KR-20260065287-A - The development of the Map Word and the process applying it Ⅱ-2 (3)

Abstract

Word address 1 should be placed in a cube, but since it is practically difficult, it should be placed in a web program with a URL address that replaces the cube, such as http://newsai.cc or http://wichijooso.com, and word address 2 should be placed in the space between sea level and an elevation of 9,180m based on the entire surface of the Earth, and word address 2-2 should be placed in the space between sea level and an elevation of 20,003km based on the entire surface of the Earth, but since it is practically difficult, it should be placed in a web program with a URL address such as http://cnnunesco.com or http://cnnunesco3.com. We intend to achieve the following functions and effects by using Word Address 1, Word Address 2, Word Address 2-2, etc., as a medium to interconnect the web programs http://newsai.cc and http://wichijooso.com and http://cnnunesco.com and http://cnnunesco3.com, and thereby linking and operating the data embedded in these web programs. First, by replacing the number of alphabets that make up an English word with a single pixel, which is a tiny square that looks like a dot, the length of the English word is effectively reduced. Secondly, when a search term entered into a search bar on a portal site or SNS website is a compound word, an auxiliary search bar, which is a secondary search bar, is installed so that the time required for the user to view and understand the entire knowledge information (data) regarding the searched compound word is shortened, and the compound word is analyzed in advance. Therefore, since the user can roughly understand the information (data) in advance through the analyzed compound word before fully viewing and understanding the entire information (data), the time required to fully understand the entire information (data) can be saved. Thirdly, until now, the list of homepage titles related to search terms found in the search bar (URL address bar list) was arranged in a vertical linear arrangement. However, with the introduction of a secondary search bar such as C or D in Fig. 11, the vertical linear arrangement as shown in E in Fig. 11, as well as the horizontal linear arrangement and the vertical linear arrangement of overlapping pop-up windows that function as height (thickness) as shown in D, E, F, and H in Fig. 31, are added, thereby allowing related search terms to be searched in a three-dimensional manner. This enhances the concentration and immersion of users in the search and shortens the time required to access related search terms. Fourth, within a single URL address, one English word can be used as a medium to systematically connect and integrate SNS websites, portal sites, or SNS websites and portal sites simultaneously. Therefore, users can simultaneously view SNS websites with multiple URL addresses embedded in multiple pop-up windows that function as subcategories within a single URL address. Due to the above reasons, users are encouraged to automatically memorize English words, and because they can view two or more types of social media websites embedded within the screen of a website with the same URL address almost simultaneously, it is possible to reduce the problem of users merely signing up for social media websites and not viewing or subscribing for a long period, as well as increase the number of viewers and subscribers to social media websites. Fifth, the scope of expression for words from not only English but also languages worldwide was expanded from a planar space formed by vertical and horizontal lines to a three-dimensional space formed by vertical, horizontal, and height lines. Furthermore, by replacing (English) words with images on a background of three-dimensional space as well as planar space, the function as a global lingua franca was secured, and so-called 'spatial words' or 'map words' were developed. Sixth, it will mark a turning point into a digital cultural revolution where text, serving as a means of communication, is expressed from two-dimensional to three-dimensional space and transitions from text to images. Seventh, since the Pacific, Atlantic, and Indian Oceans lack place names except for islands, descriptive names must be used; however, because detailed water areas within these oceans cannot be described with detailed descriptive names like place names, if an English word generated by the linked operation of Word Address 2 and Word Address 1 is located within a water area, that English word is set as the descriptive name for that water area. That is, a certain sea area of the East Ocean is converted into a word address 1 linked to word address 2, which includes a combined unit of latitude and longitude that is a geographical notation like coordinate values, and word address 1 is linked to an English word and finally converted, so a certain detailed sea area of the East Ocean is set and indicated in an English word. Eighth, English words placed in a three-dimensional space ranging from sea level to 9,180m or from sea level to 20,003km based on the entire surface of the Earth, or images (maps) that are matched 1:1 with the same English words, are used as units to search for and measure the current location or flight path of satellites, drones, helicopters, etc. For the ninth step, we developed so-called "map words" (spatial words) and linked them with a new paradigm of artificial intelligence to establish a foundation for developing "AI words" and lay the groundwork for participating in the AI market. For the tenth time, English dictionaries were classified from alphabetical order to the order of meanings regarding morphemes. Eleventh, by utilizing 'online geometric words' and 'UN words,' which are types of supervised words, in the deep machine learning of AI semiconductors, these 'online geometric words' and 'UN words' may contribute to building an efficient, specialized large-scale language model (MML). Therefore, 'word address 1', 'word address 2', 'word address 2-2', etc., must be used as components of the aforementioned 'online shape word' and 'UN word', etc.

Inventors

• 임채환

Assignees

• 임채환

Dates

Publication Date

20260508

Application Date

20241031

Claims (20)

