CN115866547A - Fixed area tourist counting method, system and storage medium based on signaling data - Google Patents
Fixed area tourist counting method, system and storage medium based on signaling data Download PDFInfo
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- CN115866547A CN115866547A CN202310180835.9A CN202310180835A CN115866547A CN 115866547 A CN115866547 A CN 115866547A CN 202310180835 A CN202310180835 A CN 202310180835A CN 115866547 A CN115866547 A CN 115866547A
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Abstract
The invention discloses a fixed area tourist statistical method, a system and a storage medium based on signaling data, wherein the method comprises the following steps: acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data; acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data; performing space operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the basis of the intersection quantity value to obtain the number of the tourists in the fixed area, wherein when one intersection quantity value is larger than or equal to a preset threshold, the number of the tourists is subjected to addition operation; and when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated. The invention counts the number of the tourists in the fixed area through the signaling data, has wide coverage, is not limited by time, does not need a user to start a GPS, and can more accurately count the number of the tourists corresponding to the given area.
Description
Technical Field
The invention relates to the technical field of data processing, in particular to a fixed area tourist statistical method, a system and a storage medium based on signaling data.
Background
The existing tourist statistics field of the fixed area, such as scenic spots and parks, the traditional method can be used for statistics through a gate, the novel technology can assist statistics of tourists and signaling data statistics and other modes through a GPS, the gate statistics data is most accurate, but the time of leaving the park of the tourists and the number of the tourists in the current park can not be counted, the labor cost is required, most of the scenic spots and the parks are not provided with gates, and the number of the tourists is not easy to count through the traditional method.
The novel technology such as GPS positioning data is accurate in positioning, the number of tourists can be counted conveniently by combining the geographical position of a park, but the GPS data cannot reflect users in a fixed area comprehensively and is only limited to users who start GPS service, and the users do not always start the GPS service all day long, so that the GPS data can be influenced by time.
Disclosure of Invention
The invention aims to provide a method, a system and a storage medium for counting tourists in a fixed area based on signaling data.
The invention provides a signaling data-based fixed area tourist statistical method, which comprises the following steps:
acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data;
acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data;
performing spatial operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the intersection quantity value to obtain the number of the tourists in the fixed area, wherein,
when the intersection quantity value is larger than or equal to a preset threshold value, the number of the tourists is subjected to an addition operation;
and when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated.
In this scheme, the acquiring boundary data of a fixed region and acquiring a corresponding target base station based on the boundary data specifically includes:
acquiring a fixed area and corresponding boundary data input by a user side;
identifying a corresponding buffer area range based on the fixed area;
and acquiring a corresponding target base station based on the boundary data and the buffer area range, wherein the target base station comprises at least one communication base station.
In this scheme, the obtaining signaling data based on the target base station so as to obtain the trajectory data of the user in the target base station based on the signaling data specifically includes:
acquiring signaling data corresponding to each communication base station based on the target base station;
taking the position of the corresponding communication base station as a user position based on the signaling data;
and combining the signaling data and the user position to obtain the track data of the user based on the natural time sequence.
In this scheme, the identifying, based on the fixed region, a corresponding buffer region range specifically includes:
acquiring a communication position grade based on the fixed area;
matching a corresponding buffer area range based on the communication location ranking, wherein,
the communication position grades comprise three grades, namely a first grade, a second grade and a third grade;
the first level corresponds to a first range, the second level corresponds to a second range, and the third level corresponds to a third range, wherein the first range is smaller than the second range, and the second range is smaller than the third range.
In this scheme, the performing spatial operation based on the trajectory data and the boundary data to obtain an intersection quantity value specifically includes:
generating a set of user trajectory line segments based on the trajectory data using a spatial database;
performing spatial operation on the user track line segment set and the boundary data to identify a target track line segment set which has intersection with the boundary data;
and counting the quantity value of the target track line segment set to obtain the intersection quantity value.
In this embodiment, the method further includes:
acquiring distribution data of the signaling data in the fixed area in time;
identifying the time for the tourist to enter and exit the fixed area based on the step data and the track data;
and screening the stay time of the tourists based on the time of the tourists entering and exiting the fixed area.
