KR20180034970A - Apparatus and method for providing service between vehicles using internet of things technology - Google Patents

Abstract

Disclosed is an apparatus and method for providing a service between vehicles using internet of things technology. The method for providing a service between vehicles using internet of things technology includes a step of identifying second vehicle terminals receiving information generated in association with a first vehicle terminal; and a step of determining the first vehicle terminal as either a mobile base station mode or a vehicle terminal mode according to whether the identified second vehicle terminal is located within a determined range based on the first vehicle terminal. It is possible to support high-quality communication between vehicle terminals or between a vehicle terminal and a base station.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and a method for providing communication services between vehicles using Internet technology,

Embodiments of the present invention relate to an apparatus and method for providing inter-vehicle communication service using object Internet technology that supports communication between vehicle terminals or communication between a vehicle terminal and a base station based on Internet of Things (IoT) technology will be.

Objects The Internet refers to technology or environment in which data is transmitted and received on the Internet in real time by attaching sensors to objects, and can be applied to various fields.

The object Internet technology can transmit data to each other through a sensor attached to each product in the house and operate the product in conjunction with the transferred data, for example, so that the product can be automatically controlled in a limited space to provide convenience.

This object Internet technology uses a lower frequency band (for example, 400 MHz, 900 MHz band) than the WAVE (Wireless Access in Vehicular Environment) technology, has a low data rate and a high output level, . ≪ / RTI >

Therefore, it is necessary to provide a concrete method for providing convenience of vehicle operation through information transmission between vehicles by supporting high-quality communication between vehicles using Internet of things.

The present invention determines the first vehicle terminal as either the mobile base station mode or the vehicle terminal mode in accordance with whether or not the second vehicle terminals are located within the range determined based on the first vehicle terminal, , To propagate information generated in association with the first vehicle terminal in the IOT manner to the second vehicle terminals within the range or to be transmitted to another second vehicle terminals outside the range through the base station, Quality communication between vehicle terminals or between a vehicle terminal and a base station on the basis of a high-speed, high-speed, high-speed, and high-speed Internet connection method.

According to the present invention, when an emergency situation occurs in the first vehicle terminal, the first vehicle terminal is determined to be the mobile base station mode, and notification information on the emergency situation in the first vehicle terminal is transmitted to the mobile terminal To an arbitrary second vehicle terminal located within a predetermined range of the first vehicle terminal, thereby making it possible to easily recognize the emergency situation at the first vehicle terminal at the second vehicle terminals positioned in the vicinity.

Further, the present invention is characterized in that, when an emergency situation occurs in a first vehicle terminal (or a plurality of second vehicle terminals connected to a first vehicle terminal), the first base station The notification information and the peripheral information are transmitted to an arbitrary vehicle terminal located outside the range determined on the basis of the first vehicle terminal by transmitting the peripheral information together with the notification information for the vehicle terminal located at a remote location, (Or second vehicle terminals) can be specifically grasped in the first vehicle terminal (or the second vehicle terminals).

In order to achieve the above object, an apparatus for providing an inter-vehicular communication service using a stuff Internet technology includes an interface unit for confirming second vehicle terminals receiving information generated in association with a first vehicle terminal, A processor that determines the first vehicle terminal to be either a mobile base station mode or a vehicle terminal mode, depending on whether the terminals are located within a determined range based on the first vehicle terminal.

In order to achieve the above object, a method for providing an intervehicle communication service using object Internet technology includes the steps of: identifying second vehicle terminals receiving information generated in association with a first vehicle terminal; Determining whether the first vehicle terminal is in a mobile base station mode or a vehicle terminal mode according to whether the first vehicle terminal is located within a determined range based on the first vehicle terminal.

According to the embodiment of the present invention, the first vehicle terminal is determined to be either the mobile base station mode or the vehicle terminal mode, depending on whether or not the second vehicle terminals are located within the range determined based on the first vehicle terminal , The information generated in association with the first vehicle terminal in the IOT scheme is propagated to the second vehicle terminals within the range or is transmitted to the second vehicle terminals outside the range via the base station in accordance with the determined mode Quality communication between the vehicle terminals or between the vehicle terminal and the base station based on the object-based Internet method with a wide service area and a high communication response speed. Accordingly, convenience of vehicle operation can be provided through information transfer between vehicles.