1. Word Address 1 should ideally be placed in the cube, but since this is practically difficult, it is applied by placing it in a web program with a URL address that replaces the cube, such as http://newsai.cc or http://wichijooso.com. Word address 2 should be placed in the space between sea level and an elevation of 9,180m (or 20,003km) based on the entire surface of the Earth, but since this is difficult in reality, it is applied by placing it in a web program with a URL address that replaces the space, such as http://cnnunesco.com or http://cnnunesco3.com. However, word address 1 can be placed and applied to web programs with URL addresses of http://cnnunesco.com or http://cnnunesco3.com, and word address 2 can be placed and applied to web programs with URL addresses of http://newsai.cc or http://wichijooso.com. In addition, the above altitude of 9,180m can be extended up to 20,003km by "Im Chae-hwan conversion method 2" and "Im Chae-hwan conversion method 3". The web program with the above URL address http://cnnunesco.com can be replaced with the web program http://구백년을돌려주면-지도단어-주2.com, and the web program http://cnnunesco3.com can be replaced with the web program http://구백년을돌려주면-지도단어-소2.com.
2. A world map like the one in Fig. 3, corresponding to the screen of a web program with the online URL address http://cnnunesco3.com/?point=(col=249,row=110), is assumed to be a form in which the space from sea level to an elevation of 20,003 km (or an elevation of 9,180 m) is transformed into an offline cube based on the entire surface of the Earth offline, or an offline cube is assumed to be a form in which the space from sea level to an elevation of 20,003 km (or an elevation of 9,180 m) is transformed based on the entire surface of the Earth offline; therefore, the origin (reference point) of the cube in Fig. 1 is located at the starting point of the vertical, horizontal, and height axes, and the reference point (origin) of the world map as in Fig. 3 is a virtual space from sea level to an elevation of 20,003 km (an elevation of 9,180 m) at the location where the prime meridian and the lines of latitude formed by 90 degrees north intersect. It is located at the point where the altitude line starts. Therefore, the prime meridian of the world map is replaced by a vertical edge tangent to the vertical axis of the cube, the lines of latitude formed by 90 degrees north are replaced by a horizontal edge tangent to the horizontal axis of the cube, and the imaginary elevation line from sea level to an elevation of 20,003 km (or 9,180 m) based on the reference point (origin) of Fig. 3 is replaced by a height edge tangent to the height axis of the cube. However, regarding the reference point (origin) of Fig. 3 corresponding to the screen of the web program with the URL address http://cnnunesco3.com/?point=(col=249,row=110), the length of the virtual elevation line from sea level to an elevation of 20,003 km (or an elevation of 9,180 m) is considered as a factor that forms a three-dimensional solid space, with the popup window L on the world map of Fig. 4a considered as a two-dimensional planar space and the popup windows overlapping from the popup window J considered as a factor that forms a three-dimensional solid space. It is assumed that the total number of such pop-up windows, from the same J pop-up window to the overlapping pop-up windows installed as B, C, D, E, F, G, and H in FIG. 32, is 540. Therefore, it is assumed that the total number of overlapping pop-up windows installed as D, E, F, and H in FIG. 31 is also 540. Therefore, among C mounted in M, which is a popup window that opens when N in Fig. 4a is clicked Or, Fig. 5, which is an enlarged version of C. If the base of a small cube B formed by [the square converted from a rectangle] is moved to a popup window L, the elevation of the base is equal to sea level. To explain it differently, since it is assumed that the popup window J is a cube like B, if the same cube is moved to the position of the popup window L, the specific part of the sea surface A in Fig. 4a is considered to be identical to the rectangle (transformed square) which is the base of the same cube, and to the 'Im Chae-hwan conversion method', 'Im Chae-hwan conversion method 2', and 'Im Chae-hwan conversion method 3' to which word address 1, word address 2, word address 2-2, word address 3-1, and word address 3-2 are applied. A in Fig. 4a above appears as a red dot, but when magnified, it is actually a rectangle. Therefore, among C mounted in the popup window M that opens when N in Fig. 4a is clicked or Fig. 5 If B in Fig. 4a, a small cube formed by, is moved to a pop-up window L that acts as a two-dimensional planar space, then among C The length of or of Fig. 5 If the length is set to 1, the height length of 540, calculated by multiplying 1 by "540", is considered to be the same as the length of the above-mentioned hypothetical elevation line. This is because it is already assumed that the total number of pop-up windows installed in overlap, such as pop-up window J in Fig. 4a and pop-up windows B, C, D, E, F, G, and H in Fig. 32, is 540. Since the world map presented in Fig. 4a is considered identical to the cubes in Figs. 1 and 6, the height edge of the cube mounted on M in Fig. 4a The length 540 times the length is equal to the length of a hypothetical elevation line from sea level to an elevation of 20,003 km (or 9,180 m) above sea level, based on the reference point (origin) of Fig. 4a . The reference point (origin) underlined in Fig. 4a above does not appear on the partial world map of Fig. 4a. The difference in elevation between the pop-up window L and the pop-up window J in Fig. 4a is 540 times. This is because L is not considered a pop-up window that creates a sense of depth, but rather a two-dimensional planar space, and thus points to the sea level. Therefore, if the digit in the third position of the word address 1 of the cube, such as B in Fig. 4a, is changed from 524 to 1, it is assumed that the base of the cube (a square converted from a rectangle) is identical to a specific part of the sea level, which is A in Fig. 4a. This is because P, a rectangle formed by the intersection of the meridian lines formed by 0.666 degrees East longitude and the line of latitude formed by 89.666 degrees North latitude in Fig. 4a, and Q, a rectangular prism formed by 1/540 of the length of the imaginary elevation line from sea level to an elevation of 20,003 km (or 9,180 m) relative to the reference point (origin) in Fig. 4a—which is the location where the prime meridian and the line of latitude formed by 90 degrees North latitude intersect—are considered identical to A, a small cube included in the cube of Fig. 6. The length of or of Fig. 5 This is because the total length calculated by multiplying the length of by 540 was considered to be the same. However, although the above rectangular prism Q is different in shape from the cube of shape B in Fig. 4a, theoretically Q is considered to be a cube of the same shape as B in Fig. 4a. The underlined 'cube with the same shape as B in Fig. 4a' or the above Q is not a cube because, when transformed into a part of the three-dimensional space between sea level and an elevation of 20,003 km based on the entire surface of the actual Earth in offline space, it is a cube or a hexahedron like Fig. 33 where the area of the base of the above Q is smaller than the area of the top face. It is merely assumed to be a cube theoretically only on the screen of the web program in online space, Fig. 4a. This is because, for a cuboid like Fig. 33, the area of the top face located at a higher elevation is larger than the area of the base face located at a lower elevation relative to the Earth's sea level. Therefore, the volume of a cube like the one in Fig. 33 when it exists in space, far from the Earth's sea level, is greater than the volume when it exists in the atmosphere, close to the Earth's sea level. However, the "lines of latitude formed by 90 degrees north" mentioned above do not exist because, in the offline Earth, 90 degrees north is the North Pole, so a "line" cannot be generated, and such lines of latitude do not exist only on a world map where the surface of the Earth (globe) is spread out as a rectangle as in Fig. 21.
3. 1. The "Im Chae-hwan conversion method" for converting Word Address 1 to Word Address 2 is explained as follows. Therefore, by using the same conversion method in reverse, Word Address 2 can be automatically converted to Word Address 1. If we take the English word "hepatomelanosis" as an example hepato, the morpheme located in the first order = 249 = the digit located in the first order of word address 1 249 ÷ 3 = 83 degrees Since 83 degrees East falls within the range from 0 degrees to less than 90 degrees, it becomes 'North Latitude'. Therefore, 90 - 83 = 7 = 7 degrees North latitude (applying decimal to the decimal part) = 7°00'00.0"N(minutes and below are expressed in base-60) = The component located in the first position of Word Address 2 The digit at the second position in word address 1, melan = 110 = word address 1, which is the morpheme located at the second position 110 ÷ 1.5 = 73.333 degrees East 73.333 degrees corresponds to the range from 0 degrees to less than 180 degrees, so it becomes 'East Longitude'. Therefore, 73.333 - 0 = 73.333 = 73.333 degrees East (decimal part applied) = 73°19'58.8"E (apply base 60 for minutes and below) = The component located in the second position of Word Address 2 The morpheme osis located in the third position = 524 = the digit located in the third position of word address 1 524 × 17m = elevation 8,908 m = 8,908m = The component located at the third position in Word Address 2 2. Using the following English sentence as an example, the process and method of converting the English words included in the sentence into Word Address 1 and Word Address 2 are explained as follows. A couple hesitate it that it makes the couple get married that their friends had gotten married early for a serious hepatomelanosis that it is prevailing in the city where tourists call the locality a famous attraction zone. In order to place and fix the English words included in the above English sentence within a world map within a certain screen of a web program whose online URL address is http://cnnunesco3.com, which represents (substitutes) the space from sea level to an altitude of 9,180m (or 20,003km) based on the entire surface of the Earth offline, and to place and fix the English words included in the phrase included in the same English sentence within another world map mounted in a pop-up window installed in the same world map, first, the word address 1 of the said English words must be found, and then the word address 2 must be matched 1:1 with each other using the "Im Chae-hwan style conversion method" based on the said word address 1. Therefore, in order to find the same word address 1, one must first identify the morphemes contained in the English word. In order to identify homonyms, one must find the meanings (=translations) of the homonyms. When the meaning (translation) of the same morphemes is found, the serial number that matches the same meaning (translation) 1:1 can be found by location tracking on the vertical edge of the cube in contact with the vertical axis, the horizontal edge of the cube in contact with the horizontal axis, and the height edge of the cube in contact with the height axis. The homologous morphemes are separated according to the order in which they are located within a single English word, as shown in the example below. hepatomelanosis = hepato + melan + osis Next, as in 'Clause 8 of the means for solving the problem' in the 'specification' of the patent application, the first position "hepato" is found at the vertical edge of the cube in contact with the vertical axis, the second position "melan" is found at the horizontal edge of the cube in contact with the horizontal axis, and the third position "osis" is found at the height edge of the cube in contact with the height axis, and at the same time, the serial number indicated by an Arabic numeral, which is a component of word address 1 that is matched 1:1 with each of the same morphemes, must also be found. Therefore, for the vertical edge of the cube tangent to the vertical axis, → hepato = 249 holds, and For a horizontal edge of a cube tangent to the horizontal axis, → melan = 110 holds, and For a cube's height edge tangent to the height axis, →osis = 524 holds true. Finally, the technique presented in 'Clause 9 of the means for solving the problem' in the 'specification' of this patent application, the "Im Chae-hwan conversion method" and "Im Chae-hwan conversion method 2", and the technique presented in "Table 1" and Figs. 