KR101891106B1 - A method and an apparatus for producing magnetic field map using a magnetic field information - Google Patents

Abstract

A method and apparatus for generating a magnetic field map using magnetic field information are proposed.
Particularly, by using a plurality of collecting devices collecting magnetic field information, it is possible to reduce the time consumed in collecting magnetic field information, and to convert the magnetic field information having non-uniform intervals into magnetic field information having a predetermined interval, It is possible to provide a method and an apparatus for generating a magnetic field map by using magnetic field information that can maintain the accuracy of the magnetic field map evenly.

Description

Field of the Invention [0001] The present invention relates to a method and apparatus for generating a magnetic field map using magnetic field information,

The following embodiments relate to a magnetic field map generation and apparatus using magnetic field information.

A method of collecting and storing information for generating a magnetic field map using moving objects includes a method in which a moving object collects and stores magnetic field information while moving all points (positions) necessary for map production, And a method of collecting and storing magnetic field information by using a measuring device at every point within a range of a map to be measured without movement of the magnetic field.

These methods collect the magnetic field information by using the number of moving objects or cells (or points), and store the collected magnetic field information in a map form. However, this approach can increase the time required to create and store a magnetic field map, or generate a map with magnetic field information for unwanted points.

In addition, if the information is too crowded in a certain range, the accuracy of the map may not be constant, which may be a cause of reducing the degree of newness of the generated map.

A method of generating a magnetic field map using magnetic field information according to an embodiment includes collecting magnetic field information of each of the at least one collection device using at least one collection device having mobility; And generating a magnetic field map for a region including a measurement range corresponding to each of the at least one acquisition device, based on the measurement range corresponding to each of the at least one acquisition device and the magnetic field information.

The measuring ranges corresponding to each of the at least one collecting device may be the same range or different ranges from each other.

The sizes of the measurement ranges corresponding to each of the at least one collection device may be the same or different from each other.

Wherein collecting the magnetic field information of each of the at least one acquisition device comprises: dividing the entire measurement range of the magnetic field map into a measurement range for each of the at least one acquisition device; And collecting magnetic field information for the divided measurement ranges from each of the at least one acquisition device.

The divided measurement range may include at least one of a floor of a building, a height of a space and a space on a plane that are located within the divided measurement ranges.

The method may further include determining whether magnetic field information for all positions necessary to generate the magnetic field map has been collected.

Determining whether or not there is magnetic field information collected in duplicate among the collected magnetic field information based on whether magnetic field information for all of the positions is collected; And setting a representative value of the magnetic field corresponding to the corresponding position based on the magnetic field information collected redundantly.

The step of generating the magnetic field map may include generating the magnetic field map using the representative value of the magnetic field corresponding to the corresponding position.

The mobility of the at least one acquisition device may not depend on the measurement range corresponding to each of the at least one acquisition device.

The method may further include storing magnetic field information of each of the at least one acquisition device.

The magnetic field information of each of the at least one collecting device may have a certain interval or a non-uniform interval.

The spacing may be a distance based on distance, time, frequency, and magnitude of the magnetic field.

Determining whether the magnetic field information of each of the at least one collection device has an unequal interval; And converting the magnetic field information having the non-uniform interval into the magnetic field information having the constant interval based on the determination result.

The step of converting into the magnetic field information having the constant interval may further include a step of converting the actual distance, the required time, the frequency, and the magnitude of the magnetic field and the magnetic field information having the non- The magnetic field information having the interval can be converted into the magnetic field information having the constant interval.

An apparatus for generating a magnetic field map using magnetic field information according to an embodiment includes a collecting unit for collecting magnetic field information of each of the at least one collecting apparatus using at least one collecting apparatus having mobility; And a generator for generating a magnetic field map for an area including a measurement range corresponding to each of the at least one collection device, based on the measurement range corresponding to each of the at least one collection device and the magnetic field information.

The measuring ranges corresponding to each of the at least one collecting device may be the same range or different ranges from each other.

The sizes of the measurement ranges corresponding to each of the at least one collection device may be the same or different from each other.

