KR102236671B1 - Multiple location-based service providing system and method - Google Patents

Abstract

The present invention relates to a system for providing a multi-location-based service which can accommodate most existing location-based services. According to the present invention, the system for providing a multi-location-based service comprises: a high-precision navigation unit having a GNSS therein and providing location information for providing a location-based service; a multi-communication unit for Internet, short-range communication, and remote communication in connection with provision of the location-based service; a user interface unit displaying a state of a system in accordance with a touch of a user, detecting a command input by the touch of the user, displaying a result on a screen, and outputting state information in accordance with a control of a control unit; a database unit storing a program for operating the system, a specific application for providing the location-based service, and various data and information; an inertia measurement unit measuring a posture and a motion of the system; and the control unit for controlling a state check and operation of the high-precision navigation unit, the multi-communication unit, and the inertia measurement unit, and controlling operation of software and multiple and complex functions for providing a multi-location-based service.

Description

Multiple location-based service providing system and method}

The present invention relates to a system and method for providing a multi-location-based service, and more particularly, by employing a multi-cm high-precision Global Navigation Satellite System (GNSS), WIFI for the Internet, Bluetooth for short-range communication, and RF for remote payment. The present invention relates to a system and method for providing a multi-location-based service capable of accommodating most of the existing location-based services by implementing a general-purpose location-based service hardware platform having a complex location-communication function.

Location-based services such as conventional vehicle location tracking service, parking sharing service, vehicle black box, high pass, magnetism and kickboard black box use a dedicated terminal for each service, and the location accuracy is general code-based global positioning (GPS). System), it has an error of several meters to tens of meters, and accordingly, high-precision location-based services cannot be provided. In addition, each time a new location-based service is released, a new terminal is required. Therefore, a user must purchase and install as many terminals as the number of services to be used. For this reason, restrictions such as the installation environment are followed, and the number of services that can be used is also limited accordingly. In addition, there is a problem of a large economic burden due to the continued purchase of a new terminal.

In addition, although most location-based services can be used with existing smartphones, high-precision location-based services are not possible, and as the smartphone becomes a personal terminal, complex functions are saturated, so there is a limit to providing additional location-based services. .

In addition, in view of the availability of resources, the high pass operates only in the place of the toll gate while the vehicle is driving, the black box is useful only in the event of an accident, and the parking terminal is only used when the vehicle enters the parking lot, so the vehicle is not used. When not in use, since a terminal is not required, it can be seen that the utility of the existing models in which a dedicated terminal is provided for each individual service is very low, and the waste of resources is very severe.

In addition, the location-based service must always have a location available. In an environment where GPS satellite signals cannot be received, such as in a tunnel or underground parking lot, or in the case of a very large error in the GPS location around a tall building, the location-based service terminal is reliable. Since it is not possible to secure a location where it is located, the service cannot be properly provided, and even if the service is provided, there is a problem that the quality of service is not good.

In addition, a general location-based service terminal employing the existing coded GPS provides a centimeter-accurate distance guidance service on the green of a golf course, measuring distance accuracy within 1 meter between vehicles, and securing a high-precision position within 50 centimeters of autonomous vehicles. There is a problem in not providing a service.

Meanwhile, Korean Patent Laid-Open Publication No. 10-2012-0087267 (Patent Document 1) discloses a “method and system for providing a multi-location-based POI information service”. Accordingly, a multi-location-based POI information service is provided. The providing system is a system that provides a multi-location-based point of interest (POI) information service, comprising: a plurality of mobile terminals using a multi-location-based POI information service according to activation of a predetermined area information-related application; And one center point is derived according to a predetermined route analysis rule based on multi-location information transmitted from the plurality of mobile terminals, and one or more POI information located within a predetermined distance from the derived center point is extracted from a database, and the And a POI service server provided to a plurality of mobile terminals, wherein the POI service server collects the multi-location information based on identification information of the plurality of mobile terminals.

In the case of Patent Document 1 as described above, by deriving an optimized point based on multi-location information transmitted from a plurality of mobile terminals, and providing POI information for each industry according to the user's interest items at the derived optimized point, various places Although there is an advantage of being able to efficiently and conveniently determine the meeting place of users in the site, this is limited to collecting multi-location information from multiple mobile terminals and providing optimal point (location) information based on it. It is difficult to accommodate most of the existing location-based services.