1, 2, 4, and 5 below are converted to word address 2 or word address 2-2 in "Type B of Fig. 3". Refer to FIG. 6 for the above vertical axis, horizontal axis, and height axis. Therefore, the prime meridian → hepato = 249 = 7°00'00.0"N, which represents the length of the vertical edge of the cube in contact with the vertical axis, the line of latitude formed by 90 degrees north latitude → melan = 110 = 73°19'58.8"E, which represents the length of the horizontal edge of the cube in contact with the horizontal axis, and the imaginary line of elevation → osis = 524 = 8,908m, which represents the length of the height edge of the cube in contact with the height axis. However, "Type A of Fig. 3," which is a combination of only latitude and longitude notations excluding elevation notation within parentheses It also becomes word address 2. "Table 1" presented below illustrates the process in which English words are converted from Word Address 1 to Word Address 2 or from Word Address 2 to Word Address 1 within the world map on the screen of the web program, and are placed and fixed at a specific location within the world map. Therefore, the process of combining the morphemes of English words included in the English sentence into English words and the process of becoming Word Address 1 and Word Address 2 are the same as "Table 1". The Word Address 1 and Word Address 2 contained in column ① + ② + ③ of "Table 1" are matched 1:1 with each other by the "Im Chae-hwan conversion method". However, since it is not easy to determine the meanings of the words in the above English sentence by analyzing the morphemes constituting each word, it is easier for the reader (user) to find the meaning (translation) of the English words by applying the reverse order as follows as an alternative, without going through the above process. It is easy to find the target you are looking for if you have prior knowledge of the map shape (terrain) image surrounding the location of the target you are looking for on the screen of the web program with the URL address http://cnnunesco.com. This is because the human brain imprints images (pictures) more easily than text. For example, if one wishes to locate the position of A within the world map in Fig. 4a, as long as one is aware of the map shape (topography) surrounding point A in advance, there is no need to go out of the way to track the morphemes (roots, affixes) that constitute the English word and the components of Word Address 2 within the world map, move them along lines parallel to latitudes, longitudes, and virtual elevation lines (represented by overlapping pop-up windows), and then assemble and combine them into the English word and Word Address 2 at the location where they all intersect to find the meaning of the English word. To explain more specifically, since it is difficult for the user to locate the exact point A they intend to find within the world map, if they roughly recognize the area around A in advance instead of A, moving and touching the mouse cursor over the map shape (terrain) of the surrounding area will automatically display E, a notation similar to coordinate values, in the UR address bar. Therefore, since Word Address 1, which is a notation similar to E, can be converted into Word Address 2 according to the 'Im Chae-hwan conversion method,' the location can be tracked using the latitude and longitude components of Word Address 2, or by using the latitude and longitude that are part of the components of Word Address 2. After locating the position A, if the user clicks on A, a nested popup window J appears in the first order; by converting O, which is the component of Word Address 1 located at the third or later position within J, into a component of Word Address 2 located at the third or later position, the elevation can also be determined. Therefore, this method makes it easy to find the meaning of the English word and Word Address 2. In other words, to supplement the above explanation, even if the user does not know the exact location of point A, they must have memorized in advance, using the English word 'hepatic melanosis' as an example, that 'liver' is located at a certain latitude on the prime meridian (H) on the world map of Fig. 4a, 'black' is located at a certain longitude on the line of latitude formed by 90 degrees north (I), and 'symptom' is located in a certain pop-up window (J) among the superimposed pop-up windows representing altitude . Therefore, this means that by discovering word address 1 based on this memorization, and by using word address 1 to track the location of point A, the user can ultimately discover the location of P and thus extract (produce) the English word for 'hepatic melanosis'. In order to easily find the underlined 'certain latitude on the Prime Meridian' mentioned above, one must memorize in advance the topography corresponding to that certain latitude on the Prime Meridian located on the left side of the world map, and In order to easily find the underlined 'certain longitude on the line of latitudes formed by 90 degrees North latitudes' mentioned above, one must memorize in advance the terrain on the world map that corresponds to the certain longitude on the line of latitudes formed by 90 degrees North latitudes, and In order to easily find the ‘certain popup window J among the overlapping popup windows representing the altitude’ underlined above, one must memorize in advance the terrain corresponding to a certain latitude on the prime meridian located on the right side of the world map representing the imaginary altitude line . However, the underlined term 'a certain latitude on the prime meridian located on the right side of the world map' above refers to a component located in the third or later position among the components of 'Word Address 3-1'. In the case where one knows the Korean word but does not know the English word, as in the example presented in Figure 4a, the 'liver' and 'black' of "liver melanosis" meet at the geographical coordinates of southern India and the left of Sri Lanka, start vertically upward, move to an altitude of 8,908m corresponding to the 'symptom', and settle at that altitude. Therefore, since the location of this settlement is the final destination, tracking of the movement path ends at that location. To summarize the method of tracing morphemes, which are the components of an English word, in reverse order, the user finds H, a popup window corresponding to a cuboid where y (corresponding to the vertical edge of a small cube like B in Fig. 6), x (corresponding to the horizontal edge), and z (corresponding to the height edge) all meet in common on the screen of the web program with the URL address http://newsai.cc/index.html?cols=249&rows=110 in Fig. 11, then finds K, which is the word address 1, then moves from K to y, x, and z to find 249, 110, and 524, which are the components of the word address 1, and finally finds hepato, melan, and osis, which are morphemes that are matched 1:1 with the components, at the same location. In addition, the user finds D, a popup window that is an enlarged version of P, a tangent cuboid that appears as a point where longitude, latitude, and elevation meet within the world map of Fig. 4a corresponding to the screen of the web program with the URL address http://cnnunesco.com//?point=(col=249,row=110), and discovers G, which is Word Address 1 acting as Word Address 2; then the latitude located in the first position of Word Address 2 moves horizontally from G to H, the prime meridian; the longitude located in the second position of Word Address 2 moves vertically from G to I, the line of latitude formed by 90 degrees north latitude; and the elevation located in the third position of Word Address 2 moves vertically upward from G to J, which replaces the imaginary elevation line 524/540 from sea level to an elevation of 9,180m (or 20,003km), and the components of Word Address 2 After finding 7°00'00.0"N, 73°19'58.8"E, 8,908m, the morphemes hepato, melan, and osis, which are matched 1:1 with the same components, are finally found at the same location. The meaning of the underlined phrase above, "D, a popup window enlarged from P, a tangent micro-cube appearing like a dot," is that since the map word A in Fig. 4a is a pixel, a tangent micro-square appearing like a dot, and A is transformed into a tangent micro-cube as it moves to P, it is assumed that D, the popup window enlarged from P, functions as a 'tangent cube' in actual view, but is actually a 'tangent micro-cube' containing a base of the same size as A. However, A is considered to be a square, while P and D are considered to be cuboids. To explain again, pixel A, which is a micro-square, is transformed into a micro-cube as it moves to P, and D is an enlarged version of P. However, regarding the "lines of latitude formed by 90 degrees north," since 90 degrees north is the North Pole, a 'line' cannot be generated on the offline Earth, so such lines of latitude do not exist; they exist only on a world map where the surface of the Earth (globe) is spread out as a rectangle, as in Fig. 21. [Table 1] Word Address 1 and Word Address 2 contained in column ① + ② + ③ of the above "Table 1" are matched 1:1 with each other by the "Im Chae-hwan conversion method". Among "Table 1" above (505.2 439.1) → (505-2 439-1) (311.6*187*258*413.2 1) → (311-6*187*258*413-2 1) (257.8 1) → (257-8 1) (172 313.1*202) → (172 313-1*202) (199 182 414.1) → (199 182 414-1) (390 313.1 414.1) → (390 313-1 414-1) (310*450.3 1) → (310*450-3 1) (311.9*187*258*413.2 313.3*198) → (311-9*187*258*413-2 313-3*198) The notation of word address 1 is changed to this, and in this case, word address 2 must also be slightly changed (adjusted). In the case of (257-8 1) above, 257-8 means that when one space at the 257th position in the top-to-bottom direction is subdivided into 10 vertical sections, 'get' is located in the space at the 8th position in the top-to-bottom direction. Refer to FIG. 36.
4. In claim 3 The length of the prime meridian located on the left side of the world map is equal to the vertical length located on the left side of the rectangle that has the same shape as the border line surrounding the world map. Assuming that the vertical length is 540, and that the user assigns 540 scales to the length of 540, and that a certain single scale among them acts as a substitute for the "topography corresponding to a certain latitude on the prime meridian located on the left side of the world map" underlined in "Claim 3," it is easy to find the "Gan" that matches the position of that certain single scale in a 1:1 ratio if one memorizes it in advance. The length of the line of latitude formed by 90 degrees north latitude in the world map is equal to the horizontal length of a rectangle that is the same shape as the border line surrounding the world map. Assuming that the horizontal length is 540, and that the user assigns 540 scales to the length of 540, and that a certain single scale among them acts as a substitute for the 'topography corresponding to a certain longitude on the line of latitude formed by 90 degrees north latitude in the world map' underlined in 'Claim 3', it is easy to find the 'black' that matches the position of that certain single scale in a 1:1 ratio if one memorizes it in advance. The length of the prime meridian located on the right, which represents a virtual line of elevation above sea level in the world map, is equal to the vertical length located on the right of a rectangle that is the same shape as the border line surrounding the world map. By assuming that the vertical length is 540 and that the user assigns 540 scales to the length of 540, and assuming that a certain single scale represents a certain elevation above sea level, and that the underlined "topography corresponding to a certain latitude on the prime meridian located on the right of the world map" in "Claim 3" represents a certain elevation above sea level, it is easy to find the "symptom" that matches the position of that certain single scale in a 1:1 ratio by memorizing it in advance. Alternatively, the underlined ‘topography corresponding to a certain latitude on the prime meridian located on the right side of the world map’ in ‘Claim 3’, which represents a certain altitude above sea level, can also be represented by the underlined ‘size of the area of the rectangle’ below via ‘word address 3-2’. The 'size of the area of a rectangle' is explained as follows. It is easy to find the 'symptom' that matches in a 1:1 ratio with the area of the rectangle formed by the intersection of the vertical length on the right side of the rectangle, which is the same shape as the border line surrounding the world map and represents the prime meridian located on the right side of the world map, the horizontal length at the bottom of the rectangle, which represents the lines of latitude formed by the 90 degrees south latitude of the world map, the horizontal line (representing the lines of latitude) starting from a certain single mark among the 540 marks of the vertical length on the right side, and the vertical line (representing the lines of longitude) starting from the same mark as the underlined 'certain single mark' among the 540 marks of the horizontal length at the bottom. However, the underlined term 'size of the area of the rectangle' above refers to the component located in the third or later position among the components of 'word address 3-2'. In conclusion, since users must use 540 scales to find locations such as oceans that are difficult to locate using terrain, they need to know a method that combines both.
