KR101065773B1 - Handoff device of subway cctv image and method thereof - Google Patents

Abstract

The present invention can perform an automatic handoff for performing a seamless communication between the communication device installed in the subway running section and the vehicle in-vehicle device, the automatic that can continuously see the situation continuously in each history automatically in the subway car It is an object of the present invention to provide an apparatus and method for image switching. To this end, a handoff performing unit for communicating with a plurality of communication devices installed in a subway operation section and a handoff between the communication devices according to the operation of a subway vehicle, and an IP (Internet Protocol) address and history of the communication device. Control unit for controlling to display the image of the CCTV corresponding to the IP address of the storage device and the hand-off communication device is matched with the IP address of the CCTV (Closed-Circuit Television) within the display and a display unit for displaying the image of the CCTV Provided is a subway CCTV video handoff apparatus and a control method thereof.

Description

  Handoff device of subway CCTV image handoff device and method thereof

The present invention relates to an automatic handoff device and a method of CCTV video installed in the subway station.

The subway wireless environment is characterized by shielding radio waves at the rear while the train moves, which is different from the radio wave environment in general mobile communication. Therefore, in the case of using the handoff method in general mobile communication in the subway environment, communication is interrupted during handoff.

An object of the present invention is to provide an apparatus and a method capable of performing an automatic handoff for performing a seamless communication between a communication device installed in a subway operation section and a vehicle in-vehicle device in order to solve the conventional problems. .

It is still another object of the present invention to provide an automatic image switching device and a method for continuously viewing a situation continuously in each station automatically in a subway car.

Other objects of the present invention will be readily understood through the following description of the embodiments.

According to an aspect of the present invention, the handoff performing unit for performing a handoff between the communication device according to the operation of the transceiver and communication with the plurality of communication devices installed in the subway running section and the subway vehicle IP of the communication device ( Control unit for controlling to display the image of the CCTV corresponding to the IP address of the storage unit and the hand-off communication device matching the IP address of the CCTV (Closed-Circuit Television) in the history and the image of the CCTV Provided is a subway CCTV video handoff device comprising a display unit for displaying.

Here, the handoff execution unit measures the signal strength of the communication device and the IP of the communication device at a predetermined time and performs handoff between the communication devices by referring to the order of the signal strength of the communication device and the IP of the communication device. It may be characterized in that the loss.

The handoff performing unit may further include an IP determination unit determining an IP address of the communication device stored in a header of data received from the communication device.

The handoff performing unit may further include a signal strength measuring unit measuring the signal strength of the communication device.

Here, the control unit determines the IP address of the CCTV corresponding to the IP address of the handoff communication device by changing the destination IP address of the communication data to the IP address of the CCTV corresponding to the IP address of the handoff communication device It may be characterized in that the control to display the image of the CCTV corresponding to the IP address of the handoff communication device.

The video signal may further include a network video recorder (NVR) capable of playing and storing a digital video.

The communication device may be an access point (AP) that enables wireless communication.

In addition, measuring the signal strength of the communication device installed in the subway section every certain time as the subway vehicle moves, scanning the IP address of the communication device and using the signal strength of the communication device and the IP address of the communication device There is provided a subway CCTV video handoff method comprising the step of performing a handoff between the communication device and displaying an image of the CCTV corresponding to the handoff communication device.

Here, the handoff between the communication device using the signal strength of the communication device and the IP address of the communication device may be performed before the signal strength of the communication device to which the link is connected reaches the highest signal level. Prepare for handoff and handoff to the next communication device at the moment when the signal strength of the communication device to which the link is connected decreases from the strongest signal level or before the signal strength of the communication device to which the link is connected reaches the strongest signal level. It may be characterized by performing.

Here, the handoff may be performed when the IP of the next communication device is the next sequence IP of the communication device which is currently linked.

The displaying of the CCTV image corresponding to the handoff communication device may include: searching an IP of a CCTV corresponding to the IP address of the handoff communication device with reference to a DB and communicating the IP of the CCTV; And setting a destination IP of data and displaying an image by communicating with the CCTV.

Here, the DB may be characterized in that the IP of the communication device and the IP of the CCTV are matched with each other and stored.

The communication device may be an access point (AP) that enables wireless communication.