The collecting unit including: dividing means for dividing the entire measuring range of the magnetic field map into a measuring range for each of the at least one collecting device; And collecting means for collecting magnetic field information for the divided measuring ranges from each of the at least one collecting device.

The divided measurement range may include at least one of a floor of a building, a height of a space and a space on a plane that are located within the divided measurement ranges.

And a determination unit for determining whether or not the magnetic field information for all the positions necessary for generating the magnetic field map has been collected.

A duplication determining unit for determining whether or not there is magnetic field information collected in duplicate among the collected magnetic field information based on whether magnetic field information for all of the positions is collected; And a representative value setting unit for setting a representative value of the magnetic field corresponding to the position based on the magnetic field information collected redundantly.

The generator may generate the magnetic field map using the representative value of the magnetic field corresponding to the corresponding position.

The mobility of the at least one acquisition device may not depend on the measurement range corresponding to each of the at least one acquisition device.

And a storage unit for storing magnetic field information of each of the at least one collection device.

The magnetic field information of each of the at least one collecting device may have a certain interval or a non-uniform interval.

The spacing may be a distance based on distance, time, frequency, and magnitude of the magnetic field.

An interval determining unit for determining whether or not the magnetic field information of each of the at least one collecting apparatus has an unequal interval; And a conversion unit for converting the magnetic field information having the non-constant interval into the magnetic field information having the predetermined interval based on the determination result.

Wherein the converting unit converts the magnetic field information having the irregular intervals into the predetermined interval based on the relationship between the actual distance, the required time, the frequency, and the magnitude of the magnetic field and the magnetic field information having the irregular intervals, To the magnetic field information having the magnetic field.

According to one embodiment, by using a plurality of collection devices for collecting magnetic field information, it is possible to reduce the time consumed in collecting the magnetic field information, and improve the accuracy and reliability of the collected magnetic field information.

Also, according to an embodiment, it is possible to reduce unnecessary or redundant information by converting the magnetic field information having irregular intervals into the magnetic field information having a constant interval, while maintaining the accuracy of the magnetic field map uniformly.

FIG. 1 is a flowchart illustrating a method of generating a magnetic field map using magnetic field information according to an embodiment.
2 is a diagram illustrating a method of collecting magnetic field information using at least one acquisition device in accordance with one embodiment.
3 is a diagram illustrating a method of collecting magnetic field information using at least one acquisition device in accordance with another embodiment.
4 is a flowchart illustrating a method of generating a magnetic field map using magnetic field information according to another embodiment.
5 is a magnetic field map generated based on magnetic field information having non-uniform spacing according to an embodiment.
FIG. 6 is a magnetic field map obtained by converting magnetic field information having an irregular interval according to an embodiment into magnetic field information having a predetermined interval.
7 is a block diagram of an apparatus for generating a magnetic field map using magnetic field information according to an embodiment.
8 is a block diagram of an apparatus for generating a magnetic field map using magnetic field information according to another embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. In addition, the same reference numerals shown in the drawings denote the same members.

FIG. 1 is a flowchart illustrating a method of generating a magnetic field map using magnetic field information according to an embodiment.

A device for generating a magnetic field map using magnetic field information according to an embodiment (hereinafter referred to as a " generating device ") collects magnetic field information of each of at least one collecting device using at least one collecting device having mobility ).

Hereinafter, the 'at least one collecting device having mobility' includes not only a robot for collecting magnetic field information but also a mobile terminal having mobility by a user's movement and a sensor installed or attached to an object having mobility, It can include all devices that can be measured.

In addition, 'magnetic field information' refers to the magnitude of the magnetic field affecting the collecting device, the direction of the true north, the direction of the magnetic north, the component values of the three axes (x, y and z axes) A Fourier transform value of the magnetic field, and a magnetic field map for some area, some area, or building generated using the above-described information.

The generating device may collect or receive magnetic field information from at least one collecting device through cellular communication, WiFi, internet communication or other communication functions. Also, the generating device can transmit and store the magnetic field information and the magnetic field map to the external device through the communication function described above.