5. In order to execute map words, a technique that combines Word Address 1 and Word Address 2, before linking and operating web programs such as the one with the URL http://newsai.cc and the one with the URL http://cnnunesco.com, one must understand the principles and techniques for executing the web program with the URL http://newsai.cc independently and the web program with the URL http://cnnunesco.com independently as follows.
6. In claim 5 Principles and techniques for executing a web program with the URL address http://newsai.cc a. When the user enters the digit position of the first position of Word Address 1 in A of Fig. 23 and the digit position of the second position of Word Address 1 in B of Fig. 23, and then clicks C of Fig. 23, the screen changes to Fig. 7, and at the same time, the digit position of the first position among the numbers located at the far right of the URL address displayed in the address bar D of Fig. 7 is changed to the same digit position as the digit position of the first position of Word Address 1 previously entered in A of Fig. 23, and the digit position of the second position among the numbers located at the far right of the URL address displayed in the address bar D of Fig. 7 is changed to the same digit position as the digit position of the second position of Word Address 1 previously entered in B of Fig. 23. For example, if (249 110), which functions similarly to coordinate values, is called Word Address 1, then if the user enters "249," the digit in the first position of Word Address 1, into A of Fig. 23 and enters 110, the digit in the second position of Word Address 1, into B of Fig. 23, and then clicks C of Fig. 23, the screen changes to Fig. 7, which is the screen corresponding to the location pointed to by (249 110), which functions similarly to the coordinate values (249, 110), and at the same time changes to cols=249&rows=110, the rightmost URL address among those displayed in the address bar D of Fig. 7. B. E in Fig. 7 When ▲ is clicked, the non-exposed cell located upward relative to I and H in Fig. 7 and the data mounted in that cell are exposed as they descend downward to reach the position of I and H, and at the same time, the number 249 contained in A in Fig. 7 is changed to a number smaller than 249, and the 249 in the URL address http://newsai.cc/index.html?cols=249&rows=110 displayed in the address bar D is also changed to a number smaller than 249. When ▼ is clicked, the non-exposed cell located downward relative to I and H in Fig. 7 and the data mounted in that cell are exposed as they move upward to reach the position of I and H, and at the same time, the number 249 contained in A in Fig. 7 is changed to a larger number than 249, and the 249 in the URL address http://newsai.cc/index.html?cols=249&rows=110 displayed in the address bar D is also changed to a larger number than 249. When ◀ is clicked, the non-exposed cell located to the left relative to J and H in Fig. 7 and the data loaded in that cell move to the right to reach the position of J and H, becoming exposed, and at the same time, the number 110 contained in B in Fig. 7 is changed to a number smaller than 110, and the 110 in the URL address http://newsai.cc/index.html?cols=249&rows=110 displayed in the address bar D is also changed to a number smaller than 110. When ▶ is clicked, the non-exposed cell located to the right relative to J and H in Fig. 7 and the data loaded in that cell move to the left to reach the position of J and H and are exposed, and at the same time, the number 110 contained in B in Fig. 7 is changed to a number larger than 110, and the 110 in the URL address http://newsai.cc/index.html?cols=249&rows=110 displayed in the address bar D is also changed to a number larger than 110. c. If a coordinate value that functions similarly to an English word or word address 1 is entered into F of Fig. 7, it moves to the screen corresponding to word address 1 that functions similarly to that coordinate value. D. When word address 1 is (249 110 524), clicking G in Fig. 7 causes a popup window like A in Fig. 2 to appear, and this popup window represents the height corresponding to "524" in the above word address 1.
7. In claim 5 Principles and techniques for executing a web program with the URL address http://cnnunesco.com a. For example, assuming Word Address 1 is (249 110 524), K = 249 in Fig. 8 L = 110 in Fig. 8 O in Fig. 9 = (249 110) I = 524 in Fig. 9 G, H in Fig. 9 = (249 110 524) Pointing at "K---L----O" or "K----L----O----I----G,H" in FIGS. 8 and 9 above are connected to each other, so they operate (move) together. Therefore, if the above word address 1 is converted to word address 2 by the "Im Chae-hwan conversion method," 249 in the above Word Address 1 = 7 degrees North latitude 110 in the above word address 1 = 73 degrees 19 minutes 58 seconds East longitude Since 524 in the above word address 1 is converted to an altitude of 8,908 meters above sea level, K in Fig. 8 = 7 degrees North latitude L in Fig. 8 = 73 degrees 19 minutes 58 seconds East longitude O in Figure 9 = 7 degrees North, 73 degrees 19 minutes 58 seconds East I in Fig. 9 = Elevation 8,908 meters G and H in Figure 9 also indicate 7 degrees North latitude and 73 degrees 19 minutes 58 seconds East longitude, with an elevation of 8,908 meters above sea level. thus K = 249 in Fig. 8 = 7 degrees North latitude L in Fig. 8 = 132 = 73 degrees 19 minutes 58 seconds East longitude O in Figure 9 = (249 132) = 7 degrees North, 73 degrees 19 minutes 58 seconds East Figure 9, I = 524 = elevation 8,908 meters G, H of Figure 9 = (249 132 524) = 7 degrees North latitude 73 degrees 19 minutes 58 seconds East longitude, elevation 8,908 meters. B. Function (Operating Principle) for Each Code Word address 1, which occurs at the Type A point in Fig. 1, is a step that passes through to move to the final goal (location) to be found or the Type B point in Fig. 1, and "height," which corresponds to the notation of the component located in the third order among the word address 1 that occurs at the Type B point in Fig. 1, is the final goal (location) to be reached (finally found). For example, if word address 1 is (249 110 524), the image mounted in D of Fig. 9 means a combination of the image mounted in B of Fig. 8 and the image mounted in H. Therefore, the image mounted on B of FIG. 8 expresses the meaning of "249" among the above word address 1 (249 110 524), the image mounted on H of FIG. 8 expresses the meaning of "110", and the image mounted on I of FIG. 9 expresses the meaning of "524". The image mounted on N in Fig. 9 and the video mounted on G have a final combined meaning in which the meaning expressed by the image mounted on I in Fig. 9 is added to the meaning expressed by the image mounted on D in Fig. 9. Therefore, since G in Fig. 9 is considered to function as a substitute for the word address 1 (249 110 524) in the world map on the screen of the above web program, it can be expressed as (249 110 524) = G in Fig. 9. c. "E, F, G, H, I" in Fig. 9 all function as elevations. When the user clicks H in Fig. 9, which corresponds to the screen of the web program http://cnnunesco.com/?point=(col=249,row=110), a nested (double) popup window opens and a cube image, B in Fig. 4a, is loaded. When you click 'I', a nested (double) popup window opens containing an image that expresses the meaning of "524". The nested (double) pop-up window that opens when you click E and F contains images and videos of the Earth's surface captured by a satellite. It can be seen that as the shooting distance (height) of the surface gradually increases (becomes longer), the content of the images and videos of the captured surface gradually shrinks, and as the shooting distance (height) gradually decreases (becomes shorter), the content of the images and videos of the captured surface gradually expands. The underlined phrase above may also utilize 'Google Earth' software. The nested (double) popup window opened by clicking E and F above has the function of running the video and the final scene image loaded in the 'Google Earth' software at the location where the latitude, longitude, and altitude meet within the range from sea level to an altitude of 9,180m above sea level, based on the entire surface of the Earth. Therefore, when word address 1 is (249 110 524), the video and the image function to replace (represent) the word address 1. I believe the underlined elevation above can be replaced with the elevation of the 'camera,' which refers to the "height looking down" indicated in videos and images displayed in the 'Google Earth' software. Therefore, the elevation of the 'camera', meaning the "looking-down height" indicated in videos and images displayed in the 'Google Earth' software = "Viewing height" indicated in videos and images displayed in 'Google Earth' software + "Elevation above sea level" indicated in videos and images displayed in the same software = "Altitude" corresponding to the notation of the component located in the third or later position in Word Address 2 or Word Address 2-2 = 1 component (digit) located at the third or higher position in Word Address 1 = "Height looking down" + Altitude of the Earth's surface captured in video and image form by a camera mounted on a drone or satellite Therefore, English words and word address 1 and word address 2 or word address 2-2 and one image appearing in the 'Google Earth' software are matched 1:1:1:1 with each other. The nested (double) pop-up window opened by clicking E and F contains videos and images of the surface of the earth (=contents) that have been enlarged or reduced by the lens distance adjustment function of the camera mounted on the satellite. When the third number "524" corresponding to the height in the word address 1 (249 110 524) is converted using the "Im Chae-hwan conversion method" and the elevation of the surface of the earth captured is subtracted from the value (=elevation above sea level) , the position where the camera captures is the "height looking down," and thus the degree of enlargement or reduction is determined by the "height looking down." The position where the camera is shooting, underlined above, refers to the actual position where the camera is placed, or a state in which the camera lens is focused as if it were placed at that position, even if it is placed at a position much higher than that position. (1) The video and image that open when you click E and F in the double pop-up window in Fig. 9 are described as follows. (a) The images and videos in the nested (double) pop-up window that opens when you click E and F above are the results of a camera mounted on a satellite looking down at the Earth's surface, but due to the focus (distance) adjustment function of the camera's lens, they should be considered identical to the view of the Earth's surface as seen by the human eye at the "height looking down" indicated on the image displayed in the 'Google Earth' software. The elevation of the 'camera' above, meaning the "height looking down," is the sum of the elevation of the ground surface indicated in the video and image and the "height looking down." This is because in the images displayed on the 'Google Earth' software, the "looking-down height" is labeled as a "camera." Therefore, instead of mounting the camera on a satellite outside the atmosphere, it is assumed that a drone equipped with the camera is launched at a fixed position in the air within 9,180m above sea level. Therefore, the elevation where the camera mounted on the drone is located corresponds to "524", which is the third digit in the case of word address 1, and corresponds to an elevation of 8,908 m in the case of word address 2. ① Altitude (= the position on Earth or in space of a morpheme that is the third or later position in an English word) = "height" in the above word address 1 = "Elevation" in word address 2 or word address 