KR20130085531A - Method and apparatus for transferring packet in wireless network - Google Patents

Abstract

PURPOSE: A delivery method of wireless network packets based on vehicles and a device thereof are provided to relieve deterioration in network function due to explosive traffic inflow caused by the increasing number of terminal devices and diversification of them using network. CONSTITUTION: A communications unit (610) is connected to the intranet different from the network. The communications unit communicates with the first intranet terminal and the second intranet terminal. The first intranet terminal is installed in a vehicle periodically passing assigned specific route. The second intranet terminal is installed on a spot where the vehicle stops. A packet management module (620) analyzes the network state where the transferred packets are delivered. The packet management module controls the communications unit for the transferred packets to be delivered to the first intranet terminal and the second intranet terminal when the network is not clear. [Reference numerals] (132) Routing table; (610) Communication unit; (612) First communication interface; (614) Second communication interface; (616) Third communication interface; (620) Packet management module; (630) Storage unit

Description

[Method and apparatus for transferring packet in wireless network]

TECHNICAL FIELD The present invention relates to a technique for controlling network traffic, and more particularly, to an apparatus and method for distributing wireless network traffic jams using mobile means.

Due to the explosive increase in smart devices, the network usage increases, traffic is excessively generated, and the network does not operate in a normal state, thereby adversely affecting the mobile phone transmission / reception sound quality of the smart terminal. In addition, when there is a long wait or no response when using a network service due to an increase in network usage, the user may refresh or re-run the service. In this case, only the induction of traffic is more severe. .

In such a situation, a separate inter-vehicle network method such as a dedicated short range communication (DSRC) communication method or a vehicle communication method such as WAVE (Wireless Access in Vehicular Environments) is used for the vehicle terminal. This communication method has been developed as a basic communication system of the smart highway, which is an issue recently, but this is a service that provides a method of using a network in a vehicle or an inter-vehicle notification about the use of a network using a vehicle. .

However, such a vehicle-to-vehicle network method only provides a method for communication between a vehicle and a base station and an inter-vehicle communication, and the inter-vehicle network method may add a burden to a network that is currently oversaturated when using an existing network. have. In order to solve the network traffic load, various vendors have various measures, and femtocell is representative. However, there is still a problem of network traffic distribution since it is provided only when using a corresponding carrier.

Related prior art, published on June 15, 2011, has a patent application number No. 10-2010-20962, and the applicant of the Korea Electronics and Telecommunications Research Institute "Location-based vehicle multi-hop protocol unicast device and routing using the same" There is a way ".

The present invention solves the network deterioration caused by the explosive traffic inflow caused by the increase and diversification of the terminal devices using the network through the distribution of network traffic using the packet delivery system using a mobile means.

A base station that delivers packets of a user terminal according to an aspect, receives a packet from the user terminal, connects to a network to which the received packet is to be delivered, connects to an intranet different from the network, and periodically passes a specific path. A communication unit that communicates with a second intranet terminal installed at a location where the first intranet terminal installed in the network and the routing vehicle stops, and a network state to which the received packet is delivered; and, if the network state is not smooth, the received packet And a packet processing unit for controlling the communication unit to be transmitted to the first intranet terminal or the second intranet terminal.

An intranet terminal installed in an intranet supporting inter-vehicle communication according to another aspect includes a base station communication unit communicating with at least one base station connected to a network in a packet forwarding path, and a vehicle communication unit communicating with an intranet terminal installed in a nearby vehicle. According to the reception of the network status message indicating that the wireless network state broadcast from the base station is not smooth, the base station communication unit is controlled to transmit packet forwarding address information indicating the address of the terminal to the base station, and the packet received from the base station And a data processor for controlling the vehicle communication unit to transmit to the intranet terminal installed in the vehicle.

According to another aspect of the present invention, there is provided a method of transmitting a packet transmitted from a user terminal, the first base station receiving a packet from the user terminal, the first base station analyzing the network state to which the packet is forwarded, If not, the first base station is installed in an intranet different from the network, and the packet is periodically transmitted to the first intranet terminal installed in the first routing vehicle passing through a specific path, and the first intranet terminal Transmitting the packet to the general vehicle terminal installed in the surrounding general vehicle through the inter-vehicle communication, the general vehicle terminal transmitting the packet to the second intranet terminal in the region where the surrounding wireless network is smooth, and the second intranet The terminal transmits the packet to a second base station located in a neighboring wireless network, and the second base station wirelessly transmits the packet. Transmitting to a destination via a network.