At 101, the generating device may divide the entire measurement range of the magnetic field map into a measurement range for each of the at least one acquisition device, and then collect magnetic field information for the divided measurement ranges from each of the at least one acquisition device. ]

A method in which the generating device divides the entire measuring range of the magnetic field map into a measuring range for each of the at least one collecting device and each of the at least one collecting device collects the magnetic field information for the divided measuring range, have.

At this time, the divided measuring range may include at least one of a floor of a building, a height of a space and a space on a plane which are located within the divided measuring ranges. For example, suppose that the entire measurement range of the magnetic field map is a four-story building and there are four collection devices.

The generating device divides each layer (1, 2, 3 and 4) of the building into four measurement ranges, or divides the planar space in one layer into four measurement ranges so that each of the at least one collection device So that the magnetic field information can be collected.

In addition, the generating device can be divided into a measuring range for each of the at least one collecting device by dividing the height of the space in the same manner as the height from the bottom to 2.5 meters, the height from 2.5 meters to 4 meters, .

The measuring ranges (areas) corresponding to each of the at least one collecting device may be the same range (area) or a range (area) different from each other. In addition, the size (area) of the measurement range corresponding to each of the at least one collecting device may be the same or different from each other.

Thus, the magnetic field information collected by at least one acquisition device may have the same value with each other.

Furthermore, the mobility of the at least one acquisition device may not depend on the measurement range corresponding to each of the at least one acquisition device. Thus, the at least one acquisition device can move freely to an area other than the predetermined measurement range in which it measures the magnetic field information.

A method of generating a magnetic field map using the collected magnetic field information by at least one collecting device freely moving will be described with reference to FIG.

The generating device may store the magnetic field information of each of the at least one acquisition device (103).

The generating device may determine whether magnetic field information for all positions necessary to generate a magnetic field map has been collected (105). Here, all the positions necessary for generating the magnetic field map may include a wide range such as all points of the building to be displayed on the map of the magnetic field, all points in the area, and the like.

If the magnetic field information for all positions at 105 is not collected, the generating device may go back to 101 to collect the magnetic field information of each of the at least one acquisition device.

If, on the other hand, the magnetic field information for all positions at 105 is collected, the generating device may determine whether there is overlapping collected magnetic field information among the collected magnetic field information (107).

If there is magnetic field information collected in duplicate at 107, the generating device can set a representative value of the magnetic field corresponding to the corresponding position based on the magnetic field information collected in duplicate (109).

At this time, the representative value of the magnetic field corresponding to the corresponding position may be an average value of the magnetic field information collected at the corresponding position, or a maximum value, a minimum value, or a middle value of the magnetic field information collected at the corresponding position.

However, if there is no magnetic field information collected redundantly at 107, then the generating device may go to 111 to generate a magnetic field map for the area containing the measurement range corresponding to each of the at least one acquisition device.

The generating device may generate a magnetic field map for a region including a measurement range corresponding to each of the at least one acquisition device using a representative range of the magnetic field corresponding to the measurement range and corresponding position of the at least one acquisition device (111).

2 is a diagram illustrating a method of collecting magnetic field information using at least one acquisition device in accordance with one embodiment.

The generating apparatus according to an embodiment may include N collecting apparatuses 201, 203, 203 and 207 as shown in FIG. 2, and it is also possible to use the N collecting apparatuses 201, 203, 203 and 207 for all positions necessary for generating a magnetic field map Magnetic field information can be collected.

The generating device can define the measurement range for each of the N collection devices by dividing the entire measurement range of the magnetic field map into the measurement ranges for each of the N collection devices.

The generating device may generate a magnetic field map of a certain region using a measurement range defined for each of N collecting devices and then generate a magnetic field map for the entire measurement range by synthesizing a magnetic field map of each of the N collecting devices.

For example, the collecting device 1 (201) collects the measuring range 1 (210), the collecting device 2 (203) collects the measuring range 2 (220) Apparatus 4 (207) may collect magnetic field information for measurement range 4 (240). Accordingly, the generating apparatus can generate a magnetic field map for the entire measurement range by synthesizing the magnetic field information (or magnetic field map) for each measurement range.

