KR102316180B1 - Appatus and method of improving communication performance using ultra wideband communication - Google Patents

Abstract

In the apparatus for improving communication performance using ultra-wideband communication according to an embodiment of the present invention, when a toggle button provided in a vehicle is pressed, a UWB communication module of a predetermined group according to the position of the pressed toggle button among a plurality of UWB communication modules An activation module for waking up the two poll messages, and a wake-up UWB communication module that sequentially receives two poll messages from the fob key and selects one of the connected dual antennas based on the signal strength of the two poll messages sequentially received. may include

Description

Device and method for improving communication performance using ultra-wideband communication

The present application relates to an apparatus and method for improving communication performance using ultra-wideband communication.

The remote control system of a vehicle refers to a system that allows the driver to open and close the vehicle door and start the vehicle from the outside without the driver inserting a separate key into the vehicle's key box or special operation for operation. A remote control device such as a phone or a Fob key for wireless communication is used.

When a driver with a remote control device approaches the vehicle, the vehicle door is automatically unlocked through low frequency communication and radio frequency communication with the remote control device, and the door is unlocked even without inserting a separate key. can be opened and the vehicle can be started without the process of inserting the ignition key after boarding the vehicle.

However, in the case of a technology using a remote control device, it is exposed to a relay station attack (RSA) in which a vehicle signal is relayed to the FOB key through a repeater to hack the vehicle.

In order to prevent such a relay attack, it is necessary to measure the distance between the vehicle and the FOB key, and for this purpose, it is necessary to improve the wireless communication performance between the communication terminal and the FOB key.

Korea Patent Publication No. 2018-0028204 (“Relay attack prevention device and relay attack prevention method using ultra-wideband communication”, publication date: March 16, 2018)

The present invention provides an apparatus and method for improving communication performance using ultra-wideband communication capable of improving wireless communication performance of a vehicle.

According to an embodiment of the present invention, when a toggle button provided in the vehicle is pressed, a group predetermined according to the position of the toggle button pressed among a plurality of UWB communication modules, each of the UWB communication modules having a dual antenna an activation module for waking up the UWB communication modules; and wake-up UWB communication modules that sequentially receive two poll messages from the fob key and select one of the connected dual antennas based on the signal strength of the two sequentially received poll messages. Provided is an apparatus for improving communication performance using communication.

According to an embodiment of the present invention, in the activation module, when a toggle button provided in the vehicle is pressed, a plurality of UWB communication modules - each of the UWB communication modules having a dual antenna - is located at the position of the pressed toggle button A first step of waking up the UWB communication modules of a predetermined group according to the; and a second step of sequentially receiving two poll messages from the FOB key in each of the wake-up UWB communication modules, and selecting one of the connected dual antennas based on signal strengths of the two sequentially received poll messages; It provides a method for improving communication performance using ultra-wideband communication, including.

According to an embodiment of the present invention, a predetermined group of UWB communication modules are woken up according to the position of the pressed toggle button, and one of the connected dual antennas is selected based on the signal strength of two poll messages received in sequence. By doing so, it is possible to improve the wireless communication performance of the vehicle.

1 is a block diagram of an apparatus for improving communication performance using ultra-wideband communication according to an embodiment of the present invention.
2 is a diagram illustrating a dual antenna connected to each of a plurality of UWB communication modules and a beam pattern corresponding thereto according to an embodiment of the present invention.
3 is a diagram illustrating two UWB communication modules disposed in a vehicle according to an embodiment of the present invention.
4 is a flowchart illustrating a process of selecting one of dual antennas using two poll messages in two UWB communication modules according to the embodiment of FIG. 3 .
5 is a diagram illustrating four UWB communication modules disposed in a vehicle according to an embodiment of the present invention.
6 is a flowchart illustrating a process of selecting one of dual antennas using two poll messages in four UWB communication modules according to the embodiment of FIG. 3 .
7 is a flowchart illustrating a communication performance improvement method using ultra-wideband communication according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited only to the embodiments described below. The shapes and sizes of elements in the drawings may be exaggerated for clearer description, and elements indicated by the same reference numerals in the drawings are the same elements.