According to the embodiment of the present invention, when an emergency situation occurs in the first vehicle terminal, the first vehicle terminal is determined as the mobile base station mode, and the notification information about the emergency situation in the first vehicle terminal is transmitted to the first vehicle terminal It is possible to easily recognize the emergency situation at the first vehicle terminal at the second vehicle terminals located in the vicinity by propagating to any second vehicle terminals located within the range determined based on the terminal.

According to the embodiment of the present invention, when an emergency situation occurs in the first vehicle terminal, the first vehicle terminal informs surrounding base stations of the emergency information about the emergency situation at the first vehicle terminal, So that the notification information and the peripheral information are transmitted to any vehicle terminal located outside the range determined on the basis of the first vehicle terminal so that the vehicle terminal located at a remote location can transmit emergency information Make the situation more specific.

FIG. 1 is a diagram illustrating an example of a network including an inter-vehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of an inter-vehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention. Referring to FIG.
FIG. 3 is a view for explaining an example of a service supported by an inter-vehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.
FIG. 4 is a view for explaining an example of a service when an emergency situation occurs consecutively in each vehicle terminal communicating with an intervehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.
5 is a diagram for explaining an example of checking whether a vehicular terminal is overspeed in an intervehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.
FIG. 6 is a flowchart illustrating a method for providing an inter-vehicle communication service using an Internet object technology according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and method for providing a vehicle-to-vehicle communication service using an Internet object technology according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, in a network including an intervehicle communication service providing apparatus utilizing the Internet of the present invention, a base station may communicate with vehicle terminals, or through one vehicle terminal operating in a mobile base station mode among vehicle terminals, And communicate with the vehicle terminals to receive the situation information regarding the vehicle terminals.

The vehicle terminal may be, but is not limited to, a smart phone, a tablet PC, a navigation, a sensor, and the like. In addition, the vehicle terminal may be provided with an application supporting the service utilizing the object Internet technology, for example, from an application open market server or an inter-vehicle communication service providing device utilizing the object Internet technology of the present invention, The service can be used.

FIG. 1 is a diagram illustrating an example of a network including an inter-vehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.

1, the network 100 may include a plurality of vehicle terminals 101, a base station 103, and an intervehicle communication service provision apparatus 105 utilizing the object Internet technology.

A plurality of vehicle terminals 101 may be provided for each vehicle. Each vehicle terminal can communicate with the other vehicle terminal or the base station 103 by the IOT method under the control of the vehicle-to-vehicle communication service providing apparatus 105 using the Internet of Things. In this case, each vehicle terminal can be determined to be either a mobile base station mode or a vehicle terminal mode. If it is determined that the mobile base station mode is selected, the vehicle terminal can communicate directly with a nearby vehicle terminal, And communicates with the base station 103 of the vehicle terminal 101 to allow the vehicle terminal located at a remote location to check the status of the plurality of vehicle terminals 101. [

The base station 103 may be, for example, an IOT gateway, and may transmit information between vehicle terminals in an IOT manner.

The vehicle-to-vehicle communication service provision apparatus 105 using the object Internet technology can support communication between vehicle terminals or communication between a vehicle terminal and a base station using the IOT method. At this time, the inter-vehicle communication service providing apparatus 105 using the object Internet technology determines the mode of the vehicle terminal (for example, the mobile base station mode and the vehicle terminal mode), supports communication between the vehicle terminals according to the determined mode, And can support communication between the terminal and the base station.