The generating device may store a magnetic field map of a given area and a magnetic field map of the entire measuring range.

At this time, the measuring range for each of the N collecting devices may be divided in a sequential manner as shown in FIG. 2, or indiscriminately for each collecting device. Also. The measuring range for each of the collection devices can be divided based on the floor of the building, the height of the space and the space on the plane.

3 is a diagram illustrating a method of collecting magnetic field information using at least one acquisition device in accordance with another embodiment.

The mobility of at least one acquisition device in accordance with one embodiment is not dependent on the measurement range. Therefore, as shown in FIG. 3, the N collecting devices 301, 303, 305, and 307 can move to free paths 310, 320, 330, and 340 to collect magnetic field information. At this time, the magnetic field information collected by the N collecting devices 310, 320, 330, and 340 may overlap each other.

If it is determined that the magnetic field information for all the positions necessary for generating the magnetic field map is collected, the generating apparatus can determine whether or not there is the magnetic field information collected redundantly among the collected magnetic field information.

The generating apparatus can make all positions (or points) in the magnetic field map have only one magnetic field information by setting a representative value of the magnetic field corresponding to the corresponding position (or point) at which the magnetic field information is collected. The representative value of the magnetic field may be, for example, an average value of the magnetic field information collected at the corresponding position, or a maximum value, a minimum value, or a middle value of the magnetic field information collected at the corresponding position.

That is, the magnetic field information about all the positions necessary for generating the magnetic field map is collected, and if each position has one magnetic field information value, the magnetic field map for the entire measurement range can finally be generated.

When the magnetic field information is collected using a plurality of collecting devices as shown in FIGS. 2 and 3, the time for generating the magnetic field map can be greatly reduced in proportion to the number of collecting devices.

4 is a flowchart illustrating a method of generating a magnetic field map using magnetic field information according to another embodiment.

The generating device according to another embodiment collects the magnetic field information of each of the at least one collecting device using at least one collecting device having mobility (401). As described above, the at least one collecting device having mobility includes all devices capable of measuring magnetic field information, such as a mobile terminal and a sensor carried by a moving or stationary user, as well as a robot for moving and collecting magnetic field information .

The magnetic field information collected by each of the at least one collecting device in 401 may be magnetic field information having a constant interval or an irregular interval. Here, the interval may be a distance based on distance, time, frequency, and magnitude of the magnetic field.

The generating device may determine whether the magnetic field information of each of the at least one collecting device has an unequal interval (403).

If it is determined in step 403 that the magnetic field information of each of the at least one collecting device has a predetermined interval, the generating device performs the process of step 407.

Based on the determination result of 403, if the magnetic field information of each of the at least one collecting device has an interval that is not constant, the generating device can convert the magnetic field information having a certain interval to the magnetic field information having a predetermined interval ).

At 405, the generator generates magnetic field information having an irregular interval based on the relationship between the actual distance, the required time, the frequency, and the magnitude of the magnetic field and the magnetic field information having irregular intervals, It can be converted into magnetic field information.

For example, assuming that the actual distance of the point interval is 5 Km and the magnetic field information (for example, the change amount of the magnetic field) is 20 in the magnetic field information having the unequal interval (2Cm) on the magnetic field map as shown in FIG. 5 lets do it. Then, the generating apparatus calculates magnetic field information having a certain interval by using a proportional equation between the actual distance between the point interval and the actual distance and the magnetic field information in the magnetic field information having the constant interval (2.5Cm) It can be converted into magnetic field information.

The generating device may determine whether the magnetic field information for all positions necessary to generate the magnetic field map have been collected (407). Here, all the positions necessary for generating the magnetic field map can be used to include all points that are to be displayed on the map of the magnetic field, that is, all points of the building and all points of the area.

If the magnetic field information for all positions is not collected at 407, then the generating device may go back to 401 to collect the magnetic field information of each of the at least one acquisition device.

If, on the other hand, the magnetic field information for all positions at 407 is collected, the generating device may generate a magnetic field map for the region including the measurement range corresponding to each of the at least one collecting device (409).

