KR102234617B1 - Acquisition method of pedestrian path data using data network and the system thereof - Google Patents

Abstract

The present invention relates to a pedestrian road data acquisition method for updating sidewalk data using pedestrian road measurement data collected from a mobile device possessed by a pedestrian moving on a pedestrian road and compensating for a corresponding reward, and a system thereof. The pedestrian road data acquisition method comprises the steps of: receiving pedestrian road measurement data obtained while moving on a pedestrian road through a mobile device possessed by a pedestrian; acquiring pedestrian road data indicating shape and characteristics of the pedestrian road by calculating speed data in accordance with movement of the pedestrian from the pedestrian road measurement data; updating the pedestrian road data for the pedestrian road by comparing the pedestrian road data with previously storage sidewalk data; and providing a reward to the pedestrian with a compensation degree in accordance with information characteristics of the pedestrian road measurement data.

Description

Pedestrian road data acquisition method using data communication network and its system {ACQUISITION METHOD OF PEDESTRIAN PATH DATA USING DATA NETWORK AND THE SYSTEM THEREOF}

The present invention relates to a pedestrian road data acquisition method and system thereof using a data communication network, and more particularly, to update sidewalk data using pedestrian road measurement data collected from a mobile device possessed by a pedestrian moving on the pedestrian road, It relates to a technology that compensates for the reward accordingly.

Conventionally, road information is captured as an image using a camera mounted on a vehicle, and road data on the shape and situation of the road is acquired using the captured image, or road data on the road type and situation is acquired through road CCTV. I did.

In order to capture road information, not only the image of the road, but also the location of the road is important, and the location of the road is acquired through the current location of the vehicle using GPS (Global Positioning System), and it is matched with the captured road image. , Make sure the location of the road and the image match.

However, in the past, it was limited to a technology that acquires road data on which a vehicle moves. That is, conventionally, it has been limited to acquiring road data on the shape and situation of the vehicle road, and the technology for acquiring and converting data on the shape and characteristics of the pedestrian road for the pedestrian road on which pedestrians walk was insufficient.

An object of the present invention is to provide a reward according to the degree of compensation by acquiring pedestrian road data from image data collected by a mobile device possessed by a pedestrian moving on a pedestrian road.

In addition, an object of the present invention is to use a camera and sensor in a mobile device to form a pedestrian road and a staircase, a hill, a braille block, an elevator or an escalator elevator, an obstacle, and a dangerous area. It is intended to obtain pedestrian road data indicating the characteristics of the pedestrian road.

In addition, an object of the present invention is to improve effectiveness and accuracy by updating previously stored sidewalk data for a corresponding pedestrian road based on pedestrian road data acquired according to the movement of a pedestrian.

In addition, an object of the present invention is to provide rewards to pedestrians by applying different degrees of compensation according to information characteristics of pedestrian road measurement data collected through a mobile device possessed by pedestrians.

A method for obtaining pedestrian road data according to an embodiment of the present invention includes the steps of receiving pedestrian road measurement data obtained while moving a pedestrian road through a mobile device possessed by a pedestrian, and speed data according to the movement of the pedestrian from the pedestrian road measurement data. Obtaining pedestrian road data indicating the shape and characteristics of the pedestrian road by calculating the value, updating the pedestrian road data for the pedestrian road by comparing the pedestrian road data with previously stored pedestrian road data, and information of the pedestrian road measurement data And providing a reward to the pedestrian with a degree of compensation according to characteristics.

In addition, the method for obtaining pedestrian road data according to an embodiment of the present invention further includes the step of requesting to receive specific pedestrian road measurement data from a pedestrian located within a preset radius based on a specific pedestrian road for which data collection is required. I can.

A pedestrian road data acquisition system according to an embodiment of the present invention includes a data receiving unit for receiving pedestrian road measurement data obtained by moving a pedestrian road through a mobile device possessed by a pedestrian, and a speed according to the movement of the pedestrian from the pedestrian road measurement data. A data processing unit that calculates data to obtain pedestrian road data representing the shape and characteristics of the pedestrian road, a data update unit that updates the sidewalk data for the pedestrian road by comparing the pedestrian road data with previously stored sidewalk data, and the pedestrian road It includes a reward providing unit that provides a reward (reward) to the pedestrian with a degree of compensation according to the information characteristic of the measured data.

In addition, the pedestrian road data acquisition system according to an embodiment of the present invention further includes a control unit for requesting reception of specific pedestrian road measurement data to a pedestrian located within a preset radius based on a specific pedestrian road for which data collection is required. I can.

According to an embodiment of the present invention, using a camera and a sensor in a mobile device, walking on a pedestrian road shape and a staircase, a hill, an elevator or an escalator, an obstacle, and a dangerous area using a camera and a sensor in a mobile device. Pedestrian road data indicating road characteristics can be obtained.

In addition, according to an embodiment of the present invention, based on the pedestrian road data acquired according to the movement of the pedestrian, it is possible to improve the effectiveness and accuracy by updating the previously stored sidewalk data for the corresponding pedestrian road.

In addition, according to an embodiment of the present invention, rewards may be provided to pedestrians by applying different degrees of compensation according to information characteristics of pedestrian road measurement data collected through a mobile device possessed by pedestrians.

1 is a flowchart illustrating an operation of a method for obtaining data on a pedestrian road according to an embodiment of the present invention.
2 is a diagram illustrating an example of acquiring pedestrian road data through movement of a pedestrian according to an embodiment of the present invention.
3 is a block diagram showing a detailed configuration of a system for obtaining data on a pedestrian road according to an embodiment of the present invention.