In addition, the communication device communicates with the plurality of communication devices and the plurality of communication devices installed in the subway section, and determines each IP address of the communication device, and the current link is connected by using the signal strength of the communication device and the IP of the communication device. The CCTV video handoff system in a subway environment, comprising: a vehicle-mounted device which connects a link with the next communication device to be handoff from the communication device and displays the image of the CCTV corresponding to the IP address of the handoffed communication device. Is provided.

Here, the on-vehicle device may be characterized in that it comprises a network video recorder (NVR).

The communication device may be an access point (AP) that enables wireless communication.

According to the present invention, there is an effect that can continuously view the image of each history without interruption even without manual operation of the engineer in the subway car.

1 is a view showing a system configuration of the present invention in one embodiment of the present invention.
2 is a view for explaining a method for establishing a link between a communication apparatus and an onboard apparatus according to an embodiment of the present invention.
3 is a diagram showing the configuration of a subway CCTV video handoff device as an embodiment of the present invention.
4 is a diagram illustrating table information stored in a storage unit according to an embodiment of the present invention.
5 is a flowchart showing a subway CCTV video handoff method as an embodiment of the present invention.
6 is a flowchart illustrating a method of displaying an image of a CCTV as an embodiment of the present invention.
7 is a view showing a video switching process of CCTV as an embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

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

1 is a view showing a system configuration of the present invention in one embodiment of the present invention.

The present invention comprises a plurality of communication devices (10,20,30,40,50,60,70) installed in a subway section and subway CCTV video handoff device (1000) installed in a subway car. Since the subway CCTV video handoff device 1000 of the present invention is located in a subway vehicle, it will be described as a vehicle device for convenience of description.

Here, the communication device means a communication device that enables wireless communication. For example, it may be an access point (AP), and each of the plurality of communication devices 10, 20, 30, 40, 50, 60, and 70 has a unique IP address (XXX1, XXX2, XXX3, XXX4, XXX5, XXX6, XXX7).

The on-vehicle device 1000 is installed in a subway car to perform wireless communication with the communication devices 10, 20, 30, 40, 50, 60, 70, and perform handoff with a communication device that is in close proximity as the subway car moves. do. In addition, it is possible to receive the images of the CCTV (100, 200, 300) installed in each station (A, B, C) from the communication device connected to the link hand off.

Referring to Figure 1 briefly described features of the present invention.

When the subway vehicle is close to the first communication device 10, the on-vehicle device 1000 communicates with the first communication device 10, the link is established and receives and displays the image of the CCTV located in the station A. When the subway vehicle moves and approaches the second communication device 20, the on-vehicle device 1000 communicates with the second communication device 20 to establish a link and receive and display an image of a CCTV located in the A station. When the subway vehicle continues to move and approaches the third communication device 30, the on-vehicle device 1000 communicates with the third communication device 30 to establish a link and automatically change the image of the CCTV located at the station B. Receive and display video. When the subway vehicle continues to move and approaches the fourth communication device 40, the on-vehicle device 1000 communicates with the fourth communication device 40 to receive and display an image of a CCTV that is established in a link and is located at station B. . When the subway vehicle continues to move and approaches the fifth communication device 50, the on-vehicle device 1000 communicates with the fifth communication device 50 to establish a link and receive and display an image of a CCTV located at station B. . When the subway vehicle continues to move to approach the sixth communication device 60, the on-vehicle device 1000 communicates with the sixth communication device 60 to establish a link and automatically switch the image to make the CCTV located at station C. Receive and display video.

The handoff method between the on-vehicle device (ie, subway CCTV video handoff device) and the communication device and the automatic switching method of the image will be described in detail later.

2 is a view for explaining a method for establishing a link between a communication apparatus and an onboard apparatus according to an embodiment of the present invention.

Position a in FIG. 2 is the position of the first AP and b means the position of the second AP.

The wireless environment in the subway tunnel receives a very severe multipath signal due to the tunnel's internal structure and rails. In addition, the radio wave environment in the tunnel is characterized in that the radio wave is shielded behind the vehicle as the subway vehicle moves. Therefore, as the vehicle moves and approaches the a position, the signal strength of the first AP received by the on-vehicle device in the vehicle continues to increase as shown in the figure, and then rapidly decreases as the vehicle passes the a position. Due to the sudden attenuation of the received signal, since there is not enough time to handoff the radio link to the second AP, there is a high probability of data packet loss due to the link disconnection and the handoff fails. Therefore, handoff with the next AP must be made before the connection with the AP to which the current link is connected is disconnected.

