CN112764127A - Scenic spot weather detection method based on tourism big data - Google Patents

Abstract

The invention belongs to the technical field of meteorological detection, in particular to a scenic spot meteorological detection method based on tourist data, which comprises a control center and an acquisition device, wherein the control center is connected with the acquisition device; the control center and the acquisition device are in signal transmission through a network; the control center comprises a storage module, an analysis module and a pushing module; the storage module is used for storing various meteorological data generated in the detection process and tour data generated by tourists visiting scenic spots; the collecting device comprises an electronic label plate and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic tag is sent to the tourist when the tourist enters the scenic spot, and the electronic tag is returned when the tourist leaves the scenic spot; the collecting piles are inserted between original guard rails in the scenic spot according to a certain distance; information exchange exists between the electronic tag and the acquisition pile; the invention has simple use and easy operation, and can easily finish the meteorological detection of scenic spots.

Description

Scenic spot weather detection method based on tourism big data

Technical Field

The invention belongs to the technical field of meteorological detection, and particularly relates to a scenic spot meteorological detection method based on tourist data.

Background

Most of the existing meteorological detection modes collect meteorological data through various meteorological instruments, and then the meteorological data are substituted into a special meteorological model for operation, so that the meteorological state change condition within a certain time range in the future is predicted. Among the current meteorological detection, the forecast mode, what detect to various scenic spots is whole scenic spot, for the holistic meteorological change in scenic spot provides detection, forecast, avoid appearing the visitor and arrive the scenic spot after, find that the scenic spot is in the bad weather of blowing out the wind and raining, unsuitable tourism, lead to extravagant visitor's time, money and energy.

However, the existing scenic spot has a relatively large floor area, and different microclimate states may exist at different places of the scenic spot at the same time, such as a sunny high shot under the feet of the scenic spot, fog or rain spread at the mountain vertex of the scenic spot, which affects the tourism of the tourists and increases the potential danger of the tourists during the touring process. Meanwhile, under different microclimate states in the scenic region, the number of tourists visiting everywhere, the stay time and other data are different, so that the microclimate states of different places in the scenic region can be relatively accurately detected through analyzing the visiting data generated when the tourists visit in the scenic region, the weather detection of the scenic region is completed, and the tourists are timely informed to avoid places which are not beneficial to visiting. Meanwhile, through analyzing and detecting the meteorological state of the scenic spot by the tour data, the putting amount of the meteorological detection equipment in the scenic spot can be effectively reduced, the equipment installation and operation cost required to be put into the scenic spot meteorological detection is reduced, and the economic benefit of the scenic spot is improved.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that weather detection only aims at the whole scenic spot, and the weather detection equipment which needs to be invested for detecting weather states at different places in the scenic spot and in the different places in the scenic spot in the prior art is large in quantity and high in installation and operation cost, the invention provides a scenic spot weather detection method based on tourism big data.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a scenic spot weather detection method based on tourist big data, which comprises a control center and an acquisition device, wherein the control center is connected with the acquisition device; the control center and the acquisition device are in signal transmission through a network; the control center comprises a storage module, an analysis module and a pushing module; the storage module is used for storing various meteorological data generated in the detection process and tour data generated by tourists visiting scenic spots; the collecting device comprises an electronic label plate and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic tag is sent to the tourist when the tourist enters the scenic spot, and the electronic tag is returned when the tourist leaves the scenic spot; the electronic label plate is provided with a water and ink display screen with a touch function; the appearance of the collecting piles is the same as that of safety protective guards installed in scenic spots, and the collecting piles are inserted between the original protective guards at certain intervals; information exchange exists between the electronic tag and the acquisition pile;

the detection method comprises the following steps:

s1: when the tourist enters from the entrance of the scenic spot, the functional staff at the entrance of the scenic spot writes the age and sex of the tourist into the electronic tag according to the ticket purchasing information of the tourist, and distributes the electronic tag to the tourist for the tourist to carry;

s2: collecting relevant tourism data by interaction between collecting piles distributed among safety protective guards on roads in scenic spots and electronic tags carried by tourists, and sending the tourism data to an analysis module of a control center after the tourism data is collected by the collecting piles;

s3: on the basis of the step S2, the analysis module analyzes the tour data, substitutes historical meteorological data of the scenic spot in the analysis process, establishes a detection model, analyzes and conjectures the meteorological state of each site in the scenic spot through the detection model, and determines the microclimate state of each site in the scenic spot;

s4: on the basis of the step of S3, sending the microclimate state of each site in the scenic spot analyzed and presumed by the analysis module to the pushing module, sending the microclimate state to the acquisition pile of the corresponding site through the pushing module, and sending the received microclimate state to the electronic tag by the acquisition pile when the acquisition pile exchanges information with the electronic tag;

s5: on the basis of the step S4, the visitor views the microclimate state received on the electronic tag: when the microclimate state of the current position of the tourist is consistent with the received microclimate state, the tourist confirms the received microclimate state, and when the microclimate state of the current position of the tourist is different from the received microclimate state, the tourist corrects the received microclimate state to enable the microclimate state to be in line with the current microclimate state;

s6: on the basis of the step S5, the electronic tag is connected with the acquisition pile again, when data are exchanged, the electronic tag sends microclimate state confirmed or corrected by tourists to the acquisition pile, the acquisition pile sends the microclimate state received from the electronic tag to an analysis module in the control center again, and the analysis module corrects the detection model according to the received microclimate state;

