KR101573190B1 - System and method for measurement of Real-Time Circulation population - Google Patents

Abstract

The present invention relates to a position sensing apparatus for sensing the position of objects as a sample in real time and transmitting the sensed real time position information to the outside; Real-time location information is calculated on the basis of real-time location information received from the position sensing device, real-time location information is mapped on a real time map, real-time mapped points are connected, The method of claim 1, further comprising: displaying a copper line, displaying a moving direction (moving flow) together on the copper line, analyzing the copper line to predict a next path, generating the predicted path data, A floating population index indicating a relative weight of the population of the moving population according to at least one of location, day, time frame, and the characteristics of the floating population is calculated, and a predetermined point at which the flow population is measured when the individual facilities existing within a predetermined distance from the zone, 10m ² per each of the facilities that exist A control unit for calculating a population-based unit representing a population entering and leaving; And a control unit for controlling the control unit so that the real time location information, the real time flow population, the map image data in which the mapping points are displayed, the map image data in which the moving lines are displayed, A real-time floating population measurement system including a database to be stored. The real-time floating population measurement system according to the present invention has an advantage that it can easily acquire the floating population information in real time (update the actual period) and grasp the moving direction (moving flow) of the floating population.

Description

[0001] The present invention relates to a real-time floating population measurement system and method,

The present invention relates to a real-time flow-based population measurement system and method, and more particularly, to a real-time flow-rate measurement system and method capable of easily acquiring flow-based population information in real time and capable of grasping a moving direction And more particularly, to a real-time floating population measurement system and method.

Recently, digital outdoor advertising is widely used as an advertising method for informing consumers about products or services. For this purpose, it is necessary to measure a floating population for a spot or a region where a digital outdoor billboard will be installed.

However, in the case of the conventional floating population measurement, for example, the National Statistical Office (NSO), it was measured by hand counting once every four years, and other private companies and organizations measured it as needed but still There was an inconvenience by using the mechanical system. In addition, this floating population data is not available to accurately reflect the current situation of the past, and it was difficult to grasp the moving direction of the floating population (moving flow).

SUMMARY OF THE INVENTION The present invention has been made in order to solve such a problem, and it is an object of the present invention to provide a method and apparatus for realizing a method for realizing a real- And to provide a real-time floating population measurement system and method useful for outdoor advertising.

However, the technical problems of the present invention are not limited to the above-mentioned problems, and other technical problems which are not mentioned can be clearly understood by those skilled in the art from the following description.

The real-time floating population measurement system according to the embodiment of the present invention,

A position sensing device for sensing a position of a sample as a sample in real time and transmitting the sensed real time position information to the outside; Real-time location information is calculated on the basis of real-time location information received from the position sensing device, real-time location information is mapped on a real time map, real-time mapped points are connected, The method of claim 1, further comprising: displaying a moving line on the copper line, displaying a moving direction (moving flow) together with the moving line, analyzing the copper line to predict a next path, generating the predicted path data, Calculate the floating population index, which represents the relative proportion of the floating population according to at least one of location, day, time zone, and the characteristics of the floating population based on the floating population, If there is an individual facility within a certain distance from the predetermined point or zone, A control device for calculating a population-triggered unit representing the population entering and leaving per 0 m ² ; And a controller for controlling the real time location information, the real time flow population, the map image data on which the mapping points are displayed, the map image data on which the dynamic lines are displayed, the predicted path data, ≪ / RTI >

The control device can classify the route into a weekday route and a weekend route, and each route includes a main route having a densely populated route, (Auxiliary) route that is less dense than the route, and can be displayed on the map.

Wherein when the real-time location information is transmitted to the outside, the location sensing device transmits identification information for identifying the device together, and the control device uses the user information corresponding to the received identification information, The user information may be provided by a communication company server or a terminal manufacturer server of the position sensing device or may be registered in advance in a database interlocked with the control device.

The user information may include at least one of gender, age, income level, marital status, occupation, and hobby.

When the map data on which the mapping points are displayed or the map image data on which the moving lines are displayed is selected, the control device calculates the number of days of the week corresponding to the selected area, (Or a relative ratio) of the selected region and the floating population of the selected region can be popped up.

The control device estimates the actual number of people using the floating population estimation model based on the floating population index, wherein the floating population estimation model includes a floating population index, a distance to a bus or a subway station, a land use, The number of floating population can be estimated by applying the floating commercial population as a dependent variable and the reliable floating population surveyed by the reliable floating population census as the dependent variable.