5 is a magnetic field map generated based on magnetic field information having non-uniform spacing according to an embodiment.

At least one acquisition device 501 of the generating device according to an embodiment may collect or store the magnetic field information at irregular intervals as shown in FIG.

Therefore, the generating apparatus can use the magnetic field information collected at irregular intervals as it is or convert the magnetic field information collected at irregular intervals into the magnetic field information at a constant interval. In addition, the generating apparatus may collect or store the magnetic field information by moving the collecting apparatus at predetermined intervals as shown in FIG. The magnetic field information collected at regular intervals can be collected by moving at least one collection device at regular intervals.

Here, the interval means an interval 510 between points, and may be an interval based on distance, time, frequency, and magnitude of a magnetic field.

FIG. 6 is a magnetic field map obtained by converting magnetic field information having an irregular interval according to an embodiment into magnetic field information having a predetermined interval.

The magnetic field map 610 generated by the magnetic field information having the irregular intervals collected by the at least one collecting device 601 is converted into the magnetic field information having the constant interval to generate the magnetic field map 630, Lt; / RTI >

As shown in 630 of FIG. 6, the magnetic field map generated by using the magnetic field information having a constant interval reduces redundant or unnecessary information, so that the accuracy of the map can be made even.

7 is a block diagram of an apparatus for generating a magnetic field map using magnetic field information according to an embodiment.

An apparatus 700 for generating a magnetic field map using magnetic field information according to an embodiment may include a collecting unit 710 and a generating unit 730. The generating apparatus 700 may further include a storage unit 720, a determination unit 740, a duplication determination unit 750, and a representative value setting unit 760.

The collection unit 710 collects the magnetic field information of each of the at least one collection device using at least one collection device having mobility. Here, the mobility of the at least one acquisition device may not depend on the measurement range corresponding to each of the at least one acquisition device.

In addition, the collecting unit 710 may include a dividing unit 703 and a collecting unit 705. [

The dividing means 703 can divide the entire measuring range of the magnetic field map into a measuring range for each of the at least one collecting device.

The collection means 705 can collect, from each of the at least one collection device, the magnetic field information for the divided measurement ranges. Here, the divided measuring range may include at least one of a floor of a building, a height of a space and a space on a plane that are located within the divided measuring ranges.

The generating unit 730 generates a magnetic field map for an area including a measurement range corresponding to each of the at least one collecting device based on the measurement range and the magnetic field information corresponding to each of the at least one collecting device.

Here, the measuring ranges corresponding to each of the at least one collecting device may be the same range or different ranges from each other. In addition, the size (area) of the measurement range corresponding to each of the at least one collecting device may be the same or different from each other.

The storage unit 720 may store the magnetic field information of each of the at least one collection device.

The magnetic field information collected by each of the at least one acquisition device may have a constant spacing or a non-uniform spacing.

Here, the interval means an interval based on the distance, time, frequency, and magnitude of the magnetic field.

The determination unit 740 may determine whether or not the magnetic field information for all the positions necessary for generating the magnetic field map has been collected.

The duplication determining unit 750 may determine whether there is magnetic field information that is collected redundantly among the collected magnetic field information, based on whether or not magnetic field information about all positions is collected.

The representative value setting unit 760 can set a representative value of the magnetic field corresponding to the corresponding position based on the magnetic field information collected by the collecting unit 710 redundantly. Accordingly, the generator 730 can generate the magnetic field map using the representative value of the magnetic field corresponding to the corresponding position.

8 is a block diagram of an apparatus for generating a magnetic field map using magnetic field information according to another embodiment.

The generating apparatus 800 according to another embodiment includes a collecting unit 810 and a generating unit 830. The generating apparatus 800 may further include a storage unit 820, an interval determination unit 840, and a conversion unit 850.

The collection unit 810 collects the magnetic field information of each of the at least one collection device using at least one collection device having mobility.

Here, the mobility of the at least one acquisition device may not depend on the measurement range corresponding to each of the at least one acquisition device.

The storage unit 820 may store the magnetic field information of each of the at least one collection device.

Here, the magnetic field information of each of the at least one collecting device may have a constant interval or a non-constant interval.