when the tourist navigation system works, the electronic label plate is issued to the tourist when the tourist enters the scenic spot, so that the tour information of the tourist in the scenic spot is collected, the collected tour information of the tourist and the microclimate state of each place in the scenic spot are subjected to correlation analysis, the change condition of the tour information under different microclimate states is obtained, then the collected tour information and the change condition are compared and analyzed through the analysis module, the microclimate states of different places in the scenic spot are obtained, the weather detection in the scenic spot is completed, the condition that the weather states of different places in the scenic spot are different and the tourist cannot timely receive the weather state change in the scenic spot when the tourist is in the scenic spot is avoided in a larger scenic spot range, so that the influence of the weather states of different places in the scenic spot is easy to disturb the tour interest of the tourist, and meanwhile, the electronic label plate carried by the tourist in the scenic spot can provide navigation for the tourist to a certain extent during the use process, make things convenient for visitor's sight, simultaneously, through statistics and the count to the electronic tags tablet, can avoid a small number of tourists to in time leave the scenic spot, lead to the visitor to be stranded in the scenic spot and the condition that unmanned knowing appears after the scenic spot is closed, guarantee visitor's security in the scenic spot, and simultaneously, after the completion detects the microclimate state in different places in the scenic spot, send the microclimate state of near visitor's region to the electronic tags tablet, supply the visitor to look over, make things convenient for visitor's sight in the scenic spot, the microclimate state of avoiding the inside part of scenic spot is not good, influence visitor's sight.

Preferably, the collecting pile counts the number of electronic tags which are connected with the collecting pile per se and exchange data in unit time to obtain the number of tourists arriving at the position of the collecting pile in unit time; the tourism data comprises the number of tourists collected by the collecting pile; after the collecting pile collects the number of the tourists at the position in unit time, the information of the number of the tourists is sent to an analysis module; the analysis module collects and analyzes the number information of the tourists collected by the collecting piles in the panoramic area to obtain the distribution conditions of the tourists at different places in the scenic area; the analysis module compares the historical tourist distribution conditions of different places in the scenic spot with historical meteorological data of different places in the scenic spot to obtain the number variation trend of the tourists in the meteorological states of different places in the scenic spot and obtain the average characteristic values of the tourist number distribution of different places in the scenic spot in different meteorological states, namely the different average characteristic values correspond to different meteorological states; the analysis module compares the number of the tourist distributions of different positions in the scenic spot received in the current time period with the average characteristic value of the tourist distribution of the corresponding position; when the difference value between the average characteristic value and the tourist distribution quantity is closest, judging that the meteorological state of the site is the meteorological state corresponding to the average characteristic value, and completing meteorological detection of different sites in the scenic spot;

during operation, through gathering being connected between stake and the electronic tags, gather the stake and collect visitor's quantity information through this department, carry out correlation analysis to historical visitor's quantity information and the little meteorological state at this place through analysis module, reachs the relation of visitor's number and meteorological state, later, through analysis module to visitor's quantity information's analysis, judge out the little meteorological state at different places in the scenic spot, guarantee to scenic spot meteorological detection's accuracy and ageing.

Preferably, the acquisition pile is connected with the electronic tag, and when the number of tourists in unit time is acquired, the acquisition pile synchronously acquires the age range and gender data of the tourists corresponding to the electronic tag, namely the characteristic data of the tourists; after collecting the characteristic data of the tourists, the collecting pile sends the characteristic data of the tourists to an analysis module in the control center; the analysis module performs correlation analysis on historical microclimate states of different places of a scenic spot and historical tourist feature data corresponding to the place to obtain the distribution condition of the tourist feature data under different microclimate states, namely different tourist feature data correspond to different microclimate states; the analysis module compares and analyzes the characteristic data of the tourists received at the current time with the characteristic distribution conditions of the historical tourists in different microclimate states, finds out the characteristic data of the historical tourists closest to the characteristic data of the current tourists, and judges that the microclimate state corresponding to the characteristic data of the historical tourists is the current meteorological state of the place corresponding to the characteristic data of the current tourists and finishes the meteorological detection of different places of a scenic area;

when the tourist monitoring system works, as the tourist enters a scenic area, the issued electronic tag stores the age and gender information of the tourist, when the tourist passes through the acquisition pile, the acquisition pile collects the age and gender data of the tourist, then, the related information of the tourist is analyzed through the analysis module, the relationship that the age and gender of the tourist who visits are affected by microclimate is obtained, then, the acquired age and gender data of the tourist are associated, analyzed and judged with the microclimate through the analysis module, microclimate states of different places of the scenic area are obtained, and the accuracy and the sensitivity of detection on the meteorological state of the scenic area in the using process are improved.

Preferably, when the tourist stays near a certain acquisition pile, the acquisition pile records the staying time of the tourist when acquiring the tour data, and the staying time is used as a part of the tour data; the collecting pile sends the collected residence time of the tourists to an analysis module; the analysis module performs correlation analysis on historical visitor residence time and microclimate states corresponding to the place to obtain visiting time average values of the visitors at the place in different meteorological states, namely the visiting time average values correspond to different microclimate states; the analysis module compares the received current visitor residence time with the visit time average value to find out the visit time average value closest to the current visitor residence time, and then the analysis module judges that the microclimate state corresponding to the visit time average value is the current meteorological state of the place corresponding to the current visitor residence time to complete the meteorological detection of different places in the scenic area;

during operation, when gathering the stake and wearing the electronic tags board on the visitor and being connected, gather the stake and obtain the time that the visitor stopped in same place department through the electronic tags board, later, analysis module carries out relevance and analysis with visitor's dwell time and microclimate state, reachs the relation between dwell time and the meteorological state, later, carry out analysis, judgement to dwell time through analysis module, obtain the microclimate state of scenic region different places, further promote accuracy and the sensitivity to the detection of scenic region meteorological state in the use.