The second aspect of the present invention further provides a signaling data based fixed area guest counting system, which includes a memory and a processor, wherein the memory includes a signaling data based fixed area guest counting method program, and when the signaling data based fixed area guest counting method program is executed by the processor, the following steps are implemented:
acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data;
acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data;
performing spatial operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the intersection quantity value to obtain the number of the tourists in the fixed area, wherein,
when the intersection quantity value is larger than or equal to a preset threshold value, the number of the tourists is subjected to an addition operation;
and when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated.
In this scheme, the acquiring boundary data of a fixed area and acquiring a corresponding target base station based on the boundary data specifically includes:
acquiring a fixed area and corresponding boundary data input by a user side;
identifying a corresponding buffer area range based on the fixed area;
and acquiring a corresponding target base station based on the boundary data and the buffer area range, wherein the target base station comprises at least one communication base station.
In this scheme, the obtaining signaling data based on the target base station so as to obtain the trajectory data of the user in the target base station based on the signaling data specifically includes:
acquiring signaling data corresponding to each communication base station based on the target base station;
taking the position of the corresponding communication base station as the user position based on the signaling data;
and combining the signaling data and the user position based on the natural time sequence to obtain the track data of the user.
In this scheme, the identifying, based on the fixed region, a corresponding buffer region range specifically includes:
acquiring a communication position grade based on the fixed area;
matching a corresponding buffer area range based on the communication location ranking, wherein,
the communication position grades comprise three grades, namely a first grade, a second grade and a third grade;
the first level corresponds to a first range, the second level corresponds to a second range, and the third level corresponds to a third range, wherein the first range is smaller than the second range, and the second range is smaller than the third range.
In this scheme, the performing spatial operation based on the trajectory data and the boundary data to obtain an intersection quantity value specifically includes:
generating a set of user trajectory line segments based on the trajectory data using a spatial database;
performing spatial operation on the user track line segment set and the boundary data to identify a target track line segment set which has intersection with the boundary data;
and counting the number value of the target track line segment set to obtain the intersection number value.
In this embodiment, the method further includes:
acquiring distribution data of the signaling data in the fixed area in time;
identifying the time for the tourist to enter and exit the fixed area based on the step data and the track data;
and screening the time of staying of the tourists based on the time of the tourists entering and exiting the fixed area.
A third aspect of the invention provides a computer readable storage medium, comprising a signalling data based fixed area guest counting method program of a machine, which when executed by a processor, performs the steps of a signalling data based fixed area guest counting method as described in any one of the above.
The signaling data based fixed area tourist counting method, the signaling data based fixed area tourist counting system and the signaling data based storage medium have the advantages that the number of tourists in a fixed area is counted through the signaling data, the coverage is wide, the time limitation is avoided, a user does not need to start a GPS, and the number of tourists can be counted more accurately corresponding to a given area.
Drawings
FIG. 1 is a flow chart illustrating a signaling data based fixed area guest counting method of the present invention;
fig. 2 shows a block diagram of a signaling data based fixed area guest statistics system of the present invention.
Detailed Description
In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.
The signaling data applied by the method is mobile phone signaling data, users can carry mobile phones when going out, the signaling data is wide in coverage area relative to GPS data, the reflected user quantity is more comprehensive, basic users can have the signaling data when starting, the influence of time is small, and the spatial position information of the users cannot be accurately identified. In the prior art, when a user in a fixed area is identified based on signaling data, only base stations near the area are considered independently, and users under the base stations are regarded as users in the area, but the coverage area of the base station is large, users in other than the area are easy to be identified as the users in the area, and the number of statistical users is excessive, so that the base station with large identification error is required to be eliminated, but partial user statistics is reduced correspondingly.
The method selects all base stations in the fixed area and the buffer area, combines the base stations, finds that a graph formed by a user track line segment and a scenic spot boundary, which are described by the position of the base station and user signaling data, has an obvious intersection by observing the spatial rule of the signaling data track of real tourists in the fixed area, and can identify the tourists in the area by calculating the intersection number of the user track and the scenic spot boundary and setting a corresponding intersection number threshold.
Fig. 1 shows a flow chart of a signaling data based fixed-area guest counting method according to the present application.