2-2 = The altitude above sea level in the air where a camera-equipped drone or satellite is located = The elevation of the 'camera', meaning "looking down height," among the videos and images displayed in the 'Google Earth' software = "Looking height" indicated in videos and images displayed in 'Google Earth' software + the elevation of the surface above sea level that is the subject of the "looking height" = "Height overlooking the east" + Surface elevation above sea level captured by a camera mounted on a drone or satellite In the images displayed on the 'Google Earth' software, the "looking-down height" is labeled as 'camera'. However, cases where some of the Arabic numerals in Word Address 1, excluding "524", are located underground relative to the surface are excluded, and it is assumed that the drone is only flown up to an altitude of 9,180m above sea level. ② Although photographing the surface of the earth using the focus (distance) adjustment function of the camera lens mounted on the satellite may be considered equivalent to flying a drone as a replacement for the satellite in the air at the "downward viewing height" indicated in the videos and images shown in the 'Google Earth' software, and mounting the said camera on it to photograph the said surface of the earth. Therefore, since word address 1 and word address 2 can be settled in the same drone, it is assumed that an English word is also settled there. Therefore, the "looking height" indicated in videos and images displayed on the 'Google Earth' software = Altitude of a drone mounted on a camera and flown in the air - Altitude of the Earth's surface captured by the focus (distance) adjustment function of a camera lens mounted on a satellite (However, it is assumed that the drone is launched only from sea level to an altitude of 9,180m.) (b) In the nested (double) popup window that opens when you click E and F above ① If Word Address 2 is (33° 36'N 16.65" 126° 38'9"E 1,950m) Among word address 2, 1,950m, corresponding to the altitude above sea level, is "Halla Mountain Baengnokdam" and corresponds to the surface; since this location is a subject of imaging by a camera installed on a satellite, the captured images and videos are loaded into E and F of Fig. 9, where the third morpheme constituting the English word is located, but ② If Word Address 2 is (7°N 73° 19'58.8'E 8,908m) The 8,908m corresponding to the altitude in word address 2 refers to the measurement of altitude above sea level in the air. However, assuming that the measured altitude of the eastern void is unknown, and since there is no target for a camera mounted on a satellite in that void to capture images and videos, it is assumed that as a secondary measure to find the altitude where the English word is located and the morpheme in the third order constituting the word is situated , the location of the eastern void is replaced by a satellite; then, as the satellite cannot replace the location of the eastern void because the altitude of the eastern void is low, it is assumed that the satellite is replaced again by a drone. Therefore, by launching a drone equipped with a camera at the aforementioned location in the void and photographing the surface with the camera to determine the elevation of the surface in the projected video or image using various methods, or by identifying the "elevation of the surface" indicated in the video and image on 'Google Earth' software, and adding the "height looking down" indicated in the video and image on the same software to that elevation, the elevation of the satellite (in the void) equipped with the 'camera' located at that "height looking down" can be determined. Consequently, since the elevation of the aforementioned drone can also be determined, the corresponding elevation where the morpheme in the third position and the corresponding English word are established can ultimately be identified. Thus, this is the principle by which the elevation of the aforementioned void, where the subject of the camera mounted on the satellite does not exist, can be determined. Therefore, since the altitude of the same satellite (empty space) is the same as the height in word address 1 and the altitude in word address 2, the morpheme located in the third order constituting the same English word is settled at the altitude of the same satellite (empty space), and at the same time, the English word is also generated and settled. However, video and images of the Earth's surface taken from the "looking-down height" indicated on the image in the 'Google Earth' software by the focus (distance) adjustment function of the camera lens mounted on the satellite shall be considered identical to video and images of the Earth's surface taken and displayed by a camera mounted on a drone located at the same "looking-down height" in the air, and the camera mounted on the drone may be assumed to be a human eye, but human vision and eyesight have limitations in terms of distance. The reason for considering the launch of a drone to replace the aforementioned satellite is to store English morphemes or English words in the drone. Realistically, it is assumed that the web programs at http://cnnunesco.com and http://cnnunesco3.com are storing the English words and morphemes that the drone needs to keep. (c) Procedure and method for a user to find an English word by looking at the image (map) mounted in E of Fig. 9, which corresponds to the screen of the web program http://cnnunesco.com/?point=(col=249,row=110). ① Official Route "Height looking down" + "Elevation of the surface" indicated in the image mounted on E of Fig. 9 = Elevation in word address 2 or word address 2-2 → Convert to height in word address 1 in reverse order of the "Im Chae-hwan method of conversion" → Search for the converted height (number) in the web program http://news.ai.cc → Find English morphemes that match the converted height (number) in a 1:1 ratio → Click E of Fig. 9, which corresponds to the screen of the web program http://cnnunesco.com, and move horizontally to the left and vertically to the top based on the opened nested (double) popup window to find the remaining morphemes, and discover the resulting English word by combining them. ② Shortcut Route An English word formed by combining the morphemes displayed in the nested (double) popup window is displayed exactly as it is, centered on the left and top edges of the nested (double) popup window opened by clicking E in Fig. 9, which corresponds to the screen of the web program http://cnnunesco.com/?point=(col=249,row=110) above. ③ The image (map) mounted on E of Fig. 9 can be developed into a function such as a QR code or a fingerprint recognition system. Therefore, a single verb image replaces a certain (English) word or a morpheme that is a component of the (English) word. (d) The "height" corresponding to the notation of the component located in the third position of Word Address 1, which occurred at the Type B point in Fig. 1, can be organized as follows into "altitude above sea level" corresponding to the notation of the component located in the third position of Word Address 2 or Word Address 2-2. Assuming that the camera mounted on the satellite initially targeted the morpheme located at the third position among the English words corresponding to altitude in Word Address 2, the morpheme located at the third position = Assuming that the camera mounted on the satellite originally targeted a specific surface, the elevation at which the camera is located = The morpheme located at the third position corresponding to altitude in Word Address 2-2 (It is assumed that the above morphemes and English words are stored by a drone flying at the same altitude as the altitude in Word Address 2.) = The altitude of the camera mounted on the aforementioned drone floating in the air and photographing the surface of the earth = Elevation of the surface + "height looking down" on 'Google Earth' software = Altitude above sea level among the "heights viewed from above" by the human eye = Although the camera is mounted on a satellite, assuming that it is mounted on a drone flying at a "downward-looking height" on the 'Google Earth' software due to the lens's focus (distance) adjustment function, adding the "elevation above sea level" of the surface at the "downward-looking height" to the camera's "downward-looking height" gives the "elevation above sea level" where the drone is located. = "Altitude", the notation for the component located in the third position of Word Address 2 or Word Address 2-2 = "height", the notation for the component located in the third position of Word Address 1 = The morpheme located in the third order that makes up an English word = The meaning of the morpheme (root or affix) located in the third position constituting the words of each country However, assuming that the drone is launched only from sea level to an altitude of 9,180m above sea level, the descriptions listed above do not apply when the surface of the earth being photographed by the camera mounted on the satellite is sea level. (e) In word address 2 or word address 2-2, if the elevation above sea level is fixed, the higher the "height looking down", the lower the "elevation above sea level of the surface" is, and the lower the "height looking down", the higher the "elevation above sea level of the surface" is. Therefore, since the more detailed the image taken by the above satellite, the more magnified it is, it can be assumed that the satellite's camera lens focused on a close distance and that a drone is floating at the altitude of the above word address 2 instead of the satellite. (2) When you click G in Fig. 9, a double popup window opens and a video combining C and F in Fig. 8 or a video combining B and H is played. D. Function of "scrunity", K in Fig. 11 It functions as a link connecting the web program with the URL address http://cnnunesco.com and the web program with the URL address http://newsai.cc.
8. In claim 7 A method to find English words by developing and manufacturing 'image (map) scanning software (device)' go. The method of finding English words using images (maps) of the Earth's surface requires determining the elevation where a virtual drone floating in the air between sea level and an altitude of 9,180m is located. This allows not only to find the morpheme located in the third position that matches that elevation one-to-one, but also to find English words composed of that morpheme, the morpheme located in the first position that matches the latitude one-to-one, and the morpheme located in the second position that matches the longitude one-to-one. Since the "height looking down" is considered to replace the altitude where the virtual drone is located (= the user's eye level), the value calculated by adding the "height looking down" and the "elevation of the surface" displayed in the 'Google Earth' software becomes the total elevation. This total elevation signifies the morpheme located in the third or higher position constituting the English word according to the principle of Word Address 2 or Word Address 2-2, and thus that morpheme and the latitude and 1: You can find English words composed of a combination of the morpheme in the first order matched with 1 and the morpheme in the second order matched with longitude in a 1:1 ratio. Another method for finding English words using an image (map) of the surface is to develop and produce 'software (device) for scanning images (maps)' to find the elevation included in word address 2, thereby finding "height" among word address 1 connected to the said "elevation," and by finding the morpheme located in the third position that constitutes the English word matched 1:1 with the said "height," one can also find the English word composed of that morpheme and two other morphemes connected to it (morpheme matched 1:1 with latitude, morpheme matched 1:1 with longitude). B. When the above image (map), assumed to function as a QR code or fingerprint recognition system, is touch-scanned by the "image (map) scanning software (device)" to be developed and manufactured, the software (device) recognizes and selects an image (map) identical to the scanned image (map) through the following means and procedures, and executes the task of converting it into English words. (1) means Data (content) matched 1:1:1:1 with "English word (word of each country)---word address 1---word address 2---captured image (=map surface)" is set into one group, and groups of the same type are increased in number and pre-combined. The above numerous data (content) matched in a 1:1:1:1 ratio is pre-entered and stored in the 'image (map) scanning software (device)' to be developed and produced. (2) Web program or software or device URL addresses