Specifically, the inter-vehicle communication service provision apparatus 105 using the object Internet technology transmits, among the plurality of vehicle terminals 101, a first vehicle terminal, a second vehicle that receives information generated in association with the first vehicle terminal, The mobile terminal can determine the first vehicle terminal to be either the mobile base station mode or the vehicle terminal mode depending on whether the second vehicle terminals are within the determined range based on the first vehicle terminal . The inter-vehicle communication service providing apparatus 105 using the object Internet technology transmits the inter-vehicle communication service to the first vehicle terminal in the IOT system when the first vehicle terminal is determined to be in the mobile base station mode, Information can be propagated to the second vehicle terminals within the range. In addition, when the first vehicle terminal is determined to be in the vehicle terminal mode as the second vehicle terminals are located outside the range, the vehicle-to-vehicle communication service providing apparatus 105 using the Internet of Things uses the IOT method , And by transmitting the information to the base station, the information is transmitted through the base station to another second vehicle terminals outside the range.

FIG. 2 is a block diagram illustrating a configuration of an inter-vehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 2, an apparatus 200 for providing an inter-vehicle communication service using an Internet object technology according to an embodiment of the present invention may include an interface unit 201 and a processor 203.

The interface unit 201 can identify the second vehicle terminals receiving information generated in association with the first vehicle terminal. Here, the information generated in association with the first vehicle terminal may be all information (e.g., driver image, view image, vehicle speed, position, emergency occurrence, etc.) related to the vehicle in which the first vehicle terminal is provided, 1 < / RTI > vehicle terminal.

Also, the interface unit 201 may receive a request for a structure generated at the first vehicle terminal. Here, the first vehicle terminal may generate the structure request, for example, when it receives a rescue request command from an in-vehicle driver equipped with the first vehicle terminal, or when an impact due to a traffic accident occurs in the vehicle.

The processor 203 determines the mode of the first vehicle terminal based on the position of the identified second vehicle terminals, supports the communication between the first and second vehicle terminals in the IOT mode in accordance with the determined mode, 1 communication between the vehicle terminal and the base station.

Upon determining the mode of the first vehicle terminal, the processor 203 determines whether the verified second vehicle terminals are within a predetermined range (e.g., within a predetermined radius of 500 meters around the first vehicle terminal, Circle), the first vehicle terminal can be determined to be either the mobile base station mode or the vehicle terminal mode. Here, the roles of the first vehicle terminal and the second vehicle terminal can be changed from time to time depending on the situation.

That is, the processor 203 determines that the first vehicle terminal is in the mobile base station mode when the second vehicle terminals are within the range and wants to transmit information to each other, and when the second vehicle terminals are located outside the range , It is possible to determine the first vehicle terminal to be the vehicle terminal mode when information is to be transmitted to vehicles outside the above range other than the information transmission of the vehicles within the above range.

The processor 203 determines whether the first vehicle terminal is in the mobile base station mode when the second vehicle terminals are located within the range, . ≪ / RTI >

In addition, when the first vehicle terminal determines that the vehicle terminal mode is selected, the processor 203 transmits the information generated in association with the first vehicle terminal to the second vehicle terminal located outside the range, , The information is transmitted to the base station so that the information is transmitted through the base station to another second vehicle terminals out of the range.

If the mobile terminal attempts to simultaneously transmit the information generated in association with the first vehicle terminal to the second vehicle terminal located within the range and outside the range, the processor 203 transmits the first vehicle terminal to the mobile terminal mode, In the terminal mode, sequentially in a predetermined time interval, and can transmit the information to the second vehicle terminals located within the range and outside the range, respectively.

For example, when the information is generated due to the occurrence of an emergency (for example, a sudden break, a traffic accident, or an emergency patient) at the first vehicle terminal, the processor 203 transmits the first vehicle terminal to the mobile base station Mode and informing the emergency terminal of the first vehicle terminal to the vehicle terminals within the range to easily recognize the emergency situation at the first vehicle terminal I will.

Further, the processor 203 determines the first vehicle terminal as the vehicle terminal mode after propagating the notification information, and transmits the peripheral information to the base station along with the notification information, Thereby enabling the vehicle terminal located at a remote location to specifically grasp the emergency situation at the first vehicle terminal. Here, the peripheral information includes, for example, the number of vehicles in the determined range based on the first vehicle terminal, the current state image of the vehicle in which the first vehicle terminal is provided, road information (e.g., road name, Number), and the like.

