night area

On the display screen 1 displaying the world map 2 with (o) as the boundary, with the light-dark line 5 drawn in (ii) opposite to the position 6 where the sun calculated in (ii) is directly above Pre-paint gray side 4 as night part.

(E) Sub-program for reading and displaying world map data

The data of the world map 2 drawn by the Meltographic projection, the grid projection, the equidistant projection, etc. is read, and the display screen 1 connected to the micro computer 9 is used to display the As part 4 of, it is superimposed and displayed with the screen painted gray. World Map 2 has the least color schemes, for example, plains are green, highlands are yellow, mountains are brown (or orange, magenta, etc.), seas are blue, Antarctica and Arctic Create the islands in advance with a bright white color.

(Power) A sub-program that redraws the light and dark lines along with the calendar time

It changes along with the calendar time calculated in (a). The position of the sun calculated in (a) is the right ascension where the sun is located. Redraw the light-dark line 5 shown, and continuously change the night part 4 that was filled with (e) as a whole. In this case, the light-dark line 5 on the west side of the position 6 where the sun is directly above is the boundary between daytime and nighttime in the morning, and the color of the world map 2 in that part is displayed for each display unit on the display screen 1. If it is dark, it will be bright; if it is already bright, leave it as it is. Also, the eastern light-dark field line 5 at the position 6 where the sun is right above is the boundary between evening day and night, and the color of the world map 2 at that part is bright for each display unit on the display screen 1. If it is dark, leave it as it is.

(G) A sub-program showing the position where the main celestial body comes directly above

(1) First and second magnitude stars known as astronomical data, such as the Sun, Moon and Mercury, Venus, Mars, Jupiter, Saturn, and other terrestrial stars. Based on the stars such as some third magnitude stars, the main nebula and the right ascension and declination of the cluster, these objects are located directly above the world map 2 (Sun: 6, Moon: Figure 7) is shown to change with time. In this case, the order of redrawing the positions of these objects directly above the world map 2 is, when erasing and returning to the original world map 2, the moon, sun, Mercury, Venus, Mars, Jupiter, Saturn, In the order of 1st, 2nd, 3rd, nebula and clusters, after erasing, when drawing a new map on World Map 2, reverse the order. However, when erasing the Sun, Mercury, and Venus and returning to the original World Map 2, if Mercury and Venus pass inside the Sun, only Venus, Mercury, and the Sun, and only Mercury is inside the Sun. When passing through, Mercury, the Sun, and Venus in that order; when only Venus passes inside the Sun, then in the order of Venus, the Sun, and Mercury; after erasing, reverse when a new map is shown on World Map 2 To The position of each object just above the world map 2 is, for example, the sun and the moon are filled circles represented by 7 diameter points, and the star is represented by 5 diameter points. A filled circle, the first magnitude star is a filled rhombus represented by 5 dots, and the 2nd magnitude star is a filled diamond represented by 3 dots. Squares and 3rd magnitude stars are shown as diagonal X-shapes represented by three points, and Nebula's clusters are shown as plaid rhombuses represented by five vertical and horizontal points. The least color schemes are, for example, red for the sun, white for the moon, light blue for Mercury, yellow for Venus, brown for Mars (or orange, magenta, etc.), and brown for Jupiter ( Or orange, reddish purple, etc.) with yellow horizontal stripes, Saturn yellow with a light blue ring, stars with colors close to their respective spectral shapes, and nebulae and star clusters with visible colors Use similar colors. At that time, the sun and the moon always use bright colors, and the stars and nebula's cluster are displayed on the world map 2 so that their positions can be determined even if they are the same color as the background world map 2. Use dark colors when illustrated in bright day part 3 above and light colors when illustrated in dark night part 4 above.

(H) Sub-program for displaying date and time

Each time the calendar time is calculated in (a), the date and time at that time, the right ascension and declination of the sun and the moon are displayed on the sea part of the world map 2 and the margin of the display screen 1 together For example, display time 8 of some major cities in the world.