1 is a block diagram of an apparatus for improving communication performance using ultra-wideband communication according to an embodiment of the present invention.

First, as shown in FIG. 1 , the apparatus 100 for improving communication performance using ultra-wideband communication according to an embodiment of the present invention includes a toggle button 10 , an activation module 110 , a memory 111 , a plurality of It may be configured to include the UWB communication modules 121 to 124 and the fob key 130 of the.

Specifically, the toggle button 10 may include any one of a driver's door button, a passenger's door button, a trunk button, and a start button of the vehicle.

When the toggle button 10 provided in the vehicle is pressed, the activation module 110 wakes up a predetermined group of UWB communication modules according to the position of the pressed toggle button among the plurality of UWB communication modules with reference to the memory 111 . can do it

For example, when the number of UWB communication modules mounted on a vehicle is 2, a group including both UWB communication modules wakes up, or when the number of UWB communication modules mounted on a vehicle is 4, among the 4 UWB communication modules, in advance A group including the determined two UWB communication modules may be woken up.

The memory 111 may store a predetermined group of UWB communication modules according to the position of the toggle button in the form of Tables 1 and 2 below. In addition, an antenna for receiving the first poll message among two antennas ('dual antennas') connected to each of the UWB communication modules may be further stored in the memory 111 .

Table 1 below shows the UWB communication terminal determined according to the position of the toggle button and the antenna for receiving the first poll message when the two UWB communication terminals 121 and 122 are mounted in the vehicle. In Table 1, a group including both UWB communication terminals may be woken up according to the position of the toggle button.

For example, if the toggle button is a passenger door button, both the first UWB communication terminal 121 and the second UWB communication terminal 122 are activated, and accordingly, the first poll message is the first of the first UWB communication terminal 121 . It may be first received through the antenna ANT1 and the first antenna ANT1 of the second UWB communication terminal 122 .

[Table 1]

In addition, Table 2 below shows the UWB communication terminal determined according to the position of the toggle button and the antenna for receiving the first poll message when the four UWB communication terminals 121 to 124 are mounted in the vehicle.

For example, if the toggle button is a driver's door button, the group including the first UWB communication terminal 121 and the fourth UWB communication terminal 124 is activated, and accordingly, the first poll message is transmitted to the first UWB communication terminal 121 It may be first received through the second antenna ANT2 of the , and the first antenna ANT1 of the fourth UWB communication terminal 124 .

[Table 2]

The above-described UWB communication modules 121 to 124 sequentially receive two poll messages from the fob key 130 and connect two antennas ('dual antennas) based on signal strengths of the two poll messages sequentially received. ') (ANT1, ANT2) can be selected.

2 is a diagram illustrating a dual antenna connected to each of a plurality of UWB communication modules and a beam pattern corresponding thereto according to an embodiment of the present invention. Although FIG. 2 shows the beam patterns of the first UWB communication module 121 and the dual antennas ANT1 and ANT2 connected thereto for simplicity of the invention, the remaining UWB communication modules 122 to 124 are the same. It should be noted.

As shown in FIG. 2 , the dual antennas ANT1 and ANT2 of the first UWB communication module 121 are formed by the beam pattern 211 formed by the first antenna ANT1 and the second antenna ANT2 . The beam patterns 212 to be formed may be disposed to be formed at an angle of 90 degrees to each other.

That is, the beam pattern of the antenna has a pattern having good radiation characteristics in a horizontal direction rather than a vertical direction, and by using the beam pattern of the antenna, an antenna having good characteristics among two antennas can be selected to improve communication performance.

Referring back to FIG. 1 , each of the UWB communication modules measures the signal strength of the first poll message received through the first antenna among the dual antennas, and measures the signal strength of the second poll message received through the second antenna among the dual antennas. The signal strength is measured, and the measured signal strength of the first poll message and the measured signal strength of the second poll message are compared to communicate with the fob key 130 the antenna having the largest signal strength among the first and second antennas. It can be selected as an antenna for

Thereafter, each of the wake-up UWB communication modules may transmit/receive a message to/from the FOB key 130 through the selected antenna.