Korean Patent Application Publication No. 10-2012-0087267 (2012.08.07.)

The present invention was created to improve the problems of the prior art as described above, and employs a high-precision GNSS of several centimeters, and provides complex location-communication functions such as WIFI for the Internet, Bluetooth for short-range communication, and RF for remote payment. It is an object of the present invention to provide a system and method for providing a multi-location-based service capable of accommodating most existing location-based services by implementing a universal location-based service hardware platform.

Another object of the present invention is to provide a multi-location-based service providing system and method capable of providing location-based services even in underground or tunnels by employing fusion positioning technologies such as GNSS/DR and GNSS/INS with high reliability. have.

Another object of the present invention is to secure an average position accuracy within 50 centimeters by employing a carrier-based real-time kinematic (RTK) positioning function for a location-based service that requires high-precision position accuracy within at least 50 centimeters, It is to provide a system and method for providing multiple location-based services that can cope with most high-precision location-based services.

Another object of the present invention is that software and functions for implementing multiple location-based services are subdivided into functional block diagrams employed by existing location-based service terminals so that most general-purpose terminals can accommodate them. An object of the present invention is to provide a system and method for providing multiple location-based services capable of solving a problem of overlapping or missing motions between location-based services by using a scheduling function for controlling an operation.

In order to achieve the above object, the multi-location-based service providing system according to the present invention is a multi-location-based service providing system composed of a body of a predetermined shape and various electronic parts installed inside the body,

A high-precision navigation unit having a Global Navigation Satellite System (GNSS) therein and providing location information for providing a location-based service;

A multi-communication unit for Internet, short-range communication, and remote communication in connection with the provision of the location-based service;

A user interface unit that displays a state of the system according to a user's touch, detects a command input by the user's touch, displays a result on the screen, and outputs state information according to the control of the controller;

A database (DB) unit for storing a program for system operation, a specific application for providing a location-based service, and various data and information;

Inertial measurement unit for measuring the posture and movement of the system; And

The high-precision navigation unit, multi-communication unit, user interface unit, database (DB) unit, inertial measurement unit state check and control operation, software for providing multi-location-based services, and a control unit for controlling the operation of multiple and complex functions. Including it has its characteristics.

Here, preferably, it may further include a sound generator that provides a sound service related to the location-based service.

In this case, the sound generator may be configured with a vibrator.

In addition, the control unit may control overlapping or omission of operations between location-based services by using a scheduling function to control operations of the software and multiple or complex functions.

In addition, the user interface unit may be configured as a touch pad having input and output functions.

In this case, the touch pad may be divided into a plurality of touch areas each having different functions.

In this case, in the plurality of touch regions, each touch region may have a different color.

In this case, the plurality of touch regions may be configured such that the color of the corresponding touch region is turned on whenever each touch region is touched.

In addition, cameras for performing a black box function, a 360° camera function, and a complex positioning function may be further installed on the four front, rear, left, and right sides of the body.

In addition, color LEDs that display whether the system is level and display different colors for each operation mode of the system may be further installed on the four front, rear, left, and right sides of the body.

In addition, in order to achieve the above object, the method for providing multiple location-based services according to the present invention is composed of a body of a predetermined shape and various electronic components installed inside the body, and includes a high-precision navigation unit, a multi-communication unit, and a user. As a method for providing a multi-location-based service based on a multi-location-based service providing system including an interface unit, a database unit, an inertial measurement unit, and a control unit,

a) detecting a command input by a user's touch by the user interface unit, displaying a corresponding result on the screen, and outputting status information according to the control of the controller;

b) The control unit checks the state of the high-precision navigation unit, multiple communication unit, user interface unit, database (DB) unit, and inertial measurement unit, and controls the operation of software and multiple, complex functions for providing multi-location-based services. The step of doing;

c) measuring the posture and movement of the system by the inertial measurement unit and displaying it on a screen;

d) obtaining location information using a Global Navigation Satellite System (GNSS) by the high-precision navigation unit, and providing the obtained location information to provide a location-based service; And

e) receiving the location information provided by the high-precision navigation unit by the multi-communication unit and transmitting it to an external device using at least one of the Internet, short-range communication, and remote communication.

Here, in step b), the control unit may control redundancy or omission of operations between location-based services by using a scheduling function to control operations of the software and multiple or complex functions.