As another example, the processor 203 generates traffic information based on the alert information on the emergency situation at the first vehicle terminal (or any vehicle terminal) and the surrounding information, and transmits the traffic information to the base station , The traffic information is transmitted to the vehicle terminal outside the range through the base station. That is, the processor 203 transmits the traffic information analyzing the emergency situation occurring at each vehicle terminal to the other vehicle terminal, thereby enabling the other vehicle terminal to grasp the overall traffic situation.

On the other hand, the processor 203 may request assistance from the agency in connection with the occurrence of an emergency at the first vehicle terminal. Specifically, when an emergency situation occurs in an arbitrary vehicle terminal or a rescue request is input within a set time based on a time point of occurrence of an emergency situation at the first vehicle terminal, The terminal is determined as the vehicle terminal mode, and the alert information and the surrounding information are transmitted to the engine server through the base station, so that the emergency information can be quickly responded to.

In determining the mode of the first vehicle terminal, the processor 203 further determines the type of the information generated in association with the first vehicle terminal so that the first vehicle terminal can be switched between the mobile base station mode and the vehicle terminal mode Or the like. At this time, the processor 203 determines the first vehicle terminal as the mobile base station mode when the information is not related to the occurrence of an emergency in the first vehicle terminal, By propagating at least one of the driver image, the view image in the vehicle, and the speed of the vehicle to a vehicle terminal within the range (e.g., vehicle terminal in the vehicle located in front of or behind the vehicle provided with the first vehicle terminal) (For example, drowsiness operation, overspeed, or the like) of the vehicle equipped with the first vehicle terminal in the nearby vehicle, thereby avoiding the danger that may occur due to the vehicle.

In addition, the processor 203 determines whether or not the vehicle terminal is overspeed in consideration of the connection time (or the connection release time) with the remote base station to a certain vehicle terminal or the time at which the base station is spaced apart You can check. At this time, when the vehicle terminal is judged to be overspeed, the processor 203 provides the vehicle terminal with a warning message for overspeed, thereby allowing the speed to be adjusted.

In addition, the processor 203 may determine the first vehicle terminal as the mobile base station mode when the second vehicle terminals are classified into the same group as the first vehicle terminal, (E.g., voice communication) with the two vehicle terminals, thereby enabling smooth communication without paying a separate communication cost among drivers of the same-destination vehicle having the same destination.

In addition, the processor 203 supports communication between vehicle terminals and other terminals (for example, a high-pass terminal and a traffic-terminal recognizer) in addition to communication between vehicle terminals, so that the vehicle terminal based on the object Internet technology can be applied to various fields do.

For example, the processor 203 determines the first vehicle terminal as the vehicle terminal mode when the first vehicle terminal passes through the high-pass road, By providing the terminal with the identification information of the first vehicle terminal and deducting the toll from the payment means set in correspondence with the identification information of the first vehicle terminal, , And the high-pass function can be easily supported.

In addition, when the user having the vehicle terminal (e.g., a smartphone) is boarded in the public transportation vehicle instead of the transportation card, the processor 203 can recognize the vehicle terminal through the traffic terminal recognizer in the public transportation vehicle, The vehicle terminal can be utilized in public transportation by automatically charging the traffic fare in association with the vehicle terminal.

FIG. 3 is a view for explaining an example of a service supported by an inter-vehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.

Referring to FIG. 3, an inter-vehicle communication service providing apparatus 300 using a stuff Internet technology includes, for example, a V2V (Vehicle to Vehicle) service for supporting communication between a vehicle and a vehicle, a V2I (Vehicle to Infrastructure) service.

Specifically, the inter-vehicle communication service providing apparatus 300 using the object Internet technology determines the mode of the vehicle terminal (for example, the mobile base station mode and the vehicle terminal mode) based on the set conditions, To provide the V2V service or to support the communication between the vehicle terminal and the base station to provide the V2I service.