(G) Sub-programs to add other supplementary matters

Micro computer as the basis for calculating calendar time in (a) 9, the sub-program for setting the time of the clock function, the right ascension of the sun and the moon, the declination and the distance between the earth and the sun, the moon, the radius of the sun, the earth and the moon, calculated in (a) A sub-program for judging and displaying solar and lunar eclipses based on the relationship between the right ascension of the sun and the moon calculated in (a), that is, the position where the moon is directly above based on the age of the moon 7 There are sub-programs etc. that illustrate the phase of the moon when doing <Industrial availability

As described above, the present invention illustrates the day and night parts of the world on a world map based on the Meltographic projection, the grid projection, the equidistant projection, etc. Illustrates the location of the moon, major planets, stars, major nebulae and star clusters, and shows the time of some major cities in the world.

In this way, the world map clock of the present invention easily and visually allows the positions of the day and night of the world and the positions where the sun, moon, major planets, stars, major nebulae, and star clusters are directly above each. It can be used in portable information terminals, navigation systems, television receivers, and even wall clocks, table clocks, portable watches, watches, etc. as visual world clocks that can be seen.

Claims

The scope of the claims

1. Central processing unit (CPU), system R0M, application

• Microphone / computer (9) application consisting of R0M for software, RAM for execution, video RA λί for display, clock function, etc. ® down

By executing the computer program written in 'R0 for software', it is connected to this micro computer (9). World map with daytime (3) brightened and nighttime (4) darkened on display screen (1)

Shows (2) along with the sun, moon, major planets and stars, and the major nebula-the position where the star cluster is directly above (sun: 6, moon: 7) on the world map (2) A world map clock that displays the time (8) of several major cities in the world.

2. Central processing unit (CPU), once 7 "ROM, application software • R0M for software, RAM for execution, video RAM for display, clock function, etc. The application of the configured microphone opening and viewing software (9) • Write to software R0M. (A) Microcomputer viewing and writing (9) Calculate the calendar time every 1 second, 5 seconds or 10 seconds based on the date and time indicated by the clock function in (9). (B) Based on the calendar time calculated in (a) Calculate RA, Dec. where planets such as Sun, Moon and Mercury, Venus, Mars. Jupiter, Saturn, etc. are located. (ゥ) Based on the RA, Dec, calculated in (a) Calculates the light-dark line (5) that separates the daytime part (3) and night part (4) of the world at that time, and displays the world map (2) with (o) on the display screen (1) The light-dark field line (5) is drawn in gray in advance. (E) The world map (2) is displayed using (o), with the light-dark field line (5) drawn in (ゥ) as the boundary. On the display screen (1), the night position (4) is opposite to the position (6) where the sun based on the right ascension and declination where the sun calculated in (a) is located directly above (6). Gray in advance Fill in, (o) Load a map of the world map (2) drawn using the Mercator projection, the grid projection, the equidistant projection, etc., and connect it to the micro computer (9). On the display screen (1), which is displayed in (e) as a night part (4), superimposed on the screen painted in gray, and the calendar time calculated by (force) (a) The light-dark line (5) shown in (ゥ) is adjusted to the position (6) where the sun is directly above based on the right ascension and the declination, where the sun calculated in (a) is changed. Redraw, continuously change the night part (4), which is filled with (e) as a whole, and the sun, moon and Mercury, Venus, Mars, and trees calculated in (g) and (a) Stars such as Stars, Saturn and other planets such as RA, Decl., 1st and 2nd stars, some 3rd stars, and other major nebulae Based on the meridian and declination, the positions (sun: 6, moon: 7) where these celestial bodies are directly above on the world map (2) are shown as changing with time. Each time the calendar time is calculated in (a), the date and time at that time, the right ascension and declination of the sun and the moon are displayed on the sea portion of the world map (2), and the display screen is also displayed. Displaying the time (8) of some major cities in the world in the margins of (1), etc., is realized by executing a computer program consisting of sub-programs such as World map clock way.