Preferably, the collecting device comprises an electronic label plate and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic label includes a body; the appearance of the body is a square card, and a hanging rope is arranged on the body; after the electronic tag is issued to the tourist, the tourist hangs the electronic tag on the body through a hanging rope; the side surface of the electronic label plate is provided with an ink display screen with a touch function; the electronic label plate is internally and fixedly provided with a coil, a control panel and a battery; the ink display screen is electrically connected with the control panel; the coil is electrically connected with the control board; the coil and the ink display screen are respectively positioned on two side surfaces of the electronic label; the control board is electrically connected with the battery; the coil is switched between a wireless induction charging state and a signal transmitting state under the control of the control panel; the coil induces electricity to charge the battery in the electronic label plate in a wireless induction charging state; the coil receives and transmits signals in a signal transmitting state to complete data transmission; the control panel is provided with an RFID chip, and the control panel expands and transmits signals through a coil, is connected with the acquisition pile and transmits information;

wherein, when the tourist visits in the scenic spot, the display screen on the electronic label plate displays the location of the tourist and the rough map of the scenic spot, so that the tourist can find the destination and go to the scenic spot quickly in the visiting process, meanwhile, in the using process, the electronic label plate is positioned through the interaction between the electronic label plate and the acquisition piles with fixed positions arranged in the scenic spot, and the weather detection information of different locations in the scenic spot is updated in time, so that the tourist can visit conveniently, meanwhile, in the using process, the coil in the electronic label plate is used as an antenna to transmit signals, so that the electronic label plate and the acquisition piles are kept connected and exchange data, and meanwhile, after the electronic label plate is returned by the user, the effect generated by the coil in the electronic label plate is changed, thereby the electronic label plate charges the battery in the electronic label plate in a wireless charging mode, and avoids using time, the electric quantity is insufficient, so that the electronic tag is invalid;

the collection pile comprises a body; an installation cavity is formed in the main body; a maintenance opening is formed in the side face of the main body; a sealing block is fixedly arranged in the maintenance opening; a spring is fixedly arranged at the center of the bottom surface of the mounting cavity; a moving block is arranged in the mounting cavity in a sliding manner; the upper end of the spring is fixedly connected to the lower surface of the moving block; a limiting rod is fixedly arranged on the upper surface of the moving block; the controller and the battery are fixedly arranged on the upper surface of the moving block; the controller is electrically connected with the battery; the height of the limiting rod is greater than that of the controller and the battery; the lower surface of the moving block is covered with a dehumidification layer made of high-molecular water-absorbent resin; a pull rope is fixedly connected to the center position of the lower surface of the moving block, and naturally droops; the maintenance port is opposite to the lower end of the pull rope; a mounting hole is formed in the middle of the sealing block; a fixing bolt is fixedly arranged in the mounting hole through threads; an extension rod is slidably mounted in the sealing block, and one end of the extension rod, which is positioned in the sealing block, enters the mounting hole; a groove is formed in the side wall of the maintenance opening and in the position opposite to the extension rod; the extension bar is extruded by the fixing bolt, extends outwards and is inserted into the groove; a magnetic layer is arranged at the bottom of the groove; magnetic repulsion exists between the magnetic layer and the extension bar; a rubber sealing strip is arranged between the sealing block and the maintenance port; the outer surface of the main body is coated with a rubber layer; a layer of metal net is arranged in the rubber layer; the metal net is electrically connected with the controller to play the effect of the antenna;

when the collecting pile works, the moving block in the mounting cavity in the main body rises upwards under the action of the spring, the upper end of the limiting rod fixedly mounted on the upper surface of the moving block is contacted with the top wall of the upper end of the mounting cavity, so that a space exists between the moving block and the top wall of the mounting cavity, the controller and the battery are conveniently mounted on the upper surface of the moving block, the controller and the battery are relatively sealed in the mounting cavity under the action of the moving block, external interference is isolated, the controller and the battery are protected, the controller and the battery are prevented from being damaged, the service life of the collecting pile is prevented from being influenced, meanwhile, in the using process, a maintenance port formed in the main body is sealed by the sealing block, external water vapor is prevented from entering the mounting cavity, the electric element is prevented from being damaged, meanwhile, the moisture removing layer arranged on the lower surface of the moving block can absorb a small amount of water vapor entering the mounting cavity, and the, meanwhile, in the working process, after the electric element in the installation cavity is installed, the fixing bolt is screwed into the installation hole through threads, in the process that the fixing bolt enters the installation hole, the tail end of the fixing bolt extrudes the extension rod, the extension rod is inserted into the groove, the sealing block and the main body are fixed, the problem that the sealing block cannot fall off in the use process is guaranteed, meanwhile, when the electric element in the installation cavity needs to be overhauled, a worker uses a hexagon socket wrench to take out the fixing bolt in the installation hole, then the extension rod returns to the inside of the sealing block under the action of magnetic repulsion force of a magnetic layer in the groove, the locking between the sealing block and the main body is released, then the worker takes off the sealing block, manually pulls the tail end of the pulling rope hanging down in the installation cavity, drives the moving block to move downwards through the pulling rope until the electric element installed on the upper surface of the moving block is exposed at the maintenance opening, stop the pulling rope downwards, later, after accomplishing the maintenance, the staff loosens the pulling rope, and under the effect of spring, the movable block gets back to the original position in the installation cavity again, simultaneously, in the use, with the metal mesh of parcel in the rubber layer outside the main part as the antenna, can promote the transmission and the receiving effect of signal, avoid the signal unstable.

Preferably, the metal net is obtained by weaving fine metal wires; the metal net is mixed with the detection wires according to a certain rule in the weaving process; the detection wire is a metal wire with a layer of insulating coating coated on the surface; a plurality of detection wires exist in the metal net, and the detection wires are electrically connected with the controller;

during operation, through sneaking into the detection silk in the metal mesh, can make the controller in time discover when the metal mesh in the rubber layer outside the main part appears damaging to the transmission damages information to control center, supplies the staff to look over, thereby guarantees when the metal mesh appears damaging, can in time obtain the maintenance, avoids the metal mesh to damage, leads to gathering the stake and can not normally be connected and exchange data with the electronic tags tablet.