Of the above independent variables, a weight in inverse proportion to the distance may be applied within a predetermined distance with respect to the distance to a bus or a subway stop.

The control device estimates the number of the floating population by the characteristics of the floating population by using the floating population estimation model, and if the ratio of the characteristics of the data to be selected as the dependent variable is less than the preset value, Can be determined or a correction can be performed.

In addition, according to an embodiment of the present invention,

Detecting in real time the position of objects to be a sample; Receiving the sensed real-time location information and calculating a real-time moving population based on the received real-time location information; Mapping the real-time location information on a map in real time; Displaying the copper wire in real time on a map by connecting the points mapped in real time, and displaying a moving direction (moving flow) on the copper wire together; Analyzing the copper line to predict a next path and generating the predicted path data; Calculating a floating population index indicating a relative weight of the population of the moving population according to at least one of location, day of the week, time period, and characteristics of the floating population based on the real time flow population; If the individual facility exists within a predetermined distance from the predefined point or zone where the flow population is to be measured during the calculation of the floating population index, calculating the population-origin unit representing the population entering and leaving 10m ² of the existing individual facility ; And storing the real-time location information, the real-time traffic population, the map image data on which the mapping points are displayed, the map image data on which the moving lines are displayed, the predicted path data, do.

When the copper line is displayed, it can be classified into a weekday route and a weekend route. In each route, the main route and the copper line distribution in which the copper line distribution is concentrated are less (Auxiliary) route or the like, which are concentrated, and displaying them on a map.

Receiving the real-time location information together with identification information for identifying the device; And analyzing a population of a moving population according to characteristics of a moving population using user information corresponding to the received identification information, wherein the user information includes a function of detecting a location of the sampled objects in real time Or may be configured to be registered in the database in advance.

The user information may include at least one of gender, age, income level, marital status, occupation, and hobby.

When a specific area is selected from the map data on which the mapping point is displayed or the map image data on which the moving line is displayed, the flow amount of the day, day of the week, Popping up an actual screen in which an information window showing the population (or a relative ratio), or the floating population of the selection area and the selection area is displayed.

Based on the above-mentioned floating population index, we estimate the actual flood population using the floating population estimation model. The floating population estimation model is based on the floating population index, the distance from the bus or subway station, the land use, the number of road lanes, And estimating the number of floating population by using the floating population value surveyed by a reliable floating census agency as a dependent variable.

Of the above independent variables, a weight in inverse proportion to the distance may be applied within a predetermined distance with respect to the distance to a bus or a subway stop.

When estimating the number of the floating population by the characteristics of the floating population by using the floating population estimation model, it is determined whether to select the dependent variable according to whether the ratio of the characteristics of the data to be selected as the dependent variable is less than the preset value, And performing a correction.

The system and method for real-time floating population measurement according to the present invention can conveniently acquire the floating population information in real time (real-time update) and can grasp the moving direction (moving flow) of the floating population Effect.

FIG. 1 is a block diagram of a real-time floating population measurement system according to an embodiment of the present invention.
2 is a diagram showing (a) real-time location information, (b) a map showing mapping points, and (c) a map showing copper lines.
3 is a view showing an information window popped up when a specific area is selected on a map in which a copper line is displayed.
4 is a graph showing a weighting graph according to a distance to a bus stop or a subway station applied in the floating population estimation model.
FIG. 5 is a graph comparing the ratios of the floating population data of the Small and Medium Business Administration and the card company data by gender and age.
6 is a flow chart illustrating a method for real-time flow population measurement according to one embodiment of the present invention.

Brief Description of the Drawings The advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the present invention is only defined by the claims.

Like reference numerals refer to like elements throughout the specification.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

It will be appreciated that the combinations of blocks and flowchart illustrations in the process flow diagrams may be performed by computer program instructions.

These computer program instructions may be loaded into a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus, so that those instructions, which are executed through a processor of a computer or other programmable data processing apparatus, Thereby creating means for performing functions.

These computer program instructions may also be stored in a computer usable or computer readable memory capable of directing a computer or other programmable data processing apparatus to implement the functionality in a particular manner so that the computer usable or computer readable memory The instructions stored in the block diagram (s) are also capable of producing manufacturing items containing instruction means for performing the functions described in the flowchart block (s).

The computer program instructions It is also possible to mount on a computer or other programmable data processing equipment, so that a series of operating steps may be performed on a computer or other programmable data processing equipment to create a computer-executed process to perform a computer or other programmable data processing equipment May also provide steps for performing the functions described in the flowchart block (s).

