RU2752606C2 - Method for creating autonomous source of geospatial information and using it in interactive mode in absence of communication for transmitting digital data - Google Patents

Abstract

FIELD: cartography.

SUBSTANCE: invention relates to the field of cartography, processing and displaying of geospatial information, computer means of transformation and visual perception of the obtained image; it can be used for obtaining geospatial information about cartographic objects, when working in the absence of communication for transmitting digital data. A method is proposed, in which, in a personal computer (PC) with general and applied software, initial geospatial data is prepared and processed, the map content and legend is developed by forming generalizing conventional signs and inscriptions by thematic content layers. An autonomous source of geospatial information is created, including a modified map and a mobile user terminal with digital geospatial information about terrain objects equipped with a previously created interface module with functions of receiving, searching and displaying on screen geospatial information about terrain objects. During the process of development of content of the modified map and its legend, when forming conventional signs and inscriptions, they are created without taking in account types and semantic characteristics of terrain objects by developing one generalizing conventional sign per each thematic content layer, including objects of the same type of the map content, as well as the single style of an inscription is developed. During the process of preparing a mathematical base of the map, generalizing, technical compiling the original of the modified map, generalizing conventional signs developed for each thematic content layer are used for painting the background of areal conventional signs with different colors, drawing the contours of areal and linear conventional signs, applying extra-scale conventional signs of point objects. In addition, identifiers of all cartographic terrain objects located on the map are formed and applied on the modified map, wherein the same colors are used as those ones selected for generalizing conventional signs of thematic content layers. Decorating and printing of compiled modified map is performed on a paper carrier. Using the interface module created in PC for each terrain object showed on the modified map, the own set of geospatial information is compiled, including its identifier, semantic characteristics, including typical information corresponding to traditional conventional signs, as well as additional information about individual characteristics of the terrain object, including, if necessary, its coordinates, geometric parameters, a photo, a digital metric three-dimensional model of the object, relief or landscape of the given terrain showed on the created modified map. Using the interface module for PC and the interface module for the mobile user terminal, compiled sets of geospatial information about each terrain object showed on the modified map are transmitted from PC to the mobile user terminal. During the process of use of geospatial information using the autonomous source of geospatial information in an interactive mode in the absence of communication for transmitting digital data, the required terrain object showed by the generalizing conventional sign is visually selected on the modified map, its identifier is visually read, entered in the mobile user terminal, the corresponding set of geospatial information is found by it using the interface module, and all semantic and additional information about the given cartographic terrain object is got on the screen in a visual way or using voice assistance.

EFFECT: increase in readability and information content of the map represented in the analogue form, providing a possibility for precepting a landscape and a terrain showed on the map by horizontal lines or by the washing method, providing inclusion of additional semantic information taking into account features of cartographic objects of the terrain, providing a possibility to automatically obtain information about the object in an autonomous way in places, where networks for transmitting digital data, for example Internet, are absent; one more effect is expanding the consumer structure due to users that do not have special cartographic preparation.

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Description

The technical solution relates to the field of cartography, processing and display of geospatial information, computer transformation tools, visual perception of the resulting image, and can be used to create and read cartographic information in the absence of communication for the transmission of digital data.

The known method of drawing up and using maps in traditional cartography [Guide to cartographic and cartographic works. Part 1. Compilation and preparation for publication of topographic maps of scales 1:25 000, 1:50 000, 1: 100 000. [Text]. - M: RIO VTS, 1978], in which in the process of drawing up a map, all geometric (location, shape and size of the terrain object) and semantic (essence and characteristics of the terrain object) information about each cartographic terrain object is recorded on the map in an analog form by one the corresponding graphic object - a conventional symbol. Additionally, the map is supplied with a legend - a list of conventional symbols used with a description of the semantic characteristics of cartographic objects encoded in them. Then, in the process of using the map, the coordinates of the cartographic object are measured on the map, and the semantic information is determined by reading conventional symbols.

The disadvantage of this method is the limitation on the amount of semantic information, due to the capabilities of the cartographic method of transmitting information, as well as the need for special training of users in the process of measuring coordinates, line lengths, areas of objects on the map and reading the map using conventional symbols. Besides, the work with the map is carried out by the user only in the active mode.

The closest in technical essence and set of essential features is the method of compiling thematic, geographical and topographic maps in a traditional analog form (Utrobina, E.S. S. Utrobina. - Novosibirsk: SGGA, 2011. - 101 p.), Taken as a prototype.