Further, cameras are further installed on each of the four front, rear, left, and right sides of the body, and the step of performing a black box function, a 360° camera function, and a complex positioning function by each camera may be further included.

In addition, color LEDs are further installed on the four front, rear, left, and right sides of the body, and the step of displaying whether the system is level by each LED and displaying different colors for each operation mode of the system may be further included.

According to the present invention, by adopting a high-precision GNSS of several centimeters, by implementing a universal location-based service hardware platform having complex location-communication functions such as WIFI for the Internet, Bluetooth for short-range communication, and RF for remote payment, Most of the existing location-based services can be accommodated, and cost can be reduced by installing only one universal high-precision hardware platform for location-based services.

1 is a block diagram schematically showing the overall configuration of a system for providing a multi-location-based service according to the present invention.
2 is a diagram showing the appearance of a system for providing a multi-location-based service according to the present invention.
3 is a diagram showing an internal configuration of a system for providing a multi-location-based service according to the present invention.
4 is a diagram illustrating a concept of sharing a multi-location-based service by a multi-location-based service providing system according to the present invention.
5 is a diagram illustrating an operation relationship between a multi-location-based service providing system according to the present invention and an external device.
6 is a flowchart showing an execution process of a method for providing a multi-location-based service according to the present invention.

Terms or words used in this specification and claims are limited to their usual or dictionary meanings and should not be interpreted, and that the inventor can appropriately define the concept of terms in order to describe his own invention in the best way. Based on the principle, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. In addition, terms such as "...unit", "...group", "module", and "device" described in the specification mean units that process at least one function or operation, which is hardware or software, or a combination of hardware and software. It can be implemented as

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 are diagrams illustrating a system for providing a multi-location-based service according to an embodiment of the present invention, and FIG. 1 is a block diagram schematically showing the overall configuration of the system, and FIG. 2 is a diagram showing the appearance of the system. 3 is a diagram showing the internal configuration of the system.

1 to 3, the multi-location-based service providing system 100 according to the present invention includes a body 105 having a predetermined shape (approximately a rectangular parallelepiped shape), and various electronic components installed inside the body 105. As a multi-location-based service providing system consisting of, a high-precision navigation unit 110, a multi-communication unit 120, a user interface unit 130, a database (DB) unit 140, an inertial measurement unit 150 and a control unit 160 ).

The high-precision navigation unit 110 has a Global Navigation Satellite System (GNSS) therein, acquires location information using GNSS, and uses the obtained location information to provide a location-based service. Phone).

The multiplex communication unit 120 performs Internet, short-range communication, and remote communication in connection with the provision of the location-based service. The multi-communication unit 120 may include Wi-Fi for short-range communication, a blue tooth, and high-frequency communication (eg, Aug RF) for high pass and medium-range communication.

The user interface unit 130 displays a state of the system according to a user's touch, detects a command input by the user's touch, displays a result on the screen, and outputs state information according to the control of the controller 160. Here, the user interface unit 130 may be formed of a touch pad (eg, LCD or film) having input and output functions. In this case, the touch pad is a plurality of touch areas 130a to 130d each having different functions (eg, "power", "operation", "service", and "pay" functions), as shown in FIG. 2. ) Can be divided into. In this case, in the plurality of touch areas 130a to 130d, each touch area may have a different color. In this case, the plurality of touch regions 130a to 130d may be configured such that the color of the corresponding touch region is turned on whenever each touch region is touched.

The database (DB) unit 140 stores a program for system operation, a specific application for providing a location-based service, and various data and information.

The inertia measurement unit 150 measures the posture and movement of the system. That is, the inertia measurement unit 150 measures the speed and direction, gravity, and acceleration of a moving object (eg, vehicle, motorcycle, bicycle, kickboard, etc.) to which the system of the present invention is applied. The inertia measurement unit 150 may include an accelerometer that measures the moving inertia of an object, a gyroscope that measures the rotational inertia of the object, and a geomagnetic sensor that measures the azimuth angle of the object.

The control unit 160 controls the state check and operation of the high-precision navigation unit 110, the multiple communication unit 120, the user interface unit 130, the database (DB) unit 140, and the inertial measurement unit 150, It controls the operation of software and multiple and complex functions to provide multiple location-based services. Here, the control unit 160 may control redundancy or omission of operations between location-based services by using a scheduling function in order to control the operation of the software and multiple or complex functions. In addition, such a control unit 160 may be configured as a microprocessor.