Specifically, each of the wake-up UWB communication modules transmits a response message to the FOB key through the selected antenna, and the FOB key 130 sends a final message through the selected antenna to the wake-up UWB communication can be sent to each of the modules.

Hereinafter, a process of selecting one of the dual antennas using two poll messages will be exemplarily described with reference to FIGS. 3 to 6 .

First, FIG. 3 is a diagram illustrating two UWB communication modules disposed in a vehicle according to an embodiment of the present invention, and FIG. 4 uses two poll messages in the two UWB communication modules according to the embodiment of FIG. 3 . Thus, it is a flowchart for explaining the process of selecting one of the dual antennas.

As shown in FIG. 3 , two UWB communication modules 121 and 122 are mounted on the vehicle, and the first UWB communication module 121 of the two UWB communication modules 121 and 122 is mounted on the front center of the vehicle. It has dual antennas ANT1 and ANT2 that form a beam pattern toward the driver's door and the passenger's door, and the second UWB communication module 122 among the two UWB communication modules 121 and 122 is located in the center of the rear of the vehicle from the driver's seat. It is assumed that dual antennas ANT1 and ANT2 are provided with beam patterns formed toward the door and the passenger door.

Here, the front center of the vehicle on which the first UWB communication module 121 is mounted is, for example, a panel portion under the front windshield in the room, and the rear center of the vehicle on which the second UWB communication module 122 is mounted is, for example, For example, it may be a part of the panel under the rear glass window in the room. The specific positions described above are provided to help the understanding of the present invention, and may be mounted at an appropriate portion of the vehicle according to the beam pattern to be formed.

In addition, the undescribed reference numeral 11 may be a driver's door button of the vehicle, and reference numeral 12 may be a front passenger's door button.

As shown in FIG. 4 , as a toggle button 10 (eg, a driver's seat button) provided in the vehicle is pressed, the activation module 11 refers to Table 1, and the two UWB communication modules 121 and 122 ), and each of the two UWB communication modules 121 and 122 may receive a first poll message transmitted from the fob key 130 through the second antenna ANT2 ( 401 ).

Thereafter, each of the two UWB communication modules 121 and 122 may receive a second poll message transmitted from the fob key 130 through the first antenna ANT1 ( 402 ).

Thereafter, the first UWB communication module 121 among the two UWB communication modules 121 and 122 determines the signal strength of the first poll message received through the second antenna ANT2 and the first poll message received through the first antenna ANT1. The signal strengths of the first and second antennas ANT1 and ANT2 are determined by measuring the signal strengths of the two poll messages, respectively, and comparing the measured signal strengths of the first poll messages with the measured signal strengths of the second poll messages. A large antenna may be selected as an antenna for communication with the fob key 130 . Next, the first UWB communication module 121 may transmit a response message to the FOB key 130 through the selected antenna ( 403 ).

Similarly, the second UWB communication module 122 of the two UWB communication modules 121 and 122 receives the signal strength of the first poll message received through the second antenna ANT2 and the signal strength of the first poll message received through the first antenna ANT1. The signal strengths of the first and second antennas ANT1 and ANT2 are measured by measuring the signal strength of the second poll message, respectively, and comparing the measured signal strength of the first poll message with the measured signal strength of the second poll message. A large antenna may be selected as an antenna for communication with the fob key 130 . Next, the second UWB communication module 122 may transmit a response message to the FOB key 130 through the selected antenna ( 404 ).

Thereafter, the FOB key 130 may transmit a final message to each of the wake-up UWB communication modules 121 and 122 through the selected antenna ( 405 ).

Meanwhile, FIG. 5 is a diagram illustrating four UWB communication modules disposed in a vehicle according to an embodiment of the present invention, and FIG. 6 is a diagram illustrating two poll messages in the four UWB communication modules according to the embodiment of FIG. 3 . Thus, it is a flowchart for explaining the process of selecting one of the dual antennas.