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

In addition, terms used in the present specification are terms used to properly express preferred embodiments of the present invention, which may vary according to the intention of viewers or operators, or customs in the field to which the present invention belongs. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

1 is a flowchart illustrating an operation of a method for obtaining data on a pedestrian road according to an embodiment of the present invention.

At this time, the method of obtaining pedestrian road data according to an embodiment of the present invention uses social mapping, and the present invention, which is a service provider, does not unilaterally collect and process pedestrian road data, but a plurality of users It refers to appropriately mapping the pedestrian road data acquired using the pedestrian road measurement data collected from the field to the previously stored sidewalk data or map data.

The method of FIG. 1 is performed by the pedestrian road data acquisition system according to the embodiment of the present invention shown in FIG. 3.

Referring to FIG. 1, in step S110, pedestrian road measurement data obtained by moving a pedestrian road (or sidewalk) through a mobile device possessed by a pedestrian is received.

In step S110, the pedestrian road measurement data obtained from the mobile device may be received in real time, or the pedestrian road measurement data may be received from the mobile device every predetermined period. For example, in step S110, whenever a pedestrian acquires pedestrian road measurement data through a mobile device, the pedestrian road measurement data may be received in real time. It can also receive measurement data.

Here, the pedestrian road measurement data is data collected from a mobile device, and is obtained through image data obtained through a camera in the mobile device, position data of a pedestrian obtained through a GPS sensor and a gyro sensor, measurement data from a moving route sensor, and a tilt sensor. It may include acquired road slope data.

The image data may be an image of a photo or a video, and the image data of the video is not stored in the mobile device. In other words, in the method for obtaining pedestrian road data according to an embodiment of the present invention, when image data for a pedestrian road is captured through a mobile device, it is received in real time through a 5G communication network and analyzed through steps S120 and S130, and analysis Later, by deleting the image data, it may be characterized in that the image data is not stored in the mobile device.

Looking at step S110, step S110 is the image data captured while the pedestrian is moving on the pedestrian road through the camera in the mobile device, the position data of the pedestrian acquired through the GPS sensor and the gyro sensor in the mobile device, and movement according to the movement of the pedestrian. It is possible to receive measurement data of a pedestrian road including measurement data of a movement path sensor indicating a distance and a movement time, and road slope data obtained through an inclination sensor in the mobile device.

The GPS sensor and the gyro sensor are sensors included in the mobile device, and in step S110, the movement path sensor measurement data indicating the movement distance and movement time may be received by detecting the position of the pedestrian. More specifically, the mobile device uses a GPS sensor and a gyro sensor to detect the location of a pedestrian moving on the pedestrian road, and the movement distance and travel time according to the movement of the pedestrian through changes in the pedestrian's walking speed, walking direction, and altitude. It is possible to obtain the measurement data of the movement path sensor indicating. The movement route sensor measurement data is data obtained from a sensor in the mobile device, and information related to the movement distance and movement time according to the movement of the pedestrian, as well as the movement direction, the time of stay at a point, and the return path avoiding obstacles or structures. It may further include.

Furthermore, the mobile device may acquire measurement data of a movement path sensor including tilt information of the mobile device according to the movement of a pedestrian, a camera direction, and a camera photographing position. As an example, the mobile device uses a gyro sensor, a tilt sensor, and a camera to measure the tilt information of the mobile device, whether the camera is inclined or hilly according to the camera direction and the camera photographing location, the tilt angle, and a movement path sensor including an image of a pedestrian road. Data can be acquired.

For example, a pedestrian may walk after putting the mobile device in a bag or clothes, walk with the mobile device in his hand, or walk while looking at the mobile device. Accordingly, the mobile device acquires the movement distance and travel time according to the movement of the pedestrian through the GPS sensor, the acceleration sensor, the gyro sensor, and the inclination sensor, and acquires the slope information and the camera direction to detect whether the road is inclined or hilly, You can determine the angle of the slope or the slope of the hill.

Accordingly, the method of acquiring pedestrian road data according to an embodiment of the present invention includes not only the moving distance and the moving time, but also the moving direction, the dwell time at a point, the path to avoid obstacles or structures, whether the road is inclined or hilly, and the inclination By receiving the movement path sensor measurement data including the angle and the pedestrian road image, it is possible to measure more specific information on the pedestrian road.

Here, the mobile device may be at least one of a smartphone, a desktop PC, a mobile terminal, a PDA, a notebook computer, a tablet PC, and a wearable device. An application related to may be installed. Accordingly, step S110 may detect that the pedestrian road measurement data is collected in the mobile device through the application, and thus, real-time reception of the pedestrian road measurement data or reception at a preset time point may be possible. Furthermore, the mobile device may include a display in the form of a touch screen capable of receiving a user's selection input and performing an operation of a predetermined set of functions through a screen including a touch-sensing area. Since the device may include a physical button or a virtual button, the type and shape are not limited thereto.

In step S120, speed data according to the movement of the pedestrian is calculated from the measurement data of the pedestrian road to obtain pedestrian road data indicating the shape and characteristics of the pedestrian road.