The system 100 for providing a multi-location-based service according to the present invention having the above configuration may further include a sound generator 170 that provides a sound service related to the location-based service. In this case, the sound generator 170 may be formed of a vibrator.

In addition, preferably, a camera 180 for performing a black box function, a 360° camera function, and a complex positioning function may be further installed on the four front, rear, left and right surfaces of the body 105, respectively.

In addition, preferably, color LEDs 190 that display whether the system is horizontal or not and display different colors for each operating mode of the system may be further installed on the four front, rear, left, and right sides of the body 105.

In addition, preferably, a SIM (Subscriber Identity Module) 192 for providing a payment service may be further installed inside the body 105.

In addition, preferably, a microphone 194 for receiving data in the voice region may be further installed inside the body 105.

Meanwhile, FIG. 4 is a diagram showing a concept of sharing a multi-location-based service by a multi-location-based service providing system according to the present invention.

Referring to FIG. 4, (A) shows a form of a conventional location-based service, and as shown, a terminal 1 corresponding to service 1 should be provided, and corresponding to service 2, service 3, and service 4, as shown in FIG. Terminal 2, Terminal 3, and Terminal 4 should be provided respectively. Therefore, from the user's point of view, it is necessary to purchase and install as many terminals as the number of services to be used. Accordingly, restrictions such as an installation environment are followed, and the number of services that can be used by one terminal is also limited. In addition, there is a problem of a large economic burden due to the continued purchase of a new terminal. (B) shows a form of a multi-location-based service by the multi-location-based service providing system 100 (referred to as a "sharing terminal" for convenience) according to the present invention, and as shown, a service 1 app, service 2 with one shared terminal By accommodating all of the app, service 3 app, and service 4 app, there is an advantage in that it is not necessary to purchase a new terminal to respond to a new service as in the prior art. That is, the multi-location-based service providing system 100 is a single terminal, a high-pass service in a charging section such as a high pass, a black box service in a situation such as an emergency stop, a parking tag service when entering a parking lot, and a camera in front of a speeding camera. It consists of a detector service, a high-precision location tracker service when location tracking is required, and a complex service terminal that provides a variety of services such as a golf caddy service at a golf course.Therefore, it is not possible to purchase a new terminal to respond to the new service as in the prior art. There is an advantage that you do not need.

5 is a diagram illustrating an operation relationship between a multi-location-based service providing system according to the present invention and an external device.

Referring to FIG. 5, an external device (eg, a smartphone) 500 ports a service app to the multi-location-based service providing system 100 (hereinafter referred to as “sharing terminal”) of the present invention, and the state of the sharing terminal And checks whether the operation is performed or not.

The sharing terminal has a high-precision positioning function, indoor/outdoor high-precision complex positioning function, and basic functions for ported services, and displays the status of the shared terminal and outputs status information (including raw data).

In the following, a method of providing a multi-location-based service based on the system for providing a multi-location-based service according to the present invention having the above configuration will be described.

6 is a flowchart illustrating an execution process of a method for providing a multi-location-based service according to an embodiment of the present invention.

6, the method for providing a multi-location-based service according to the present invention is composed of a body 105 in a rectangular parallelepiped shape and various electronic components installed inside the body 105, as described above, A multi-location-based service providing system 100 including a high-precision navigation unit 110, a multi-communication unit 120, a user interface unit 130, a database unit 140, an inertial measurement unit 150, and a control unit 160. As a method of providing a multi-location-based service based on the first, the user interface unit 130 detects a command input by a user's touch and displays a corresponding result on the screen, while the state according to the control of the controller 160 Information is output (step S601).

Then, the high-precision navigation unit 110, the multiple communication unit 120, the user interface unit 130, the database (DB) unit 140, and the inertial measurement unit 150 are checked by the control unit 160, and The software for providing the location-based service and the operation of multiple and complex functions are controlled (step S602). In this case, the controller 160 may control overlapping or omission of operations between location-based services by using a scheduling function in order to control the operation of the software and multiple or complex functions.

After the state check by the control unit 160 is completed as described above, the posture and movement of the system are measured by the inertial measurement unit 150 and displayed on the screen (step S603).

Further, the high-precision navigation unit 110 acquires location information using a Global Navigation Satellite System (GNSS), and provides the obtained location information to provide a location-based service (step S604).