Each block may also represent a portion of a module segment or code that includes one or more executable instructions for executing the specified logical function (s). It should also be noted that in some alternative implementations, the functions mentioned in the blocks may occur out of order. For example, two blocks shown in succession may actually be executed substantially concurrently, or the blocks may sometimes be performed in reverse order according to the corresponding function.

2 is a diagram showing real-time location information, (b) a map showing a mapping point, (c) a map showing a copper line, and FIG. 3 is a diagram showing an information window popped up when a specific region is selected on a map in which a copper line is displayed.

Referring to FIG. 1, a real time floating population measurement system according to an embodiment of the present invention includes a position sensing apparatus 100, a control apparatus 200, and a database 300.

The position sensing apparatus 100 senses the positions of the objects to be sampled in real time and transmits sensed real-time position information (see FIG. 2 (a)) to the outside. At this time, the position sensing apparatus 100 may transmit identification information for identifying the apparatus. The position sensing device 100 may be a Global Positioning System (GPS) receiving terminal possessed by each of the objects to be sampled and may be a smart phone, a PDA (personal digital assistant), a tablet PC (Personal Computer) .

The control device 200 receives the real-time location information and the identification information from the position sensing device 100 and stores the real-time location information and the identification information in the database 300 while analyzing the real-time location information (see FIG. . Specifically, the controller 200 can calculate the real-time moving population of the corresponding point on the basis of the amount of the real-time position information corresponding to the predetermined point when analyzing the real-time position information. Of course, it is also possible to calculate the real-time moving population of the zone based on the amount of real-time location information corresponding to a predetermined zone, which is an area within a certain distance from a specific point, The real-time flow population calculated by the controller 200 is stored in the database 300 and updated in real time, and one or more predetermined points or zones may be present.

The control device 200 can receive user information corresponding to the identification information received from the position sensing device 100 in cooperation with a communication company server or a terminal manufacturer server of the position sensing device 100. To this end, it is assumed that user information is registered in advance in a communication company server or a terminal manufacturer server. Or the identification information of the position sensing apparatus 100 and the corresponding user information respectively stored in the database 300 interlocked with the controller 200 may be registered in advance. The user information corresponding to the identification information received by the position sensing apparatus 100 may include at least one of gender, age, income level, marital status, occupation, and hobby, but is not limited thereto. Accordingly, the control apparatus 200 can analyze the flow population according to the characteristics of the floating population. For example, a point or area with a large amount of men's flow, a point or area with a large amount of women's flow, a point or area having a flow amount of 10 to 20, a point or an area having a high- It is possible to analyze points or areas where the flow volume is high, areas where the flow volume of the population whose occupation is the athlete is high, areas where the flow of the golf population is high or areas where the hobby is the hobby.

In addition, the controller 200 maps real-time position information received from the position sensing apparatus 100 on a map in real time (refer to FIG. 2 (b)). At this time, the control device 200 displays a starting point among the mapped points so as to determine a moving direction (a moving flow). The mapping points can be displayed in different colors for each sample subject. Here, the sample subject means may be an individual, or may be an object belonging to a specific group classified according to the characteristics of the floating population. An example of when mapping points are displayed in different colors for each subject belonging to a particular group is blue color for male, red color for female, yellow color for 10-20 year old, green color for 30-40 year old. And the like.

The control device 200 can display a copper line on a map by connecting points mapped in real time, or display a direction (▶) on a copper line (refer to (c) of FIG. 2). The control device 200 can classify the route into a weekday route and a weekend route, and each route includes a main route having a densely populated route, (Auxiliary) route that is less dense than the main route, and can be displayed on the map. The circles can also be displayed in different colors according to the sample objects as the mapping points. Here, the sample objects may also mean individuals, or objects belonging to a specific group classified according to the characteristics of the floating population.

The mapping point and the copper line are updated in real time corresponding to the real-time position information so that the mapping point and the copper line information can be confirmed in real time. The mapping point and the copper line are composed of one image data per day or predetermined period unit, Thereby making it possible to search data by date or predetermined period unit.

In addition, when a specific area is selected from the map data on which the mapping point is displayed or the map data on which the moving line is displayed, the control device 200 calculates the amount of the moving population by day of the week corresponding to the selected area, (Eg, gender, age, income level, marital status, occupation, hobbies, etc.), and the actual population of the selected population and the selected population can be displayed . In Fig. 3, the area where the Lotte Cinema display panel is located in Gangnam Station is selected. Thus, the area where the Lotte Cinema display panel of Gangnam Station is located and the actual screen where the floating population of this area is displayed and the average floating population of this area, This indicates that an information window popped up indicating the total flow population, the flow population by hour, the flow population by male / female (relative rate), and the flow population by age (relative rate).