Step S120 calculates the speed data according to the movement of the pedestrian from the measurement data of the pedestrian road, and compares the calculated speed data with the average speed data according to the movement between the separated distance points stored in the database to indicate the shape and characteristics of the pedestrian road. Road data can be obtained. In addition, step S120 is the shape of the pedestrian road of the straight pedestrian road and the curved pedestrian road and the shape of at least one or more of the shape of the pedestrian road, whether it is a stair, whether it is a hill, whether a braille block, whether an elevator or escalator is an elevator, whether there is an obstacle, and whether there is a danger area Features can be acquired.

For example, when a pedestrian moves from point A to point B on the pedestrian road, step S120 can calculate the average speed data according to the distance and travel time from the pedestrian road measurement data acquired by the pedestrian's movement. have. Accordingly, step S120 compares the average speed data mechanically calculated for the distance from point A to point B and the calculated speed data stored in a database (not shown), and compares the shape of the pedestrian road of the straight pedestrian road and the curved pedestrian road. At least one or more characteristics of a pedestrian road may be obtained from whether a staircase, a hill, a braille block, an elevator or an escalator is an elevator, an obstacle, and a danger area.

For example, assuming that the pedestrian road from point A to point B is a straight pedestrian road, and if the calculated velocity data from point A to point B is faster than the average velocity data stored in the database, step S120 is performed at the previously stored point A. It is determined that obstacles or dangerous areas (e.g., construction, etc.) that were located on the straight pedestrian road between points B and obstructed the movement of pedestrians have been solved, and the characteristics of the pedestrian roads for the presence of obstacles and danger areas for the corresponding area are newly updated. Can be obtained.

As another example, if the calculated speed data from point A to point B is slower than the average speed data stored in the database, step S120 includes stairs, hills, elevators, or escalators on a straight pedestrian road between points A and B previously stored. It is determined that any one of the same elevators is newly installed, and the pedestrian road characteristics of whether a staircase, a hill, a Braille block, or an elevator or an escalator is an elevator for a corresponding area can be newly acquired.

Accordingly, in step S120, the shape and characteristic of the pedestrian road can be identified by comparing the calculated velocity data with the average velocity data stored in the database, and pedestrian road data indicating the shape and characteristic of the sidewalk in which only pedestrians move can be obtained. .

In addition, in step S120, the pedestrian road data may be obtained by determining whether there is an obstacle on the pedestrian road through the image data in real time, and the danger level may be detected in the case of an obstacle that interferes with or harms the movement of the pedestrian. For example, if a construction material generated at a nearby construction site is off the pedestrian road, the pedestrian moves on the pedestrian road and photographs the construction material to collect image data, and through step S110, step S120 recognizes an obstacle on the pedestrian road. And, according to the size, type, and occurrence time of the obstacle, the degree of risk for an obstacle that obstructs the pedestrian's walking may be detected in stages (eg, a first risk, a second risk, and a third risk, etc.).

Accordingly, in step S130, the level of risk by step along with the pedestrian road data may be updated in sidewalk data, and the method for obtaining pedestrian road data according to an embodiment of the present invention provides the updated sidewalk data to a plurality of pedestrians or pedestrian road managers in real time. To share.

For this reason, the method of acquiring pedestrian road data according to an embodiment of the present invention may be characterized in that the risk level on or around the pedestrian road is detected, and this is shared with a plurality of pedestrians or pedestrian road managers.

In step S130, the sidewalk data for the pedestrian road is updated by comparing the pedestrian road data with the previously stored sidewalk data.

In step S130, the pedestrian road data and the previously stored sidewalk data for a corresponding area are compared, and the sidewalk data is updated based on the pedestrian road data to improve effectiveness and accuracy. For example, step S130 compares the pedestrian road data obtained for the distance point from point A to point B with previously stored sidewalk data, and updates the sidewalk data from the pedestrian road data to improve effectiveness and accuracy. I can make it. The sidewalk data may be raw data for a pedestrian road, and may include a distance type, length, width, and characteristics for each pedestrian road designed during road construction.

At this time, the previously stored sidewalk data and average speed data may be information stored and maintained in a database (not shown) of the pedestrian road data acquisition system according to an embodiment of the present invention. It may be received from an external server that holds the data of the feature.

The sidewalk data updated by step S130 is provided to a plurality of pedestrians or pedestrian road managers using the pedestrian road data acquisition method according to an embodiment of the present invention, and the plurality of pedestrians or pedestrian road managers are updated sidewalks at different locations. Data can be shared.

In step S140, a reward is provided to a pedestrian with a degree of compensation according to the information characteristic of the pedestrian road measurement data.

In step S140, a basic weight is added to the pedestrian road measurement data, and an additional weight is added according to each item of the size, time, and quality of the image data in the pedestrian road measurement data, and the length of the pedestrian road measured through the pedestrian road measurement data. , Rewards can be provided to pedestrians by applying different degrees of compensation to pedestrian road measurement data according to the summed weighting degree.

For example, a score of 0.5, 1, 1.5, 2 is scored for each item of the size of the image data (based on 720p), time (based on 1 minute), image quality (based on normal quality), and length of the pedestrian road (based on 1km). , When the pedestrian road measurement data is received from the mobile device through step S110, step S140 may add a basic weight of score 1. Thereafter, in step S140, if it is higher than the reference value for each item, the score assigned for each item is added as an additional weight, and if it is lower than the reference value, the additional weight may not be added. Accordingly, in step S140, the additional weights are added to the existing weights and sequentially arranged according to the added weighting degree, so that between 0 points and 2 points is the first compensation, between 2 points and 4 points is the second compensation, and 4 points to 6 points. Rewards can be provided to pedestrians by applying a degree of compensation, such as the third compensation for the interval and the fourth compensation for 6 points or more.