The invention has the following beneficial effects:

1. the invention relates to a scenic spot weather detection method based on tourist big data, which is characterized in that a collection pile, an electronic tag board and an analysis module are arranged to collect and analyze tour data generated when tourists visit in a scenic spot, the tour data and microclimate in the scenic spot are subjected to correlation analysis, and then different changes of the tourists in various microclimate states in the scenic spot are obtained, so that weather states of different places in the scenic spot are obtained by analyzing the tour data of the tourists in the scenic spot, and the detection of the scenic spot weather states in the actual application process is prevented from being stopped in the detection of the whole weather state of the scenic spot.

2. According to the scenic spot meteorological detection method based on the tourism big data, the main body, the installation cavity, the moving block, the spring and the limiting rod are arranged, so that the electric element installed in the acquisition pile is well protected in the use process, external liquid and water vapor can be effectively prevented from entering the installation cavity, the normal work of the electric element in the installation cavity is influenced, the service life of the electric element is shortened, meanwhile, under the action of the spring and the moving block, when the sealing block on the main body is damaged, the external liquid cannot directly contact the electric element in the installation cavity, and the normal operation of the electric element is guaranteed.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a schematic structural view of a collection pile of the present invention;

FIG. 2 is a flow chart of a method of the present invention;

in the figure: the device comprises a main body 1, a mounting cavity 11, a spring 12, a rubber layer 13, a moving block 2, a dehumidification layer 21, a controller 22, a battery 23, a limiting rod 24, a pull rope 25, a sealing block 3, a fixing bolt 31 and an extension rod 32.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 and fig. 2, the scenic spot weather detection method based on tourist data of the present invention includes a control center and an acquisition device; the control center and the acquisition device are in signal transmission through a network; the control center comprises a storage module, an analysis module and a pushing module; the storage module is used for storing various meteorological data generated in the detection process and tour data generated by tourists visiting scenic spots; the collecting device comprises an electronic label plate and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic tag is sent to the tourist when the tourist enters the scenic spot, and the electronic tag is returned when the tourist leaves the scenic spot; the electronic label plate is provided with a water and ink display screen with a touch function; the appearance of the collecting piles is the same as that of safety protective guards installed in scenic spots, and the collecting piles are inserted between the original protective guards at certain intervals; information exchange exists between the electronic tag and the acquisition pile;

the detection method comprises the following steps:

s1: when the tourist enters from the entrance of the scenic spot, the functional staff at the entrance of the scenic spot writes the age and sex of the tourist into the electronic tag according to the ticket purchasing information of the tourist, and distributes the electronic tag to the tourist for the tourist to carry;

s2: collecting relevant tourism data by interaction between collecting piles distributed among safety protective guards on roads in scenic spots and electronic tags carried by tourists, and sending the tourism data to an analysis module of a control center after the tourism data is collected by the collecting piles;

s3: on the basis of the step S2, the analysis module analyzes the tour data, substitutes historical meteorological data of the scenic spot in the analysis process, establishes a detection model, analyzes and conjectures the meteorological state of each site in the scenic spot through the detection model, and determines the microclimate state of each site in the scenic spot;

s4: on the basis of the step of S3, sending the microclimate state of each site in the scenic spot analyzed and presumed by the analysis module to the pushing module, sending the microclimate state to the acquisition pile of the corresponding site through the pushing module, and sending the received microclimate state to the electronic tag by the acquisition pile when the acquisition pile exchanges information with the electronic tag;

s5: on the basis of the step S4, the visitor views the microclimate state received on the electronic tag: when the microclimate state of the current position of the tourist is consistent with the received microclimate state, the tourist confirms the received microclimate state, and when the microclimate state of the current position of the tourist is different from the received microclimate state, the tourist corrects the received microclimate state to enable the microclimate state to be in line with the current microclimate state;

s6: on the basis of the step S5, the electronic tag is connected with the acquisition pile again, when data are exchanged, the electronic tag sends microclimate state confirmed or corrected by tourists to the acquisition pile, the acquisition pile sends the microclimate state received from the electronic tag to an analysis module in the control center again, and the analysis module corrects the detection model according to the received microclimate state;

when the tourist navigation system works, the electronic label plate is issued to the tourist when the tourist enters the scenic spot, so that the tour information of the tourist in the scenic spot is collected, the collected tour information of the tourist and the microclimate state of each place in the scenic spot are subjected to correlation analysis, the change condition of the tour information under different microclimate states is obtained, then the collected tour information and the change condition are compared and analyzed through the analysis module, the microclimate states of different places in the scenic spot are obtained, the weather detection in the scenic spot is completed, the condition that the weather states of different places in the scenic spot are different and the tourist cannot timely receive the weather state change in the scenic spot when the tourist is in the scenic spot is avoided in a larger scenic spot range, so that the influence of the weather states of different places in the scenic spot is easy to disturb the tour interest of the tourist, and meanwhile, the electronic label plate carried by the tourist in the scenic spot can provide navigation for the tourist to a certain extent during the use process, make things convenient for visitor's sight, simultaneously, through statistics and the count to the electronic tags tablet, can avoid a small number of tourists to in time leave the scenic spot, lead to the visitor to be stranded in the scenic spot and the condition that unmanned knowing appears after the scenic spot is closed, guarantee visitor's security in the scenic spot, and simultaneously, after the completion detects the microclimate state in different places in the scenic spot, send the microclimate state of near visitor's region to the electronic tags tablet, supply the visitor to look over, make things convenient for visitor's sight in the scenic spot, the microclimate state of avoiding the inside part of scenic spot is not good, influence visitor's sight.