Furthermore, the control device 200 may analyze the displayed copper line to predict the next path and generate the predicted path. For example, if the distribution of a copper line passes through a location where a fashion store is located, then the next route can be predicted by a fashion store located within a predetermined distance from the last mapping point.

Then, the control device 200 calculates a floating population index representing a relative weight of the floating population according to at least one of location, day of the week, time period, and characteristics of the floating population on the basis of the calculated real time flow population, ). ≪ / RTI >

The control device 200 is a population-inducing person indicating the population entering and leaving the individual facility 10 m ^{2 in} the presence of an individual facility within a predetermined distance from the preset point or zone where the flow population is to be measured when calculating the floating population index The unit can be calculated. The individual facilities may be apartment, wholesale, distribution center, university, department store, shopping center, movie theater, performance hall, office, public office, general hospital, government investment institution, post office, wedding hall, bank, Thus, the degree of population inducement of individual facilities can be grasped.

In addition, the control device 200 can estimate the actual number of the floating population based on the calculated floating population index. The actual number of flow population of the control device 200 is implemented by a floating population estimation model. The floating population estimation model uses the floating population index, the distance from the bus or subway station, the land use, the number of road lanes, and whether it is the core commercial area as independent variables, And estimates the number of floating population using it as a dependent variable. Dependent variables include the Seoul Metropolitan Government 's floating population data, the Small and Medium Business Administration' s floating population data, card companies' block, day of the week, hourly, gender and age card transactions. In order to apply the floating population estimation model, independent variable attributes are assigned to the roads that can be walked on the map at equal (equal) intervals (for example, 10 m intervals). As an example of an independent variable, a weight inversely proportional to distance may be applied within a certain distance with respect to a distance from a bus or a subway stop. Referring to FIG. 4, as the distance to the nearest bus stop or subway station becomes longer within a certain distance from a specific position, the weight is decreased. 4, if the remaining two conditions are the same, the number of people on the road with a distance of 0 m from the bus stop is 1.18 times higher than the number of people on the road with a distance of 40 m, The number of people on the road with a distance of 0m is 1.63 times higher than the number of persons with a distance of 100m on the road.

Using the floating population estimation model, for example, the average number of floating population in the nation can be estimated by using the number of weekly average floating population (7:00 am - 9:00 pm) among the floating population data in Seoul as a dependent variable.

In addition, when estimating the number of the floating population by the characteristics of the floating population using the floating population estimation model, the control device 200 selects the dependent variable as the dependent variable depending on whether the ratio of the characteristics of the data to be selected as the dependent variable is less than a preset value Can be determined. Or if the ratio of the characteristics of the data to be selected as the dependent variable is less than the predetermined value, the correction may be performed to exceed the predetermined value. Referring to FIG. 5, since the female ratio of credit card companies is low and the ratio of the twenties is low when comparing the ratio of the gender and age of the mobile population data with that of the credit card data of the Small Business Administration, There are limitations on estimating the number of people who live by 20s. Therefore, the controller 200 excludes the selection of credit card data as a dependent variable when estimating the number of floating population by female or twenties, or corrects the female ratio or the twenty rate to exceed the predetermined value.

The control device 200 may be one or more servers or terminals.

The database 300 is operated in conjunction with the control device 200 and includes real-time location information and identification information received from the position sensing device 100, user information corresponding to the identification information, Real time flow population, map image data showing mapping points, map image data showing moving lines, predicted path data, floating population index, estimated floating population, and the like. The information stored in the database 300 is updated in real time.

A real-time floating population measurement method using such a system will be described with reference to FIG.

First, the position sensing apparatus 100 senses the positions of the objects to be sampled in real time and transmits the sensed real-time position information to the outside (S110). At this time, the position sensing apparatus 100 transmits identification information for identifying the apparatus together.

The control device 200 receives the real-time location information and the identification information from the location sensing device 100 and stores the real-time location information and the identification information in the database 300 (S120) (S130). The real-time flow population calculated by the controller 200 is stored in the database 300 and updated in real time.

The control device 200 analyzes the amount of the floating population according to the characteristics of the floating population using the user information corresponding to the identification information received at the position sensing device 100 (S140). The user information may include at least one of gender, age, income level, marital status, occupation, and hobby, but is not limited thereto. The user information may be provided in cooperation with a communication company server or a terminal manufacturer server of the position sensing apparatus 100 or may be provided in a database 300 interlocked with the control apparatus 200.