According to an embodiment, step S140 provides any one or more of a cyber cash, a gift certificate, a coupon, a cashable point, a gift, a reward, and a certificate, and includes a first reward, a second reward, a third reward, and a fourth reward. Increasingly, higher amounts of rewards or multiple rewards can be provided.

In addition, the method of obtaining pedestrian road data according to an embodiment of the present invention is a step of requesting reception of specific pedestrian road measurement data to a pedestrian located within a preset radius based on a specific pedestrian road for which data collection is required (not shown). It may further include.

For example, it is difficult to collect data on pedestrian roads in areas where the floating population is small, not in large cities. Accordingly, in the step of requesting reception of the pedestrian road measurement data, a specific pedestrian road with a low update rate, that is, data collection, is extracted from the previously stored sidewalk data in the database, and the location of the specific pedestrian road for which data collection is required is referenced. As a result, it is possible to request specific pedestrian road measurement data for a specific pedestrian road from a plurality of pedestrians located within a preset radius.

Here, the plurality of pedestrians may be users who have installed an application related to the method for obtaining pedestrian road data according to an embodiment of the present invention on a mobile device, and collected or transmitted pedestrian road measurement data at least once. It may be a user with an enemy.

Moreover, in the step of requesting reception of the pedestrian road measurement data, when data is requested, reward information provided according to data upload may be provided. For example, the step of requesting the reception of the pedestrian road measurement data may inform the pedestrian that when the specified pedestrian road measurement data is received, the compensation degree (for example, the second compensation or higher) and a high reference weight score are provided. I can.

More specifically, in step S140, when receiving the specified pedestrian road measurement data for a specific pedestrian road by request, the highest basic weight is added to the specified pedestrian road measurement data, and image data in the specified pedestrian road measurement data An additional weight may be additionally added according to each item of the size, time, and quality of and the length of the pedestrian road measured through the specified pedestrian road measurement data.

For example, when the measurement data of the pedestrian road specified through step S110 is received, step S140 may add a basic weight of score 3. Thereafter, in step S140, if it is higher than the reference value for each item, the score assigned for each item is added as an additional weight, and if it is lower than the reference value, the additional weight may not be added. Accordingly, in step S140, the additional weights are added to the existing weights and sequentially arranged according to the added weighting degree, so that between 0 points and 2 points is the first compensation, between 2 points and 4 points is the second compensation, and 4 points to 6 points. Rewards can be provided to pedestrians by applying a degree of compensation, such as the third compensation for the interval and the fourth compensation for 6 points or more.

2 is a diagram illustrating an example of acquiring pedestrian road data through movement of a pedestrian according to an embodiment of the present invention.

Referring to FIG. 2, the pedestrian 10 carries the mobile device 200 and walks on the pedestrian road 210. At this time, the pedestrian road 210 is a pedestrian-priority road for which a vehicle does not travel, and the pedestrian road data acquisition system 100 according to an embodiment of the present invention is characterized in that it acquires only data related to the pedestrian road 210.

The pedestrian road data acquisition system 100 according to an embodiment of the present invention receives the pedestrian road measurement data for the pedestrian road 210 collected through the mobile device 200 possessed by the pedestrian 10, and the pedestrian road data Is obtained, and through this, the sidewalk data is updated to provide the pedestrian 10 with a reward according to the degree of compensation.

Specifically, when the pedestrian 10 walks the pedestrian road 210 while carrying the mobile device 200, the mobile device 200 collects image data through a camera, and a pedestrian through a plurality of sensors The location data of (10), the movement path sensor measurement data of the movement distance and movement time according to the position of the pedestrian 10, and road inclination data are collected.

Accordingly, the pedestrian road data acquisition system 100 according to an embodiment of the present invention receives pedestrian road measurement data including image data, location data, movement route data, and road slope data from the mobile device 200, and From the measured data, the speed data according to the movement between the separated points of the pedestrian road 210 is calculated, and the calculated speed data and the average speed data previously stored in the database for the separated points are compared to indicate the shape and characteristics of the pedestrian road. Acquire road data.

At this time, when the pedestrian 10 photographs the image data of the video on the pedestrian road 210, the pedestrian road data acquisition system 100 according to an embodiment of the present invention receives the image data from the mobile device 200 in real time. By doing this, you can analyze the pedestrian road data and update it to the sidewalk data. Therefore, it is characterized in that the image data captured by the pedestrian 10 through the mobile device 200 is not stored in the mobile device 200.

As shown in FIG. 2, the pedestrian road 210 may be a straight road, and an obstacle such as a tree may be located. The pedestrian road data acquisition system 100 according to an embodiment of the present invention receives the pedestrian road measurement data collected through the mobile device 200, and includes the shape of the pedestrian road of the straight road and the pedestrian road characteristics of the wooden obstacle. Data can be acquired in real time.

Thereafter, the pedestrian road data acquisition system 100 according to an embodiment of the present invention compares the pedestrian road data with the previously stored sidewalk data in the database to update the sidewalk data, thereby improving the effectiveness and accuracy of the sidewalk data. I can make it. The sidewalk data is raw data for the pedestrian road 210, and may include a distance type, length, width, and characteristics for each pedestrian road designed during road construction.