This method includes the preparation and processing of sources of cartographic information, the preparation of the mathematical basis of the map, the development of the content of the map and the legend, the technical compilation of the original and generalization, the design of the map. In this case, the map is formed as a set of layers of thematic content. Each layer of the map is formed as a set of mapped objects of one thematic focus. Each object of the layer is displayed with a conventional symbol in a graphical form, corresponding to its semantic characteristics. A separate layer is made up of inscriptions made in a certain font, the choice of which is also determined by the semantic characteristics of the objects. The desire to increase the information content of the map, to obtain a more complete and versatile display of mapped objects and phenomena requires complication and the appearance of new conventional symbols, an increase in the number and content of inscriptions. However, in this case, a well-known contradiction arises between the informativeness and readability of the map, as well as the limitation of the circle of map users, since reading conventional symbols requires special training in memorizing several hundred conventional symbols and types of inscriptions. Therefore, it is necessary to limit the number of conventional symbols, standardize the description of mapped terrain objects and at the same time discard the features of specific objects. In addition, another problem of reading maps is the complexity, inability or inability of many users to mentally perceive the landscape and terrain, shown on the map by contours or a hillshade method. Directly the process of drawing up a map consists in performing the following technological operations:

1. Make up a map legend containing the designation of layers, conventional symbols of all types of objects and inscriptions necessary for use in this map (conventional symbols and the font of inscriptions are taken from known tables of conventional symbols or created by the compilers of this map).

2. Draw on paper or plastic the frame of the card and the coordinate grid.

3. Contours of areal (polygonal) and linear conventional signs are drawn along the coordinates.

4. Draw on the coordinates of the location point of off-scale (point) conventional symbols.

5. Perform generalization of the map content in accordance with the specified map scale.

6. The background of areal conventional signs is painted with different colors in accordance with the developed legend.

7. Draw the contours of areal and linear conventional symbols with different line styles in accordance with the developed legend.

8. Out-of-scale conventional symbols of point objects are applied in accordance with the developed legend.

9. Inscriptions are applied to objects in different fonts in accordance with the developed legend.

Put a legend on an empty spot on the map. Out-of-frame registration of the card is carried out by applying service information outside the card and the card is printed on paper. At the same time, on the legend, all conventional signs are grouped by layers of thematic content, and each conventional sign and inscription containing encoded semantic information is accompanied by a decoding of this information about cartographic objects of the area. While reading the map, a specially trained user can recognize the conventional sign and type of inscription and thus determine the essence and semantic properties of the terrain object displayed on the map. To do this, the user will need to learn a table of conventional symbols containing more than 500 conventional symbols of various configurations and colors (up to 9 colors), as well as up to 15 fonts for inscriptions. An untrained user, while reading a map, must visually memorize the conventional symbol of interest on the map and the font of the inscription, then visually identify them with a similar conventional symbol and inscription in the map legend and read information about the essence and semantic properties of the terrain object displayed on the map in the legend.

The disadvantage of this method is the limitation on the amount of semantic information, due to the capabilities of the cartographic method of transmitting information, as well as the need for special training of users in the process of measuring coordinates, line lengths, areas of objects on the map and reading the map using conventional symbols. In addition, the work with the map is carried out by the user only in the active mode and does not allow receiving information about the mapped terrain objects in places where there are no digital data transmission networks, for example, the Internet.

The technical problem being solved is to increase the efficiency of the use of geospatial information, including in places where a wireless connection for transmitting digital data is not available, that is, there is no stable connection on the Internet, due to the provision of the ability to interactively quickly receive all the necessary geospatial information about terrain objects by improving the readability of a previously compiled modified map using generalizing conventional symbols and increasing information content using a user's mobile terminal with digital geospatial information about terrain objects with a large amount of semantic information, including multimedia, for example, in the form of a photograph of an object, as well as information reflecting any features of specific objects, as well as the possibility of visual perception of the landscape or terrain, shown on the created modified map by contours or by means of washing, due to transmission by means of a digital metric three-dimensional model of an object, relief or landscape of a given area. Also, the problem being solved is to expand the composition of map consumers at the expense of users who do not have special cartographic training.