As shown in fig. 1, the present application discloses a signaling data-based fixed-area tourist statistical method, which includes the following steps:
s102, acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data;
s104, acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data;
s106, performing space operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the intersection quantity value to obtain the number of the tourists in the fixed area;
s108, when the intersection quantity value is larger than or equal to a preset threshold value, the number of the tourists is subjected to an addition operation;
s110, when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated.
It should be noted that, in this embodiment, the corresponding target base station can be identified by obtaining the boundary data of the fixed area and the corresponding buffer area range, the buffer area ranges set in different scenes are different, the buffer area range set in an area with a large population and a dense base station is smaller, and the buffer area range set in an area with a remote location and a small base station is larger, so that the buffer area ranges need to be classified.
According to the embodiment of the present invention, the acquiring boundary data of a fixed area and acquiring a corresponding target base station based on the boundary data specifically includes:
acquiring a fixed area and corresponding boundary data input by a user side;
identifying a corresponding buffer area range based on the fixed area;
and acquiring a corresponding target base station based on the boundary data and the buffer area range, wherein the target base station comprises at least one communication base station.
It should be noted that, in this embodiment, different parks or amusement parks have different areas and boundaries, and therefore, a fixed area and corresponding boundary data input by a user end are obtained, so as to identify a corresponding buffer area range based on the fixed area, specifically, obtain the corresponding buffer area range through a communication position grade in the fixed area, and then obtain a corresponding target base station based on the boundary data and the buffer area range, where the target base station includes at least one communication base station, and may also be the target base station formed by multiple communication base stations together.
According to the embodiment of the present invention, the obtaining of the signaling data based on the target base station, so as to obtain the trajectory data of the user in the target base station based on the signaling data, specifically includes:
acquiring signaling data corresponding to each communication base station based on the target base station;
taking the position of the corresponding communication base station as the user position based on the signaling data;
and combining the signaling data and the user position to obtain the track data of the user based on the natural time sequence.
It should be noted that, in this embodiment, when each user communicates with a communication base station, signaling data is generated, so that signaling data corresponding to each communication base station can be obtained based on the target base station, so that a position of the communication base station corresponding to the signaling data is used as a user position corresponding to a current user, and a continuous trajectory of the user is obtained based on a natural time sequence according to a time sequence that the user passes through the communication base station in the target base station, so as to obtain corresponding trajectory data, for example: the user waits for "30min" at the base station a in the "10.
According to an embodiment of the present invention, the identifying a corresponding buffer area range based on the fixed area specifically includes:
acquiring a communication position grade based on the fixed area;
matching a corresponding buffer area range based on the communication location ranking, wherein,
the communication position grades comprise three grades, namely a first grade, a second grade and a third grade;
the first level corresponds to a first range, the second level corresponds to a second range, and the third level corresponds to a third range, wherein the first range is smaller than the second range, and the second range is smaller than the third range.
It should be noted that, in this embodiment, communication location grades corresponding to different fixed areas are different, and corresponding changed area ranges are also different, and in the above embodiment, it is described that areas with larger population and denser base stations have smaller buffer area ranges, areas with farther locations and less base stations have larger buffer area ranges, so the communication location grades include three grades, namely a first grade, a second grade and a third grade, where the first grade corresponds to a first range, the second grade corresponds to a second range, the third grade corresponds to a third range, the first range is smaller than the second range, and the second range is smaller than the third range, for example: the first range is "500 km to 1km", the second range is "1km to 5km" and the third range is "5km to 10km".
According to the embodiment of the present invention, the performing spatial operation based on the trajectory data and the boundary data to obtain an intersection quantity value specifically includes:
generating a set of user trajectory line segments based on the trajectory data using a spatial database;
performing spatial operation on the user track line segment set and the boundary data to identify a target track line segment set which has intersection with the boundary data;
and counting the number value of the target track line segment set to obtain the intersection number value.
It should be noted that, in this embodiment, each time the signaling data corresponds to the location data of the user, so that a spatial database is used to generate a user trajectory line segment set based on the trajectory data, and a spatial operation is performed on the user trajectory line segment set and the boundary data to identify a target trajectory line segment set having an intersection with the boundary data, where the intersection quantity value is obtained by counting the quantity values of the target trajectory line segment set.