As an embodiment of the invention, the collecting pile counts the number of electronic tags which are connected with the collecting pile per se and exchange data in unit time to obtain the number of tourists arriving at the collecting pile in unit time; the tourism data comprises the number of tourists collected by the collecting pile; after the collecting pile collects the number of the tourists at the position in unit time, the information of the number of the tourists is sent to an analysis module; the analysis module collects and analyzes the number information of the tourists collected by the collecting piles in the panoramic area to obtain the distribution conditions of the tourists at different places in the scenic area; the analysis module compares the historical tourist distribution conditions of different places in the scenic spot with historical meteorological data of different places in the scenic spot to obtain the number variation trend of the tourists in the meteorological states of different places in the scenic spot and obtain the average characteristic values of the tourist number distribution of different places in the scenic spot in different meteorological states, namely the different average characteristic values correspond to different meteorological states; the analysis module compares the number of the tourist distributions of different positions in the scenic spot received in the current time period with the average characteristic value of the tourist distribution of the corresponding position; when the difference value between the average characteristic value and the tourist distribution quantity is closest, judging that the meteorological state of the site is the meteorological state corresponding to the average characteristic value, and completing meteorological detection of different sites in the scenic spot;

during operation, through gathering being connected between stake and the electronic tags, gather the stake and collect visitor's quantity information through this department, carry out correlation analysis to historical visitor's quantity information and the little meteorological state at this place through analysis module, reachs the relation of visitor's number and meteorological state, later, through analysis module to visitor's quantity information's analysis, judge out the little meteorological state at different places in the scenic spot, guarantee to scenic spot meteorological detection's accuracy and ageing.

As an embodiment of the invention, when the acquisition pile is connected with the electronic tag and acquires the number of tourists in unit time, the acquisition pile synchronously acquires the age group and gender data of the tourists corresponding to the electronic tag, namely the characteristic data of the tourists; after collecting the characteristic data of the tourists, the collecting pile sends the characteristic data of the tourists to an analysis module in the control center; the analysis module performs correlation analysis on historical microclimate states of different places of a scenic spot and historical tourist feature data corresponding to the place to obtain the distribution condition of the tourist feature data under different microclimate states, namely different tourist feature data correspond to different microclimate states; the analysis module compares and analyzes the characteristic data of the tourists received at the current time with the characteristic distribution conditions of the historical tourists in different microclimate states, finds out the characteristic data of the historical tourists closest to the characteristic data of the current tourists, and judges that the microclimate state corresponding to the characteristic data of the historical tourists is the current meteorological state of the place corresponding to the characteristic data of the current tourists and finishes the meteorological detection of different places of a scenic area;

when the tourist monitoring system works, as the tourist enters a scenic area, the issued electronic tag stores the age and gender information of the tourist, when the tourist passes through the acquisition pile, the acquisition pile collects the age and gender data of the tourist, then, the related information of the tourist is analyzed through the analysis module, the relationship that the age and gender of the tourist who visits are affected by microclimate is obtained, then, the acquired age and gender data of the tourist are associated, analyzed and judged with the microclimate through the analysis module, microclimate states of different places of the scenic area are obtained, and the accuracy and the sensitivity of detection on the meteorological state of the scenic area in the using process are improved.

As an embodiment of the present invention, when the tourist stays near a certain collecting pile, the collecting pile records the staying time of the tourist when collecting the tour data, and uses the time as a part of the tour data; the collecting pile sends the collected residence time of the tourists to an analysis module; the analysis module performs correlation analysis on historical visitor residence time and microclimate states corresponding to the place to obtain visiting time average values of the visitors at the place in different meteorological states, namely the visiting time average values correspond to different microclimate states; the analysis module compares the received current visitor residence time with the visit time average value to find out the visit time average value closest to the current visitor residence time, and then the analysis module judges that the microclimate state corresponding to the visit time average value is the current meteorological state of the place corresponding to the current visitor residence time to complete the meteorological detection of different places in the scenic area;

during operation, when gathering the stake and wearing the electronic tags board on the visitor and being connected, gather the stake and obtain the time that the visitor stopped in same place department through the electronic tags board, later, analysis module carries out relevance and analysis with visitor's dwell time and microclimate state, reachs the relation between dwell time and the meteorological state, later, carry out analysis, judgement to dwell time through analysis module, obtain the microclimate state of scenic region different places, further promote accuracy and the sensitivity to the detection of scenic region meteorological state in the use.

As an embodiment of the present invention, the collecting device includes an electronic tag and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic label includes a body; the appearance of the body is a square card, and a hanging rope is arranged on the body; after the electronic tag is issued to the tourist, the tourist hangs the electronic tag on the body through a hanging rope; the side surface of the electronic label plate is provided with an ink display screen with a touch function; the electronic label plate is internally and fixedly provided with a coil, a control panel and a battery 23; the ink display screen is electrically connected with the control panel; the coil is electrically connected with the control board; the coil and the ink display screen are respectively positioned on two side surfaces of the electronic label; the control board is electrically connected with the battery 23; the coil is switched between a wireless induction charging state and a signal transmitting state under the control of the control panel; the coil induces electricity to charge the battery 23 in the electronic label plate in a wireless induction charging state; the coil receives and transmits signals in a signal transmitting state to complete data transmission; the control panel is provided with an RFID chip, and the control panel expands and transmits signals through a coil, is connected with the acquisition pile and transmits information;

