KR20220085226A - Internet-of-thing based floating population analysis system and method thereof - Google Patents

Abstract

The present invention relates to an Internet of Things-based floating population analysis system and method, and more particularly, through an access point (AP), which is one of the Internet of things (IoT) devices, which are installed by distinguishing areas. By detecting mobile terminal identification information of a short-range wireless signal transmitted by a user mobile terminal of a user visiting and moving an area, floating population analysis information corresponding to users visiting and moving the area and the area including the area is obtained. It relates to an IoT-based floating population analysis system and method for generating and managing, and providing the area information and floating population analysis information to a customer mobile terminal of the corresponding area through the access point.

Description

Internet-of-thing based floating population analysis system and method thereof

The present invention relates to an Internet of Things-based floating population analysis system and method, and more particularly, through an access point (AP), which is one of the Internet of things (IoT) devices, which are installed by distinguishing areas. Detects mobile terminal identification information of a short-range wireless signal transmitted by a mobile terminal (hereinafter referred to as "user mobile terminal") of a person visiting and moving an area (hereinafter referred to as "user"), including the area and the area Internet of Things-based floating population that creates and manages floating population analysis information corresponding to users visiting and moving to an area, and provides the area information and floating population analysis information to a customer mobile terminal in the corresponding area through the access point It relates to analytical systems and methods.

In general, people visit various regions other than the one in which they live to observe various resources such as culture, nature, ecology, customs, lifestyles of local people, and living resources of other regions.

Such tourism develops the tourism-related industry in the region, increases the income of local residents through employment increase, contributes to the overall economy of the region, improves the local pride of the region by improving the external image of the region, and rediscovers and reinterprets the traditional culture of the region , and provides various effects such as recycling of local idle resources.

In addition, although tourism provides the above effects, it has negative effects such as destruction of ecosystem environment, destruction of traditional culture and commercialization, destruction of traditional order and norms, induction of various pollution, and encroachment of traditional industries and small and medium-sized businesses in the region by large external capital. It may also create an effect.

In order to minimize the negative effects and maximize the positive effects, well-established regional tourism policies are required.

In order to establish such a tourism policy, a tourism policy maker must collect and analyze various information related to tourism.

In general, tourism policy makers have mainly used tourism floating population data provided by mobile carriers and tourist card usage data provided by card companies.

However, in the case of data provided by mobile carriers and credit card companies, it is statistical data generated based on data from the previous year or previous quarter, not at the time of decision-making, and there is a problem that cannot satisfy rapidly changing tourism trends and the needs of tourists. have.

Therefore, the development of a real-time data-based floating population analysis system for timely decision-making that can satisfy tourism trends and the needs of tourists is required.

Republic of Korea Patent Registration No. 10-1687494 (2016.12.19. Announcement)

Therefore, an object of the present invention is to transmit a user mobile terminal of a user who visits and moves the area through an access point (AP), which is one of the Internet of things (IoT) devices installed by distinguishing the area. By detecting the mobile terminal identification information of the short-range wireless signal, generating and managing floating population analysis information corresponding to the users visiting and moving the area and the area including the area, and the customer in the area through the access point An object of the present invention is to provide an IoT-based floating population analysis system and method for providing the area information and floating population analysis information to a mobile terminal.

The IoT-based floating population analysis system according to the present invention for achieving the above object is: Installed at a specific location within the area in at least one area having a plurality of areas, from the user's mobile terminal of the user within the area By receiving the transmitted short-range wireless signal, detecting the mobile terminal identification information included in the short-range wireless signal according to the short-range wireless communication method, and generating area floating population analysis information of the corresponding area based on the detected mobile terminal identification information a plurality of edge sensor units that transmit, generate captive portal service information for the area floating population analysis information and provide it to the user mobile terminal; and an analysis server unit that collects regional floating population analysis information from the edge sensor unit to generate regional floating population analysis information for each region, generates web service information including regional floating population analysis information, and provides it through a website characterized in that

The edge sensor unit includes a wireless communication unit that performs wireless data communication with the user mobile terminal according to the short-range wireless communication method, and a wired communication unit that is connected to a wired/wireless data communication network by wire to perform data communication with the analysis server unit. communication department; a sensor storage unit including an analysis DB for storing the generated area floating population analysis information and a portal DB for storing the captive portal service information; and a short-range wireless signal including mobile terminal identification information transmitted from the user's mobile terminal of the user within the area through the wireless communication unit according to a short-range wireless communication method, and based on the detected mobile terminal identification information, A flow analysis unit that generates area floating population analysis information and transmits it to the analysis server unit through the wired communication unit, and a captive portal service information for the area floating population analysis information is generated and transmitted to the user mobile terminal through the wireless communication unit It characterized in that it comprises a sensor control unit having a captive portal service processing unit to provide.