According to an embodiment of the invention, the method further comprises:
acquiring distribution data of the signaling data in the fixed area in time;
identifying the time for the tourist to enter and exit the fixed area based on the step data and the track data;
and screening the time of staying of the tourists based on the time of the tourists entering and exiting the fixed area.
It should be noted that, in this embodiment, according to the distribution characteristics of the guest signaling data in the fixed area time, the time when the guest enters the fixed area and the time when the guest leaves the specific area can be counted, so as to count the residence time of the guest.
It is worth mentioning that the method further comprises:
acquiring a corresponding crossing time value in the target track line segment set;
comparing the crossing time value with a preset time difference to reject invalid data, wherein,
and when the crossing time value is smaller than the preset time difference, removing the corresponding target track line segment set, otherwise, not removing the target track line segment set.
It should be noted that, in this embodiment, since the rest of the people such as the takeout person and the delivery person appear in the scene of the park or the open park, for example, the part of the crowd needs to be rejected, and therefore, the time sequence of switching the part of the crowd at each communication base station may be obtained, so as to reject the target track line segment set corresponding to the user whose time difference value is smaller than the preset time difference.
It is worth mentioning that the method further comprises removing conventional data in the historical data, specifically comprising:
acquiring conventional signaling data of workers in a fixed area;
and removing the conventional signaling data from the signaling data acquired based on the target base station.
It should be noted that, in this embodiment, because there are corresponding amusement facilities in a fixed area such as a park or an amusement park, a special staff is required to take care of the park or the amusement park, and therefore, signaling data of the part of staff in the target base station needs to be removed, so that corresponding conventional signaling data can be obtained by obtaining a mobile phone number of the staff, and thus the conventional signaling data is removed from the signaling data obtained based on the target base station to screen out staff users in the park or the amusement park, thereby further ensuring the accuracy of the number of visitors.
It is worth mentioning that the method further includes counting the total number of the tourists at different time, specifically including:
classifying the signaling data in different time periods based on a natural time sequence;
identifying a specific time period input by a user side, and acquiring a corresponding time period value based on the specific time period;
and obtaining corresponding time parameter-signaling data based on the time period value, so as to obtain the total amount of the tourists at different moments by using the time parameter-signaling data.
It should be noted that, in this embodiment, in the operation process of the amusement park, the data of the tourists in different time periods need to be analyzed to help the amusement park perform data analysis, so the method in this embodiment further includes counting the total number of the tourists at different times, specifically, by identifying a specific time period input by the user terminal, and acquiring a value of the corresponding time period based on the specific time period, so as to obtain the total number of the tourists at different times by using signaling data in the corresponding time period based on the value of the time period, and help the management staff of the amusement park perform data analysis.
It is worth mentioning that the method further includes counting the total number of tourists in different areas, specifically including:
classifying signaling data in different regions based on preset region division;
identifying a specific area input by a user side, and acquiring a corresponding divided area based on the specific area;
and obtaining corresponding regional parameter-signaling data based on the divided regions, so that the total number of tourists at different moments is obtained by using the regional parameter-signaling data.
It should be noted that, in this embodiment, in the operation process of the amusement park, it is necessary to analyze guest data in different time periods to help the amusement park perform data analysis, so the method in this embodiment further includes counting total numbers of guests in different areas to help the amusement park manager to distinguish which area of the amusement ride is more popular, specifically, performing area division on a fixed area in advance to obtain different areas, further obtaining signaling data corresponding to the different areas, and obtaining a specific area input by the user end to identify the corresponding divided area, where the divided area may be one area divided in advance or a set of multiple areas, so as to obtain corresponding area parameter-signaling data based on the divided area, and thus obtain total numbers of guests at different times by using the area parameter-signaling data.
Fig. 2 shows a block diagram of a signaling data based fixed area guest statistics system of the present invention.
As shown in fig. 2, the present invention discloses a signaling data based fixed area guest counting system, which includes a memory and a processor, wherein the memory includes a signaling data based fixed area guest counting method program, and when the signaling data based fixed area guest counting method program is executed by the processor, the following steps are implemented:
acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data;
acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data;
performing spatial operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the intersection quantity value to obtain the number of the tourists in the fixed area, wherein,
when the intersection quantity value is larger than or equal to a preset threshold value, the number of the tourists is subjected to an addition operation;
and when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated.