In addition, the control device 200 maps real-time position information received from the position sensing device 100 on a map in real time (S150). At this time, the controller 200 may display a starting point among the mapped points, and the mapping points may be displayed in different colors according to each sample target. Here, the sample subject means may be an individual, or may be an object belonging to a specific group classified according to the characteristics of the floating population.

Then, the control device 200 connects the points to be mapped in real time to display a copper wire on the map, and displays a direction (▶) on the copper wire together (S160).

The control device 200 can classify the route into a weekday route and a weekend route, and each route includes a main route having a densely populated route, (Auxiliary) route that is less dense than the main route, and can be displayed on the map. Copper lines can also be displayed in different colors, such as mapping points, for each sample subject.

The control device 200 updates the mapping point or the copper line in real time according to the real-time position information so that the mapping point or the copper line information can be confirmed in real time. In addition, a map on which a mapping point is displayed and a map on which a copper line is displayed are formed into one image data per day or a predetermined period unit, and are stored in the database 300.

In addition, when a specific area is selected from the map data on which the mapping point is displayed or the map data on which the copper line is displayed (S170), the control device 200 determines the flow amount of the day, Actual screen showing the information window showing the floating population (or relative ratio) by the characteristics of the population (for example, sex, age, income level, marital status, occupation, hobbies etc.) (S180).

Then, the control device 200 analyzes the displayed copper line and predicts the next path and generates the predicted path (S190).

Also, the control device 200 calculates a floating population index representing a relative weight of the population of the moving population according to at least one of the location, the day, the time zone, and the characteristics of the floating population on the basis of the calculated real- (S200).

If there is an individual facility within a certain distance from the preset point or zone where the flow population is to be measured during the calculation of the floating population index, the controller 200 calculates the population-origin unit of the existing facility (S210).

Then, the control device 200 estimates the actual number of floating population based on the calculated floating population index (S220). The actual number of flow population of the control device 200 is implemented by a floating population estimation model. In order to apply the floating population estimation model, independent variable attributes are assigned to the roads that can be walked on the map at equal (equal) intervals (for example, 10 m intervals).

In addition, when estimating the number of the floating population by the characteristics of the floating population using the floating population estimation model, the control device 200 selects the dependent variable as the dependent variable depending on whether the ratio of the characteristics of the data to be selected as the dependent variable is less than a preset value . Or if the ratio of the characteristics of the data to be selected as the dependent variable is less than the predetermined value, the correction may be performed to exceed the predetermined value.

Information necessary for implementing the above method, information generated according to the above method (real-time position information and identification information received from the position sensing apparatus 100, user information corresponding to the identification information, The map image data showing the mapping points, the map image data showing the moving lines, the predicted path data, the floating population index, the estimated floating population number, etc.) are stored in the database 300 and updated in real time, Search is possible.

Meanwhile, the embodiments of the present invention described above can be implemented in a general-purpose digital computer that can be created as a program that can be executed by a computer and operates the program using a computer-readable recording medium.

The computer-readable recording medium may be a magnetic storage medium (e.g., a ROM, a floppy disk, a hard disk, etc.), an optical reading medium (e.g., CD- Transmission over the Internet).

The present invention has been described with reference to preferred embodiments thereof. It will be understood by those skilled 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. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

As described above, according to the real-time floating population measurement system and method of the present invention, it is possible to conveniently acquire the floating population information in real time and to grasp the moving direction (moving flow) of the floating population.

100: Position sensing device 200: Control device
300: Database

Claims (22)