The flow analysis unit monitors whether a short-range wireless signal including mobile terminal identification information transmitted from a user mobile terminal of a user within the area through the wireless communication unit is received, and outputs the received short-distance wireless signal monitoring unit; a mobile terminal identification information extraction unit for receiving the short-range wireless signal from the short-range wireless signal monitoring unit and extracting and outputting mobile terminal identification information; an encryption unit for encrypting and managing the mobile terminal identification information extracted by the mobile terminal identification information extraction unit and assigning visitor identification information that is a pseudonymized ID corresponding to the mobile terminal identification information; and a report generation unit that generates area floating population analysis information for the visitor identification information and transmits it to the flow analysis unit through the sensor communication unit.

The wireless communication unit of the edge sensor unit installed in the area where users can go back and forth only in a specific direction, the wireless short-range communication by Wi-Fi short-distance wireless communication method having a directional antenna in which a transmission/reception path of a short-range wireless signal is formed in the one direction. A short-distance wireless communication unit that supports, detects and outputs the received signal strength of the received short-distance wireless signal signal, wherein the report generation unit moves away from or close to the location where it is installed by the received signal strength of the short-distance wireless signal It is characterized in that the information on the movement direction of the floating population is generated by the information, and the area floating population analysis information according to the movement direction is generated.

The report generation unit, based on the movement direction information and the detected visitor identification information, by itself generates the number of current residents in the area, the residence time, the revisit rate, the movement pattern, and the hourly/daily/seasonal statistical data, the current residents It is characterized in that the area floating population analysis information including number, residence time, revisit rate, movement pattern and hourly/daily/seasonal statistical data is generated.

The analysis server unit may include: an analysis communication unit configured to perform data communication with the plurality of edge sensor units and user mobile terminals through a wired/wireless data communication network; A sensor DB for storing edge sensor information including the area where the edge sensor unit is installed, the location of the area, the characteristics of the short-range wireless communication unit antenna (either a directional antenna or an omni-directional antenna), and direction information in the case of a directional antenna, area and area an analysis storage unit including a portal DB for storing analysis information of floating population in each area, and a web service information DB for storing web service information; and collecting regional floating population analysis information from the edge sensor unit and storing it in the portal DB, generating and storing regional floating population analysis information for each region in the portal DB, generating regional floating demographic analysis information for each region It is characterized in that it includes an analysis control unit that generates web service information including floating demographic analysis information, stores it in the web service information DB, and provides the web service information through the website.

The analysis control unit may include: a sensor information collection unit configured to collect area floating population analysis information from a plurality of edge sensor units through the analysis communication unit; an information analysis unit that analyzes the floating population by region and region based on the collected regional floating population analysis information to generate statistical analysis information of floating population by region and region; and a web service processing unit for generating web service information including floating demographic analysis information for each region and region.

The analysis control unit provides a region, area, installation location, and antenna characteristic information in which the edge sensor unit is installed to the connected manager terminal, and a setting means capable of setting the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed It characterized in that it further comprises a sensor management unit to provide.

The IoT-based floating population analysis method according to the present invention for achieving the above object is: In at least one area having a plurality of areas, an edge sensor unit installed at a specific location within the area is a user's mobile device of a user within the area. Receives a short-range wireless signal transmitted from a terminal, detects the mobile terminal identification information of the short-range wireless signal according to the short-range wireless communication method, and generates and transmits area floating population analysis information of the corresponding area based on the detected mobile terminal identification information area floating population analysis process; And the analysis server unit collects regional floating population analysis information from the edge sensor unit to generate regional regional floating population analysis information, and generates web service information including regional floating population analysis information and provides regional dynamics through a website It is characterized in that it includes a demographic analysis process.

In the area floating population analysis information process, the edge sensor unit detects a short-distance wireless signal including mobile terminal identification information transmitted from the user's mobile terminal of the user within the area according to the short-range wireless communication method, and receives the detected mobile terminal identification information. a floating population analysis step of generating and transmitting area floating population analysis information of the corresponding area based on the information; and a captive portal service providing step of generating captive portal service information for the area floating population analysis information by the edge sensor unit and providing the captive portal service information to the user mobile terminal.