wherein, when the tourist visits in the scenic spot, the display screen on the electronic label plate displays the location of the tourist and the rough map of the scenic spot, so that the tourist can find the destination and go to the scenic spot quickly in the visiting process, meanwhile, in the using process, the electronic label plate is positioned through the interaction between the collecting piles which are arranged in the scenic spot and fixed in position, and the weather detection information of different locations in the scenic spot is updated in time, so as to facilitate the tourist visiting, meanwhile, in the using process, the coil in the electronic label plate is used as an antenna to transmit signals, so that the electronic label plate and the collecting piles are kept connected and exchange data, and meanwhile, after the electronic label plate is returned by the user, the effect generated by the coil in the electronic label plate is changed, thereby the electronic label plate charges the battery 23 in the electronic label plate in a wireless charging mode, and avoids using time, the electric quantity is insufficient, so that the electronic tag is invalid;

the pick pile comprises a body 1; an installation cavity 11 is formed in the main body 1; a maintenance opening is formed in the side surface of the main body 1; a sealing block 3 is fixedly arranged in the maintenance opening; a spring 12 is fixedly arranged at the center of the bottom surface of the mounting cavity 11; a moving block 2 is arranged in the mounting cavity 11 in a sliding manner; the upper end of the spring 12 is fixedly connected to the lower surface of the moving block 2; a limiting rod 24 is fixedly arranged on the upper surface of the moving block 2; a controller 22 and a battery 23 are fixedly arranged on the upper surface of the moving block 2; the controller 22 is electrically connected with the battery 23; the height of the limiting rod 24 is greater than that of the controller 22 and the battery 23; the lower surface of the moving block 2 is covered with a dehumidification layer 21 made of high-molecular water-absorbent resin; a pull rope 25 is fixedly connected to the central position on the lower surface of the moving block 2, and the pull rope 25 naturally droops; the maintenance opening is opposite to the lower end of the pull rope 25; a mounting hole is formed in the middle of the sealing block 3; a fixing bolt 31 is fixedly arranged in the mounting hole through threads; an extension rod 32 is slidably mounted in the sealing block 3, and one end of the extension rod 32, which is positioned in the sealing block 3, enters the mounting hole; a groove is formed in the position, opposite to the extension rod 32, on the side wall of the maintenance opening; the extension bar 32 is pressed by the fixing bolt 31, extends outwards and is inserted into the groove; a magnetic layer is arranged at the bottom of the groove; a magnetic repulsive force exists between the magnetic layer and the extension bar 32; a rubber sealing strip is arranged between the sealing block 3 and the maintenance port; the outer surface of the main body 1 is coated with a rubber layer 13; a layer of metal net is arranged in the rubber layer 13; the metal mesh is electrically connected with the controller 22 to exert the effect of the antenna;

when the collecting pile works, the moving block 2 in the mounting cavity 11 in the main body 1 rises upwards under the action of the spring 12, the upper end of the limiting rod 24 fixedly mounted on the upper surface of the moving block 2 is contacted with the top wall of the upper end of the mounting cavity 11, so that a space exists between the moving block 2 and the top wall of the mounting cavity 11, the controller 22 and the battery 23 are conveniently mounted on the upper surface of the moving block 2, the controller 22 and the battery 23 are relatively sealed in the mounting cavity 11 under the action of the moving block 2 to isolate external interference and generate a protection effect on the controller 22 and the battery 23 to prevent the controller 22 and the battery 23 from being damaged and influence the service life of the collecting pile, meanwhile, in the using process, a maintenance port formed in the main body 1 is plugged by the sealing block 3 to prevent external water vapor from entering the mounting cavity 11 to cause damage of an electric element, and meanwhile, the dehumidifying layer 21 arranged on the lower surface of the moving block 2 can absorb a small amount of water vapor entering the mounting cavity 11, the normal use of the electronic element in the installation cavity 11 is prevented from being influenced by water vapor, meanwhile, in the working process, after the installation of the electric element in the installation cavity 11 is completed, the fixing bolt 31 is screwed into the installation hole through threads, in the process that the fixing bolt 31 enters the installation hole, the tail end of the fixing bolt 31 extrudes the extension rod 32, the extension rod 32 is inserted into the groove, the sealing block 3 and the main body 1 are fixed, the problem that the sealing block 3 cannot fall off in the use process is guaranteed, meanwhile, when the electric element in the installation cavity 11 needs to be overhauled, a worker uses an inner hexagon wrench to take out the fixing bolt 31 in the installation hole, then the extension rod 32 returns to the inside of the sealing block 3 under the action of the magnetic repulsion force of the magnetic layer in the groove, the locking between the sealing block 3 and the main body 1 is released, then the worker takes off the sealing block 3, the stay cord 25 end that hangs down in the manual pulling installation cavity 11, drive the movable block 2 through stay cord 25 and move down, after the electric elements exhibition of installation on the movable block 2 upper surface is located in maintenance mouth, stop pulling the stay cord 25 downwards, afterwards, after accomplishing the maintenance, the staff loosens stay cord 25, under the effect of spring 12, the original position in installation cavity 11 is got back to again to movable block 2, and simultaneously, in the use, the metal mesh in the rubber layer 13 of parcel outside main part 1 is as the antenna, can promote the transmission and the receiving effect of signal, avoid the signal unstability.

As an embodiment of the present invention, the metal mesh is woven by fine metal wires; the metal net is mixed with the detection wires according to a certain rule in the weaving process; the detection wire is a metal wire with a layer of insulating coating coated on the surface; a plurality of detection wires exist in the metal net, and each detection wire is electrically connected with the controller 22;

during operation, through sneaking into the detection silk in the metal mesh, can make controller 22 can in time discover when the metal mesh in the rubber layer 13 outside main part 1 appears damaging to transmit the damage information to control center, supply the staff to look over, thereby guarantee when the metal mesh appears damaging, can in time obtain the maintenance, avoid the metal mesh to damage, lead to gathering the stake and can not normally be connected and exchange data with the electronic tags tablet.