Here, the database is included in the pedestrian road data acquisition system 100 according to an embodiment of the present invention, and may store and maintain sidewalk data and average speed data for the pedestrian road. Specifically, the database includes sidewalk data, which is raw data of the street type, length, area, and characteristics of the pedestrian road included in the map, and may include average speed data for each point (or branch point) of the pedestrian road. In this case, the average speed data may be a speed value mechanically calculated with respect to the length of the pedestrian road included in the raw data, and may be different from the speed data obtained by the actual walking of the pedestrian 10.

3 is a block diagram showing a detailed configuration of a system for obtaining data on a pedestrian road according to an embodiment of the present invention.

3, the pedestrian road data acquisition system according to an embodiment of the present invention updates sidewalk data using pedestrian road measurement data collected from a mobile device possessed by a pedestrian moving on the pedestrian road, and generates rewards accordingly. Compensate.

To this end, the pedestrian road data acquisition system 300 according to an embodiment of the present invention includes a data receiving unit 310, a data processing unit 320, a data updating unit 330, and a reward providing unit 340, and the control unit ( 350) and a database 360 may be further included.

However, in FIG. 3, although the pedestrian road data acquisition system 300 according to an embodiment of the present invention is shown to communicate with a single mobile device 200, the present invention is not limited thereto, and a plurality of mobile devices possessed by a plurality of pedestrians ( 200) and pedestrian road managers' devices and data communication through a 5G communication network may be possible.

The pedestrian road data acquisition system 300 according to the embodiment of the present invention forms a series of signal connection relationships with the mobile device 200 via the interface module 370 to allow data sharing on an open platform, and is shared. Data can be stably stored and managed in the database 360. In addition, a service for sharing data within an open platform may be provided through the control unit 350.

Accordingly, a plurality of pedestrians or pedestrian road managers may access the open platform according to an embodiment of the present invention through a mobile device, and may share updated sidewalk data with each other.

The data receiving unit 310 receives the pedestrian road measurement data obtained by moving the pedestrian road (or sidewalk) through the mobile device 200 held by the pedestrian. Here, the pedestrian road measurement data is data collected by the mobile device 200, image data acquired through a camera in the mobile device 200, pedestrian position data acquired through a GPS sensor and a gyro sensor, and a movement path sensor measurement It may include data and road inclination data acquired through the inclination sensor.

The data receiver 310 may receive the pedestrian road measurement data obtained from the mobile device 200 in real time, or may receive the pedestrian road measurement data from the mobile device 200 at a time every predetermined period. For example, the data receiver 310 may receive the pedestrian road measurement data in real time whenever a pedestrian acquires the pedestrian road measurement data through the mobile device 200, such as 2:00 AM, Monday, or the 15th of each month. It is also possible to receive pedestrian road measurement data at a preset time point.

However, the image data may be an image of a photo or a video, and the image data of the video is not stored in the mobile device. In other words, when the pedestrian road data acquisition system 300 according to the embodiment of the present invention captures the image data of the pedestrian road through the mobile device 200, it receives and analyzes it in real time through the 5G communication network, and after the analysis May be characterized in that the image data is not stored in the mobile device 200 by deleting the image data.

The GPS sensor and the gyro sensor are sensors included in the mobile device 200, and the data receiving unit 310 may receive measurement data of a movement route sensor indicating a movement distance and a movement time by detecting a location of a pedestrian. More specifically, the mobile device 200 detects the position of a pedestrian moving on the pedestrian road using a GPS sensor and a gyro sensor, and the moving distance according to the movement of the pedestrian through changes in the walking speed, walking direction, and altitude of the pedestrian. And it is possible to obtain the movement path sensor measurement data indicating the movement time. The movement route sensor measurement data is data obtained from a sensor in the mobile device, and information related to the movement distance and movement time according to the movement of the pedestrian, as well as the movement direction, the time of stay at a point, and the return path avoiding obstacles or structures. It may further include.

Furthermore, the mobile device 200 may acquire movement path sensor measurement data including tilt information of the mobile device according to the movement of a pedestrian, a camera direction, and a camera photographing position. As an example, the mobile device 200 uses a gyro sensor, a tilt sensor, and a camera to move including tilt information of the mobile device, whether a slope or hill of a road is inclined or a hill according to a camera direction and a camera photographing position, a tilt angle, and a pedestrian road image. Path sensor measurement data can be obtained.

For example, a pedestrian may walk after putting the mobile device in a bag or clothes, walk with the mobile device in his hand, or walk while looking at the mobile device. Accordingly, the mobile device 200 acquires a moving distance and a moving time according to the movement of a pedestrian through a GPS sensor, an acceleration sensor, a gyro sensor, and a tilt sensor, and acquires tilt information and camera direction to determine whether the road is inclined or hilly. It can detect and determine the slope or slope angle of the hill.

Accordingly, the pedestrian road data acquisition system 300 according to an embodiment of the present invention includes not only the moving distance and the moving time, but also the moving direction, the dwell time at any one point, the return path avoiding obstacles or structures, and the slope or hill of the road. By receiving the movement route sensor measurement data including whether or not, the inclination angle, and the pedestrian road image, it is possible to measure more specific information on the pedestrian road.

Here, the mobile device 200 may be at least one of a smartphone, a desktop PC, a mobile terminal, a PDA, a notebook computer, a tablet PC, and a wearable device, and the mobile device acquires pedestrian road data according to an embodiment of the present invention. An application related to the system 300 may be installed. Accordingly, the data receiving unit 310 may detect that the pedestrian road measurement data is collected in the mobile device through the application, thereby enabling real-time reception of the pedestrian road measurement data or reception at a preset time point. Further, the mobile device 200 may receive a user's selection input, and may include a display in the form of a touch screen capable of performing an operation of a predetermined set of functions through a screen including a touch-sensing area. , Since the device may include one or more physical buttons or virtual buttons, the type and shape are not limited thereto.