As shown in FIG. 2, when the signal strength of the first AP before the vehicle reaches the position a reaches the T_ADD value, the present invention prepares to establish a link with the next AP, and the signal strength of the first AP is set to the T_DROP value. If it reaches, it performs a link connection with the next AP. Here, the T_DROP value may be set to a value at which the signal strength of the first AP reaches a maximum value and may be set to a value before the maximum value.

However, in the subway tunnel as described above, a very severe multipath signal is generated due to the influence of the tunnel's internal structure and rails, so when the link connection with the AP is performed only with signal strength, the link connection with the AP is performed. If the signal strength of the third AP is greater than the signal strength of the second AP after the strength of the first AP signal, there is a possibility that the link connection of the sequential AP is not made. Therefore, there is a need for a handoff method other than a handoff method in a general communication environment in which a handoff is performed only with signal strength.

Therefore, in the present invention, the handoff may be performed by further referring to the signal strength of the AP and the IP of the AP.

For example, when handoff is performed from the AP to which the current link is set up to the next AP, the AP having the next order IP of the IP of the AP currently set to the link by referring to the IP of the AP together with the signal strength Only hand off. The reason for applying the above method is for sequential handoff of APs as described above. That is, when the handoff is performed using only the signal strength, as described above, in the special situation of the subway tunnel, the handoff with the non-neighboring AP may be performed instead of the handoff with the next neighboring AP.

3 is a diagram showing the configuration of a subway CCTV video handoff device as an embodiment of the present invention.

The on-vehicle device 1000 of the present invention includes a transceiver 1100, a handoff performer 1200, a controller 1300, a storage unit 1400, and a display unit 1500.

The transceiver 1100 performs wireless communication with a plurality of communication devices installed in the subway section. To this end, the transceiver 1100 may perform wireless communication using Wibro, IEEE 802.11G, IEEE 802.11N, IEEE 802.11S, or any other communication method capable of wireless communication at high speed. have.

The handoff performing unit 1200 allows handoff between communication devices installed in the subway operation section. That is, as the subway vehicle moves, the link of the communication device to which the current link is established is disconnected and the link connection to the next communication device is made. To this end, the handoff performing unit 1200 scans the signal strength of the communication devices installed in the subway operation section and the IP of the communication devices every predetermined time. In addition, the communication device to be handed off is determined by referring to the measured signal strengths of the communication devices and the order of IPs of the communication devices, and a link connection with the determined communication device is performed. The handoff performer 1200 may further include an IP determiner 1210 that determines IPs of communication devices, and may further include a signal strength measurer 1220 for measuring signal strengths of the communication devices. .

The IP determination unit 1210 scans the IPs of the communication devices every predetermined time to determine the IP of the communication equipment. The method of scanning IP of communication devices is as follows. The IP determination unit 1210 determines the IP of the communication device by analyzing the header of the received data by communicating with the communication device every predetermined time. To this end, the IP determination unit 1210 may be configured to include a semiconductor designed using a field programmable gate array (FPGA) or a programmable logic device (PLD).

The signal strength measuring unit 1220 determines the strength of the signal received from the communication device.

The controller 1300 controls to display an image of a CCTV by referring to a table value stored in the storage 1400. The controller 1300 finds the CCTV stored in correspondence with the IP of the communication device in which the current link is established by referring to the storage unit 1400 with the IP of the communication device in which the link is established. After that, it finds the IP of the corresponding CCTV and controls to receive and display the image from the CCTV having the corresponding IP.

This will be described in more detail as follows.

The controller 1300 is handoff from the handoff performer 1200 and receives IP information of a communication device to which a current link is connected. Thereafter, referring to the storage unit 1400, the CCTV that matches the IP of the communication device to which the current link is stored is searched for CCTV. After searching the CCTV, the destination IP of the data communicating with the communication device is changed to the IP of the CCTV using the IP information of the CCTV. To this end, the controller 1300 may include a microprocessor or a semiconductor designed using an FPGA and a PLD.