In the floating population analysis step, the edge sensor unit monitors whether a short-range wireless signal including mobile terminal identification information transmitted from a user's mobile terminal of a user within the area is received through the short-range wireless signal monitoring unit of the sensor control unit, a short-range wireless signal monitoring step of outputting a short-distance wireless signal to the mobile terminal identification information extraction unit; a mobile terminal identification information extraction step of the edge sensor unit receiving the short-range wireless signal through the mobile terminal identification information extraction unit of the sensor control unit, extracting the mobile terminal identification information and outputting; An encryption step of encrypting and managing, by the edge sensor unit, the mobile terminal identification information extracted from the mobile terminal identification information extraction unit through the encryption unit of the sensor control unit, and assigning visitor identification information that is a pseudonymized ID corresponding to the mobile terminal identification information; and a report generating step in which the edge sensor unit generates area floating population analysis information for the visitor identification information through the report generation unit and transmits it to the flow analysis unit through the communication unit.

In the floating population analysis process, in at least one area having a plurality of areas, an edge sensor unit installed at a specific location within the area is a short-distance wireless signal including mobile terminal identification information transmitted from a user's mobile terminal of a user within the area a monitoring step of monitoring whether a signal is received; a reception signal strength detection step of detecting the reception signal strength of the short-range wireless signal when the short-range wireless signal is received; a mobile terminal identification information detection step of receiving the short-range wireless signal according to a short-range wireless communication method and detecting mobile terminal identification information included in the short-range wireless signal; and an area floating population analysis information reporting step of generating and transmitting area floating population analysis information of the corresponding area based on the mobile terminal identification information, wherein the edge sensor unit measures the received signal strength of a short-range wireless signal received through the wireless communication unit. The method further comprising: detecting a received signal strength of a short-range radio signal, wherein the report generating step includes: an antenna characteristic determining step of determining whether the edge sensor unit is a directional antenna by examining its own antenna characteristic information through a report generating unit; And when it is determined that the directional antenna is a directional antenna, the edge sensor unit generates movement direction information of the floating population by information according to whether it is moving away from or closer to the location where it is installed by the received signal strength of the short-range wireless signal through the report generating unit, and a direction floating population analysis information generating step of generating area floating population analysis information according to the moving direction.

The area floating population analysis information includes the number of current residents in the area, residence time, revisit rate, movement pattern, and hourly/daily/seasonal statistical data generated by the current number of residents, sojourn time, revisit rate, movement pattern and time It is characterized in that it includes statistical data for each day/season.

The regional floating population analysis process includes: a sensor information collection step in which the analysis server collects regional floating population analysis information from a plurality of edge sensor units through the sensor information collection unit; an information analysis step of the analysis server unit generating statistical analysis information of floating population by region and region by analyzing the floating population by region and region based on the region floating population analysis information collected through the information analysis unit; and a web service processing step in which the analysis server unit generates web service information including floating demographic analysis information for each region and region through the web service processing unit.

The method is: the analysis control unit provides the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed to the connected manager terminal, and sets the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed It characterized in that it further comprises a sensor management process.

The present invention has the effect of providing real-time-based data-driven floating population analysis information for timely decision-making that can satisfy tourism trends and the needs of tourists.

The present invention provides real-time-based floating population analysis information so that it is possible to grasp the trends and needs of tourists, so that it can be applied to various marketing and events, so that it can be used as an effective marketing means.

The present invention has the effect of quickly grasping the latest tourism trends and intensive marketing for major points by grasping the residence time, main movement route, etc. of tourists in a tourist destination.

1 is a diagram showing the configuration of an IoT-based floating population analysis system according to the present invention.
2 is a diagram showing the configuration of the edge sensor unit of the IoT-based floating population analysis system according to the present invention.
3 is a diagram showing the configuration of the analysis server unit of the IoT-based floating population analysis system according to the present invention.
4 is a flowchart illustrating a method for analyzing the floating population based on the Internet of Things according to the present invention.

Hereinafter, the configuration and operation of the IoT-based floating population analysis system according to the present invention will be described in detail with reference to the accompanying drawings, and a floating population analysis method in the system will be described.

1 is a diagram showing the configuration of an IoT-based floating population analysis system according to the present invention. Reference numeral 2 in FIG. 1 denotes an area, and FIG. 1 illustrates a case in which a plurality of areas 2 are provided for one area.

Referring to FIG. 1 , the IoT-based floating population analysis system according to the present invention includes an edge sensor unit 20 and an analysis server unit 30 .

The edge sensor unit 20 and the analysis server unit 30 are connected to the wired/wireless data communication network 1 through any one or more of wired and wireless to perform mutual data communication.