The data processing unit 320 calculates speed data according to the movement of the pedestrian from the measurement data of the pedestrian road, and obtains pedestrian road data indicating the shape and characteristics of the pedestrian road.

The data processing unit 320 calculates speed data according to the movement of the pedestrian from the measurement data of the pedestrian road, and compares the calculated speed data with the average speed data according to the movement between the distance points previously stored in the database 360 It is possible to acquire data on a pedestrian road indicating shape and characteristics. In addition, the data processing unit 320 includes at least one or more of a pedestrian road shape of a straight pedestrian road and a curved pedestrian road, whether a staircase, a hill, a Braille block, an elevator or an escalator, an obstacle, and a danger area. You can acquire the form and characteristics of.

For example, when a pedestrian moves from point A to point B of the pedestrian road, the data processing unit 320 may obtain speed data of the average speed according to the distance and travel time from the pedestrian road measurement data obtained by the movement of the pedestrian. Can be calculated. Accordingly, the data processing unit 320 compares the average speed data mechanically calculated for the distance from point A to point B and the calculated speed data stored in the database 360, It is possible to acquire at least one or more characteristics of a pedestrian road among a shape, whether a staircase, a hill, a braille block, an elevator or an escalator is an elevator, an obstacle, and a danger area.

For example, assuming that the pedestrian road from point A to point B is a straight pedestrian road, and when the calculated velocity data from point A to point B is faster than the average velocity data stored in the database 360, the data processing unit 320 Is located on a straight pedestrian road between previously stored points A and B and judges that the obstacles or dangerous areas (for example, construction, etc.) that obstructed the movement of pedestrians have been resolved, and whether there are obstacles in the area and whether or not there is a danger area. You can acquire new features of the pedestrian road.

As another example, when the calculated speed data from point A to point B is slower than the average speed data stored in the database 360, the data processing unit 320 may step on a straight pedestrian road between the previously stored point A and point B, It is determined that any one of a hill and an elevator such as an elevator or an escalator is newly installed, and a pedestrian road characteristic of whether a stair or a hill, a braille block or not, or an elevator or an escalator is an elevator for a corresponding area can be newly acquired.

Accordingly, the data processing unit 320 may compare the calculated speed data with the average speed data stored in the database 360 to determine the shape and characteristics of the pedestrian road, and the pedestrian road data indicating the shape and characteristics of the sidewalk in which only pedestrians move. Can be obtained.

In addition, the data processing unit 320 can determine whether there is an obstacle on the pedestrian road in real time through the image data to obtain pedestrian road data, and detect the degree of danger in the case of an obstacle that interferes with or harms the movement of pedestrians. May be. For example, when a construction material generated at a nearby construction site is off a pedestrian road, a pedestrian moves on the pedestrian road and photographs the construction material to collect image data, and the data processing unit 320 recognizes an obstacle on the pedestrian road and , Depending on the size, type, and occurrence time of the obstacle, the degree of risk for an obstacle that obstructs the pedestrian's walking can be detected in stages (eg, a first risk, a second risk, and a third risk, etc.).

Accordingly, the data update unit 330 may update the sidewalk data with the level of risk for each step along with the pedestrian road data, and the pedestrian road data acquisition system 300 according to an embodiment of the present invention may store a plurality of updated sidewalk data in real time. It can be shared by providing it to a pedestrian or pedestrian road manager.

For this reason, the pedestrian road data acquisition system 300 according to an embodiment of the present invention may be characterized in that it detects the degree of danger on or around the pedestrian road, and shares it with a plurality of pedestrians or pedestrian road managers.

The data update unit 330 compares the pedestrian road data with the previously stored sidewalk data to update the sidewalk data for the pedestrian road.

The data updater 330 may compare pedestrian road data with previously stored sidewalk data for a corresponding area, and update sidewalk data based on the pedestrian road data to improve effectiveness and accuracy. For example, the data update unit 330 compares the pedestrian road data obtained for the distance point from the point A to the point B with the previously stored sidewalk data, and updates the sidewalk data from the pedestrian road data to be effective. And accuracy can be improved. The sidewalk data may be raw data for a pedestrian road, and may include a distance type, length, width, and characteristics for each pedestrian road designed during road construction.

At this time, the previously stored sidewalk data and average speed data may be information stored and maintained in the database 360, and may be received from an external server that holds data of distance type, length, width, and characteristics for each road. .

The sidewalk data updated by the data update unit 330 is provided to a plurality of pedestrians or pedestrian road managers using the pedestrian road data acquisition system 300 according to an embodiment of the present invention, and the plurality of pedestrians or pedestrian road managers It will be possible to share updated press data from different locations.

The reward providing unit 340 provides a reward to a pedestrian with a degree of compensation according to the information characteristics of the pedestrian road measurement data.

The reward providing unit 340 adds a basic weight to the pedestrian road measurement data, and is added according to each item of the size, time, and quality of image data in the pedestrian road measurement data and the length of the pedestrian road measured through the pedestrian road measurement data. Rewards can be provided to pedestrians by adding weights and applying different degrees of compensation to pedestrian road measurement data according to the summed weighting degree.

