RU2718472C1 - Method of creating and using in interactive mode a source of geospatial information in conditions of absence of communication for digital data transmission - Google Patents

Abstract

FIELD: cartography.

SUBSTANCE: invention relates to cartography, processing and display of geospatial information, computer conversion means, visual perception of the obtained image and can be used to obtain geospatial information on terrain objects when operating in conditions of absence of communication for transmitting digital data. Disclosed is a method in which in a personal computer (PC) with general and application software performing preparation and processing of initial geospatial data and generating a source of geospatial information, which includes a map of terrain and geospatial information in digital form on objects of location located in points of interest, wherein a source of geospatial information is associated with a mobile terminal of a user, having an interface module configured to request and read geospatial information therefrom. Source of geospatial information is formed in the form of a modified map by applying on the traditional analogue map on paper or plastic graphic radio-frequency identification marks (RFID-marks) in points of interest with located on them objects of area within the symbols of these objects with identifiers of these points of interest and user's mobile terminal with RFID-tagged device additionally connected on the RFID-marks recorded on RFID-labels. Pre-assembled digital sets of geospatial information are transmitted from a personal computer to each of the local objects in the user's mobile terminal. In the process of obtaining geospatial information using a source of geospatial information in interactive mode on a modified map, a point of interest is selected visually with the desired terrain object displayed on it, indicated by a symbol, scanning this conditional sign using a reader connected to a mobile user terminal, finding the corresponding RFID label applied to the symbol, reading the identifier of this point of interest and automatically transmitting it to the user's mobile terminal. Using the interface module in the user's mobile terminal, corresponding geospatial information is obtained and all geospatial information on the given area object available in the user's mobile terminal memory is obtained on the screen or by voice support.

EFFECT: technical result is high information value of the map, presented in analog form by providing the possibility to automatically obtain information on the object in places where there are no network for transmitting digital data, for example, the Internet.

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Description

The invention relates to the field of cartography, processing and display of geospatial information, computer-aided conversion, visual perception of the resulting image, and can be used to determine the location, coordinates, geometric and semantic characteristics of terrain using interactive support when working with a map in the absence of communication for digital data transfer, based on the creation and use of a converted graphic card.

There is a traditional way of compiling and using maps in traditional cartography [Guide to cartographic and publishing works. Part 1. Compilation and preparation for publication of topographic maps on a scale of 1:25 000, 1:50 000, 1: 100 000. [Text]. - M: RIO VTS, 1978], in which in the process of compiling the map all geometrical (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 corresponding graphic object - conventional symbol. Additionally, the map is equipped with a legend - a list of conventional symbols with a description of the semantic characteristics of the 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 semantic information is determined by reading the conventional symbols.

The disadvantage of this method is the low accuracy in determining geometric information and the limitation of the amount of semantic information due to the capabilities of the cartographic method of transmitting information, as well as the need for special training for users in measuring coordinates, line lengths, areas of objects on a map and reading a map using the language of conventional signs. In addition, the work with the card is carried out by the user only manually, in the active mode, and is not automated at all, which reduces the efficiency of using the card.

There is also a method of compiling and using interactive maps in digital cartography [Software product geographic information system "MAP 2005 version 12", GIS "Panorama x64". Description of the technology for creating and updating digital topographic maps. PARB.00046-03 93 01, 2018], in which, during the process of compiling the map, all geometric (location, shape and size of the terrain object) and semantic (essence and characteristics of the terrain object) information about each cartographic object of the terrain is fixed on a stationary computer in databases in which the coordinates of cartographic objects are placed in digital form, in the general case - the coordinates of the points of the contours of cartographic objects and semantic Information in the form of codes. Such a digital card is already interactive, because it is used by user interaction with the software and hardware complex in the form of a personal computer (PC). In the process of using a digital map according to the coordinates of the cartographic objects, a graphic image of the map is displayed on the PC monitor screen with the mapping of the cartographic objects of the area with generated conventional signs. In interactive mode, at the request of the user, the coordinates of the cartographic objects and their semantic characteristics are decoded in the form of text from the PC database.

The disadvantage of this method is that it cannot be used in places where a wireless connection for transmitting digital data is not available, i.e. Sustainable Internet connectivity is required. Another disadvantage of this method is that with a large PC monitor, digital cards are inconvenient for use directly on the ground, and with a small PC monitor, for example, in laptops or smartphones, the visibility of the card decreases, which makes it difficult to navigate the terrain in the field. In addition, there are additional inconveniences in connection with the power supply of the PC, its dimensions and weight when used directly on the ground in the field.

The closest in technical essence and combination of essential features is the method of compiling and using maps in mobile digital cartography [United States Patent No. 9,430,858, August 30, 2016, IPC G06T 11/20 (2006.01), publ. http://us-patent.info/patent-search] taken as a prototype.