The wired/wireless data communication network 1 is a data network to which a plurality of short-range wireless communication access points (APs) can be connected, and mobile communication networks such as 3G, 4G and 5G are combined. It could be a network.

The edge sensor unit 20 is installed at a specific location in any one of a plurality of areas 2 configured in at least one area and exists in the area 2, that is, a user mobile terminal of a tourist ( 10) detects a short-range wireless signal transmitted from, and extracts mobile terminal identification information of the user's mobile terminal included in the detected short-range wireless signal.

When the mobile terminal identification information is extracted, the edge sensor unit 20 generates area floating population analysis information in the area 2 based on the extracted mobile terminal identification information and provides it to the analysis server unit 30 . The region may be Wonju-si, Gangneung-si, etc., and the region 2 may be a small region of the region and may be a tourist attraction. For example, the region may be Wonju-si, and region 2 may be a suspension bridge of Sogeumsan Mountain (of Wonju-si).

The edge sensor unit 20 stores the collected mobile terminal identification information, and based on the time, date, season, etc. of the stored mobile terminal identification information, generates and stores the area floating population analysis information by time, date, season, etc. , then continuously updated and stored, and transmits the stored area floating population analysis information to the analysis server unit 30 .

The area floating population analysis information may include the number of current residents in the area (2), residence time, revisit rate, movement pattern, and hourly/daily/seasonal statistical data.

The edge sensor unit 20 generates and stores captive portal service information based on the area floating population analysis information, and then provides the captive portal service information to the connected user mobile terminal 10 .

The captive portal service information may not be provided through a separate app, but may be provided through a mobile web browser basically provided in the user's mobile terminal 10 .

The configuration and operation of the edge sensor unit 20 will be described in detail with reference to FIG. 2 below.

The analysis server unit 30 collects regional floating population analysis information from the edge sensor unit 20 to generate regional regional floating population analysis information, and generates web service information including regional floating population analysis information, which is set in advance. provided through the website. The configuration and operation of the analysis server unit 30 will be described in detail with reference to FIG. 3 below.

2 is a diagram showing the configuration of the edge sensor unit of the IoT-based floating population analysis system according to the present invention.

Referring to FIG. 2 , the edge sensor unit 20 according to the present invention includes a sensor storage unit 110 , a sensor communication unit 120 , and a sensor control unit 130 .

The sensor storage unit 110 includes a program area for storing a control program for controlling the overall operation of the edge sensor unit 20 according to the present invention, a temporary area for temporarily storing data generated during execution of the control program, and the control It includes a data area for semi-permanently storing data necessary for program execution and data generated during control program execution. In the data area, encrypted mobile terminal identification information obtained by encrypting mobile terminal identification information collected according to the present invention and visitor identification information generated in response to the encrypted mobile terminal identification information are stored, and the user terminal identification information or visitor identification information An analysis DB 111 for storing area floating population analysis information according to the reception/generation time, date, season, etc. of will be able

The sensor communication unit 120 includes a wireless communication unit 121 and a wired communication unit 122 .

The wireless communication unit 121 is a long-distance wireless communication unit capable of wirelessly connecting to the mobile communication network of the edge sensor unit 20 and the short-range wireless communication unit 123 performing short-range wireless communication according to the short-range wireless communication method and the wired/wireless data communication network 1 . (124).

The short-range wireless communication unit 123 is provided with at least one of a directional antenna and an omni-directional antenna to perform short-range wireless communication with the edge sensor unit 20 . As the short-distance wireless communication method, any one of Wi-Fi or Zigbee may be applied, but Wi-Fi may be preferable.

When the short-range wireless communication unit 123 includes both a directional antenna and an omni-directional antenna, it may be configured to selectively drive either one under the control of the sensor controller 130 .

When the directional antenna is selected in the short-range wireless communication unit 123 , it is preferable that the edge sensor unit 20 is installed in the area 2 where users can reciprocate only in a specific direction. The region 2 capable of reciprocating only in the specific direction may be a bridge called a suspension bridge, a swing bridge, or the like.

The short-range wireless communication unit 123 may be configured to measure a received signal strength of a received short-range wireless signal and output a received signal strength indicator (RSSI).

The remote wireless communication unit 124 may be configured as a separate terminal to be connected to the edge sensor unit 20 .

The sensor control unit 130 controls the overall operation of the edge sensor unit 20 according to the present invention, including the flow analysis unit 140 and the captive portal service processing unit 150 .