A position sensing device for sensing a position of a target object in real time and transmitting the sensed real time position information to the outside;
Real-time location information is calculated on the basis of real-time location information received from the position sensing device, real-time location information is mapped on a real time map, real-time mapped points are connected, (Moving flow) is displayed together on the copper line, the copper line is analyzed, the copper line is analyzed to predict the next path, the predicted path data is generated, and based on the real time flow population, · Calculate the floating population index, which represents the relative proportion of the floating population according to at least one of the days, times, and the characteristics of the floating population, and calculates the floating population index from the predetermined point or area when the individual facilities existing within the distance, to 10m per ^second out of each facility to the present A control unit for calculating a population-based unit representing a population; And
Wherein the real time location information, the real time flow population, the map image data on which the mapping points are displayed, the map image data on which the dynamic lines are displayed, the predicted path data, A real-time floating population measurement system that includes a database. The method according to claim 1,
The control device can classify the route into a weekday route and a weekend route, and each route includes a main route having a densely populated route, And a sub-route that is less dense than the route. The method according to claim 1,
The position sensing device transmits together with the identification information for identifying the device when transmitting the real-time position information to the outside,
Wherein the control device analyzes the amount of the floating population according to the characteristics of the floating population using the user information corresponding to the received identification information,
Wherein the user information is provided by a communication company server or a terminal manufacturer server of the position sensing apparatus or is registered in advance in a database interlocked with the control apparatus. The method of claim 3,
Wherein the user information includes at least one of gender, age, income level, marital status, occupation, and hobby. The method of claim 3,
When the map data on which the mapping points are displayed or the map image data on which the moving lines are displayed is selected, the control device calculates the number of days of the week corresponding to the selected area, (Or relative ratio) by the characteristics of the selected region and the selected real-time moving population measurement system that pops up the actual screen where the floating population of the selected region and the selected region are displayed. delete delete delete The method according to claim 1,
The control device estimates the actual number of people using the floating population estimation model based on the floating population index, wherein the floating population estimation model includes a floating population index, a distance to a bus or a subway station, a land use, Real-time flow-based population measurement system that estimates the number of floating population by using floating population value as independent variable and reliable reliable floating population surveying as dependent variable. 10. The method of claim 9,
A real time floating population measurement system in which a weight inversely proportional to a distance within a certain distance is applied to a distance between a bus or a subway station. 10. The method of claim 9,
The control device estimates the number of the floating population by the characteristics of the floating population by using the floating population estimation model, and if the ratio of the characteristics of the data to be selected as the dependent variable is less than the preset value, , Or performing a calibration. Sensing the position of the objects to be sampled in real time;
Receiving the sensed real-time location information and calculating a real-time moving population based on the received real-time location information;
Mapping the real-time location information on a map in real time;
Displaying the copper wire in real time on a map by connecting the points mapped in real time, and displaying a moving direction (moving flow) on the copper wire together;
Analyzing the copper line to predict a next path and generating the predicted path data;
Calculating a floating population index representing a relative weight of the population of the moving population according to at least one of location, day of the week, time of day, and characteristics of the floating population based on the real time flow population;
If the individual facility exists within a predetermined distance from the predefined point or zone where the flow population is to be measured during the calculation of the floating population index, calculating the population-origin unit representing the population entering and leaving 10m ² of the existing individual facility ; And
Storing the real time location information, the real time flow population, the map image data on which the mapping points are displayed, the map image data on which the moving lines are displayed, the predicted path data, and the floating population index in a database Real - Time Flow Population Measurement Method. 13. The method of claim 12,
When the copper line is displayed, it can be classified into a weekday route and a weekend route. In each route, the main route and the copper line distribution in which the copper line distribution is concentrated are less And displaying them on a map by classifying them into densely packed auxiliary paths. 13. The method of claim 12,
Receiving the real-time location information together with identification information for identifying the device; And
Further comprising analyzing a flow amount of the population by the characteristics of the floating population using the user information corresponding to the received identification information,
Wherein the user information is provided by a server or the like that controls a function of detecting the location of the objects to be sampled in real time or is registered in the database in advance. 15. The method of claim 14,
Wherein the user information includes at least one of gender, age, income level, marital status, occupation, and hobby. 15. The method of claim 14,
When a certain area is selected from the map data on which the mapping point is displayed or the map image data on which the moving line is displayed, the flow amount of each day of the day corresponding to the selected area, Popping up an actual screen in which an information window showing the population (or relative ratio), or the floating population of the selected area and the selected area is displayed. delete delete delete 13. The method of claim 12,
Based on the above-mentioned floating population index, we estimate the actual flood population using the floating population estimation model. The floating population estimation model is based on the floating population index, the distance from the bus or subway station, the land use, the number of road lanes, And estimating the number of floating populations using the floating population value surveyed by a reliable separate floating population census agency as a dependent variable. 21. The method of claim 20,
A method for real-time flow population measurement in which a weight inversely proportional to a distance within a certain distance is applied to a distance between a bus or a subway station. 21. The method of claim 20,
When estimating the number of the floating population by the characteristics of the floating population by using the floating population estimation model, it is determined whether to select the dependent variable according to whether the ratio of the characteristics of the data to be selected as the dependent variable is less than the preset value, And performing a calibration based on the measured values.

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