As shown in FIG. 5 , the vehicle is equipped with four UWB communication modules 121 , 122 , 123 and 124 , and a first UWB communication module 121 among the four UWB communication modules 121 , 122 , 123 and 124 . ) has dual antennas (ANT1, ANT2) that are mounted on the front left side of the vehicle to form a beam pattern toward the driver's door and the passenger's door, and the second UWB among the four UWB communication modules (121, 122, 123, 124). The communication module 122 is mounted on the front right side of the vehicle to mount dual antennas (ANT1, ANT2) that form a beam pattern toward the driver's door and the passenger's door, and four UWB communication modules (121, 122, 123, 124) The third UWB communication module 123 is mounted on the rear right side of the vehicle and equipped with dual antennas (ANT1, ANT2) in which beam patterns are formed toward the driver's door and the passenger's door, and four UWB communication modules 121, 122, It is assumed that the fourth UWB communication module 124 among 123 and 124 is mounted on the left rear side of the vehicle and includes dual antennas ANT1 and ANT2 that form beam patterns toward the driver's door and the passenger's door.

Here, the front left side of the vehicle on which the first UWB communication module 121 is mounted is, for example, a body part of the left tire of the vehicle, and the front right side of the vehicle on which the second UWB communication module 122 is mounted is, for example, For example, it may be a body part of the right tire of the vehicle.

And, the rear right side of the vehicle on which the third UWB communication module 123 is mounted is, for example, a corner portion inside the trunk of the vehicle, and the rear left side of the vehicle on which the fourth UWB communication module 124 is mounted is, for example, For example, it may be a corner portion inside the trunk of a vehicle.

The specific positions described above are provided to help the understanding of the present invention, and may be mounted at an appropriate portion of the vehicle according to the beam pattern to be formed.

In addition, undescribed reference numeral 11 may be a driver's door button of the vehicle, reference numeral 12 may be a passenger door button, and reference numeral 13 may be a trunk button.

As shown in FIG. 5 , as a toggle button 10 (eg, a driver's seat button) provided in the vehicle is pressed, the activation module 11 refers to Table 2, and the two UWB communication modules 121 and 124 ) can be woken up, and each of the two UWB communication modules 121 and 124 transmits the first poll message from the fob key 130 through the second antenna ANT2 and the first antenna ANT1. may be received (601).

Thereafter, each of the two UWB communication modules 121 and 124 may receive a second poll message transmitted from the fob key 130 through the first antenna ANT1 and the second antenna ANT2 ( 602 ).

Thereafter, the first UWB communication module 121 of the two UWB communication modules 121 and 124 transmits the signal strength of the first poll message received through the second antenna ANT2 and the first poll message received through the first antenna ANT1. The signal strengths of the first and second antennas ANT1 and ANT2 are determined by measuring the signal strengths of the two poll messages, respectively, and comparing the measured signal strengths of the first poll messages with the measured signal strengths of the second poll messages. A large antenna may be selected as an antenna for communication with the fob key 130 . Next, the first UWB communication module 121 may transmit a response message to the FOB key 130 through the selected antenna ( 603 ).

Similarly, the second UWB communication module 124 of the two UWB communication modules 121 and 124 receives the signal strength of the first poll message received through the first antenna ANT1 and the signal strength of the first poll message received through the second antenna ANT2. The signal strengths of the first and second antennas ANT1 and ANT2 are measured by measuring the signal strength of the second poll message, respectively, and comparing the measured signal strength of the first poll message with the measured signal strength of the second poll message. A large antenna may be selected as an antenna for communication with the fob key 130 . Next, the second UWB communication module 124 may transmit a response message to the FOB key 130 through the selected antenna ( 604 ).

Thereafter, the FOB key 130 may transmit a final message to each of the wake-up UWB communication modules 121 and 124 through the selected antenna ( 605 ).

As described above, according to one embodiment of the present invention, a predetermined group of UWB communication modules are woken up according to the position of the pressed toggle button, and a dual antenna connected based on the signal strength of two poll messages sequentially received By selecting one of them, it is possible to improve the wireless communication performance of the vehicle.

Meanwhile, FIG. 7 is a flowchart illustrating a communication performance improvement method using ultra-wideband communication according to an embodiment of the present invention.