Specifically, the flow analysis unit 140 includes a short-range wireless signal monitoring unit 141 , a customer terminal identification information extraction unit 142 , an encryption unit 143 , and a report generation unit 144 .

The short-range wireless signal monitoring unit 141 is a short-range wireless signal including mobile terminal identification information transmitted from the user's mobile terminal 10 of the user within the area through the short-range wireless communication unit 123 of the wireless communication unit 121 . monitors whether is received, and outputs the received short-range wireless signal to the mobile terminal identification information extraction unit 142 .

The mobile terminal identification information extraction unit 142 receives the short-range wireless signal from the short-range wireless signal monitoring unit 141 , extracts the mobile terminal identification information, and outputs it to the encryption unit 143 .

The encryption unit 143 encrypts and manages the mobile terminal identification information extracted from the mobile terminal identification information extraction unit, and allocates visitor identification information that is a pseudonymized ID corresponding to the mobile terminal identification information to analyze DB (111) save to

The report generating unit 144 generates area floating population analysis information for the visitor identification information, and the flow analysis unit 140 through any one of the wired communication unit 122 and the remote wireless communication unit 124 of the sensor communication unit 120 . ) to send

When the directional antenna is applied as a short-range wireless antenna and the report generating unit 144 measures the received signal strength of the short-range wireless signal, the report generating unit 144 determines whether it is moving away from or closer to the location where it is installed by the received signal strength of the short-range wireless signal. It may be configured to obtain user movement information according to the , generate movement direction information of the floating population based on the user movement information, and generate area floating population analysis information according to the movement direction.

The report generating unit 144 generates statistical data by itself based on the moving direction information and the detected visitor identification information, the number of current resident in the area, the residence time, the revisit rate, the moving pattern, and the hourly/daily statistical data. The area floating population analysis information including the number of resident, residence time, revisit rate, movement pattern, and hourly/daily/seasonal statistical data may be generated.

The captive portal service processing unit 150 provides the captive portal service information to the portal DB 112 to the user mobile terminal 10 through the short-range wireless communication unit 123 according to the captive portal service.

Preferably, the captive portal service processing unit 150 is configured to receive the updated captive portal service information from the analysis server unit 30 , store it in the portal DB 112 , and provide the stored captive portal service information. will be.

3 is a diagram showing the configuration of the analysis server unit of the IoT-based floating population analysis system according to the present invention.

Referring to FIG. 3 , the analysis server unit 30 according to the present invention includes an analysis storage unit 210 , an analysis communication unit 220 , and an analysis control unit 230 .

The analysis storage unit 210 includes a program area for storing a control program for controlling the overall operation of the analysis server unit 30, a temporary area for temporarily storing data generated during execution of the control program, and necessary for executing the control program. It includes a data area for semi-permanently storing data and data generated during execution.

The data area may include a sensor DB 211 , a portal DB 212 , and a web service information DB 213 according to the present invention.

The sensor DB 211 includes the region and the name of the region where each edge sensor unit 20 is installed, the AP identification information installed for each region, the location of the region, and the characteristics of the short-range wireless communication unit antenna (either a directional antenna or an omni-directional antenna) , stores edge sensor information including direction information in the case of a directional antenna.

The portal DB 212 stores region floating population analysis information and region captive portal service information for each region and region.

The web service information DB 213 stores web service information including regional floating population analysis information for the entire region analyzed by the collected floating population analysis information for each area and the regional induced population analysis information. It is preferable that the regional floating population analysis information includes various statistical information generated by analysis based on the collected floating population analysis information for each area.

The analysis communication unit 220 is connected to the plurality of edge sensor units 20 and the user mobile terminals 10 through the wired/wireless data communication network 1 to perform data communication with each other.

The analysis control unit 230 includes the sensor information collection unit 240 , the information analysis unit 250 , the web service processing unit 260 and the sensor management unit 270 , and the overall operation of the analysis server unit 30 according to the present invention. to control

Specifically, the sensor information collection unit 240 collects area floating population analysis information from a plurality of edge sensor units 20 through the analysis communication unit 120 .

The information analysis unit 250 includes a region-specific information classification unit 251 and an analysis information generation unit 252 , and may further include a captive portal information generation unit 253 according to an embodiment.

The region-specific information classification unit 251 separates the received region floating population classification information by region and stores it in the portal DB 212 .

The analysis information generating unit 252 integrates and analyzes the area floating population classification information classified by area, and based on the visitor identification information, the area movement path for each visitor, the residence time for each area per visitor, the revisit rate per visitor, hourly/daily/seasonal Various statistical information such as statistical data, number of visitors per area, movement pattern of visitors within the area, etc. are generated, and local floating population analysis information including this is generated and stored in the portal DB 212 .