It should be noted that, in this embodiment, the corresponding target base station can be identified by obtaining the boundary data of the fixed area and the corresponding buffer area range, the buffer area ranges set in different scenes are different, the buffer area range set in an area with a large population and a dense base station is smaller, and the buffer area range set in an area with a remote location and a small base station is larger, so that the buffer area ranges need to be classified.
According to the embodiment of the present invention, the acquiring boundary data of a fixed area and acquiring a corresponding target base station based on the boundary data specifically includes:
acquiring a fixed area and corresponding boundary data input by a user side;
identifying a corresponding buffer area range based on the fixed area;
and acquiring a corresponding target base station based on the boundary data and the buffer area range, wherein the target base station comprises at least one communication base station.
It should be noted that, in this embodiment, different parks or amusement parks have different areas and boundaries, and therefore, a fixed area and corresponding boundary data input by a user end are obtained, so as to identify a corresponding buffer area range based on the fixed area, specifically, obtain the corresponding buffer area range through a communication position grade in the fixed area, and then obtain a corresponding target base station based on the boundary data and the buffer area range, where the target base station includes at least one communication base station, and may also be the target base station formed by multiple communication base stations together.
According to the embodiment of the present invention, the obtaining of the signaling data based on the target base station, so as to obtain the trajectory data of the user in the target base station based on the signaling data, specifically includes:
acquiring signaling data corresponding to each communication base station based on the target base station;
taking the position of the corresponding communication base station as the user position based on the signaling data;
and combining the signaling data and the user position to obtain the track data of the user based on the natural time sequence.
It should be noted that, in this embodiment, when each user communicates with a communication base station, signaling data is generated, so that signaling data corresponding to each communication base station can be obtained based on the target base station, so that a position of the communication base station corresponding to the signaling data is used as a user position corresponding to a current user, and a continuous trajectory of the user is obtained based on a natural time sequence according to a time sequence that the user passes through the communication base station in the target base station, so as to obtain corresponding trajectory data, for example: the user waits for "30min" at the base station a in the "10.
According to an embodiment of the present invention, the identifying a corresponding buffer area range based on the fixed area specifically includes:
acquiring a communication position grade based on the fixed area;
matching a corresponding buffer area range based on the communication location ranking, wherein,
the communication position grades comprise three grades, namely a first grade, a second grade and a third grade;
the first level corresponds to a first range, the second level corresponds to a second range, and the third level corresponds to a third range, wherein the first range is smaller than the second range, and the second range is smaller than the third range.
It should be noted that, in this embodiment, communication location grades corresponding to different fixed areas are different, and correspondingly, corresponding exchange area ranges thereof are also different, and the above embodiment illustrates that areas with a larger population and denser base stations have smaller buffer area ranges, areas with a farther location and fewer base stations have larger buffer area ranges, and therefore, the communication location grades include three grades, which are a first grade, a second grade and a third grade, respectively, where the first grade corresponds to a first range, the second grade corresponds to a second range, the third grade corresponds to a third range, the first range is smaller than the second range, and the second range is smaller than the third range, for example: the first range is "500-1 km", the second range is "1-5 km", and the third range is "5-10 km".
According to the embodiment of the present invention, the performing spatial operation based on the trajectory data and the boundary data to obtain an intersection quantity value specifically includes:
generating a set of user trajectory line segments based on the trajectory data using a spatial database;
performing spatial operation on the user track line segment set and the boundary data to identify a target track line segment set which has intersection with the boundary data;
and counting the number value of the target track line segment set to obtain the intersection number value.
It should be noted that, in this embodiment, each time the signaling data corresponds to the position data of the user, a spatial database is used to generate a user trajectory line segment set based on the trajectory data, so that a spatial operation is performed on the basis of the user trajectory line segment set and the boundary data to identify a target trajectory line segment set having an intersection with the boundary data, where the intersection quantity value is obtained by counting the quantity values of the target trajectory line segment set.