According to the present invention, since a packet movement system through a vehicle can perform traffic distribution, it is possible to minimize costs incurred due to the development of expensive network equipment or new equipment with a traffic processing function and to use the most common vehicles in the vicinity. It can provide traffic elimination and seamless network environment.

In particular, since a packet moves to an area having good network performance by using a vehicle, a network can provide a seamless environment for using a network service.

In addition, in case of interference between wireless networks or Wifi, if a weak Wifi signal continues to be used regardless of the user's intention, the network environment had to be set up every time, but even a weak network can be used to move a packet using a vehicle. A more comfortable wireless network environment can be provided.

1 is a view showing the configuration of a packet transmission system using a moving means according to an embodiment of the present invention.
2 is a diagram illustrating a packet transmission method according to an embodiment of the present invention.
3 is a flowchart illustrating the operation of a base station according to an embodiment of the present invention.
4 is a flowchart illustrating the operation of an intranet terminal according to an embodiment of the present invention.
5 is a flowchart illustrating an operation of a general vehicle terminal according to an embodiment of the present invention.
6 is a block diagram illustrating an example of a configuration of a base station for transmitting the packet of FIG. 1.
7 is a block diagram illustrating an example of a configuration of an intranet terminal according to an embodiment of the present invention.
8 is a block diagram illustrating an example of a configuration of a general vehicle terminal of FIG. 1.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the terms described below are defined in consideration of the functions of the present invention, and this may vary depending on the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a view showing the configuration of a packet transmission system using a moving means according to an embodiment of the present invention.

The vehicle packet transmission system 100 includes a user terminal 110, a base station 120, a network # 1 (10), a network # 2 (20), and an intranet 30.

The network # 1 (10) and the network # 2 (20) may be various types of wireless networks, such as a 3G network and a WiFi network. It is assumed that the network # 1 10 and the network # 20 are homogeneous networks that are connected to each other, but communication is not smooth due to network traffic. Network # 1 (10) and network # 2 (20) may be connected to other wired networks or various types of networks.

The user terminal 110 is a terminal using a wireless network, and may be various types of electronic devices such as a mobile phone, a smart phone, a PDA, and the like. The user terminal 110 transmits and receives a packet through the base station 120. Here, although one user terminal 110 is shown, several user terminals may use a wireless network at the same time. The user terminal 110 may use a wireless Internet network through a 3G network, a Wifi network, a wireless access point (AP), or the like.

The base station 120 may be wirelessly connected to the network # 1 (10). The base station 120 delivers the packet received from the user terminal 110 to the destination network, and may be configured in various forms such as a router and a switch. It is assumed that the base station 120 is a device for delivering a packet according to the wireless network currently used by the user terminal 110. The base station 120 may set the transmission path of the packet using the routing table. The routing table is a table including a path for delivering a packet, and the base station 120 refers to the information in the routing table to select an optimal forwarding path of the packet among a plurality of paths through which the packet can be forwarded, and selects a selected forwarding path. Packet can be sent.

The intranet 30 is a network for inter-vehicle communication and communication between a vehicle and a vehicle terminal located on a road. The intranet 30 may include a stop terminal # 1 130, a bus terminal # 1 140, a general vehicle terminal 150, a stop terminal # 2 160, and a bus terminal # 2 170. The bus terminal # 1 130 and the bus terminal # 2 160 indicate a fixed terminal installed at a path or a stop position where the bus terminal # 1 140 and the bus terminal # 2 150 pass. The intranet terminals included in the intranet 30 may be separately installed whether the terminals are installed in the route designation vehicle, the fixed terminals, or the terminals installed in the general vehicle.

Here, for convenience of description, the bus terminal # 1 140 and the bus terminal # 2 170 are represented, but the bus terminal # 1 140 and the bus terminal # 2 170 periodically follow a predetermined designated path. Represents a terminal installed in a running route designation vehicle. In contrast, the general vehicle terminal 150 represents a terminal installed in a vehicle in which a travel time and a route are not determined, such as a private car.