Hereinafter, a communication performance improvement method using ultra-wideband communication according to an embodiment of the present invention will be described with reference to FIG. 7 . However, for simplification of the present invention, the parts previously described in FIGS. 1 to 6 will be omitted.

First, in the method for improving communication performance using ultra-wideband communication according to an embodiment of the present invention, when the toggle button provided in the vehicle is pressed in the activation module 110, the position of the pressed toggle button among a plurality of UWB communication modules It may be initiated by waking up the UWB communication modules of a predetermined group according to (S701).

Next, in each of the wake-up UWB communication modules, two poll messages may be sequentially received from the FOB key, and one of the connected dual antennas may be selected based on the signal strength of the two poll messages sequentially received (S702) ).

The above-described step S702 includes measuring, in each of the wake-up UWB communication modules, the signal strength of the first poll message received through a first antenna or a second antenna among the dual antennas, and the wake-up UWB communication modules In each of the dual antennas, measuring a signal strength of a second poll message received through a second antenna or a first antenna, in each of the wake-up UWB communication modules, the measured signal strength and As described above, the method may include comparing the measured signal strengths of the second poll message and selecting an antenna having a higher signal strength among the first and second antennas as an antenna for communication with the FOB key.

Thereafter, each of the wake-up UWB communication modules may transmit/receive a FOB key and a message through the selected antenna.

For example, the step of transmitting and receiving a message to and from the FOB key includes, in each of the wake-up UWB communication modules, transmitting a response message to the FOB key through a selected antenna, and waking the final message through the selected antenna at the FOB key. As described above, it may include the step of transmitting to each of the upgraded UWB communication modules.

As described above, according to one embodiment of the present invention, a predetermined group of UWB communication modules are woken up according to the position of the pressed toggle button, and a dual antenna connected based on the signal strength of two poll messages sequentially received By selecting one of them, it is possible to improve the wireless communication performance of the vehicle.

The above-described communication performance improvement method using ultra-wideband communication according to an embodiment of the present invention may be produced as a program to be executed by a computer and stored in a computer-readable recording medium. Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, and the like. In addition, the computer-readable recording medium is distributed in a computer system connected through a network, so that the computer-readable code can be stored and executed in a distributed manner. And a functional program, code, and code segments for implementing the method can be easily inferred by programmers in the art to which the present invention pertains.

In addition, in describing the present invention, the above-mentioned "~ module" refers to various methods, for example, a processor, program instructions executed by the processor, a software module, a microcode, a computer program product, a logic circuit, an application-specific integrated circuit. , firmware, or the like.

The present invention is not limited by the above-described embodiments and the accompanying drawings. It is intended to limit the scope of rights by the appended claims, and it is to those skilled in the art that various forms of substitution, modification and change can be made without departing from the technical spirit of the present invention described in the claims. it will be self-evident

10: toggle button
11: Driver's door button
12: passenger door button
13: trunk button
110: activation module
111: memory
121-124: UWB communication module
130: fob key
211, 212: beam pattern

Claims (14)