The captive portal information generating unit 253 is configured according to an embodiment of the present invention, and generates captive portal service information for each area from among the information generated by the analysis information generating unit, and sends it to the corresponding edge sensor unit 20 . to provide.

In this case, the edge sensor unit 20 does not need to generate the captive portal service information by itself, and is configured to provide the captive portal service information received from the information analysis unit 30 to the user mobile terminal 10 within the area. it might be

The web service processing unit 260 generates web service information including the local floating population analysis information generated by the information analysis unit 250 and provides it through a preset website.

It is preferable that the website address is included in the captive portal service information provided by any one of the edge sensor unit 20 and the analysis server unit 30 .

The sensor management unit 270 provides the area, area, installation location, and antenna characteristic information in which the edge sensor unit 20 is installed to the connected manager terminal unit 40, and the area and area where the edge sensor unit 20 is installed. , an installation location, and a setting means capable of setting antenna characteristic information is provided, and the information set through the setting means is stored and managed in the sensor DB 211 .

4 is a flowchart illustrating a method for analyzing the floating population based on the Internet of Things according to the present invention.

Referring to FIG. 4 , first, the user mobile terminal 10 will periodically transmit a short-range wireless signal in the Wi-Fi temporary off mode and the Wi-Fi always-on state ( S111 ).

The edge sensor unit 20 monitors whether a short-range wireless signal is detected from any user mobile terminal 10 (S113), and when the short-range wireless signal is detected, calculates the received signal strength of the short-range wireless signal (S115).

When the short-range wireless signal is received and the received signal strength is calculated, the edge sensor unit 20 extracts user terminal identification information included in the received short-range wireless signal (S117).

When the user terminal identification information is extracted, the edge sensor unit 20 encrypts the extracted user terminal identification information, then generates and stores visitor identification information to replace the user terminal identification information, and instead of the encrypted user terminal identification information Based on the visitor identification information, floating population analysis is performed in the corresponding area to generate area floating population analysis information (S119). The visitor identification information may be generated by applying user terminal identification information.

When the area floating population analysis information is generated, the edge sensor unit 20 transmits the generated area floating population analysis information to the analysis server unit 30 (S121), and then captive portal service information including the area floating population analysis information is generated (S123) and provided to the user mobile terminal 10 (S125). The captive portal service information may be provided through a web browser that is basically installed in the user's mobile terminal 10 . Therefore, there is no need to install a separate app. The web browser may be activated by a user or may be configured to pop up upon reception of the captive portal service information.

The analysis server unit 30 that has received the region floating population analysis information collects floating population analysis information for each region (S127), and integrates analysis of floating population analysis information for each region to generate regional floating population analysis information (S129). ), regional web service information including the regional floating population analysis information is generated and provided through a preset website (S131).

When regional web service information is generated, the analysis server unit 30 provides regional web service information to the user mobile terminals 10 accessing the website (S133).

On the other hand, it is common knowledge in the art that the present invention is not limited to the typical preferred embodiments described above, but can be improved, changed, replaced, or added in various ways within the scope of the present invention. Those who have will be able to understand it easily. If implementation by such improvement, change, substitution or addition falls within the scope of the following appended claims, the technical idea should also be considered to belong to the present invention.

1: Wired and wireless data communication network 2: Area
10: user mobile terminal 20: edge sensor unit
30: analysis server unit 110: sensor storage unit
111: Analysis DB 112: Portal DB
120: sensor communication unit 121: wireless communication unit
122: wired communication unit 123: short-distance wireless communication unit
124: remote wireless communication unit 130: sensor control unit
140: flow analysis unit 141: short-range wireless signal monitoring unit
142: customer terminal identification information extraction unit 143: encryption unit
144: report generation unit 150: captive portal service processing unit
210: analysis storage 211: sensor DB
212: portal DB 213: web service information DB
220: analysis communication unit 230: analysis control unit
240: sensor information collection unit 250: information analysis unit
251: information classification unit for each area 252: analysis information generation unit
253: captive portal information generation unit 260: web service processing unit
270: sensor management unit

Claims (15)