After that, the on-vehicle device 1000 of the present invention can receive and display the image of the history of the CCTV.

The storage unit 1400 matches IP of communication apparatuses and information of CCTVs corresponding to each history and stores them in a table. To this end, the storage unit 1400 includes a storage device such as a memory or a hard disk. Table information stored in the storage unit 1400 will be described in detail with reference to FIG. 4.

The display unit 1500 displays an image of a CCTV received through a communication device. To this end, the display unit 1500 includes a display device such as an LCD (Liquid Crystal Display).

The on-vehicle apparatus 1000 of the present invention may be configured to include a network video recorder (NVR) capable of reproducing and storing a digital video image signal.

4 is a diagram illustrating table information stored in a storage unit according to an embodiment of the present invention.

As shown in the figure, the table information stored in the storage unit 1400 is information of the order of the communication device, the IP of the communication device, the historical CCTV IP and the station to which the image should be displayed.

As shown in the figure, the IP of the first communication device is x.x.x.1 and the CCTV IP of the corresponding station is 1.1.1.1. The CCTV is located at Songpa Station.

The third communication device's IP is xxx3 and the corresponding station's CCTV IP is 1.1.1.2. And the CCTV is located in Garak Market Station, and it can be seen that the image is transferred from Songpa Station to Garak Market Station at the moment when the handoff is made from the second communication device to the third communication device.

5 is a flowchart showing a subway CCTV video handoff method as an embodiment of the present invention.

Step S100 is a step of measuring the signal strength of the communication device installed in the subway section every predetermined time and scanning the IP address of the communication device.

The onboard device 1000 measures the signal strength of the communication device every predetermined time (for example, 1 second) and scans the communication device's IP address in order to perform handoff.

In step S200, a link connection with the next communication device is made using the signal strength of the communication device and the IP address of the communication device (that is, a handoff is performed between the communication devices). Using the signal strength of the communication device measured in step S100 and the IP address of the scanned communication device as described in Figure 2 performs a link connection with the next communication device (that is, the next AP).

Step S300 is a step of displaying the image of the CCTV corresponding to the handoff communication device. A more detailed description of the step S300 will be described later with reference to FIG. 6.

6 is a flowchart illustrating a method of displaying an image of a CCTV as an embodiment of the present invention.

Step S310 is a step of searching for the IP of the CCTV corresponding to the IP address of the communication device handoff with reference to the DB.

If the handoff to the next communication device in step S200 will determine whether it is necessary to transfer the video of the CCTV. If it is necessary to change the video, it must be transferred to the CCTV video. If there is no need to switch the video, the existing video is displayed as it is.

Step S310 is a step of determining whether the CCTV image transfer is necessary and preparing for it. That is, in step S310 finds the IP of the CCTV corresponding to the IP of the communication device is currently established link with reference to the storage unit DB. Then, information on whether image switching in the communication device is required is obtained. Referring to FIG. 4, when the communication device which is set to the handoff and the current link is the sixth communication device having the IP address of X.X.X.6, it can be seen that image transfer from Garak market station to Munjeong station is required. Therefore, in step S310 search the DB with the IP of the communication device is currently set the link to search the IP address of the CCTV of the history.

In step S320, the IP address of the CCTV searched in step S310 is set as a destination IP of communication data. In order to receive video data from CCTV to display video, set destination IP as CCTV IP to display video. In this case, the communication data from the on-vehicle device 1000 is transmitted to the CCTV which is the destination via the communication device for which the current link is set, and the corresponding CCTV analyzes the communication data and transmits the image data to the source IP. Here, the source IP is the IP of the subway CCTV video handoff device 1000.

Step S330 is a step in which the on-vehicle device 1000 receives the image data from the CCTV and displays the received image data.

7 is a view showing a video switching process of CCTV as an embodiment of the present invention.

The image transfer process of FIG. 7 will be described with reference to FIG. 4.

Position 1 is the position where the handoff is made from the first communication device to the second communication device.

Using the table information stored in the DB of FIG. 4, only the handoff occurs from the first communication device to the second communication device and the image of the Songpa station is displayed as it is.

The second position is a handoff from the second communication device to the third communication device, and the image is transferred from Songpa station to Garak market station.