The vehicle-to-vehicle communication service providing apparatus 300 utilizing the object-of-the-art Internet technology includes, for example, the second vehicle terminals 302-1, 302-2, 302- 3) and determines that the first vehicle terminal (301) is in the mobile base station mode when the identified second vehicle terminals are located within a determined range based on the first vehicle terminal (301) (For example, the second vehicle terminal 302-3) generated in association with the first vehicle terminal 301 and the second vehicle terminals 302-1 and 302-2, The first vehicle terminal 301 can be determined as the vehicle terminal mode.

When the first vehicle terminal 301 is determined to be in the mobile base station mode, the inter-vehicle communication service providing apparatus 300 using the object Internet technology transmits the information to the second vehicle terminals 302- 1, 302-2).

The inter-vehicle communication service providing apparatus 300 using the object Internet technology, for example, is information generated in association with the first vehicle terminal 301, and stores information resulting from the occurrence of an emergency in the first vehicle terminal 301 The first vehicle terminal 301 is determined to be the mobile base station mode and the notification information about the emergency situation in the first vehicle terminal 301 is transmitted to the mobile terminal 301 within the determined range based on the first vehicle terminal 301 2 vehicle terminals 302-1 and 302-2.

In addition, the inter-vehicle communication service providing apparatus 300 utilizing the object Internet technology may be configured to transmit the inter-vehicle communication service using the object Internet technology, for example, as information generated in association with the first vehicle terminal 301, The first vehicle terminal 301 is determined to be in the mobile base station mode and the received information is transmitted to the first vehicle terminal 301 in response to the received at least one of the driver image in the first vehicle terminal, It is possible to grasp the driving state of the vehicle equipped with the first vehicle terminal 301 (for example, drowsiness driving state, speeding state, etc.) in the nearby vehicle by propagating to the surrounding second vehicle terminals 302-1 and 302-2 So as to avoid the danger that may occur due to the vehicle.

In addition, when the first vehicle terminal 301 is determined to be in the vehicle terminal mode, the inter-vehicle communication service providing apparatus 300 utilizing the object Internet technology transmits the information to the base station 303 in the IOT scheme, Information is transmitted through the base station 303 to another second vehicle terminal 302-3 outside the range.

The inter-vehicle communication service providing apparatus 300 using the object Internet technology, for example, is information generated in association with the first vehicle terminal 301, and stores information resulting from the occurrence of an emergency in the first vehicle terminal 301 It can determine the first vehicle terminal 301 as the vehicle terminal mode and transmit the peripheral information to the base station 303 together with the notification information on the emergency situation in the first vehicle terminal 301. [

The roles of the first vehicle terminal 301 and the second vehicle terminals 302-1 and 302-2 can be interchanged and the number of the second vehicle terminals connected to the first vehicle terminal can be expanded to several thousand Do.

FIG. 4 is a view for explaining an example of a service when an emergency situation occurs consecutively in each vehicle terminal communicating with an intervehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.

Referring to FIG. 4, the inter-vehicle communication service providing apparatus 400 using the Internet of Things is information generated in association with the vehicle terminal # 1 401, (401) to the mobile base station mode and notifies the emergency terminal of the vehicle terminal (# 1) (401) to the mobile terminal (# 1) # 2 402, and the vehicle terminal # 3 403 within a range determined based on the base station # 1 (401).

In addition, the vehicle-to-vehicle communication service providing apparatus 400 using the object Internet technology determines the vehicle terminal # 1 401 as the vehicle terminal mode after propagating the notification information, And transmits the notification information and the surrounding information to the vehicle terminal_ # 4 404 and the vehicle terminal_ # 5 405 outside the range by transmitting the notification information to the base station 406 through the base station 406. [

Hereinafter, the vehicle-to-vehicle communication service providing apparatus 400 using the object Internet technology generates information related to the vehicle terminal # 2 402, (402) is determined in the same manner as the vehicle terminal # 1 (401), and the notification of the emergency situation in the vehicle terminal_ # 2 (402) 1 to the vehicle terminal_ # 1 401 and the vehicle terminal_ # 5 405 within the predetermined range (for example, the determined range based on the vehicle terminal_ # 2 402) , The peripheral information is transmitted to the base station 406 so that the notification information and the surrounding information are transmitted to the vehicle terminal_ # 3 403 and the vehicle terminal_ # 4 404 outside the range through the base station 406 .