It is installed at a specific location within the area in at least one area having a plurality of areas, receives a short-range wireless signal transmitted from a user's mobile terminal of a user within the area, and is included in the short-range wireless signal according to the short-range wireless communication method. Detects mobile terminal identification information, generates and transmits area floating population analysis information of the corresponding area based on the detected mobile terminal identification information, and generates captive portal service information for the area floating population analysis information to the user a plurality of edge sensors provided to the mobile terminal; and
Collecting regional floating population analysis information from the edge sensor unit to generate regional regional floating population analysis information, and generating web service information including regional floating population analysis information and providing it through a website. Internet of Things-based floating population analysis system.
According to claim 1,
The edge sensor unit,
a sensor communication unit including a wireless communication unit configured to perform wireless data communication with the user mobile terminal according to the short-range wireless communication method and a wired communication unit connected to a wired/wireless data communication network to perform data communication with the analysis server unit;
a sensor storage unit including an analysis DB for storing the generated area floating population analysis information and a portal DB for storing the captive portal service information; and
A short-range wireless signal including mobile terminal identification information transmitted from the user's mobile terminal of the user within the area through the wireless communication unit is detected according to the short-range wireless communication method, and the area of the corresponding area based on the detected mobile terminal identification information A flow analysis unit that generates floating population analysis information and transmits it to the analysis server unit through the wired communication unit, and a captive portal service information for the area floating population analysis information is generated and provided to the user mobile terminal through the wireless communication unit Internet of Things-based floating population analysis system, characterized in that it comprises a sensor control unit having a captive portal service processing unit.
3. The method of claim 2,
The flow analysis unit,
a short-range wireless signal monitoring unit for monitoring whether a short-range wireless signal including mobile terminal identification information transmitted from a user's mobile terminal of a user within the area is received through the wireless communication unit, and outputting the received short-range wireless signal;
a mobile terminal identification information extraction unit for receiving the short-range wireless signal from the short-range wireless signal monitoring unit and extracting and outputting mobile terminal identification information;
an encryption unit for encrypting and managing the mobile terminal identification information extracted by the mobile terminal identification information extraction unit and assigning visitor identification information that is a pseudonymized ID corresponding to the mobile terminal identification information; and
and a report generating unit for generating area floating population analysis information for the visitor identification information and transmitting it to the floating population analysis unit through the sensor communication unit.
4. The method of claim 3,
The wireless communication unit of the edge sensor unit installed in the area where users can go back and forth only in a specific direction,
A short-distance wireless communication unit that supports wireless short-range communication by a Wi-Fi short-range wireless communication method having a directional antenna in which a transmission/reception path of a short-range wireless signal is formed in the one direction, and detects and outputs the received signal strength of a received short-distance wireless signal signal ,
The report generating unit,
According to the received signal strength of the short-range wireless signal, the movement direction information of the floating population is generated by information according to whether it is moving away from or closer to the location where it is installed, and area floating population analysis information is generated according to the movement direction. IoT-based floating population analysis system.
5. The method of claim 4,
The report generating unit,
Based on the movement direction information and the detected visitor identification information, the current number of residents, residence time, revisit rate, movement pattern, and hourly/daily/seasonal statistical data generated by itself in the area, the number of current residents, residence time, An Internet of Things-based floating population analysis system, characterized in that the region floating population analysis information including revisit rate, movement pattern, and hourly/daily/seasonal statistical data is generated.
6. The method of claim 1 or 5,
The analysis server unit,
an analysis communication unit for performing data communication with the plurality of edge sensor units and user mobile terminals through a wired/wireless data communication network;
A sensor DB for storing edge sensor information including the area where the edge sensor unit is installed, the location of the area, the characteristics of the short-range wireless communication unit antenna (either a directional antenna or an omni-directional antenna), and direction information in the case of a directional antenna, area and area an analysis storage unit including a portal DB for storing analysis information of floating population in each area, and a web service information DB for storing web service information; and
The regional floating population analysis information is collected from the edge sensor unit and stored in the portal DB, the regional regional floating population analysis information is generated and stored in the portal DB, and after generating regional floating population statistical analysis information, the regional flow Internet of Things-based floating population analysis system, characterized in that it includes an analysis control unit that generates web service information including demographic analysis information, stores it in the web service information DB, and provides it through a website.
7. The method of claim 6,
The analysis control unit,
a sensor information collection unit for collecting area floating population analysis information from a plurality of edge sensor units through the analysis communication unit;
an information analysis unit that analyzes the floating population by region and region based on the collected regional floating population analysis information to generate statistical analysis information of floating population by region and region; and
and a web service processing unit for generating web service information including floating demographic analysis information for each region and region.
8. The method of claim 7,
The analysis control unit,