The problem is solved by the fact that in the presented method of creating an autonomous source of geospatial information and using it interactively in the absence of communication for the transmission of digital data, in which a personal computer (PC) with general and application software prepares and processes the initial geospatial materials, development of the content of the map and legend by forming conventional signs and inscriptions, preparation of the mathematical basis of the map, generalization, technical drawing up of the original, design and printing of the map, while the map is formed as a set of thematic layers of content, according to the technical solution create an autonomous source of geospatial information, including a modified map and a mobile user terminal with digital geospatial information about terrain objects, equipped with a pre-created interface module with functions for receiving, searching and displaying geospatial information about terrain objects, for this on the said PC with general and applied software is additionally loaded with a pre-created interface module for a personal computer with the function of generating sets of geospatial information about terrain objects, then in the said PC with general and application software in the process of developing the content of the modified map and its legend when forming conventional symbols and inscriptions, they are created without taking into account varieties and semantic characteristics of terrain objects by developing one generalizing conventional symbol for each thematic layer of content, including objects of the same type and the content of the map, as well as develop a unified style of inscription, then, in the process of the mentioned stages of preparing the mathematical basis of the map, carrying out generalization, technical drawing up of the original of the modified map, they use generalizing conventional symbols developed for each thematic layer of the content to paint the background of areal conventional symbols with different colors, drawing contours of areal and linear conventional symbols, drawing off-scale conventional symbols of point objects, while additionally forming and applying on the modified map identifiers of all mapped terrain objects located on it, and using the same colors as the selected colors of generalizing conventional symbols of thematic content layers, execute the design and printing of the compiled modified map on paper, then using an interface module for a personal computer for each object of the area shown on the modified map, make up th set of digital geospatial information, including its identifier, semantic characteristics, including typical information corresponding to traditional conventional symbols, as well as additional information reflecting the individual properties of the terrain object, including, if necessary, its coordinates, geometric parameters, photograph , a digital metric three-dimensional model, a terrain or landscape model of a given area shown on the created modified map, using an interface module for a personal computer in said PC and an interface module for a user's mobile terminal, the compiled sets of geospatial information for each object are transmitted from the PC to the user's mobile terminal terrain shown on the modified map, in the process of using geospatial information using an autonomous source of geospatial information in an interactive mode in the absence of communication for the transmission of digital data data, on the modified map visually select the required terrain object, shown by a generalizing conventional sign, visually read out its identifier, enter it into the user's mobile terminal, find the corresponding set of geospatial information using the interface module and receive on the screen visually or with the help of voice support all semantic and additional information about the given cartographic object of the area.

The specified set of features makes it possible to increase the efficiency of the use of geospatial information, by expanding the scope of application of maps in combination with the user's mobile terminal, including in places where a wireless connection for data transmission is not available, that is, there is no stable connection on the Internet, as it provides an opportunity automated receipt of information about terrain objects autonomously, in places where there are no data transmission networks, for example, the Internet, by implementing an interactive mode of operation with an autonomous geospatial information source, including a modified map and a user's mobile terminal with digital geospatial information about terrain objects, equipped with an interface module with the functions of receiving, searching and displaying geospatial information about terrain objects. And also due to a significant increase in the information content and readability of the created autonomous source of geospatial information, since the joint use of generalizing conventional symbols and digital sets of geospatial information allows increasing the amount of semantic information about objects without overloading the map, without introducing new conventional symbols when new objects appear and new required ones. characteristics. The ability to include a larger amount of semantic information, including multimedia, for example, in the form of a photograph of an object, as well as information reflecting any features of specific objects, increases the information content of the modified map. The ability to visually perceive the landscape or terrain, shown on the map by contours or by a shading method, due to the transmission of a given terrain, shown on the created modified map, by means of a digital metric three-dimensional model of the terrain or landscape, also provides an increase in the information content of the created autonomous source of geospatial information, and thereby increases efficiency use of geospatial information. In addition, the specified set of features makes it possible to expand the composition of map consumers at the expense of users who do not have special cartographic training, since a significant reduction by an order of magnitude in the number of conventional symbols used due to the use of a limited set of generalizing conventional symbols increases the readability of the map and eliminates the need for special training of users and studying hundreds of conventional symbols and thereby expanding the circle of map users at the expense of unprepared users.

The essence of the technical solution is illustrated by an example of implementing a method for creating an autonomous source of geospatial information and using it interactively in the absence of communication for transmitting digital data and drawings of FIG. 1-2. FIG. 1 shows a diagram of the process of creating an autonomous source of geospatial information, where 1 - PC 1 with general and applied software (hereinafter - PC 1 with general and applied software), 2 - initial geospatial data 2, 3 - interface module 3 for PC, 4 - user mobile terminal 4, 5 - interface module 5 for the user mobile terminal (hereinafter - interface module 5). FIG. 2 shows a diagram of the process of using an autonomous source of geospatial information in an interactive mode in the absence of communication for transmitting digital data, where 4 is a user's mobile terminal 4, 6 is a modified map with identifiers of terrain objects, compiled using generalized conventional symbols and inscription styles (hereinafter - modified map 6), 7 - user 7 of geospatial information (hereinafter - user 7).