For example, a score of 0.5, 1, 1.5, 2 is scored for each item of the size of the image data (based on 720p), time (based on 1 minute), image quality (based on normal quality), and length of the pedestrian road (based on 1km). , When the pedestrian road measurement data is received from the mobile device through the data receiving unit 310, the reward providing unit 340 may add a basic weight of score 1. Thereafter, if it is higher than the reference value for each item, the reward providing unit 340 may add the score assigned to each item as an additional weight, and if it is lower than the reference value, the additional weight may not be added. Accordingly, the reward providing unit 340 adds the additional weights to the existing weights and sequentially arranges them according to the summed weighting degree, so that between 0 points and 2 points is a first compensation, between 2 points and 4 points is a second compensation, 4 A reward may be provided to pedestrians by applying a degree of compensation, such as a third compensation between points and 6 points, and a fourth compensation for more than 6 points.

Depending on the embodiment, the reward providing unit 340 provides any one or more of cyber cash, gift certificates, coupons, points that can be converted into cash, gifts, rewards, and certificates, and provides a first reward, a second reward, a third reward, and As the fourth reward goes, a higher amount of reward or multiple rewards can be provided.

The control unit 350 requests the pedestrians located within a preset radius based on a specific pedestrian road for which data collection is required to receive specific pedestrian road measurement data.

For example, it is difficult to collect data on pedestrian roads in areas where the floating population is small, not in large cities. Accordingly, the control unit 350 extracts a specific pedestrian road with a low update rate, that is, data collection, from among sidewalk data previously stored in the database 360, and a preset radius based on the location of a specific pedestrian road for which data collection is required. It is possible to request measurement data of a specific pedestrian road for a specific pedestrian road from a plurality of pedestrians located therein.

Here, the plurality of pedestrians may be users who have installed an application related to the pedestrian road data acquisition system 300 according to an embodiment of the present invention on the mobile device 200, and at least once, the pedestrian road measurement data It may be a user who has ever collected or transmitted.

Moreover, when requesting data, the control unit 350 may provide reward information provided according to data upload. For example, the control unit 350 may inform the pedestrian that when receiving the specified pedestrian road measurement data, a compensation degree (eg, a second compensation or higher) and a high reference weight score are provided accordingly.

More specifically, when receiving the specified pedestrian road measurement data for a specific pedestrian road at the request of the control unit 350, the reward providing unit 340 adds the highest basic weight to the specified pedestrian road measurement data, An additional weight may be additionally added according to each item of the size, time, and quality of image data in the specified pedestrian road measurement data and the length of the pedestrian road measured through the specified pedestrian road measurement data.

For example, when measurement data for a specified pedestrian road is received through the data receiving unit 310, the reward providing unit 340 may add a basic weight of score 3. Thereafter, if it is higher than the reference value for each item, the reward providing unit 340 may add the score assigned to each item as an additional weight, and if it is lower than the reference value, the additional weight may not be added. Accordingly, the reward providing unit 340 adds the additional weights to the existing weights and sequentially arranges them according to the summed weighting degree, so that between 0 points and 2 points is a first compensation, between 2 points and 4 points is a second compensation, 4 A reward may be provided to pedestrians by applying a degree of compensation, such as a third compensation between points and 6 points, and a fourth compensation for more than 6 points.

Although the description of the system of FIG. 3 is omitted, it is obvious to those skilled in the art that the system according to the present invention may include all the contents described in FIGS. 1 and 2.

The apparatus described above may be implemented as a hardware component, a software component, and/or a combination of a hardware component and a software component. For example, the devices and components described in the embodiments are, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA). , A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions, such as one or more general purpose computers or special purpose computers. The processing device may execute an operating system (OS) and one or more software applications executed on the operating system. Further, the processing device may access, store, manipulate, process, and generate data in response to the execution of software. For the convenience of understanding, although it is sometimes described that one processing device is used, one of ordinary skill in the art, the processing device is a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that it may include. For example, the processing device may include a plurality of processors or one processor and one controller. In addition, other processing configurations are possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of these, configuring the processing unit to behave as desired or processed independently or collectively. You can command the device. Software and/or data may be interpreted by a processing device or, to provide instructions or data to a processing device, of any type of machine, component, physical device, virtual equipment, computer storage medium or device. , Or may be permanently or temporarily embodyed in a transmitted signal wave. The software may be distributed over networked computer systems and stored or executed in a distributed manner. Software and data may be stored on one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operation of the embodiment, and vice versa.

As described above, although the embodiments have been described by the limited embodiments and drawings, various modifications and variations are possible from the above description to those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as systems, structures, devices, circuits, etc. described are combined or combined in a form different from the described method, or other components Alternatively, even if substituted or substituted by an equivalent, an appropriate result can be achieved.

Therefore, other implementations, other embodiments, and those equivalent to the claims also fall within the scope of the claims to be described later.