A sensor management unit that provides the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed to the connected manager terminal, and provides a setting means for setting the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed Internet of Things-based floating population analysis system, characterized in that it further comprises.
In at least one area having a plurality of areas, an edge sensor unit installed at a specific location within the area receives a short-range wireless signal transmitted from a user's mobile terminal of a user within the area, an area floating population analysis process of detecting mobile terminal identification information and generating and transmitting area floating population analysis information of a corresponding area based on the detected mobile terminal identification information; and
The analysis server unit collects regional floating population analysis information from the edge sensor unit to generate regional floating population analysis information for each region, and generates web service information including regional floating population analysis information and provides regional floating population through a website. Internet of Things-based floating population analysis method comprising an analysis process.
10. The method of claim 9,
Area floating population analysis information process,
The edge sensor unit detects a short-range wireless signal including mobile terminal identification information transmitted from the user's mobile terminal of the user within the area according to the short-range wireless communication method, and based on the detected mobile terminal identification information, the area floating population of the corresponding area A floating population analysis step of generating and transmitting analysis information; and
and the edge sensor unit generating captive portal service information for the area floating population analysis information and providing the captive portal service to the user mobile terminal.
11. The method of claim 10,
The floating population analysis step is
The edge sensor unit monitors whether a short-range wireless signal including mobile terminal identification information transmitted from the user's mobile terminal of the user within the area is received through the short-range wireless signal monitoring unit of the sensor control unit, and transmits the received short-range wireless signal to the mobile A short-distance wireless signal monitoring step of outputting to the terminal identification information extraction unit;
a mobile terminal identification information extraction step in which the edge sensor unit receives the short-range wireless signal through the mobile terminal identification information extraction unit of the sensor control unit, extracts the mobile terminal identification information, and outputs the same;
An encryption step of encrypting and managing, by the edge sensor unit, the mobile terminal identification information extracted from the mobile terminal identification information extraction unit through the encryption unit of the sensor control unit, and assigning visitor identification information that is a pseudonymized ID corresponding to the mobile terminal identification information; and
and a report generating step in which the edge sensor unit generates area floating population analysis information for the visitor identification information through the report generation unit and transmits it to the floating population analysis unit through the communication unit.
10. The method of claim 9,
The floating population analysis process is
Monitoring for monitoring whether a short-range wireless signal including mobile terminal identification information transmitted from a user's mobile terminal of a user within the area is received by an edge sensor unit installed at a specific location within the area in at least one area having a plurality of areas step;
a reception signal strength detection step of detecting the reception signal strength of the short-range wireless signal when the short-range wireless signal is received;
a mobile terminal identification information detection step of receiving the short-range wireless signal according to a short-range wireless communication method and detecting mobile terminal identification information included in the short-range wireless signal; and
A region floating population analysis information reporting step of generating and transmitting region floating population analysis information of the corresponding area based on the mobile terminal identification information;
The edge sensor unit further comprises a short-range wireless signal reception signal strength detection process for detecting the reception signal strength of the short-range wireless signal received through the wireless communication unit,
The report generation step is
Antenna characteristic determination step of determining whether the edge sensor unit is a directional antenna by examining its own antenna characteristic information through a report generation unit; and
When it is determined that the directional antenna is a directional antenna, the edge sensor unit generates movement direction information of the floating population by information according to whether it is moving away from or closer to the location where it is installed by the received signal strength of the short-range wireless signal through the report generation unit, and moves Internet of Things-based floating population analysis method, characterized in that it comprises a direction floating population analysis information generating step of generating area floating population analysis information according to the direction.
13. The method of claim 12,
The area floating population analysis information,
The number of current residents, residence time, revisit rate, movement pattern and hourly/daily/seasonal statistical data generated in the area, including the current number of residents, sojourn time, revisit rate, movement pattern, and hourly/daily/seasonal statistical data Internet of Things-based floating population analysis method, characterized in that.
10. The method of claim 9,
The process of analyzing the floating population by region is,
A sensor information collection step in which the analysis server collects area floating population analysis information from a plurality of edge sensor units through the sensor information collection unit;
an information analysis step in which the analysis server generates statistical analysis information of floating population for each region and region by analyzing the floating population by region and region based on the region floating population analysis information collected through the information analysis unit; and
and a web service processing step in which the analysis server unit generates web service information including floating demographic analysis information for each region and region through the web service processing unit.
10. The method of claim 9,
A sensor management process in which the analysis control unit provides the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed to the connected manager terminal, and sets the area, area, installation location, and antenna characteristic information in which the edge sensor unit is installed Internet of Things-based floating population analysis method, characterized in that it further comprises.

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