The specific working process is as follows:

when the electronic label board is used, a coil in the electronic label board is used as an antenna to transmit signals, so that the electronic label board and the acquisition piles are kept connected and exchange data, and meanwhile, after the electronic label board is handed back by a user, the battery 23 in the electronic label board is charged in a wireless charging mode through the coil; the movable block 2 in the installation cavity 11 in the main body 1 rises upwards under the action of the spring 12, the upper end of a limiting rod 24 fixedly installed on the upper surface of the movable block 2 is contacted with the top wall of the upper end of the installation cavity 11, a space is formed between the movable block 2 and the top wall of the installation cavity 11, meanwhile, a maintenance opening formed in the main body 1 is blocked by the sealing block 3, a dehumidification layer 21 arranged on the lower surface of the movable block 2 can absorb a small amount of water vapor entering the installation cavity 11, meanwhile, in the working process, after the installation of the electric elements in the installation cavity 11 is completed, the fixing bolt 31 is screwed into the installation hole through threads, in the process that the fixing bolt 31 enters the installation hole, the tail end of the fixing bolt 31 extrudes the extension rod 32, the extension rod 32 is inserted into the groove, the sealing block 3 and the main body 1 are fixed, and meanwhile, when the electric elements in the installation cavity 11 need to be overhauled, the worker uses a hexagon socket wrench to take out the fixing bolt 31 in the mounting hole, then the extension rod 32 returns to the inside of the sealing block 3 under the action of the magnetic repulsion force of the magnetic layer in the groove to release the locking between the sealing block 3 and the main body 1, then the worker takes the sealing block 3 down, manually pulls the tail end of the pull rope 25 hanging down in the mounting cavity 11, drives the moving block 2 to move downwards through the pull rope 25 until the electric element mounted on the upper surface of the moving block 2 is exposed at the maintenance opening, stops pulling the pull rope 25 downwards, then after the maintenance is completed, the worker loosens the pull rope 25, and returns the moving block 2 to the original position in the mounting cavity 11 under the action of the spring 12, and meanwhile, in the using process, the metal mesh wrapped in the rubber layer 13 outside the main body 1 is used as an antenna to improve the transmitting and receiving effects of signals; the metal mesh in the rubber layer is mixed with the detection wires, and when the metal mesh in the rubber layer 13 outside the main body 1 is damaged, the controller 22 can find out the damage in time and transmit the damage information to the control center.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A scenic spot weather detection method based on tourism big data is characterized in that: the detection method comprises a control center and a collection device; the control center and the acquisition device are in signal transmission through a network; the control center comprises a storage module, an analysis module and a pushing module; the storage module is used for storing various meteorological data generated in the detection process and tour data generated by tourists visiting scenic spots; the collecting device comprises an electronic label plate and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic tag is sent to the tourist when the tourist enters the scenic spot, and the electronic tag is returned when the tourist leaves the scenic spot; the electronic label plate is provided with a water and ink display screen with a touch function; the appearance of the collecting piles is the same as that of safety protective guards installed in scenic spots, and the collecting piles are inserted between the original protective guards at certain intervals; information exchange exists between the electronic tag and the acquisition pile;

the detection method comprises the following steps:

s1: when the tourist enters from the entrance of the scenic spot, the functional staff at the entrance of the scenic spot writes the age and sex of the tourist into the electronic tag according to the ticket purchasing information of the tourist, and distributes the electronic tag to the tourist for the tourist to carry;

s2: collecting relevant tourism data by interaction between collecting piles distributed among safety protective guards on roads in scenic spots and electronic tags carried by tourists, and sending the tourism data to an analysis module of a control center after the tourism data is collected by the collecting piles;

s3: on the basis of the step S2, the analysis module analyzes the tour data, substitutes historical meteorological data of the scenic spot in the analysis process, establishes a detection model, analyzes and conjectures the meteorological state of each site in the scenic spot through the detection model, and determines the microclimate state of each site in the scenic spot;

s4: on the basis of the step of S3, sending the microclimate state of each site in the scenic spot analyzed and presumed by the analysis module to the pushing module, sending the microclimate state to the acquisition pile of the corresponding site through the pushing module, and sending the received microclimate state to the electronic tag by the acquisition pile when the acquisition pile exchanges information with the electronic tag;

s5: on the basis of the step S4, the visitor views the microclimate state received on the electronic tag: when the microclimate state of the current position of the tourist is consistent with the received microclimate state, the tourist confirms the received microclimate state, and when the microclimate state of the current position of the tourist is different from the received microclimate state, the tourist corrects the received microclimate state to enable the microclimate state to be in line with the current microclimate state;

s6: and on the basis of the step S5, the electronic tag is connected with the acquisition pile again, when data are exchanged, the electronic tag sends the microclimate state confirmed or corrected by the visitor to the acquisition pile, the acquisition pile resends the microclimate state received from the electronic tag to an analysis module in the control center, and the analysis module corrects the detection model according to the resent microclimate state.

2. The scenic spot weather detection method based on tourist data as claimed in claim 1, wherein: the collecting pile counts the number of the electronic tags which are connected with the collecting pile per se and exchange data in unit time to obtain the number of tourists arriving at the position of the collecting pile in unit time; the tourism data comprises the number of tourists collected by the collecting pile; after the collecting pile collects the number of the tourists at the position in unit time, the information of the number of the tourists is sent to an analysis module; the analysis module collects and analyzes the number information of the tourists collected by the collecting piles in the panoramic area to obtain the distribution conditions of the tourists at different places in the scenic area; the analysis module compares the historical tourist distribution conditions of different places in the scenic spot with historical meteorological data of different places in the scenic spot to obtain the number variation trend of the tourists in the meteorological states of different places in the scenic spot and obtain the average characteristic values of the tourist number distribution of different places in the scenic spot in different meteorological states, namely the different average characteristic values correspond to different meteorological states; the analysis module compares the number of the tourist distributions of different positions in the scenic spot received in the current time period with the average characteristic value of the tourist distribution of the corresponding position; and when the difference value between the average characteristic value and the tourist distribution quantity is closest, judging that the meteorological state of the site is the meteorological state corresponding to the average characteristic value, and completing the meteorological detection of different sites in the scenic spot.