http://newsai.cc and http://cnnunesco.com and http://cnnunesco3.com that link the objects of the above means with each other, and 'Google Earth' software or 'image (map) scanning software (device)' to be developed and manufactured (3) Execution order and method It is assumed that the (English) word, word address 1, word address 2, and "image mounted on E in Fig. 9" are set into a single set matched in a 1:1:1:1 type, and that numerous sets of the same type as said set are pre-stored in 'image (map) scanning software (device)' to be developed and produced in conjunction with 'Google Earth' software (conditions are attached). Therefore, the steps of the ★ table section below are possible due to the device based on the preconditions mentioned above and the data pre-stored in the device. Therefore, the above image (map), assumed to function as a QR code or fingerprint recognition system, is touched and scanned to automatically convert it into Word Address 2, then convert it into Word Address 1 to convert it into an English word, and finally convert it again into words used in various countries around the world to enable selection (searching). Image of the Earth's surface → Touch scan the 'image of the Earth's surface' on the "image (map) scanning software (device)" to be developed and produced → ★ Recognize and select an image identical to the scanned image from among numerous previously stored images ★ → Switch to Word Address 2 → Switch to Word Address 1 → Switch to (English) word. However, if the surface being photographed by the camera is the sea level, the above process is not executed. The underlined steps above will fall under the domain of artificial intelligence (AI) technology development. The above conversion process can be executed in reverse order using the pre-existing 'Google Earth' software. (4) Recognition procedure Captured image (=map surface) → Word address 2 → Word address 1 → English word → Words of each country C. The execution sequence for converting an "image (map or photo) or video" into (English) words by linking a web program with the URL address http://newsai.cc, a web program with the URL address http://cnnunesco.com, software such as 'Google Earth', "Google Maps website," or "image (map) scanning software (device)" to be developed is as follows. The execution sequence for converting (converting) a (English) word into an "image (map or photo) or video" by linking together a web program with a URL address of http://newsai.cc, a web program with a URL address of http://cnnunesco.com, software called 'Google Earth', a "website Google Maps", or "software (device) for scanning images (maps) to be developed and produced", etc., is as follows. (English) Word → Understanding the meaning of the (English) Word → Word Address 1 → Word Address 2 → "Image (map or photo) or video" However, the above execution steps do not apply if the Earth's surface being photographed is an ocean. This is because oceans are almost all identical images. D. To put it another way, the above "C" is a technique for finding the meaning of English words and ultimately the meaning of words of each country by identifying the location on a three-dimensional world map where the action of converting the scanned image (map) to word address 2, then to word address 1, and then to (English) words occurs, thereby allowing one to determine the location on the three-dimensional world map where the action occurs. This is achieved by linking videos and images of the surface of the earth on 'Google Earth' software captured by a camera mounted on a satellite, or videos and images of the surface of the earth captured by a camera mounted on a drone floating in the air between sea level (elevation 0m) and elevation 9,180m, which is sea level, with videos and images of the surface of the earth captured by a camera mounted on a drone floating in the air between sea level (elevation 0m) and elevation 9,180m. E. In order to fix English words on the Earth, particularly in the air, the surface of the Earth is photographed using a camera mounted on a drone (to secure drone footage) instead of a camera mounted on a satellite; although English words should also be stored on the drone, it is practically impossible to fly the drone permanently in the air and difficult to store English words on it. Therefore, the English words are stored in the web programs with the URL addresses http://cnnunesco.com and http://newsai.cc. f. Assuming that a user drags and moves an image (map) of the captured Earth surface, which is mounted in E of FIG. 9 corresponding to the screen of a web program with the URL address http://cnnunesco.com, with a mouse cursor and touches it to the 'image (map) scanning software (device)' to be developed and manufactured, such as a QR code or fingerprint recognition system, and that the software (device) recognizes and selects one image identical to the scanned image (map) from among 540 images (maps) with different degrees of enlargement and reduction already stored by the software (device), the selected image (map) is connected to a component that functions as the height of word address 1 occurring at the same point as type B of FIG. 1, using a calculation method such as the 'multiple clauses of Claim 7' above. However, since Word Address 2 and Word Address 2-2 are valid only if we assume that the shape (degree of magnification, reduction) or quality (resolution) of an image or video resulting from a camera mounted on a drone floating within the 9,180m altitude range capturing a specific surface is identical to the shape (degree of magnification, reduction) or quality (resolution) of an image or video resulting from a camera mounted on a satellite floating within the 20,003,000m altitude range capturing the same specific surface, the performance of the camera mounted on the satellite floating within the 20,003,000m altitude range is much superior to the performance of the camera mounted on the drone . Refer to 'Claim 13' regarding the underlined sentence above. With a calculation method similar to 'Claim 7's multiple items', the point of type B in Fig. 1 corresponds to "height," which is the notation of the component located in the third order of word address 1, but can be converted to "altitude above sea level," which is the notation of the component located in the third order of word address 2, by the "Im Chae-hwan conversion method" so that English words and morphemes can be stored in the drone floating at the said "altitude above sea level". That is, the "height" corresponding to the notation of the component located in the third position of Word Address 1, which occurred at a point of Type B in Fig. 1 having the same elevation as the elevation of the "looking down height" that is the location of the drone equipped with a camera floating in the same void, can be identified by the "Im Chae-hwan style conversion method" as the "elevation" corresponding to the notation of the component located in the third position of Word Address 2. However, this applies only when the subject of filming is land, so it does not apply when the subject is the sea surface. d. By adding the elevation of the surface of the image and the "downward viewing height" where the camera mounted on the drone that filmed the surface is located, the elevation of the drone floating in the air with the camera mounted on it can be determined; therefore, the "elevation" in Word Address 2 or Word Address 2-2 and the "height" in Word Address 1 can also be automatically determined, allowing English words to be found. However, if you do not use the "height" and "sum of the height viewed" displayed on the 'Google Earth' software, you must develop, manufacture, and run the "image (map) scanning software (device)" described in the above "paragraph B" to find the English word and automatically determine the altitude of the drone floating in the air that is storing the English word.
9. In the case where a user wants to move a mouse cursor from the location where word address 1 is (460 378) on the world map on the screen of a web program with the URL address of http://cnnunesco.com to the location where word address 1 is (249 132), by converting the above word address 1 into a combination of latitude and longitude (or a combination of latitude, longitude, and elevation) of word address 2 by the "Im Chae-hwan conversion method," it can be considered that the cursor is moved from "63.333 degrees South latitude 108 degrees West longitude" to the location where "7 degrees North latitude 88 degrees East longitude". The "combination of latitude, longitude, and elevation" within the parentheses above is referred to as a "geographical coordinate system." a. Whenever the user of the above web program moves the mouse cursor , a combination of Arabic numerals similar to the coordinate value appearing on the far right of the URL address in the address bar of the web program changes, and since the changing combination of Arabic numerals is identical to word address 1 or a part of word address 1, it means that word address 1 also changes together. The underlined phrase above refers to E in Fig. 4a and P in Fig. 9. To explain in reverse order, even though the user of the web program mentioned above moved the mouse cursor that was not being watched within the world map while only observing the process of the combination of Arabic numerals appearing on the far right of the URL address in the address bar of the web program gradually changing toward the target final combination of Arabic numerals to be changed, if one traces the path along which the mouse cursor was not being watched, the mouse cursor moved to the final destination by creating the maximum possible shortcut path on its own from the starting point within the world map on the screen of the web program. Therefore, to a third party, it appears as if the user of the web program deliberately moved the mouse cursor along the maximum shortcut path while watching the mouse and the world map. The combination of Arabic numerals L in Fig. 7, appearing on the far right of the URL address in the address bar of the web program, represents Word Address 1 or a part of Word Address 1, and the position of the mouse cursor appearing on the world map on the screen of the web program signifies Word Address 2. Therefore, the fact that Word Address 1 and Word Address 2 perform a conversion operation means that L in Fig. 7, the combination of Arabic numerals appearing on the far right of the URL address in the address bar of the web program, is identical to the position of the mouse cursor appearing on the world map on the screen of the web program. For example, if a user of the web program simply moves and adjusts a mouse cursor out of their field of vision so that (col=460,row=378), which is a combination of Arabic numerals appearing on the far right corresponding to the components or a part of the components of Word Address 1 in the URL address bar of the web program, is gradually changed to a combination of Arabic numerals identical to (col=249,row=132), which also corresponds to the components or a part of the components of Word Address 1—that is, if the above (col=460,row=378) and (col=249,row=132) are considered coordinate values—then the "(col=460,row=378) coordinate value" is directed toward the target "(col=249,row=132) coordinate value" so that the "(col=460,row=378) coordinate value" ultimately becomes identical to the "(col=249,row=132) coordinate value" Whenever the "(col=460,row=378) coordinate values" are gradually changed, each value must be made to be the coordinate value closest to the target value as much as possible. In other words, it means that the coordinate value obtained by subtracting the original coordinate value before the initial change from the final coordinate value to be changed is gradually reduced until it eventually becomes 0. However, in this case, the user of the web program must not monitor the mouse cursor but only the changes in the combination of Arabic numerals appearing on the far right of the URL address in the address bar. Therefore, even though the user only moves the mouse cursor gradually without looking at the mouse cursor and the world map, while focusing their gaze only on the combination of Arabic numerals appearing on the far right of the URL address in the address bar so that the combination of Arabic numerals appears gradually changing, the word address 2, which is automatically converted from word address 1 by the web program, changes gradually, so the mouse cursor eventually moves toward the final destination in the world map on the screen of the web program while automatically creating a shortcut path as short as possible from the starting point. Therefore, to a third party, it appears as