Claims (14)

Receiving pedestrian road measurement data including image data obtained while moving the pedestrian road through a mobile device held by a pedestrian;
Calculating speed data according to the movement of the pedestrian from the pedestrian road measurement data to obtain pedestrian road data indicating the shape and characteristics of the pedestrian road;
Updating the sidewalk data for the pedestrian road by comparing the sidewalk data with the previously stored sidewalk data; And
Including the step of providing a reward (reward) to the pedestrian with a degree of compensation according to the information characteristic of the pedestrian road measurement data,
The step of providing the reward
A basic weight is added to the pedestrian road measurement data, and an additional weight is added according to each item of the size, time, and quality of the image data in the pedestrian road measurement data and the length of the pedestrian road measured through the pedestrian road measurement data. And providing a reward to the pedestrian by applying different compensation degrees to the pedestrian road measurement data according to the summed weighting degree. delete The method of claim 1,
Receiving the pedestrian road measurement data comprises:
Pedestrian position data obtained through the GPS sensor and gyro sensor in the mobile device while the pedestrian is moving on the pedestrian road, movement route sensor measurement data indicating the movement distance and movement time according to the movement of the pedestrian, and in the mobile device A method of obtaining pedestrian road data for receiving the pedestrian road measurement data including road slope data obtained through a tilt sensor. The method of claim 1,
Receiving the pedestrian road measurement data comprises:
The pedestrian road data acquisition method for receiving the pedestrian road measurement data obtained from the mobile device in real time or receiving the pedestrian road measurement data from the mobile device every predetermined period. The method of claim 1,
The step of obtaining the pedestrian road data
The pedestrian road data indicating the acquisition of the shape and characteristics of the pedestrian road by calculating the speed data according to the movement of the pedestrian from the pedestrian road measurement data, and comparing the speed data with the average speed data according to the movement between the previously stored distance points To obtain, pedestrian road data acquisition method. The method of claim 5,
The step of obtaining the pedestrian road data
It characterized in that acquiring the shape and characteristics of the pedestrian road at least one of the shape of the pedestrian road of the straight pedestrian road and the curved pedestrian road, whether it is a stair, whether a hill, whether an elevator or escalator is an elevator, whether there is an obstacle, and whether there is a danger area. How to acquire data on pedestrian roads. The method of claim 6,
The step of obtaining the pedestrian road data
A method for obtaining pedestrian road data, characterized in that, through the shape and feature of the pedestrian road, acquiring the pedestrian road data for a sidewalk on which only pedestrians move. The method of claim 1,
The step of updating the press data
Comparing the pedestrian road data with previously stored sidewalk data for a corresponding area, and updating the sidewalk data based on the pedestrian road data. delete Receiving pedestrian road measurement data including image data obtained while moving the pedestrian road through a mobile device held by a pedestrian;
Calculating speed data according to the movement of the pedestrian from the pedestrian road measurement data to obtain pedestrian road data indicating the shape and characteristics of the pedestrian road;
Updating the sidewalk data for the pedestrian road by comparing the sidewalk data with the previously stored sidewalk data; And
Including the step of providing a reward (reward) to the pedestrian with a degree of compensation according to the information characteristic of the pedestrian road measurement data,
Further comprising the step of requesting the pedestrian located within a preset radius based on the specific pedestrian road for which data collection is required to receive the specific pedestrian road measurement data,
The step of providing the reward
When receiving the specified pedestrian road measurement data for the specific pedestrian road by request, the highest basic weight is added to the specified pedestrian road measurement data, and the size of the image data in the specified pedestrian road measurement data, A method for obtaining pedestrian road data, characterized in that an additional weight is additionally added according to each item of time and image quality and the length of the pedestrian road measured through the specified pedestrian road measurement data. The method of claim 10,
The step of requesting reception of the pedestrian road measurement data
The specific pedestrian road with a low update rate is extracted from the previously stored sidewalk data, and a plurality of pedestrians located within a preset radius based on the location of the specific pedestrian road for which data collection is requested are given to the specific pedestrian road. A method of acquiring pedestrian road data, characterized in that, when a specified pedestrian road measurement data is requested, and when the data is requested, reward information provided according to data upload is provided. delete A data receiver configured to receive pedestrian road measurement data including image data obtained while moving the pedestrian road through a mobile device held by a pedestrian;
A data processing unit that calculates speed data according to the movement of the pedestrian from the pedestrian road measurement data to obtain pedestrian road data representing the shape and characteristics of the pedestrian road;
A data update unit that compares the pedestrian road data with previously stored sidewalk data to update the sidewalk data for the pedestrian road; And
Including a reward providing unit for providing a reward (reward) to the pedestrian with a degree of compensation according to the information characteristic of the pedestrian road measurement data,
The reward provider
A basic weight is added to the pedestrian road measurement data, and an additional weight is added according to each item of the size, time, and quality of the image data in the pedestrian road measurement data and the length of the pedestrian road measured through the pedestrian road measurement data. And, the pedestrian road data acquisition system, characterized in that for providing a reward to the pedestrian by applying different degrees of compensation to the pedestrian road measurement data according to the summed weighting degree. A data receiver configured to receive pedestrian road measurement data including image data obtained while moving the pedestrian road through a mobile device held by a pedestrian;
A data processing unit that calculates speed data according to the movement of the pedestrian from the pedestrian road measurement data to obtain pedestrian road data representing the shape and characteristics of the pedestrian road;
A data update unit that compares the pedestrian road data with previously stored sidewalk data to update the sidewalk data for the pedestrian road; And
Including a reward providing unit for providing a reward (reward) to the pedestrian with a degree of compensation according to the information characteristic of the pedestrian road measurement data,
Further comprising a control unit for requesting the reception of measurement data of a specific pedestrian road to a pedestrian located within a preset radius based on a specific pedestrian road for which data collection is required,
The reward provider
When receiving the specified pedestrian road measurement data for the specific pedestrian road by request, the highest basic weight is added to the specified pedestrian road measurement data, and the size of the image data in the specified pedestrian road measurement data, A pedestrian road data acquisition system, characterized in that an additional weight is additionally added according to each item of the length of the pedestrian road measured through the time and image quality and the specified pedestrian road measurement data.

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