Stop terminal # 1 (130), bus terminal # 1 (140), general vehicle terminal (150), stop terminal # 2 (160), and bus terminal # 2 (170) communicate with each other through intranet (30), and intranet It is configured to enable packet transmission and reception through. The bus terminal # 1 130, the bus terminal # 1 140, the general vehicle terminal 150, the bus terminal # 2 160, and the bus terminal # 2 170 may communicate with each other through a WAVE method. In addition, the stop terminal # 1 (130), the bus terminal # 1 (140), the stop terminal # 2 (160) and the bus terminal # 2 (170) communicate with the base station (120) to the surrounding wireless network (for example, Network # 1 (10) can be checked.

The user terminal 110 may packetize data such as an email, a video, a message, etc. while using a service using an application installed therein according to a user input signal, and transmit the packetized data to a destination belonging to the network # 2 20. The packet generated at the user terminal 110 is transmitted to the wireless network through the base station 120.

The base station 120 establishes a packet transmission path and checks the network state of the network # 1 (10) on the packet transmission path. The base station 120 may check the network state by checking the traffic generation amount, the data transmission speed, and the like through the traffic flow analysis delivered to the network # 1 (10).

The network state herein may indicate not only the performance degradation of the entire network, but also the traffic state of the flow associated with the transmitted packet. For example, the base station 120 analyzes the distribution chart of the size of the packets delivered to the network # 1 (10), the distribution of packets of a specific size occupies more than 50% of the total traffic volume, or by the specific protocol (eg For example, if the distribution of packets (TCP, UDP, HTTP, etc.) accounts for more than 50% of the overall network utilization, it can be determined that the network state is not smooth.

If the base station 120 determines that the network condition is not smooth, such as when the packet transmission time between networks is long or the traffic is severe, and the performance is not good, the base station 120 transmits the packet to the network # 1 (10) instead of transmitting the packet to the intranet. The packet is transmitted to a terminal located near the terminal of the terminal 30.

The base station 120 broadcasts a message indicating the network status to the intranet 30, and the terminal (for example, the stop terminal # 1 130) receiving the message notifies the base station 120 of its own address. The base station 120 may transmit a packet to the stop terminal # 1 130. The station terminal # 1 130 may transmit a packet to the bus terminal # 1 140 passing through the periphery where the station terminal # 1 130 is installed, and the bus terminal # 1 140 may move with the transmitted packet. The bus terminal # 1 140 may check the network state of the surroundings during the movement and transmit the packet to a base station (not shown) in an area where the network state is smooth, so that the packet may be transmitted to the original destination.

Alternatively, the bus terminal # 1 140 may transmit the packet to the general vehicle terminal 150 or the bus terminal # 2 170 when the neighboring network is not smooth even after a predetermined time has elapsed after the packet reception or when driving over a certain driving distance. Can be transmitted.

When the general vehicle terminal 150 receives the packet, the packet may be transmitted to the front bus terminal (for example, the bus terminal # 2 170) according to the surrounding network state, and the bus terminal # 2 170 May transmit the packet to a base station (not shown) in an area where the network condition is smooth, so that the packet is transmitted to its original destination. When the bus terminal # 2 170 receives the packet, the bus terminal # 2 170 may transmit the packet to a base station (not shown) in an area where the network condition is smooth, so that the packet may be transmitted to the original destination.

Such a packet transmission path is just an example, and the packet may transmit the packet to a base station located in a smooth network state through terminals in the intranet 30 according to a surrounding network situation. That is, according to one embodiment, the packet is moved by using a vehicle that moves a lot of traffic generated by using intranet service in an unstable area of the wireless network, and when the vehicle moves to a safe wireless network area, the packet is Can be forwarded to the wireless network of the original packet destination. Therefore, when the network is difficult to temporarily use due to overload of the network, the packet is stored in the surrounding transportation means (cars, buses, trains, etc.). Can be transmitted to provide a continuous network environment.

2 is a diagram illustrating a packet transmission method according to an embodiment of the present invention.

1 and 2, when the user terminal 110 starts to use the network service, the user terminal 110 generates a packet and transmits the packet to the base station 120 (210). In the description of FIG. 2, the base station 120 is referred to as a first base station to distinguish it from other base stations.

The first base station 120 establishes a packet forwarding path (212) and checks the network state on the packet forwarding path (214).