The method of creating an autonomous source of geospatial information and using it interactively in the absence of communication for digital data transmission is carried out as follows (see Fig. 1). In PC 1 with general and application software, the preparation and processing of the initial geospatial data 2, the development of the content of the modified map 6 and its legend by the formation of generalizing conventional symbols and inscriptions, the preparation of the mathematical basis of the modified map 6, generalization, technical drawing up of the original, design and printing modified map 6. The modified map 6 is formed as a set of thematic content layers. For this, an autonomous source of geospatial information is created, including a modified map 6 and a mobile terminal 4 with digital geospatial information about terrain objects, equipped with a pre-created interface module 5 with the functions of receiving, searching and displaying geospatial information about terrain objects. Further, a pre-created interface module 3 for a PC with the function of generating sets of geospatial information about terrain objects is additionally loaded onto the said PC 1 with general and application software. Then, in the aforementioned PC 1 with general and applied software, in the process of developing the content of the modified map 6 and its legend, when forming conventional signs and inscriptions, they are created without taking into account the varieties and semantic characteristics of terrain objects by developing one generalizing conventional symbol for each thematic content layer, including objects of the same type of content of the modified map 6, and also develop a uniform labeling style. Further, in the process of the mentioned stages of preparing the mathematical basis of the modified map 6, carrying out generalization, technical drawing up of the original of the modified map 6, use the generalizing symbols developed for each thematic layer of content to paint the background of areal conventional symbols with different colors, drawing the contours of areal and linear conventional symbols, drawing off-scale conventional symbols of point objects. At the same time, the identifiers of all mapped terrain objects located on it are additionally formed and applied to the modified map 6, and using the same colors as the selected colors of the generalizing conventional symbols of the thematic layers of content, the design and printing of the compiled modified map 6 on paper are performed. Then, using the interface module 3 for a PC, for each terrain object shown on the modified map 6, they compose their own set of geospatial information, including its identifier, semantic characteristics, including typical information corresponding to traditional conventional symbols, as well as additional information reflecting individual properties of the terrain object, including, if necessary, its coordinates, geometric parameters, photograph, digital metric three-dimensional model, terrain or landscape model of the area shown on the created modified map 6. Using the interface module 3 in PC 1 with a common and application software and interface module 5 transmit from PC 1 to the user's mobile terminal 4 the compiled digital sets of geospatial information for each object of the area shown on the modified map 6. Further, in the process of using an autonomous source of geospatial information in the form of a modified data card 6 and mobile terminal 4 in interactive mode in the absence of communication for the transmission of digital data (see. fig. 2), on the modified map 6, the user 7 visually selects the required terrain object shown by a generalizing conventional sign, visually reads its identifier, enters it into the mobile terminal 4, finds a corresponding set of geospatial information using the interface module 5 and receives it on the screen of the mobile terminal 4 visually or with the help of voice support, all semantic and additional information about the required cartographic terrain object.

The level of technological development of the proposed method and technical implementation distinguishes it from a number of existing methods. First of all, this concerns the possibility of the proposed method in an interactive mode, promptly, and automatically receive all the necessary geospatial information about terrain objects in the absence of communication for the transmission of digital data, while the method allows increasing labor productivity in determining semantic characteristics, as well as additional information reflecting individual properties of a terrain object, including, if necessary, its coordinates, geometric parameters, photographs, a digital metric three-dimensional model, a relief or landscape model of a given area, shown on the created modified map of 6 cartographic objects in the field due to the fact that these values are already available in ready-made form in the form of digital sets of geospatial information for each cartographic object of the area. Also, the proposed method allows you to work with the modified map 6 for users 7 who do not have special cartographic training. Software for PC 1 with general and application software in terms of automating the registration of the information received when creating an autonomous source of geospatial information can be implemented, for example, on the basis of modern graphic editors, including all the necessary tools for automating the formation and output of analog information. In the process of working with a modified card 6 and a mobile terminal 4, technical means are used that are highly reliable mobile small-sized devices, for example, smartphones, tablets, etc.