According to an embodiment of the invention, the method further comprises:
acquiring distribution data of the signaling data in the fixed area in time;
identifying the time for the tourists to get in and out of the fixed area based on the step data and the track data;
and screening the stay time of the tourists based on the time of the tourists entering and exiting the fixed area.
It should be noted that, in this embodiment, according to the distribution characteristics of the guest signaling data in the fixed area time, the time when the guest enters the fixed area and the time when the guest leaves the specific area can be counted, so as to conveniently count the residence time of the guest.
It is worth mentioning that the method further comprises:
acquiring a corresponding crossing time value in the target track line segment set;
comparing the crossing time value with a preset time difference to reject invalid data, wherein,
and when the crossing time value is smaller than the preset time difference, removing the corresponding target track line segment set, otherwise, not removing the target track line segment set.
It should be noted that, in this embodiment, since the rest of the people such as the takeout person and the delivery person appear in the scene of the park or the open park, for example, the part of the crowd needs to be rejected, and therefore, the time sequence of switching the part of the crowd at each communication base station may be obtained, so as to reject the target track line segment set corresponding to the user whose time difference value is smaller than the preset time difference.
It is worth mentioning that the method further comprises removing conventional data in the historical data, specifically comprising:
acquiring conventional signaling data of workers in a fixed area;
and removing the conventional signaling data from the signaling data acquired based on the target base station.
It should be noted that, in this embodiment, because there are corresponding amusement facilities in a fixed area such as a park or an amusement park, a special staff is required to take care of the park or the amusement park, and therefore signaling data of the part of staff in the target base station needs to be removed, so that corresponding conventional signaling data can be obtained by obtaining a mobile phone number of the staff, and thus the conventional signaling data is removed from the signaling data obtained based on the target base station to screen staff users in the park or the amusement park, thereby further ensuring the accuracy of the number of the visitors.
It is worth mentioning that the method further includes counting the total amount of the tourists at different time, specifically including:
classifying the signaling data in different time periods based on a natural time sequence;
identifying a specific time period input by a user side, and acquiring a corresponding time period value based on the specific time period;
and obtaining corresponding time parameter-signaling data based on the time period value, so as to obtain the total amount of the tourists at different moments by using the time parameter-signaling data.
It should be noted that, in this embodiment, in the operation process of the amusement park, the data of the tourists in different time periods need to be analyzed to help the amusement park perform data analysis, so the method in this embodiment further includes counting the total number of the tourists at different times, specifically, by identifying a specific time period input by the user terminal, and acquiring a value of the corresponding time period based on the specific time period, so as to obtain the total number of the tourists at different times by using signaling data in the corresponding time period based on the value of the time period, and help the management staff of the amusement park perform data analysis.
It is worth mentioning that the method further includes counting the total number of tourists in different areas, specifically including:
classifying signaling data in different regions based on preset region division;
identifying a specific area input by a user side, and acquiring a corresponding divided area based on the specific area;
and obtaining corresponding regional parameter-signaling data based on the divided regions, so that the total number of tourists at different moments is obtained by using the regional parameter-signaling data.
It should be noted that, in this embodiment, in the operation process of the amusement park, it is necessary to analyze guest data in different time periods to help the amusement park perform data analysis, so the method in this embodiment further includes counting total numbers of guests in different areas to help the amusement park manager to distinguish which area of the amusement ride is more popular, specifically, performing area division on a fixed area in advance to obtain different areas, further obtaining signaling data corresponding to the different areas, and obtaining a specific area input by the user end to identify the corresponding divided area, where the divided area may be one area divided in advance or a set of multiple areas, so as to obtain corresponding area parameter-signaling data based on the divided area, and thus obtain total numbers of guests at different times by using the area parameter-signaling data.
A third aspect of the present invention provides a computer-readable storage medium, which includes a signaling data-based fixed-area guest counting method program, and when the signaling data-based fixed-area guest counting method program is executed by a processor, the steps of the signaling data-based fixed-area guest counting method described in any one of the above are implemented.
The invention discloses a fixed area visitor counting method, a fixed area visitor counting system and a storage medium based on signaling data.
In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units; can be located in one place or distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, all the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be separately regarded as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.
Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media that can store program code.