3. Central processing unit (CPU), system R〇M, application software ROM, execution RAM, display video RAM, clock function, etc. Display the world map (2) with the daytime (3) bright and the nighttime (4) dark on the display screen (1) connected to the microcomputer (9) Together with the world map (2), the location of the sun, moon, and major planets' stars, major nebulae and star clusters (Sun: 6, Moon: 7) is shown on the world map (2). World map clock computer showing the time (8) of some major cities (1) Application of micro computer (9) that recorded the program A recording medium as R〇M for software and software. Claims of amendment

[16 April 1999 (16.04.99) Accepted by the International Bureau: Claim 1 originally filed withdrawn; other claims unchanged. (Page 2)]

1. (Delete)

2. Micro-processor consisting of a central processing unit (CPU), system ROM, R0M for application software, execution RAM, display video RA λί, clock function, etc. , Write to application (9) application-software ROM, and (a) 1 second based on the date and time indicated by the clock function of the micro computer (9) Or calculate the calendar time every 5 seconds or 10 seconds. (A) Based on the calendar time calculated in (a), respectively, the sun, moon and Mercury, Venus, Mars, Jupiter, Saturn, etc. Calculate the right ascension and declination where the planet is located. Based on the right ascension and declination of the sun calculated in (ii) and (a), the daytime (3) and night (4) parts of the world at that time Light and dark field line

(5) is calculated, and the light-dark field line (5) is drawn in gray on the display screen (1) displaying the world map (2) in (o), and the light-dark field line drawn in (e) (ゥ) With (5) as the boundary, the display screen (1) displaying the world map (2) in (o) is directly above the sun based on the RA and declination where the sun calculated in (b) is located. The area on the opposite side of (6) and the night side (4) are painted in gray in advance, and (o) the world map (2) drawn by Mercator, grid, equidistant, etc. The data is read and displayed on the display screen (1) connected to the Microcomputer (9) in (e) as a night part (4) in a superimposed manner with the screen previously grayed out in gray. (Force), which changes with the calendar time calculated in (a), the right ascension and declination in which the sun calculated in (b) is located The light-dark field line (5) illustrated in (ゥ) is redrawn according to the position (6) where the sun comes directly above, and the night part (4) painted in (e) as a whole is continuous. (G) The planets such as the Sun, Moon, and Mercury, Venus, Mars, Jupiter, and Saturn, which are calculated in (a), are located at RA, Decl., 1st magnitude, 2nd magnitude, and some corrections. Paper (Article 19 of the Convention) Based on the stars such as the third magnitude star, the main nebula and the right ascension and declination of the star cluster, the positions (sun: 6, moon: 7) where these celestial bodies are directly above on the world map (2), respectively. Each time the calendar time is calculated in (c) and (a), the date and time, the sun and the moon are shown on the world map (2) each time the calendar time is calculated. Each sub-program displays the right ascension and declination and displays the time (8) of several major cities in the world in the margins of the display screen (1). A world map clock method implemented by executing a computer program.

3. Central processing unit (CPU), system R〇M, application

• Display screen connected to a micro computer (9) consisting of software ROM, execution RAM, display video RAM, clock function, etc.

(1) Daytime (3) is brighter, Night (4) is darker, and the world map (2) is displayed, along with the sun, moon, and major planets on the worldmap (2). · Stars and major nebulae · A component of the World Map Clock that shows the location of the star cluster directly above (sun: 6, moon: 7) and shows the time (8) of some major cities in the world Computer — A micro computer that records the program. A recording medium as R0M for application software of ( ₉₎ .

Amended paper (Article 19 of the Convention) Statements under Article 19 of the Treaty Article Claim 1 states that the patent for a device for displaying a world map on a display screen controlled by a micro computer is provided. And were clarified.

The citation includes a device that displays the day and night on a display screen controlled by a micro computer and overlays a translucent world map on top of it. . The present invention can be said to be a device similar to the device shown in the cited example as a device for controlling a display screen by a micro computer. Paragraph 1 shall be deleted and the wording of “device” in the description and abstract shall be deleted. The present invention has an effect on the method of operating as a visual timepiece by combining with a conventional device, rather than the effect as a device.

The second claim is to display a world map on a display screen controlled by a micro computer, and to move the day and night parts along with time and the sun and the sun on the world map on the display screen controlled by the micro computer. Moon. Clarified how to use it as a world map clock that shows stars that show where major planets, stars, major nebulae, and clusters are directly above.

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Fig. 1

Fig. 2