Here, the interval may be a distance based on distance, time, frequency, and magnitude of the magnetic field.

The generating unit 830 generates a magnetic field map for an area including a measurement range corresponding to each of the at least one collecting device based on the measurement range and the magnetic field information corresponding to each of the at least one collecting device.

Here, the measuring ranges corresponding to each of the at least one collecting device may be the same range or different ranges from each other. In addition, the size (area) of the measurement range corresponding to each of the at least one collecting device may be the same or different from each other.

The interval determination unit 840 can determine whether the magnetic field information of each of the at least one collection device has an interval that is not constant.

The converting unit 850 can convert the magnetic field information having the non-constant interval into the magnetic field information having the constant interval based on the determination result. The transforming unit 850 transforms the magnetic field information having irregular intervals into a predetermined interval based on the relationship between the actual distance, the required time, the frequency, and the magnitude of the magnetic field and the magnetic field information having irregular intervals To the magnetic field information having the magnetic field.

The method according to an embodiment of the present invention can be implemented in the form of a program command which can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by equivalents to the appended claims, as well as the appended claims.

700: Device for generating a magnetic field map using magnetic field information
710:
720:
730:
740:
750:
760: Representative value setting section

Claims (31)

Collecting magnetic field information of each of said at least one acquisition device using at least one acquisition device having mobility; And
Generating a magnetic field map for a region including a measurement range corresponding to each of the at least one acquisition device based on the measurement range and the magnetic field information corresponding to each of the at least one acquisition device
Lt; / RTI >
The step of generating the magnetic field map
Determining whether there is magnetic field information that is collected in duplicate among the collected magnetic field information when magnetic field information about all positions necessary for generating the magnetic field map is collected;
Setting a representative value of a magnetic field corresponding to the position based on the magnetic field information collected redundantly; And
Generating a magnetic field map using a representative value of a magnetic field corresponding to the corresponding position
And generating a magnetic field map using the magnetic field information. The method according to claim 1,
The measurement range corresponding to each of the at least one collection device
A method of generating a magnetic field map using magnetic field information that is the same range or different from each other. The method according to claim 1,
The size of the measurement range corresponding to each of the at least one collection device
A method of generating a magnetic field map using magnetic field information that is the same or different from each other. The method according to claim 1,
The step of collecting magnetic field information of each of the at least one acquisition device
Dividing the entire measurement range of the magnetic field map into a measurement range for each of the at least one acquisition device; And
Collecting magnetic field information for the divided measurement range from each of the at least one acquisition device
And generating a magnetic field map using the magnetic field information. 5. The method of claim 4,
The divided measurement range
Wherein the magnetic field information includes at least one of a floor of the building, a height on the space, and a space on a plane located within the divided measurement ranges. The method according to claim 1,
Determining whether magnetic field information for all positions necessary to generate the magnetic field map has been collected
And generating a magnetic field map using the magnetic field information. delete delete The method according to claim 1,
The mobility of the at least one acquisition device
Wherein the magnetic field map is generated using magnetic field information that is not dependent on a measurement range corresponding to each of the at least one acquisition device. The method according to claim 1,
Storing the magnetic field information of each of the at least one acquisition device
And generating a magnetic field map using the magnetic field information. The method according to claim 1,
The magnetic field information of each of the at least one acquisition device
A method of generating a magnetic field map using magnetic field information having a constant spacing or a non-uniform spacing. 12. The method of claim 11,
The spacing
A method of generating a magnetic field map using magnetic field information at intervals based on distance, time, frequency, and magnitude of a magnetic field. Collecting magnetic field information of each of the at least one acquisition device, the magnetic field information having a constant interval or a non-uniform interval using at least one acquisition device having mobility;
Determining whether the magnetic field information of each of the at least one collection device has an unequal interval;
Converting the magnetic field information having the non-uniform interval into the magnetic field information having the constant interval based on the determination result; And
Generating a magnetic field map for a region including a measurement range corresponding to each of the at least one acquisition device based on the measurement range corresponding to each of the at least one acquisition device and the converted magnetic field information