3. The scenic spot weather detection method based on tourist data as claimed in claim 1, wherein: the collecting pile is connected with the electronic tag, and synchronously collects age and gender data of the tourists corresponding to the electronic tag, namely the characteristic data of the tourists when the quantity of the tourists in unit time is collected; after collecting the characteristic data of the tourists, the collecting pile sends the characteristic data of the tourists to an analysis module in the control center; the analysis module performs correlation analysis on historical microclimate states of different places of a scenic spot and historical tourist feature data corresponding to the place to obtain the distribution condition of the tourist feature data under different microclimate states, namely different tourist feature data correspond to different microclimate states; the analysis module compares and analyzes the characteristic data of the tourists received at the current time with the characteristic distribution conditions of the historical tourists in different microclimate states, finds out the historical characteristic data of the tourists closest to the current characteristic data of the tourists, and judges that the microclimate state corresponding to the historical characteristic data of the tourists is the current meteorological state of the place corresponding to the current characteristic data of the tourists, so as to finish the meteorological detection of different places in the scenic area.

4. The scenic spot weather detection method based on tourist data as claimed in claim 1, wherein: when the tourist stays near a certain acquisition pile, the acquisition pile records the staying time of the tourist when acquiring the tour data, and the time is used as a part of the tour data; the collecting pile sends the collected residence time of the tourists to an analysis module; the analysis module performs correlation analysis on historical visitor residence time and microclimate states corresponding to the place to obtain visiting time average values of the visitors at the place in different meteorological states, namely the visiting time average values correspond to different microclimate states; and the analysis module compares the received current visitor residence time with the visit time average value to find out the visit time average value closest to the current visitor residence time, and then the analysis module judges that the microclimate state corresponding to the visit time average value is the current meteorological state of the place corresponding to the current visitor residence time to finish the meteorological detection of different places in the scenic area.

5. The scenic spot weather detection method based on tourist data as claimed in claim 1, wherein: the collecting device comprises an electronic label plate and a guardrail-shaped positioning collecting pile (hereinafter referred to as collecting pile); the electronic label includes a body; the appearance of the body is a square card, and a hanging rope is arranged on the body; after the electronic tag is issued to the tourist, the tourist hangs the electronic tag on the body through a hanging rope; the side surface of the electronic label plate is provided with an ink display screen with a touch function; the electronic label plate is internally and fixedly provided with a coil, a control panel and a battery (23); the ink display screen is electrically connected with the control panel; the coil is electrically connected with the control board; the coil and the ink display screen are respectively positioned on two side surfaces of the electronic label; the control board is electrically connected with a battery (23); the coil is switched between a wireless induction charging state and a signal transmitting state under the control of the control panel; the coil induces electricity to charge a battery (23) in the electronic label plate in a wireless induction charging state; the coil receives and transmits signals in a signal transmitting state to complete data transmission; the control panel is provided with an RFID chip, and the control panel expands and transmits signals through a coil, is connected with the acquisition pile and transmits information;

the pick pile comprises a body (1); a mounting cavity (11) is formed in the main body (1); a maintenance opening is formed in the side surface of the main body (1); a sealing block (3) is fixedly arranged in the maintenance opening; a spring (12) is fixedly arranged at the center of the bottom surface of the mounting cavity (11); a moving block (2) is arranged in the mounting cavity (11) in a sliding manner; the upper end of the spring (12) is fixedly connected to the lower surface of the moving block (2); a limiting rod (24) is fixedly arranged on the upper surface of the moving block (2); a controller (22) and a battery (23) are fixedly arranged on the upper surface of the moving block (2); the controller (22) is electrically connected with a battery (23); the height of the limiting rod (24) is greater than that of the controller (22) and the battery (23); the lower surface of the moving block (2) is covered with a dehumidification layer (21) made of high-molecular water-absorbent resin; a pull rope (25) is fixedly connected to the upper center position of the lower surface of the moving block (2), and the pull rope (25) naturally droops; the maintenance opening is opposite to the lower end of the pull rope (25); a mounting hole is formed in the middle of the sealing block (3); a fixing bolt (31) is fixedly arranged in the mounting hole through threads; an extension rod (32) is arranged in the sealing block (3) in a sliding mode, and one end, located in the sealing block (3), of the extension rod (32) enters the mounting hole; a groove is formed in the position, opposite to the extension rod (32), on the side wall of the maintenance opening; the extension bar (32) is extruded by the fixing bolt (31), extends outwards and is inserted into the groove; a magnetic layer is arranged at the bottom of the groove; a magnetic repulsion force exists between the magnetic layer and the extension bar (32); a rubber sealing strip is arranged between the sealing block (3) and the maintenance port; the outer surface of the main body (1) is coated with a rubber layer (13); a layer of metal net is arranged in the rubber layer (13); the metal mesh is electrically connected with a controller (22) to exert the effect of the antenna.

6. The scenic spot weather detection method based on the tourist big data as claimed in claim 5, wherein: the metal net is obtained by weaving fine metal wires; the metal net is mixed with the detection wires according to a certain rule in the weaving process; the detection wire is a metal wire with a layer of insulating coating coated on the surface; a plurality of detection wires exist in the metal net, and each detection wire is electrically connected with the controller (22).

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