When the network condition is smooth, the first base station 120 may deliver the packet to the destination through the network. However, when the first base station 120 is expected to delay packet transmission due to heavy traffic or poor performance between networks, that is, when the network condition is not smooth, the first base station 120 continues to transmit the packet to the destination network. Instead of attempting, the packet is sent from the intranet 30 to a moving intranet terminal.

The first base station 120 finds a routing vehicle, such as a bus, at 218. When the first base station 120 finds a routed vehicle (218), it transmits a packet to a terminal (eg, bus terminal # 1 140) of the vehicle (220).

The route designation vehicle transmits the packet to the terminal of the general vehicle (eg, the general vehicle terminal 150) (222). The terminal of the general vehicle detects a network state while moving with a packet (224). A terminal of a general vehicle may receive information about a wireless network environment from an intranet terminal of a routed vehicle or an intranet terminal installed in a stop communicating with a base station of a neighboring wireless network.

When the general vehicle passes through an area where the network condition is smooth (224), the general vehicle terminal transmits a packet to an intranet terminal of the routed vehicle of an area where the network condition is smooth or an intranet terminal installed in a stop (226). Then, the intranet terminal installed in the intranet terminal or the stop of the routed vehicle receiving the packet delivers the packet to the second base station located in the network, and the second base station delivers the packet to the destination through the network (228).

On the other hand, even when the time when the general vehicle moves with the packet elapses for a predetermined time or more, if the network state does not reach a smooth region, the terminal of the general vehicle may transmit the packet to the terminal of the forward routing vehicle (234). ). When the terminal of the routed vehicle that has received the packet arrives in an area where the network condition is smooth while moving (236), the terminal may transmit the packet to a third base station located in the corresponding network (238). The third base station transmits the packet to the destination via the network (240).

If the terminal of the routed vehicle that has received the packet does not arrive at an area where the network state is smooth even after a certain time elapses during the movement (236), the packet may be transmitted to the terminal of another general vehicle again (222).

On the other hand, when the first base station 120 finds an intranet terminal installed at a stop position such as a stop instead of the route designation vehicle (218), the first base station 120 transmits a packet to the corresponding intranet terminal (230). The intranet terminal installed at the stop position may transmit a packet to a general vehicle terminal passing through the periphery (232), the general vehicle terminal transmits the packet to a terminal located in a smooth network according to the network state (226), or another route The packet may be transmitted to the terminal of the designated vehicle (234).

As described above, when the network condition is not smooth, the packet is delivered to the base station of the area where the network is smooth through the intranet terminal of the routed vehicle in the intranet 30, the intranet terminal of the stop position, or the intranet terminal of the general vehicle. The packet can reach the destination.

3 is a flowchart illustrating the operation of a base station according to an embodiment of the present invention.

The base station 120 receives a packet from the user terminal 110 (310).

The base station 120 checks the transmission path of the packet and analyzes 320 the state of the network to which the packet is delivered.

As a result of the analysis, if the network condition is smooth (330), the base station 120 may deliver the packet to the destination of the packet through the network (340).

If the network condition is not smooth (330), the base station 120 broadcasts (350) a network status message via the intranet 30 indicating that the network condition is not smooth.

The intranet terminal receiving the network status message transmits packet forwarding address information indicating its address for receiving the packet, and thus, the base station 120 receives the packet forwarding address information (360). When the packet forwarding address information is received from the plurality of intranet terminals, the base station 120 may analyze the packet forwarding address information and transmit the packet to the intranet terminal having the packet forwarding address information of the nearest location from the base station 120. The base station 120 forwards the packet with the packet forwarding address information (370).

4 is a flowchart illustrating the operation of an intranet terminal according to an embodiment of the present invention.

The intranet terminal installed in the routing vehicle or at the stop of the routing vehicle receives a network status message from the base station 120 indicating that the wireless network status is not smooth (410). The network status message may include base station identification information of the base station 120, address information of the base station, and information indicating network status.

The intranet terminal transmits packet forwarding address information indicating its address to the base station 120 to receive the packet (420). The packet forwarding address information may include spatial location information such as GPS information of the intranet terminal. Alternatively, the intranet terminal may transmit the spatial location information to the base station 120 together with the packet forwarding address information on the network.

When the packet is received from the base station 120 (430), the intranet terminal transmits the vehicle packet to the surrounding general vehicle (440). The intranet terminal frees the storage space in which the transmitted packet is stored and operates in a waiting state for receiving a new packet.