Then, the multi-communication unit 120 receives the location information provided by the high-precision navigation unit 110 and transmits it to an external device (eg, a smartphone) using at least one of the Internet, short-range communication, and remote communication. (Step S605).

Meanwhile, in the method for providing a multi-location-based service according to the present invention as described above, cameras 180 are further installed on four front, rear, left, and right sides of the body 105 of the multi-location-based service providing system 100, respectively, and each camera The step of performing a black box function, a 360° camera function, and a complex positioning function by 180 may be further included.

In addition, in the method for providing a multi-location-based service according to the present invention as described above, color LEDs 190 are further installed on the four front, rear, left, and right sides of the body 105 of the multi-location-based service providing system 100, respectively, It may further include displaying whether the system is level by each LED 190 and displaying different colors for each operation mode of the system.

As described above, the system and method for providing a multi-location-based service according to the present invention employs a high-precision GNSS of several centimeters, and provides complex location-communication functions such as WIFI for the Internet, Bluetooth for short-range communication, and RF for remote payment. By implementing a general-purpose location-based service hardware platform, it is possible to accommodate most of the existing location-based services, and it is possible to reduce cost by installing only one general-purpose high-precision hardware platform for location-based services.

In addition, in a golf course without a caddy, there is an advantage of providing high-precision services such as centimeter-class distance measurement services on the green that conventional golf terminals or laser range finders cannot provide.

In addition, while existing location-based service terminals cannot provide location-based services in areas where satellite signals cannot be received, such as indoors, underground, and tunnels where GPS does not operate, the multi-location-based service providing system of the present invention provides high-precision locations indoors and outdoors. There is an advantage of being able to provide a base service.

In addition, the existing location-based service provider had to develop a service and a dedicated terminal at the same time, but the present invention only needs to focus on the development of a service software application based on general hardware such as a smartphone, thus preventing redundant development investment and resource efficiency. There is an increasing effect.

In addition, even if the performance of the existing smartphone is further improved, it is difficult to implement all various functions due to the limited limitations of hardware, and the multi-location-based service providing system according to the present invention cannot be satisfied in all of the existing smartphones. By serving as an auxiliary terminal filling the portion, there is an advantage of preventing waste that a user (consumer) has to purchase an additional terminal.

As described above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto, and various changes and applications can be made without departing from the technical spirit of the present invention. It is self-explanatory to the technician. Therefore, the true scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: (Invention) Multiple location-based service providing system
105: body 110: high-precision navigation unit
120: multiple communication unit 130: user interface unit
140: database unit 150: inertia measurement unit
160: control unit 170: sound generator
180: camera 190: color LED
192: SIM 194: microphone
130a-130d: touch area

Claims (16)

As a multi-location-based service providing system consisting of a body of a predetermined shape and various electronic parts installed inside the body,
A high-precision navigation unit having a Global Navigation Satellite System (GNSS) therein and providing location information for providing a location-based service;
A multi-communication unit for Internet, short-range communication, and remote communication in connection with the provision of the location-based service;
A user interface unit that displays a state of the system according to a user's touch, detects a command input by the user's touch, displays a result on the screen, and outputs state information according to the control of the controller;
A database (DB) unit for storing a program for system operation, a specific application for providing a location-based service, and various data and information;
Inertial measurement unit for measuring the posture and movement of the system; And
The high-precision navigation unit, multi-communication unit, user interface unit, database (DB) unit, inertial measurement unit status check and control operation, software for providing multi-location-based services, and a control unit for controlling the operation of multiple and complex functions. Including,
The user interface unit is composed of a touch pad having input and output functions,
The touch pad is divided into a plurality of touch areas each having different functions,
In the plurality of touch areas, each touch area has a different color,
The plurality of touch areas are configured so that the color of the corresponding touch area is lit whenever each touch area is touched,
On the four front, rear, left, and right sides of the body, color LEDs that display whether the system is horizontal and display different colors for each operation mode of the system are further installed,
The control unit controls operation duplication or omission between location-based services by using a scheduling function to control the operation of the software and multiple and complex functions,
The multi-location-based service providing system (hereinafter referred to as "sharing terminal") has a high-precision positioning function, indoor/outdoor high-precision complex positioning function, and basic functions for services ported from external devices, and displays the status of the shared terminal and provides status information. A system for providing multiple location-based services that outputs (including raw data). delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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