The essence of this method is that when compiling 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 in a digital source of cartographic information in the form of a stationary cartographic server, which in the databases in digital form are the coordinates of the cartographic objects (in the general case, the coordinates of the points of the contours of the cartographic objects) and semantic information in the form of codes. A stationary map server via the Internet is connected to a user's mobile device, for example, a smartphone or tablet. Then, in the process of using a mobile digital card, a request is made to the server from a user’s mobile device for a specific map section and / or a specific map object. The requested information is generated on the server and transmitted to the user's mobile device in the form of a fragment of a digital map, the coordinates of the object or its semantic characteristics.

The disadvantage of this method is that it cannot be used in places where a wireless connection for transmitting digital data is not available, i.e. Sustainable Internet connectivity is required. The small size of the user's mobile device dramatically reduces the visibility of the map, since it is impossible to see the entire map as a whole, but only fragments of it, which makes it difficult to navigate the terrain in the field. In addition, additional time and resources are required to transfer cartographic information from a remote server to the user's mobile terminal, which also reduces the efficiency of the work performed.

The technical problem to be solved is to expand the scope and increase the efficiency of the use of geospatial information, including in places where a wireless connection for transmitting digital data is not available, i.e. there is no stable Internet connection due to increased visibility, informativeness and accuracy of data on terrain features, increased volumes and forms of presentation of semantic information about terrain features shown on a traditional map by generating a source of cartographic information in the form of a modified map by applying to a traditional analog map on paper or plastic of graphic radio frequency identification tags (RFID tags) at points of interest with local objects located on them within the conventional signs of these objects with identifiers of these points of interest recorded on RFID tags, preliminary compilation of digital sets of geospatial information for each terrain object shown on the modified map with the corresponding symbol, transmission and accumulation of this information in digital form in the memory of the mobile terminal the user, the implementation of the interactive mode when using a modified map, automated obtaining of coordinates, semantic and geometric tion object information areas via a mobile terminal connected to the user device reads the RFID-tag on the modified map identifiers of points of interest. Also, the problem to be solved is to reduce the cost of special cartographic training and expand the composition of card 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 for creating and using an interactive source of geospatial information in the absence of communication for digital data transmission, in which a personal computer (PC) with common and application software prepares and processes the source geospatial data and forms a source geospatial information, which includes a map of the area and geospatial information in digital form about terrain objects located at of interest, while the source of geospatial information is associated with a user’s mobile terminal equipped with an interface module with the ability to request and read geospatial information from it, according to the technical solution, the said source of geospatial information is formed in the form of a modified map by applying graphic to a traditional analog map on paper or plastic radio frequency identification tags (RFID tags) at points of interest with locality objects located on them and within the conventional signs of these objects with identifiers of these points of interest and the user’s mobile terminal recorded on RFID tags with the device additionally connected to it reading RFID tags and with the interface module additionally loaded onto the user's mobile terminal with the functions of receiving and processing signals from the reader RFID tags for the device, accumulation, storage and display of geospatial information about terrain objects marked on a modified map at points of interest RFID tags, with the ability to read and process the signals of the reader RFID tags of the device from RFID tags, receiving and issuing geospatial information on the screen or by means of voice support. The preparation and processing of the initial geospatial data is preliminarily performed in the form of compilation of digital sets for each terrain object and then, using a computer program, they are transferred from the said PC with general and application software to the mentioned mobile user terminal with an interface module with functions for receiving and processing signals from the reading RFID tags of the device, accumulation, storage and display of geospatial information about terrain objects marked on modified map the points of interest RFID-tags, and to read the signal processing unit reading RFID-tags with RFID-tags, and the receipt issuing geospatial information on the screen or voice support means. In the process of obtaining geospatial information using a geospatial information source in an interactive mode, a point of interest is visually selected on the modified map with the desired terrain object located on it, indicated by a conventional symbol, this symbol is scanned using an RFID-reading device connected to the user's mobile terminal , find the appropriate RFID tag within the symbol, read and automatically transmit to the user's mobile terminal dentifikator given point of interest, it is found by using an interface module in a mobile terminal user corresponding geospatial data and is obtained on the screen visually or by using a voice support all mobile user terminal is available in the memory geospatial information about the object area.