And generating a magnetic field map using the magnetic field information. 14. The method of claim 13,
The step of converting into the magnetic field information having the constant interval
Based on the relationship between the actual distance, the required time, the frequency, and the magnitude of the magnetic field and the magnetic field information having the irregular intervals, the magnetic field information having the irregular intervals is divided into a magnetic field A method for generating a magnetic field map using magnetic field information converted into information. A computer-readable recording medium having recorded thereon a program for executing the method according to any one of claims 1 to 6 and 9 to 14. A collector for collecting magnetic field information of each of said at least one collection device using at least one collection device having mobility;
A duplication determining unit for determining whether there is magnetic field information collected in duplicate among the collected magnetic field information when magnetic field information about all positions necessary for generating a magnetic field map is collected;
A representative value setting unit for setting a representative value of a magnetic field corresponding to the position based on the magnetic field information collected redundantly; And
A generator for generating a magnetic field map for an area including a measurement range corresponding to each of said at least one collection device, based on a representative value of the magnetic field and a measurement range corresponding to each of said at least one collection device
Lt; / RTI >
The generating unit
And generates a magnetic field map by using a representative value of the magnetic field corresponding to the corresponding position, using the magnetic field information. 17. The method of claim 16,
The measurement range corresponding to each of the at least one collection device
And generates a magnetic field map by using magnetic field information which are the same range or mutually different ranges. 17. The method of claim 16,
The size of the measurement range corresponding to each of the at least one collection device
An apparatus for generating a magnetic field map using the same or different magnetic field information. 17. The method of claim 16,
The collecting unit
Dividing means for dividing the entire measuring range of the magnetic field map into a measuring range for each of the at least one collecting device; And
Collecting means for collecting magnetic field information for the divided measuring ranges from each of the at least one collecting device
To generate a magnetic field map using the magnetic field information. 20. The method of claim 19,
The divided measurement range
And generating magnetic field maps using the magnetic field information including at least one of a layer of a building, a height on a space, and a space on a plane located within the divided measurement ranges. 17. The method of claim 16,
A determination unit for determining whether magnetic field information for all positions necessary for generating the magnetic field map is collected,
To generate a magnetic field map using the magnetic field information. delete delete 17. The method of claim 16,
The mobility of the at least one acquisition device
Wherein the magnetic field map is generated using magnetic field information that is not dependent on a measurement range corresponding to each of the at least one acquisition device. 17. The method of claim 16,
A storage unit for storing magnetic field information of each of the at least one collection device,
To generate a magnetic field map using the magnetic field information. 17. The method of claim 16,
The magnetic field information of each of the at least one acquisition device
A device for generating a magnetic field map using magnetic field information having a constant spacing or a non-uniform spacing. 27. The method of claim 26,
The spacing
A device for generating a magnetic field map using magnetic field information that is spaced based on distance, time, frequency, and magnitude of a magnetic field. A collector for collecting magnetic field information of each of said at least one collection device using said at least one collection device having mobility, said magnetic field information having a constant interval or a non-uniform interval;
An interval determining unit for determining whether or not the magnetic field information of each of the at least one collecting apparatus has an unequal interval;
A conversion unit for converting the magnetic field information having the non-constant interval into the magnetic field information having the constant interval based on the determination result; And
A generator for generating a magnetic field map for an area including a measurement range corresponding to each of said at least one collection device, based on said measurement range corresponding to each of said at least one collection device and said converted magnetic field information,
And generates a magnetic field map using the magnetic field information. 29. The method of claim 28,
The conversion unit
Based on the relationship between the actual distance, the required time, the frequency, and the magnitude of the magnetic field and the magnetic field information having the irregular intervals, the magnetic field information having the irregular intervals is divided into a magnetic field And generates a magnetic field map using the magnetic field information converted into information. 14. The method of claim 13,
The spacing
A method of generating a magnetic field map using magnetic field information at intervals based on distance, time, frequency, and magnitude of a magnetic field. 29. The method of claim 28,
The spacing
A device for generating a magnetic field map using magnetic field information that is spaced based on distance, time, frequency, and magnitude of a magnetic field.

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