Packets delivered to the general vehicle may be moved to another routing vehicle or the general vehicle until it meets a smooth network. In addition, the intranet terminal may check the destination of the received packet, and when the destination of the received packet is around, the intranet terminal may directly forward the packet to the network device corresponding to the destination.

In addition, the intranet terminal may receive the information indicating the wireless network state from the base station of the surrounding wireless network during the movement to continue to detect the surrounding wireless network state. The intranet terminal may transmit information indicating the state of the surrounding wireless network to a general vehicle terminal that does not directly communicate with the base station through an inter-vehicle communication method.

5 is a flowchart illustrating an operation of a general vehicle terminal according to an embodiment of the present invention.

The general vehicle terminal receives a packet from an intranet terminal of the routed vehicle, an intranet terminal installed at a stop position, or another general vehicle terminal (510). The intranet terminal that delivers the packet is called a first intranet terminal.

The general vehicle terminal may detect a state of a neighboring wireless network (520). The general vehicle may receive surrounding network state information from an intranet terminal of a route designation vehicle located in a vicinity or an intranet terminal installed at a stop position, and detect the surrounding wireless network state using the received information.

If the neighboring wireless network is smooth (530), the packet can be forwarded to the second intranet terminal installed in the surrounding routed vehicle or the stop position (540). The second intranet terminal receiving the packet may deliver the packet to a base station located in a smooth network, and the base station may deliver the received packet to a destination.

Meanwhile, when the neighboring wireless network state is not smooth (530), the general vehicle terminal may continue moving with the packet until the neighboring wireless network state reaches the smooth region (550). Alternatively, if a general vehicle terminal does not reach a smooth area for a certain period of time while the general vehicle terminal moves with a packet, it is installed at a terminal of another general vehicle, another intranet terminal of a surrounding routing vehicle, or a stationary position around the vehicle. The packet can be forwarded back to another intranet terminal.

6 is a block diagram illustrating an example of a configuration of a base station 120 transmitting the packet of FIG. 1.

The base station 120 may include a communication unit 610, a packet processing unit 620, and a storage unit 630.

The communication unit 610 receives a packet from the user terminal 110 and connects with a network to which the received packet is to be delivered. The communication unit 610 is connected to an intranet 30 that is different from the network, and is an intranet terminal (hereinafter referred to as a first intranet terminal) installed in a route designation vehicle periodically passing through a specific path in the intranet 30 and a route designation. Communication with an intranet terminal (hereinafter referred to as a second intranet terminal) provided at a position where the vehicle stops.

The communication unit 610 may include a plurality of communication interfaces 612, 614, and 616 to enable communication with a plurality of wireless networks. For example, the first communication interface 612 may be a wireless network interface to which the user terminal 110 connects. The second communication interface 612 may be a communication interface for connecting with terminals of the intranet 30. The third communication interface 613 may be a communication interface connecting to a network (for example, network # 10 of FIG. 1) connected to a destination of a packet transmitted by the user terminal 110.

The packet processor 620 may set a packet forwarding path using a routing table 632 indicating a forwarding path of the packet, analyze the traffic of the network of the set path, and analyze the network state. The packet processor 620 analyzes the network state to which the received packet is delivered, and if the network state is not smooth, the packet processor 620 controls the communication unit 610 to transmit the received packet to the first intranet terminal or the second intranet terminal.

The packet processor 620 converts the packet received from the user terminal 110 into a vehicle packet available for inter-vehicle communication, and transfers the converted vehicle packet to the first intranet terminal and the second intranet terminal through the communication unit 110. Can be.

If the first intranet terminal and the second intranet terminal are found, the packet processing unit 620 may transmit a packet to an intranet terminal located in a close position. Alternatively, if the first intranet terminal and the second intranet terminal are found, the packet processing unit 620 may transfer the packet to the first intranet terminal in preference to the second intranet terminal.

The packet processor 620 may broadcast a network status message indicating that the network status is not smooth through the intranet 30 to transmit the packet to the first intranet terminal or the second intranet terminal. The packet processor 620 may transmit a packet to the received packet forwarding address information as the packet forwarding address information is received from the first intranet terminal or the second intranet terminal receiving the network status message through the communication unit 610.

7 is a block diagram illustrating an example of a configuration of an intranet terminal according to an embodiment of the present invention.