The specified set of features makes it possible to increase the efficiency of the use of geospatial information by expanding the scope of use of maps in combination with the user's mobile terminal, including in places where a wireless data connection is not available, that is, there is no stable Internet connection, as it provides the opportunity Automatically obtain information about terrain objects autonomously, in places where there are no data transmission networks, for example, the Internet, by active mode of working with a source of geospatial information, including a modified map and a user’s mobile terminal with digital geospatial information about terrain features, equipped with an interface module with functions for receiving and processing signals from a reader, receiving, searching and displaying geospatial information about terrain objects marked on a modified map at points of interest with RFID tags, with the ability to read and process signals from a reader and with RFID tags, receiving and issuing geospatial information on the screen or by means of voice support, as well as by significantly increasing the information content and readability of the created geospatial information source, since the joint use of conventional signs and digital geospatial information sets allows you to increase the amount of semantic information about objects without overloading the map, without introducing new symbols when new objects and new required characteristics appear. 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 that reflects any features of specific objects, increases the information content of the cartographic support of the user. The possibility of visual perception of the landscape or terrain in the form of three-dimensional models on the screen of the user's mobile terminal, simultaneously with the visual perception of a modified map on which the landscape and terrain are shown by horizontal lines or by washing, also increases the information content of the created source of geospatial information, and thereby increases the efficiency of using geospatial information. In addition, this set of features allows you to expand the composition of card consumers at the expense of users who do not have special cartographic preparation, since a significant reduction in the number of conventional symbols used by using a limited set of conventional symbols increases the readability of the map and eliminates the need for special user training and study hundreds of conventional signs, and thereby expands the circle of card users due to untrained users. Also, this technical solution allows to reduce the cost of special cartographic training for consumers of traditional graphic cards.

The essence of the technical solution is illustrated by an example implementation of a method of creating and using an interactive source of geospatial information in the absence of communication for the transmission of digital data and drawings 1–2. FIG. 1 shows a diagram of the process of creating a source of geospatial information, where 1 is PC 1 s general and applied software (hereinafter referred to as PC 1 with general and applied software), 2 - initial geospatial data on terrain objects 2, 3 - mobile terminal 3 of the user, 4 - modified to art 4 in the form of a traditional analogue card 5 on paper or plastic with printed cartographic radiofrequency identification tags (RFID tags) at points of interest with locally located objects within them of the conventional signs of these objects with identifiers of these points of interest recorded on RFID tags (hereinafter - a modified card 4), 6 - an RFID-reader device 6, 7 - an interface module 7 for a user’s mobile terminal 3 with functions of accumulation, storage and display of geospatial information about ektah areas marked on the map of the modified 4 POI RFID-tags (hereinafter - the interface module 7) 8 - 8 sets of digital geospatial information about each object locality (hereinafter - 8 sets of digital geospatial information).

Figure 2 presents a diagram of the process of using a source of geospatial information in an interactive mode in the absence of communication for digital data transmission, where 3 is a mobile terminal 3 of a user, 4 is a modified card 4, 6 is an RFID-reading device 6, 7 is an interface module 7, 8 - digital sets 8 of geospatial information, 9 - user 9 of geospatial information about terrain objects (hereinafter - user 9).

 The method of creating and using an interactive source of geospatial information in the absence of communication for the transmission of digital data is as follows (see Figure 1). In PC 1, with general and application software, they prepare and process the initial geospatial data 2 about the terrain objects in the form of digital sets of geospatial information about each terrain object shown on the map with the corresponding symbol. The source of geospatial information is formed in the form of a modified map 4 by drawing on a traditional analog map 5 on paper or plastic graphic radio frequency identification tags (RFID tags) at points of interest with local objects located on them within the conventional signs of these objects recorded on RFID tags the identifiers of these points of interest and the mobile terminal 3 of the user with an additionally connected RFID tag reader device 6 and additionally loaded onto the mobile terminal 3 the user interface module 7 with the functions of receiving and processing signals from the RFID reader of the device 6, accumulating, storing and displaying digital sets of geospatial information about terrain objects marked on the modified map 4 at points of interest with RFID tags, with the ability to read and process the signals of the reader devices 6 with RFID tags, receiving and issuing digital sets of geospatial information on the screen or by means of voice support, as well as with the function of automatic connection to Internet in the presence of wireless communication to provide the possibility of obtaining, if necessary, additional information about the terrain. Next, pre-assembled digital sets of 8 geospatial information for each terrain object are transmitted from PC 1 with general and application software to a mobile terminal 3 of the user with an interface module 7 with functions for storing, storing and displaying digital sets of 8 geospatial information about terrain objects marked on a modified map 4 at points of interest with RFID tags, with the ability to read and process signals from reader 6 from RFID tags. User 9 (see Figure 2) in the process of obtaining geospatial information using a geospatial information source in an interactive mode, on a modified map 4 visually selects a point of interest with the required terrain object located on it, indicated by a conventional sign, scans this conventional sign using a readout The RFID tags of the device 6 connected to the mobile terminal 3 of the user, finds the corresponding RFID tag, printed on within the limits of the symbol, reads and automatically transmits to the mob flax terminal 3 the user ID of the point of interest. It finds on it with the help of the interface module 7 in the user’s mobile terminal 3 the corresponding geospatial information and receives on the screen visually or using voice support all the geospatial information available in the memory of the user’s mobile terminal 3 on the given terrain.