The inter-vehicle communication service providing apparatus 400 using the object Internet technology is configured to provide the vehicle-to-vehicle communication service providing apparatus 400 with the vehicle Internet __ 1 401 and the vehicle terminal __ 2 402 at a predetermined time (for example, 3 seconds) , It is determined that the first vehicle terminal is the vehicle terminal mode and the notification information of the emergency situation in the vehicle terminal_ # 1 401 and the vehicle terminal_2 402 and the notification information of the vehicle terminal_ # 1 401 2 and the peripheral information of the vehicle terminal # 2 402 to the engine server 407 via the base station 406, so that it can cope with the emergency quickly.

5 is a diagram for explaining an example of checking whether a vehicular terminal is overspeed in an intervehicle communication service providing apparatus using an Internet object technology according to an embodiment of the present invention.

Referring to FIG. 5, an apparatus 500 for providing an intervehicle communication service using the Internet of Things (hereinafter, referred to as " inter-vehicle communication service providing apparatus ") transmits to a vehicle terminal a connection time (or connection release time) , It is possible to check whether or not the vehicle terminal is overspeed.

For example, the inter-vehicle communication service providing apparatus 500 using the Internet of Things uses the time (departure time) at which the vehicle terminal 501 passes through the first base station 502-1 and the time (Arrival time), and calculates the time difference between the time and the set time (or the distance between the first and second base stations 502-1 and 502-2) to the vehicle terminal 501 It is possible to check whether or not the vehicle is overspeed.

FIG. 6 is a flowchart illustrating a method for providing an inter-vehicle communication service using an Internet object technology according to an embodiment of the present invention.

Referring to FIG. 6, in step 601, an intervehicle communication service providing apparatus utilizing object Internet technology can identify second vehicle terminals receiving information generated in association with a first vehicle terminal.

In step 603, the intervehicle communication service providing apparatus utilizing the object Internet technology can determine the mode of the first vehicle terminal based on the position of the identified second vehicle terminals. At this time, the inter-vehicular communication service providing apparatus using the object Internet technology may determine whether the second vehicle terminals are located within the predetermined range (for example, the determined range based on the first vehicle terminal) 1 vehicle terminal can be determined as either the mobile base station mode or the vehicle terminal mode. Here, the roles of the first vehicle terminal and the second vehicle terminal can be changed from time to time depending on the situation.

In step 605, the vehicle-to-vehicle communication service providing apparatus utilizing the object Internet technology can confirm the mode of the first vehicle terminal.

When the mode of the first vehicle terminal is determined to be the mobile base station mode as a result of checking the mode of the first vehicle terminal, the inter-vehicle communication service providing device using the object Internet technology transmits, in step 607, 1 < / RTI > vehicle terminal to the second vehicle terminals within the range.

When the mode of the first vehicle terminal is determined to be the vehicle terminal mode as a result of checking the mode of the first vehicle terminal, the inter-vehicle communication service providing device utilizing the object Internet technology transmits, in step 609, By transmitting the information to the base station, the information is transmitted through the base station to another second vehicle terminals outside the range.

When the second vehicle terminals are simultaneously located within the range and outside the range, the intervehicle communication service providing apparatus utilizing the object Internet technology transmits the first vehicle terminal to the selected mobile terminal in the mobile base station mode and the vehicle terminal mode, And sequentially transmit the information to the second vehicle terminals located within the range and outside the range, respectively.

In the case where the information is generated due to the occurrence of an emergency situation (for example, a sudden break situation, a traffic accident, an emergency patient) at the first vehicle terminal, an intervehicle communication service providing apparatus utilizing the object Internet technology, The mobile terminal determines the mobile terminal mode as the mobile base station mode and notifies the emergency terminal of the first vehicle terminal of the emergency situation to the vehicle terminal within the range, To be recognized easily. In addition, the inter-vehicle communication service providing apparatus using the object Internet technology determines the first vehicle terminal as the vehicle terminal mode after transmitting the notification information, and transmits the peripheral information together with the notification information to the base station , So that the vehicle terminal located at a remote location can specifically grasp the emergency situation at the first vehicle terminal.