The intranet terminal 700 may include a base station communication unit 710, a data processor 720, and a vehicle communication unit 730. The intranet terminal 700 may be installed in a designated route vehicle or installed at a stop position.

The base station communication unit 710 is configured to communicate with a base station (or base stations) located in the vicinity. The received packet is temporarily stored in the data processor 720.

The vehicle communication unit 730 communicates with terminals installed in surrounding vehicles using the intranet 30. The terminal communicating with the vehicle communication unit 730 may be an intranet terminal installed in a surrounding route designating vehicle, an intranet terminal installed at a stop position, or a general vehicle terminal installed in a general vehicle.

When the vehicle packet is received through the vehicle communication unit 730, the received vehicle packet is stored in the data processor 720. In addition, the packet received from the base station through the vehicle communication unit 730 may be transmitted to the terminal of the other vehicle.

The data processor 720 may store the packets received through the base station communication unit 710 and the packets received through the vehicle communication unit 730 in separate storage spaces. In addition, the data processor 720 may count the retention time of each packet.

The data processing unit 720 controls the base station communication unit 710 to transmit packet forwarding address information indicating the address of the terminal to the base station in response to the reception of the network status message indicating that the wireless network state broadcast from the base station is not smooth. can do. In addition, the data processor 720 may control the vehicle communication unit 730 to transmit a packet received from the base station to an intranet terminal installed in a nearby vehicle.

In addition, the data processor 720 may detect a state of a neighboring wireless network, and when the state of the wireless network is smooth, the data processor 720 may transmit a packet through the base station communication unit 710 to a first base station located in a smooth network. In addition, the data processor 720 may receive surrounding wireless network state information from the second base station around the moving intranet terminal, and transmit the surrounding wireless network state information to the terminal of the surrounding vehicle through the vehicle communication unit 730.

When the intranet terminal 700 is installed at a fixed location, the data processing unit 720 may transmit the packet to the second intranet terminal installed in the route designating vehicle or the third intranet terminal installed in the general vehicle through the vehicle communication unit 730. have. In addition, when the vehicle packet is received through the vehicle communication unit 730, the data processor 720 confirms the destination of the vehicle packet through analysis of the header portion of the vehicle packet, and when the destination is near, the base station communication unit ( The vehicle packet may be transmitted to the base station around the destination via 710.

8 is a block diagram illustrating an example of a configuration of a general vehicle terminal 150 of FIG. 1.

The general vehicle terminal 150 may include a processor 810 and a vehicle communication unit 820.

The vehicle communication unit 820 receives a packet from an intranet terminal of a routed vehicle or an intranet terminal installed at a stop position.

The processor 810 controls the operation of the general vehicle terminal 150. The processor 810 may detect an ambient wireless network state. The processor 810 may receive surrounding network state information from an intranet terminal of a routed vehicle located at a periphery or an intranet terminal installed at a stop position, and detect the surrounding wireless network state using the received information.

When the neighboring wireless network is in a smooth state, the processor 810 may transmit a packet through the vehicle communication unit 820 to an intranet terminal of a nearby routed vehicle or an intranet terminal installed at a stop position. The forwarded packet can be delivered to the destination of the packet through a base station located in a smooth network. If the neighbor wireless network condition is not smooth, the processor 810 may retain packets until the neighbor wireless network condition reaches a smooth region. Alternatively, when the retention time of the received packet elapses for a predetermined time or more, the processor 810 may transmit the packet to a terminal of another vehicle.

One aspect of the present invention may be embodied as computer readable code on a computer readable recording medium. The code and code segments implementing the above program can be easily deduced by a computer programmer in the field. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, and the like. The computer-readable recording medium may also be distributed over a networked computer system and stored and executed in computer readable code in a distributed manner.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be construed to include various embodiments within the scope of the claims.