Claims (10)
1. A fixed area tourist statistical method based on signaling data is characterized by comprising the following steps:
acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data;
acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data;
performing spatial operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the intersection quantity value to obtain the number of the tourists in the fixed area, wherein,
when the intersection quantity value is larger than or equal to a preset threshold value, the number of the tourists is subjected to an addition operation;
and when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated.
2. The method according to claim 1, wherein the obtaining of the boundary data of the fixed area and the obtaining of the corresponding target base station based on the boundary data specifically include:
acquiring a fixed area and corresponding boundary data input by a user side;
identifying a corresponding buffer area range based on the fixed area;
and acquiring a corresponding target base station based on the boundary data and the buffer area range, wherein the target base station comprises at least one communication base station.
3. The method according to claim 2, wherein the obtaining of the signaling data based on the target base station so as to obtain the trajectory data of the user in the target base station based on the signaling data includes:
acquiring signaling data corresponding to each communication base station based on the target base station;
taking the position of the corresponding communication base station as the user position based on the signaling data;
and combining the signaling data and the user position to obtain the track data of the user based on the natural time sequence.
4. The signaling data-based fixed-area visitor counting method according to claim 2, wherein the identifying a corresponding buffer area range based on the fixed area specifically includes:
acquiring a communication position grade based on the fixed area;
matching a corresponding buffer area range based on the communication location ranking, wherein,
the communication position grades comprise three grades, namely a first grade, a second grade and a third grade;
the first level corresponds to a first range, the second level corresponds to a second range, and the third level corresponds to a third range, wherein the first range is smaller than the second range, and the second range is smaller than the third range.
5. The signaling data-based fixed-area tourist statistical method according to claim 3, wherein the performing spatial operation based on the trajectory data and the boundary data to obtain an intersection quantity value specifically comprises:
generating a set of user trajectory line segments based on the trajectory data using a spatial database;
performing spatial operation on the user track line segment set and the boundary data to identify a target track line segment set which has intersection with the boundary data;
and counting the number value of the target track line segment set to obtain the intersection number value.
6. A signaling data based fixed-area guest counting method according to claim 1, further comprising:
acquiring distribution data of the signaling data in the fixed area in time;
identifying the time for the tourist to enter and exit the fixed area based on the step data and the track data;
and screening the stay time of the tourists based on the time of the tourists entering and exiting the fixed area.
7. A signaling data based fixed-area guest counting system, comprising a memory and a processor, wherein the memory includes a signaling data based fixed-area guest counting method program, and the signaling data based fixed-area guest counting method program when executed by the processor implements the following steps:
acquiring boundary data of a fixed area, and acquiring a corresponding target base station based on the boundary data;
acquiring signaling data based on the target base station, thereby acquiring the track data of the user in the target base station based on the signaling data;
performing spatial operation on the track data and the boundary data to obtain an intersection quantity value, and performing threshold judgment on the intersection quantity value to obtain the number of the tourists in the fixed area, wherein,
when the intersection quantity value is larger than or equal to a preset threshold value, the number of the tourists is subjected to an addition operation;
and when the intersection quantity value is smaller than a preset threshold value, the number of the tourists is not calculated.
8. The system according to claim 7, wherein the obtaining of the boundary data of the fixed area and the obtaining of the corresponding target base station based on the boundary data specifically comprises:
acquiring a fixed area and corresponding boundary data input by a user side;
identifying a corresponding buffer area range based on the fixed area;
and acquiring a corresponding target base station based on the boundary data and the buffer area range, wherein the target base station comprises at least one communication base station.
9. The signaling data-based fixed-area tourist statistic system according to claim 8, wherein said obtaining signaling data based on said target base station, so as to obtain trajectory data of users in said target base station based on signaling data specifically comprises:
acquiring signaling data corresponding to each communication base station based on the target base station;
taking the position of the corresponding communication base station as a user position based on the signaling data;
and combining the signaling data and the user position to obtain the track data of the user based on the natural time sequence.
10. A computer-readable storage medium, characterized in that the computer-readable storage medium includes a signaling data-based fixed-area guest statistical method program, and when the signaling data-based fixed-area guest statistical method program is executed by a processor, the steps of a signaling data-based fixed-area guest statistical method according to any one of claims 1 to 6 are implemented.
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