In addition, the inter-vehicle communication service providing apparatus using the object Internet technology generates the traffic information based on the notification information about the emergency situation at the first vehicle terminal (or any vehicle terminal) and the surrounding information, To the base station so that the traffic information is transmitted to the vehicle terminal outside the range through the base station. That is, the inter-vehicular communication service providing apparatus utilizing the Internet of Things enables the traffic information analyzing the emergency situation occurring at each vehicle terminal to be transmitted to the other vehicle terminal, thereby enabling the other vehicle terminal to grasp the overall traffic situation.

Meanwhile, the inter-vehicle communication service providing apparatus utilizing the object Internet technology can request assistance from the agency in connection with the emergency situation at the first vehicle terminal. Specifically, the inter-vehicular communication service providing apparatus using the object Internet technology may be configured such that an emergency situation occurs in an arbitrary vehicle terminal within a set time based on the occurrence time of the emergency situation at the first vehicle terminal, The first vehicle terminal is determined to be the vehicle terminal mode, and the notification information and the surrounding information are transmitted to the engine server through the base station, so that the first vehicle terminal can quickly respond to an emergency situation.

In addition, when determining the mode of the first vehicle terminal, the inter-vehicle communication service providing device utilizing the object Internet technology may further include a second vehicle terminal, The mobile base station mode, and the vehicle terminal mode. In this case, the inter-vehicular communication service providing apparatus using the object Internet technology determines the first vehicle terminal as the mobile base station mode when the information is not related to the emergency occurrence in the first vehicle terminal, 1 vehicle terminal, the visual field image in the vehicle, and the speed of the vehicle, to a vehicle terminal within the range (for example, a vehicle terminal located in front of or behind the vehicle provided with the first vehicle terminal Vehicle terminal in the vehicle), it is possible to grasp the driving state of the vehicle equipped with the first vehicle terminal in the nearby vehicle (for example, drowsiness driving state, speeding state, etc.) I will.

In addition, the inter-vehicle communication service providing apparatus using the object Internet technology may determine the first vehicle terminal as the vehicle terminal mode when the first vehicle terminal passes through the high-pass exclusive road, The identification information of the first vehicle terminal is provided to the high-pass terminal installed on the high-pass road, and the toll is deducted from the payment means set in correspondence with the identification information of the first vehicle terminal, It is possible to easily support the high pass function without providing a dedicated terminal in the vehicle.

In addition, when the second vehicle terminals are classified into the same group as the first vehicle terminal, the inter-vehicle communication service providing device utilizing the object Internet technology determines the first vehicle terminal as the mobile base station mode, By supporting communication (e.g., voice communication) with the second vehicle terminals in connection with the connection request, smooth communication is enabled without paying the separate communication costs among drivers of the same-destination vehicles having the same destination.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored in one or more computer readable storage media.

The method according to an embodiment may be implemented in the form of a program instruction that may be executed through various computer means and stored 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 stored on the medium may be those specially designed and constructed for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable storage media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magneto-optical media such as floppy disks; Includes hardware devices specifically 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 machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

100: A network including a vehicle-to-vehicle communication service providing device utilizing the Internet of things
101: plurality of mobile terminals 103: base station
105: Vehicle communication service providing device using Internet of things

Claims (14)