When a toggle button provided in the vehicle is pressed, a plurality of UWB communication modules, each of which has a dual antenna arranged so that a beam pattern is formed at an angle of 90 degrees to each other, depends on the position of the pressed toggle button an activation module for waking up a predetermined group of UWB communication modules; and
and wake-up UWB communication modules that sequentially receive two poll messages from the fob key and select one of the connected dual antennas based on the signal strength of the two sequentially received poll messages;
Each of the wake-up UWB communication modules,
measuring the signal strength of a first poll message received through a first antenna or a second antenna among the dual antennas;
measuring a signal strength of a second poll message received through a first antenna or a second antenna that has not received the first poll message among the dual antennas;
and comparing the measured signal strength of the first poll message with the measured signal strength of the second poll message to select an antenna having a higher signal strength among the first antenna and the second antenna as an antenna for communication with the FOB key, Communication performance improvement device using ultra-wideband communication.
delete According to claim 1,
Each of the wake-up UWB communication modules transmits/receives a message to and from the FOB key through a selected antenna, an apparatus for improving communication performance using ultra-wideband communication.
4. The method of claim 3,
Each of the wake-up UWB communication modules transmits a response message to the FOB key through the selected antenna,
The fob key is an apparatus for improving communication performance using ultra-wideband communication, which transmits a final message to each of the wake-up UWB communication modules through a selected antenna.
According to claim 1,
The UWB communication modules are
A UWB communication module having a dual antenna in which a beam pattern is formed from the front center of the vehicle toward the driver's door and an auxiliary door, and a UWB having a dual antenna in which a beam pattern is formed from the rear center of the vehicle toward the driver's door and the passenger's door including a communication module; or
UWB communication module with dual antennas that form a beam pattern from the front left side of the vehicle toward the driver's door and passenger door, and UWB communication with dual antennas that form a beam pattern from the front right side of the vehicle toward the driver's door and passenger's door Module, a UWB communication module with a dual antenna that forms a beam pattern from the rear right side of the vehicle toward the driver's door and passenger door, and a dual antenna that forms a beam pattern from the rear left side of the vehicle toward the driver's door and passenger door An apparatus for improving communication performance using ultra-wideband communication, including a UWB communication module.
According to claim 1,
The toggle button provided in the vehicle,
A device for improving communication performance using ultra-wideband communication, including any one of a driver's door button, a front passenger's door button, a trunk button, and an ignition button.
delete In the activation module, when a toggle button provided in the vehicle is pressed, a plurality of UWB communication modules, each of which has a dual antenna arranged such that a beam pattern is formed at an angle of 90 degrees to each other, is pressed during the toggle button A first step of waking up the UWB communication modules of a predetermined group according to the location of the; and
A second step of sequentially receiving two poll messages from the FOB key in each of the wake-up UWB communication modules, and selecting one of the connected dual antennas based on the signal strength of the two sequentially received poll messages; includes,
The second step is
measuring, in each of the wake-up UWB communication modules, a signal strength of a first poll message received through a first antenna or a second antenna among the dual antennas;
measuring, in each of the wake-up UWB communication modules, a signal strength of a second poll message received through a first antenna or a second antenna that has not received the first poll message among the dual antennas; and
In each of the wake-up UWB communication modules, the measured signal strength of the first poll message and the measured signal strength of the second poll message are compared, and the antenna having the largest signal strength among the first and second antennas is determined with the FOB key. A method of improving communication performance using broadband communication, including; selecting an antenna for communication.
delete 9. The method of claim 8,
The communication performance improvement method,
transmitting and receiving a message with the FOB key through a selected antenna in each of the wake-up UWB communication modules;
Further comprising, communication performance improvement method using ultra-wideband communication.
11. The method of claim 10,
The step of sending and receiving a message with the FOB key includes:
transmitting, in each of the wake-up UWB communication modules, a response message to the fob key through a selected antenna; and
transmitting, in the FOB key, a final message to each of the wake-up UWB communication modules through the selected antenna;
Further comprising, communication performance improvement method using ultra-wideband communication.
9. The method of claim 8,
The UWB communication modules are
A UWB communication module having a dual antenna in which a beam pattern is formed from the front center of the vehicle toward the driver's door and an auxiliary door, and a UWB having a dual antenna in which a beam pattern is formed from the rear center of the vehicle toward the driver's door and the passenger's door including a communication module; or
UWB communication module with dual antennas that form a beam pattern from the front left side of the vehicle toward the driver's door and passenger door, and UWB communication with dual antennas that form a beam pattern from the front right side of the vehicle toward the driver's door and passenger's door Module, a UWB communication module with a dual antenna that forms a beam pattern from the rear right side of the vehicle toward the driver's door and passenger door, and a dual antenna that forms a beam pattern from the rear left side of the vehicle toward the driver's door and passenger door A method for improving communication performance using ultra-wideband communication, including a UWB communication module.
9. The method of claim 8,
The toggle button provided in the vehicle,
A method for improving communication performance using ultra-wideband communication, including any one of a driver's door button, a passenger's door button, a trunk button, and an ignition button.
delete

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