if the user of the web program is intentionally moving the mouse cursor while looking at a world map on the screen. To explain in another way, the pilot (like a user) focuses their view on the combination of Arabic numerals (similar to coordinate values) appearing on the far right of the URL address corresponding to word address 1 or a part of word address 1, and gradually controls the movement of the mouse cursor out of view in order to gradually change the combination (coordinate values). In other words, the gradual change of the combination of Arabic numerals (coordinate values) appearing on the far right of the URL address in the address bar and the gradual movement of the mouse cursor are linked to and synchronized by the aforementioned web program. The pilot (user) does not control the movement of the mouse cursor while looking at it, but can simultaneously control the movement of the invisible mouse cursor by only observing the combination of Arabic numerals (coordinate values) appearing on the far right of the URL address in the address bar. To explain further, it can be assumed that even if only the combination of Arabic numerals (similar to coordinate values) is gradually changed, the airplane moves to the destination (destination) by creating the shortest possible path (course) from the starting point itself through word address 2 or a part of word address 2, where word address 1 is automatically converted into latitude and longitude by the web program. B. In the world map on the screen of the web program with the URL address http://cnnunesco.com, the direction of the mouse cursor click on the PC internet and the finger touch (or click) on the mobile device changes as shown in the "Table" below, depending on the word address 1 corresponding to the starting point and the word address 1 corresponding to the destination. [graph] (1) In the above 'table', the components of word address 1 or parts of the components are identical to the combination of Arabic numerals that appear on the far right of the URL address in the address bar of the web program. (2) In order to gradually change the combination of Arabic numerals appearing on the far right of the URL address in the address bar, which has the same function as the components in the first and second order of the components of the word address 1, the user focuses their gaze only on the change of the combination of Arabic numerals so that the combination of Arabic numerals gradually changes to a combination of Arabic numerals that represents the final destination of the original movement, and simultaneously controls the movement of the mouse cursor. Therefore, even if the user does not look at the mouse cursor and the world map, the position of the mouse cursor, which functions as word address 2 or a part of word address 2, appears to have moved like an aircraft's autopilot or an autonomous vehicle, automatically creating a path of the shortest possible distance from the starting point to the destination in the world map on the screen of the web program. To summarize most simply, the user of the above web program focuses their view only on the combination of Arabic numerals located at the far right of the URL address and gradually changes the combination of Arabic numerals by moving and adjusting the mouse cursor that is not within the user's view, but the mouse cursor that is not within the user's view moves by creating the shortest possible course (shortcut) from the starting point to the destination in the world map that is also not within the user's view. The reason is that the aforementioned web program was developed so that Word Address 1 (=combination of the rightmost numbers in the URL address) is automatically converted into Word Address 2 or a part of Word Address 2 (=position of the mouse cursor on the world map).
10. The method of analyzing and loading search terms into the secondary search box, as shown in “C” and “D” of Fig. 11, which indicates that the secondary search box is executed in a web program with the URL address http://newsai.cc, is as follows. The analyzed search terms are referred to as the ‘website word matrix’. Since the same search term is a Korean word, the same search term is first translated into an English word. Then, the same English word is analyzed into several morphemes. The analyzed same morphemes are translated into Korean words and uploaded to the above secondary search box. The result of translating the analyzed same morphemes into Korean words is called the 'mother of the website word'.
11. In Fig. 18 A : Primary search bar B : A button that moves (changes) the cells exposed in C, ⓒ, and ⓓ and the data loaded in those cells. C and D: Secondary search bar E: Indicates that it encompasses all the symbols ▲, ▼, ◀, and ▶. When ⓐ is clicked, the cells exposed in C and ⓒ and the data loaded in those cells move up and down relative to C or ⓒ, and at the same time, the number, which is the component located in the first order of word address 1, which is I, is changed. When ⓑ is clicked, the cells exposed in C and ⓓ and the data loaded in those cells are moved left or right relative to C or ⓓ, and at the same time, the number, which is the component located in the second order of the word address 1 that is J, is changed. When you click ▲ in E, the cell located in the upper direction that is not exposed relative to C moves downward to C and is exposed, and the cell located in the upper direction that is not exposed relative to ⓒ moves downward to ⓒ and is exposed. When you click ▼ in E, the cell located in the lower direction that is not exposed relative to C moves upward to C and is exposed, and the cell located in the lower direction that is not exposed relative to ⓒ moves upward to ⓒ and is exposed. When you click ◀ in E, the cell located to the left of C that is not exposed moves to the right and is exposed to C, and the cell located to the left of ⓓ that is not exposed moves to the right and is exposed to ⓓ. When you click ▶ in E, the cell located to the right of C that is not exposed moves to the left and is exposed to C, and the cell located to the right of ⓓ that is not exposed moves to the left and is exposed to ⓓ. H: Refers to elevation. When the user clicks the elevation, the popup windows acting as the height function for the 'small cube' become connected to each other. I : Indicates the number converted into the component located in the first order of word address 1, which is the English morpheme loaded in the cell exposed in ⓒ and its translation word. Therefore, if the English morpheme and its translation are exposed and hidden, the verb I is also exposed and hidden together. J : Refers to the number converted into the component located in the second order of word address 1, which is the English morpheme loaded in the cell exposed to ⓓ and its translation word. Therefore, if the same English morpheme and its translation are exposed and hidden, the same J is also exposed and hidden together.
12. The satellites indicated in the 'Specification' and 'Claims' of this patent application refer to geostationary satellites that rotate with the Earth's rotation, and although the satellites cannot rotate within an altitude of 20,003 km above sea level, it is assumed that they do rotate.
13. In claim 8 The drone described in the 'Specification' and 'Claims' of this patent application is assumed to be airborne for a long period of time at an altitude of 9,180m or less above sea level. Since the performance of the camera mounted on the drone and the camera mounted on the satellite are different, it is assumed that when comparing the shape (degree of enlargement or reduction) and image quality (resolution) of two images or videos taken when a specific surface of the Earth is photographed with a camera mounted on a drone at a low altitude and when the image is photographed with a camera mounted on a satellite at a high altitude, they are all identical. This is because word address 2 should be applied within the above-mentioned altitude range of 9,180m, and word address 2-2 should be applied within the altitude range of 20,003km. If the condition is that the performance of the two cameras mentioned above is the same, it is assumed that the camera mounted on the drone can photograph the surface of the earth with small focus (distance) adjustment because the altitude is low, and the camera mounted on the satellite can photograph the surface of the earth with large focus (distance) adjustment because the altitude is high. Therefore, it can be assumed that the shape (degree of enlargement or reduction) and image quality (resolution) of two images or videos of the same surface captured are identical to each other.
14. To understand the concepts of the terms 'website word,' 'mother of website word,' and 'dispersion of map word,' watch the YouTube URL https://www.youtube.com/watch?v=KNy6u_vjOpk in advance.
15. Expansive and narrow interpretations regarding latitude and longitude The term "latitude" presented in the "specification" and "claims" of this patent application may be an abbreviation of [distance from 0 degrees North to 90 degrees North - distance from 0 degrees North to ( ) degrees North] or "distance from 90 degrees North to 0 degrees North + distance from 0 degrees South to ( ) degrees South," and the term "longitude" may be an abbreviation of "distance from 0 degrees East to ( ) degrees East" or "distance from 0 degrees East to 180 degrees East" + [distance from 360 degrees West to 180 degrees West - distance from 360 degrees West to ( ) degrees West]. However, the above 'distance' means the distance measured on the sea surface at an elevation of 0m or on the ground at the same height as the sea surface. The concepts of the above terms may also be applied in the explanation process regarding 'word address 2 or word address 2-2 or word address 3-1 or word address 3-2' and the title of the previously filed patent application, 'map word 1', 'map word 2', 'development of map word 1', and 'development of map word 2'. The above is repeated as follows. 'Latitude' = [Distance from 0°N to 90°N - Distance from 0°N to ( )N] or 'Latitude' = 'Distance from 90 degrees North to 0 degrees North + Distance from 0 degrees South to ( ) degrees South' 'Longitude' = 'distance from 0 degrees East to ( ) degrees East' or 'Longitude' = 'Distance from 0 degrees East to 180 degrees East' + [Distance from 360 degrees West to 180 degrees West - Distance from 360 degrees West to ( ) degrees West]
16. The wording in '①' of the 'Table' below, presented in the 'Specification' and 'Claims' of this patent application, may be replaced with the wording in '②'.
17. The wording in '①' of the 'Table' below, presented in the 'Specification' and 'Claims' of this patent application, may be replaced with the wording in '②'.
18. Although the number of small cubes and the number of pop-up windows differ as shown in the calculation details below, in order to match the number of small cubes presented in the 'specification' and 'claims' of this patent application with the number of pop-up windows, the number of such cubes is theoretically assumed to be 157,464,000.
19. The concept of the term "map word" as presented in the "Specification" and "Claims" of this patent application is summarized as follows. a. 'Map words' in the narrow sense We will refer to the red, ultra-small rectangular pixels that look like dots N, Q, and R in Fig. 9, located within the world map on the screen of the web program http://cnnunesco.com. If you click N in Fig. 34, the 'map word dispersion' appears like the popup window group in Fig. 9. Therefore, even if Q and R in Fig. 34 are clicked respectively, the 'dispersion of map words' appears as in the pattern of the popup window group in Fig. 9. (Refer to the YouTube URL https://www.youtube.com/watch?v=KNy6u_vjOpk) B. 'Map words' in a broad sense 'Online geometric words' are considered to be included in 'map words'. Furthermore, English words and words of all languages worldwide operated by word address 1, word address 2, word address 2-2, word address 3-1, word address 3-2, etc., in the web program http://cnnunesco.com, http://cnnunesco3.com, or http://cnnunesco2.com are considered to be included in 'map words'.
20. The term "coordinate value" presented in the "specification" and "claims" of this patent application is not the same concept as a coordinate value in mathematics, but merely a similar concept. This is because in a coordinate value in mathematics, the number on the left is the x value and the number on the right is the y value, whereas in the "coordinate value" indicated in the "specification" and "claims" of this patent application, the number on the left is the y value and the number on the right is the x value.