Claims (16)

A base station for delivering packets of a user terminal,
A first intranet terminal and a routing vehicle, which are installed in a routing vehicle that receives a packet from a user terminal, connects to a network to which the received packet is to be delivered, connects to an intranet different from the network, and periodically passes a specific route. A communication unit for communicating with a second intranet terminal installed at a location; And
A packet processor configured to analyze a network state to which a received packet is delivered, and control the communication unit to transmit the received packet to a first intranet terminal or a second intranet terminal if the network state is not smooth; And a base station. The method of claim 1,
The packet processing unit, the base station, characterized in that for transmitting a packet to an intranet terminal that is located near the first intranet terminal and the second intranet terminal. The method of claim 1,
The packet processor is configured to set a packet forwarding path using a routing table indicating a forwarding path of the packet, analyze the traffic of the network of the set path, and analyze the network state. The method of claim 1,
The packet processing unit broadcasts a network status message indicating that the network status is not smooth through the intranet, receives packet forwarding address information from a first intranet terminal or a second intranet terminal that receives the network status message. And transmitting the packet with the received packet forwarding address information. The method of claim 1,
The packet processor converts the packet received from the user terminal into a vehicle packet for inter-vehicle communication, and transmits the converted vehicle packet to the first intranet terminal or the second intranet terminal through the communication unit. An intranet terminal installed in an intranet supporting communication between vehicles,
A base station communication unit for communicating with at least one base station connected with a network in a packet forwarding path;
A vehicle communication unit communicating with an intranet terminal installed in a nearby vehicle; And
Upon receiving a network status message indicating that the wireless network status broadcast from the base station is not smooth, the base station communication unit is controlled to transmit packet forwarding address information indicating the address of the terminal to the base station, and the packet received from the base station And a data processor for controlling the vehicle communication unit to transmit to the intranet terminal installed in the vehicle. The method according to claim 6,
The data processor detects a state of a wireless network in the vicinity, and when the state of the wireless network is smooth, the intranet terminal, characterized in that for transmitting a packet to the first base station located in the network in a smooth state. The method according to claim 6,
And the data processing unit receives surrounding wireless network state information from a second base station around a moving intranet terminal and transmits surrounding wireless network state information to a terminal of a surrounding vehicle through the vehicle communication unit. The method according to claim 6,
When the intranet terminal is installed in a fixed position, the data processing unit transmits the packet to the second intranet terminal installed in the routed vehicle or the third intranet terminal installed in the general vehicle through the vehicle communication unit. Terminal. The method according to claim 6,
The data processing unit, when the vehicle packet is received through the vehicle communication unit, confirms the destination of the vehicle packet, and when the destination is in the vicinity, transmits the vehicle packet to the base station around the destination via the base station communication unit. Intranet terminal, characterized in that. A method for transmitting a packet transmitted from a user terminal,
The first base station receiving a packet from a user terminal;
Analyzing, by a first base station, the network state to which the packet is to be delivered;
If the network condition is not smooth, the first base station is configured to transmit the packet to a first intranet terminal installed in a first routed vehicle that is installed in a different intranet from the network and periodically passes a specific path. ;
Transmitting, by the first intranet terminal, the packet to a general vehicle terminal installed in a surrounding general vehicle through inter-vehicle communication;
Transmitting, by the general vehicle terminal, the packet to a second intranet terminal in a region where a wireless network state of the surroundings is smooth;
The second intranet terminal transmitting the packet to a second base station located in the peripheral wireless network; And
And transmitting, by the second base station, the packet to a destination through a wireless network. 12. The method of claim 11,
And if the network condition is smooth, the first base station delivers the packet to the network in a smooth state. 12. The method of claim 11,
Transmitting the packet to a third intranet terminal installed in a second routed vehicle when the general vehicle terminal does not reach a region where a wireless network state of a surrounding is smooth for a predetermined time;
Detecting, by the third intranet terminal, a wireless network state in the vicinity; And
And transmitting, by the third intranet terminal, a packet to a third base station installed in the peripheral wireless network, when the surrounding wireless network condition is smooth. 12. The method of claim 11,
The step of transmitting the packet to the first intranet terminal,
Broadcasting, via the intranet, a network status message indicating that the network condition is not smooth; And
Receiving the packet forwarding address information from the first intranet terminal receiving the network status message, and transmitting the packet with the received packet forwarding address information. 12. The method of claim 11,
If the first base station does not find the first intranet terminal, transmitting the packet to another intranet terminal installed in the intranet and installed at a location where the first routed vehicle stops; And
And transmitting, by the other intranet terminal, the packet to a general vehicle terminal installed in a surrounding general vehicle through inter-vehicle communication. 12. The method of claim 11,
When the first base station transmits the packet to the first intranet terminal, the packet transmission method comprising converting the packet received from the user terminal into a vehicle packet for inter-vehicle communication, and transmits the converted vehicle packet to the first intranet terminal .

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