Identifying second vehicle terminals receiving information generated in association with the first vehicle terminal; And
Determining the first vehicle terminal to be one of a mobile base station mode and a vehicle terminal mode according to whether the verified second vehicle terminals are located within a determined range based on the first vehicle terminal
A method for providing communication services between vehicles using Internet technology. The method according to claim 1,
Wherein when the first vehicle terminal is determined to be in the mobile base station mode as the second vehicle terminals are located within the range,
In an IOT manner, propagating the information to the second vehicle terminals within the range
To-vehicle communication service using the Internet technology. The method according to claim 1,
When the first vehicle terminal is determined to be in the vehicle terminal mode as the second vehicle terminals are located outside the range,
In the IOT manner, to transmit the information to the base station, via the base station, to the second vehicle terminals outside the range
To-vehicle communication service using the Internet technology. The method according to claim 1,
If the second vehicle terminals are simultaneously located within the range and outside the range,
Sequentially determining the first vehicle terminal in the mobile base station mode and the vehicle terminal mode within a predetermined time period
To-vehicle communication service using the Internet technology. The method according to claim 1,
When the information is generated due to an emergency situation at the first vehicle terminal,
Determining the first vehicle terminal as the mobile base station mode and propagating notification information about the emergency situation at the first vehicle terminal to the vehicle terminal within the range; And
Determining the first vehicle terminal as the vehicle terminal mode after propagating the notification information, and transmitting the neighboring information together with the notification information to the base station
To-vehicle communication service using the Internet technology. 6. The method of claim 5,
Generating traffic information based on the announcement information and the surrounding information; And
Transmitting the traffic information to the base station through the base station so that the traffic information is transmitted to the vehicle terminal outside the range
To-vehicle communication service using the Internet technology. 6. The method of claim 5,
When an emergency situation occurs in an arbitrary vehicle terminal or a rescue request is inputted within a set time based on the time of occurrence of the emergency situation,
Determining the first vehicle terminal as the vehicle terminal mode and transmitting the notification information and the surrounding information to the agency server through the base station
To-vehicle communication service using the Internet technology. The method according to claim 1,
Determining whether the first vehicle terminal is one of the mobile base station mode and the vehicle terminal mode considering the type of the information and if the information is independent of occurrence of an emergency situation in the first vehicle terminal , Determining the first vehicle terminal to be in the mobile base station mode; And
A step of propagating at least one of an in-vehicle driver image equipped with the first vehicle terminal, a view image in the vehicle, and a speed of the vehicle to a vehicle terminal within the range
To-vehicle communication service using the Internet technology. The method according to claim 1,
When the first vehicle terminal passes through the high-pass exclusive road,
Determining the first vehicle terminal as the vehicle terminal mode,
Providing identification information of the first vehicle terminal to a high pass terminal installed on the high pass road through the base station and deducting the toll from the payment means set in correspondence with the identification information of the first vehicle terminal
To-vehicle communication service using the Internet technology. The method according to claim 1,
When the second vehicle terminals are classified into the same group as the first vehicle terminal,
Determining the first vehicle terminal as the mobile base station mode and supporting communications with the second vehicle terminals associated with the communication connection request
To-vehicle communication service using the Internet technology. An interface for identifying second vehicle terminals receiving information generated in association with the first vehicle terminal; And
And determining the first vehicle terminal as either a mobile base station mode or a vehicle terminal mode according to whether the verified second vehicle terminals are located within a determined range based on the first vehicle terminal
To-vehicle communication service utilizing an Internet technology. 12. The method of claim 11,
Wherein when the first vehicle terminal is determined to be in the mobile base station mode as the second vehicle terminals are located within the range,
The processor comprising:
In an IOT manner, propagating the information to the second vehicle terminals within the range
A device for providing communication service between vehicles using Internet technology. 12. The method of claim 11,
When the first vehicle terminal is determined to be in the vehicle terminal mode as the second vehicle terminals are located outside the range,
The processor comprising:
In the IOT manner, by sending the information to the base station, the information being transmitted via the base station to the second vehicle terminals outside the range
A device for providing communication service between vehicles using Internet technology. 12. The method of claim 11,
When the information is generated due to an emergency situation at the first vehicle terminal,
The processor comprising:
Determining that the first vehicle terminal is in the mobile base station mode, propagating notification information on an emergency situation at the first vehicle terminal to the vehicle terminal within the range, and after propagating the notification information, To the vehicle terminal mode, and transmits the peripheral information together with the notification information to the base station
A device for providing communication service between vehicles using Internet technology.

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