Description

Development of the Map Word and the process of applying it Ⅱ-2 (3) The development of the Map Word and the process Since this invention is a technique that utilizes data generated during the process of converting English words into map words by fusing the fundamentals of English semantics with IT technology, it can be viewed as a field related to big data or a field that expands the scope of big data. The technology serving as the background for this invention aims to develop principles and methods for integrating morphemes, which are the basis of English semantics, into web programs (platforms) belonging to IT technology as described below; therefore, it is an interdisciplinary convergence field combining the humanities, which encompass English semantics, and the natural sciences, which encompass IT technology. 1. A web program with the URL address http://newsai.cc and the database on said web program 2. A web program with the URL address http://wichijooso.com and the database on said web program 3. A web program with the URL address http://cnnunesco.com and the database on said web program 4. A web program with the URL address http://cnnunesco3.com and the database on said web program 5. The web program with the URL address http://구백년을돌려주면-지도단어-주2.com and the database on said web program 6. The web program with the URL address http://구백년을돌려주면-지도단어-소2.com and the database on said web program Fig. 1 1. Compared to a small cube like "B" in Fig. 6, the cube in Fig. 1 is to be called a "large cube," and the large cube in Fig. 1 is composed of 157,464,000 small cubes like "B" in Fig. 6. The theoretical number of small cubes like A or B in Fig. 6 is 157,464,000. However, the actual method for calculating the number is as follows. 540 small cubes tangent to the horizontal axis × 540 small cubes tangent to the vertical axis × 540 small cubes tangent to the height axis + (540 × 4 corners) = 157,466,160 The underlined part in the above calculation details is the number of small cubes additionally required to make one large cube. This is because four spaces like K in Fig. 7 are generated. In other words, it is to satisfy the space calculated by multiplying 540 times A in Fig. 6, which is in contact with the height axis, by the four corners. 2. The serial numbers from 1 to 540 assigned to the meanings of the 540 morphemes arranged in a row on the vertical corners of the large cube in Fig. 1 exist together with the coordinates, and since the vertical axis touching the vertical corner assigned the serial number corresponds to the origin, the large cube is located in the 4th quadrant, so the Arabic numeral '-' symbol indicating a negative number should be indicated on the serial numbers from 1 to 540, but for convenience, it is decided to omit them. 3. According to the principle of word address 1 = word address 2 = word address 2-2 = word address 3-1 = word address 3-2, the cube of Fig. 1 can be used as a substitute for a world map that functions as a three-dimensional world map by installing a pop-up window on the screen of a web program with a URL address of http://cnnunesco.com or cnnunesco3.com, but if the cube of Fig. 1 is used on the actual offline Earth, the cube of Fig. 1 must be transformed (converted) into a cuboid shape where the area of the top face is larger than the area of the bottom face. Fig. 2 Among the four sections of the screen of the web program with the URL address http://newsai.cc, part a of the left section replaces 1/540 of the vertical edge length adjacent to the vertical axis presented in FIG. 1, part b of the top section of the four sections replaces 1/540 of the horizontal edge length adjacent to the horizontal axis presented in FIG. 1, and part G, a popup window installed in the main section of the four sections, replaces 1/540 of the height edge length adjacent to the height axis presented in FIG. 1. Part D of the main section is an enlarged version of the point of type B in FIG. 1, where the vertical, horizontal, and height meet in common, so that it is changed into a space. Fig. 3 Figure 3 corresponds to the screen of a web program with the URL address http://cnnunesco3.com. It is assumed that the world map of Fig. 3 is transformed (converted) into a rectangular prism or a cube because, after the surface of the earth or globe is transformed into a rectangle as in Fig. 21, it is transformed into a rectangular prism in the first step, and in the second step, a three-dimensional effect is formed by an image mounted in a pop-up window such as type b of Fig. 3 and c of Fig. 4a. That is, the world map within the screen of the web program is a rectangle corresponding to a two-dimensional planar space, but because a sense of depth is formed by the aforementioned pop-up window, etc., it is merely assumed that the world map has been transformed (converted) into a rectangular prism or a cube. The concept of the term 'Earth' or 'globe' above applies to the space from sea level to an elevation of 9,