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, to quickly, automatically receive all the necessary geospatial information about the terrain in the absence of communication for the transmission of digital data, while the method allows to increase productivity by determining semantic characteristics, as well as additional information that reflects individual properties of the terrain object, including, if necessary, its coordinates, geometric parameters, photographs, digital etricheskuyu three-dimensional model, terrain model, or the landscape of the area shown in the map produced by the modified 4 terrain objects in the field due to the fact that these values are already available as a finished product in the form of digital sets of geospatial information for each object area. Also, the proposed method allows working with a modified map to 4 users 9 who do not have special cartographic preparation. In the process of working with the modified card 4 and the mobile terminal 3, users use technical means that are highly reliable small-sized mobile devices, for example, smartphones, tablets, etc.

As a result of the implementation of the proposed method receive a modified card 4, significantly different from the traditional card. The fundamental difference between the modified map compiled by the proposed method is the application of RFID tags with the identifiers of all terrain objects recorded on them, shown on the modified map with 4 conventional signs. The use of digital geospatial information sets 8 for each terrain object for transmitting information about terrain objects provides a significant increase in the information content of the cartographic support of 9 map users due to the possibility of including more semantic information in them, including multimedia information, for example, in the form of a photograph of an object, as well as information reflecting any features of specific objects. In addition, it is possible to visually perceive the terrain or terrain in the form of three-dimensional models on the screen of the mobile terminal 3 of the user simultaneously with the visual perception of the modified map 4, on which the terrain and terrain are shown horizontally or by washing, which also increases the information content of the created source of geospatial information, and thereby enhances the use of geospatial information. The use of the modified card 4 in combination with the mobile terminal 3 of the user, with the device 6 reading RFID tags connected to it, makes it possible to automatically obtain information about the object autonomously, in places where there are no digital data networks, for example, the Internet. Such sharing of the modified maps 4 and digital sets of 8 geospatial information for each terrain object allows you to increase the amount of semantic information about terrain objects without overloading map, without introducing new symbols when new objects and new required characteristics appear.

The proposed innovative method of creating a source of geospatial information in combination with a mobile terminal 3 of the user, with the device 6 reading RFID tags connected to it and using it interactively in the absence of communication for transmitting digital data, allows you to:

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

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

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

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

Claims (1)

A method of creating and using an interactive source of geospatial information in the absence of communication for the transmission of digital data, in which a personal computer (PC) with common and application software performs the preparation and processing of source geospatial data and generates a source of geospatial information, which includes a map of the area and geospatial information in digital form about terrain objects located at points of interest, while the source of geospatial of tween information is associated with a user’s mobile terminal equipped with an interface module with the ability to request and read geospatial information from it, characterized in that said geospatial information source is formed in the form of a modified map by applying graphic radio frequency identification tags (RFID) to a traditional analog card on paper or plastic -markers) at points of interest with locality objects located on them within the conventional signs of these objects with on RFID tags with identifiers of these points of interest and the aforementioned mobile user terminal with an additional RFID tag reader connected to it and with an additional module loaded onto the user's mobile terminal with the functions of receiving and processing signals from the RFID reader of the device, accumulating, storing and displaying geospatial information about terrain features marked on a modified map at points of interest with RFID tags, with the ability to read and process the signal The device reads RFID tags from RFID tags, receives and displays geospatial information on the screen or by means of voice support, and the preparation and processing of source geospatial data is preliminarily performed in the form of compilation of digital sets for each terrain object and then they are transmitted from a computer program from said PC with general and application software to said mobile user terminal with an interface module with functions for receiving and processing signals from an RFID reader - device tags, accumulation, storage and display of geospatial information and terrain objects marked on a modified map at points of interest with RFID tags, with the ability to read and process signals from an RFID tag reader from RFID tags, receive and display geospatial information on the screen, or by means of voice support, in the process of obtaining geospatial information using a source of geospatial information in an interactive mode, visually select on a modified map a point of interest is located with the required terrain object located on it, indicated by a conventional sign, this symbol is scanned using an RFID-tag reader device connected to the user's mobile terminal, the corresponding RFID tag is printed within the conventional symbol, read and automatically transmitted to the mobile user’s terminal identifier of a given point of interest, find the corresponding geospatial information on it using the interface module in the user's mobile terminal and radiate on the screen visually or with the help of voice support all the geospatial information available in the memory of the user's mobile terminal about the given terrain object.

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