As a result of the implementation of the proposed method, a modified map is obtained, which is significantly different from the traditional map. The fundamental difference between the modified map, compiled according to the proposed method, is that it uses generalizing conventional signs of thematic layers, and identifiers of all mapped terrain objects located on it are formed and applied. A significant reduction, by an order of magnitude, of the number of conventional symbols used due to the use of a limited set of generalizing conventional symbols provides an increase in the readability of the map, eliminates the need for special training of users and the study of hundreds of conventional symbols, expands the circle of map users at the expense of unprepared users. The use of digital sets of geospatial information for each cartographic terrain object to transfer information about terrain objects provides a significant increase in the information content of the map due to the possibility of including a larger amount of semantic information, including multimedia, for example, in the form of a photograph of the object, as well as information reflecting any features of specific objects. In addition, it is possible to visually perceive the landscape or terrain shown on the map by contour lines or by the washing method, due to the transmission of a given terrain or landscape model shown on the created modified map by means of a digital metric three-dimensional model of the terrain or landscape. The use of generalized conventional symbols printed on a modified card in combination with a user's mobile terminal provides the ability to automatically obtain information about an object autonomously, in places where there are no digital data transmission networks, for example, the Internet. Such a joint use of generalizing conventional symbols and digital sets of geospatial information for each cartographic object of the terrain allows increasing the amount of semantic information about cartographic objects without overloading the map, without introducing new conventional symbols when new objects and new required characteristics appear.

The proposed innovative method for creating an autonomous source of geospatial information and using it interactively in the absence of communication for the transmission of digital data allows:

- to receive a cartographic product with completely new properties and functionality;

- to significantly expand the possibilities of using maps and mobile small-sized devices in the field;

- to increase the information content and readability of data on cartographic objects of the terrain, as well as to increase the efficiency of field work, by reducing their volume and increasing the efficiency of obtaining the necessary information, which in general increases the efficiency of using geospatial information;

- to provide the ability to work with the map for users who do not have special cartographic training.

Claims (1)

A method for creating an autonomous source of geospatial information and using it interactively in the absence of communication for transmitting digital data, in which a personal computer (PC) with general and applied software performs: preparation and processing of initial geospatial data, development of map content and legend, by the formation of conventional signs and inscriptions, preparation of the mathematical basis of the map, generalization, technical drawing up of the original, design and printing of the map, while the map is formed as a set of thematic content layers, characterized in that they create an autonomous source of geospatial information, including a modified map and a mobile terminal a user with digital geospatial information about terrain objects, equipped with a pre-created interface module with the functions of receiving, searching and displaying geospatial information about terrain objects, for For this, a pre-created interface module for a PC with the function of generating sets of geospatial information about terrain objects is additionally loaded onto the said PC with general and application software, then in the said PC with general and application software in the process of developing the content of the modified map and its legend during the formation of conditional signs and inscriptions they are created without taking into account the varieties and semantic characteristics of terrain objects by developing one generalizing conventional symbol for each thematic content layer, including objects of the same type of map content, and also developing a single inscription style, then, in the process of the mentioned stages of preparing the mathematical basis of the map, generalization, technical drawing up of the original of the modified map, use the generalizing conventional signs developed for each thematic layer of the content to paint the background of areal conventional signs with different colors, drawing the contours of areal and linear conventional symbols, drawing out-of-scale conventional symbols of point objects, while additionally forming and applying on the modified map identifiers of all mapped terrain objects located on it, and using the same colors as the selected colors of generalizing conventional symbols of thematic layers of content, execute the design and print of the compiled modified map on paper, then using the interface module for the PC for each object of the area shown on the modified map, they compose their own set of geospatial information, including its identifier, semantic characteristics, including typical information , corresponding to traditional conventional signs, as well as additional information reflecting the individual properties of the terrain object, including, if necessary, its coordinates, geometric parameters, photograph, digital metric three-dimensional a model, a model of the relief or landscape of a given area shown on the created modified map, using an interface module for a PC and an interface module for a user's mobile terminal, transmit from a PC to a user's mobile terminal the compiled sets of geospatial information for each terrain object shown on the modified map, in the process of using geospatial information using an autonomous source of geospatial information in an interactive mode in the absence of communication for transmitting digital data, on the modified map visually select the required terrain object shown by a generalizing conventional sign, visually read its identifier, enter it into the user's mobile terminal, find by using the interface module, the corresponding set of geospatial information and receive on the screen, visually or with the help of voice support, all the semantic and additional information about this artographic site.

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