In position 3, only the handoff occurs from the third communication device to the fourth communication device, and the image of the Garak Market Station is displayed as it is.

In position 4, handoff is performed from the fourth communication device to the fifth communication device, and the video is displayed as it is from Garak Market Station.

The 5th position is the handoff from the fifth communication device to the sixth communication device, and the image is transferred from Garak market station to Munjeong station.

In position 6, handoff is made from the sixth communication device to the seventh communication device, and the image of the Munjeong Station is displayed as it is.

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 as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

10,20,30,40,50,60,70: Communication device
100,200,300: CCTV
1000: Subway CCTV video handoff device
1100: input unit
1200: handoff performer
1210: IP determination unit
1220: signal strength measuring unit
1300: control unit
1400: storage unit
1500: display unit

Claims (16)

Transmitting and receiving unit for communicating with a plurality of communication devices installed in the subway section;
A handoff performing unit for making a handoff between the communication devices according to the operation of the subway vehicle;
A storage unit in which an IP address of the communication device matches an IP address of a closed-circuit television (CCTV) in history;
A control unit for controlling to display an image of the CCTV corresponding to the IP address of the handoff communication device; And
Subway CCTV video handoff device comprising a display unit for displaying the image of the CCTV.
The method of claim 1,
The handoff execution unit measures the signal strength of the communication device and the IP of the communication device every predetermined time and performs handoff between the communication devices by referring to the order of the signal strength of the communication device and the IP of the communication device. Subway CCTV video handoff device, characterized in that.
The method of claim 2,
The handoff execution unit further comprises an IP determination unit for determining the IP address of the communication device stored in the header of the data received from the communication device subway CCTV video handoff device.
The method of claim 2,
The handoff performing unit further comprises a signal strength measuring unit for measuring the signal strength of the communication device subway CCTV video handoff device.
The method of claim 1,
The controller determines the IP address of the CCTV corresponding to the IP address of the handoff communication device and changes the destination IP address of the communication data into the IP address of the CCTV corresponding to the IP address of the handoff communication device. Subway CCTV video handoff device, characterized in that for controlling to display the image of the CCTV corresponding to the IP address of the communication device off.
The method of claim 1,
Subway CCTV video handoff device further comprises a network video recorder (NVR) that can play and store the video signal digital video.
The method of claim 1,
The communication device is a subway CCTV video handoff device, characterized in that the AP (Access Point) to enable wireless communication.
Measuring the signal strength of a communication device installed in the subway section every predetermined time as the subway vehicle moves and scanning the IP address of the communication device;
Making a handoff between the communication devices by using the signal strength of the communication device and the IP address of the communication device; And
Subway video image handoff method comprising the step of displaying the image of the CCTV corresponding to the handoff communication device.
The method of claim 8,
The handoff between the communication device by using the signal strength of the communication device and the IP address of the communication device may be performed before the signal strength of the communication device to which the link is connected reaches the highest signal level. Preparing for the subway CCTV video handoff method characterized in that to perform the handoff to the next communication device at the moment when the signal strength is reduced from the strongest signal level or before the signal strength reaches the strongest signal level. .
10. The method of claim 9,
And a handoff is performed when the IP of the next communication device is the next IP of the communication device which is currently linked.
The method of claim 8,
Displaying the image of the CCTV corresponding to the handoff communication device,
Searching the IP of the CCTV corresponding to the IP address of the handoff communication device by referring to a DB;
Setting an IP of the CCTV as a destination IP of communication data; And
Subway CCTV image handoff method comprising the step of displaying the image in communication with the CCTV.
The method of claim 11,
The DB is a CCTV video handoff method characterized in that the IP of the communication device and the CCTV IP is matched and stored.
The method of claim 8,
The communication device is a subway CCTV video handoff method, characterized in that the AP (Access Point) to enable wireless communication.
A plurality of communication devices installed in a subway service section; And
Link with the next communication device to communicate with the plurality of communication devices, determine each IP address of the communication device, and hand off from the communication device to which the current link is connected using the signal strength of the communication device and the IP of the communication device. CCTV system handoff system in a subway environment, characterized in that it comprises a vehicle apparatus for connecting and displaying the image of the CCTV corresponding to the IP address of the communication device handoff.
The method of claim 14,
The on-vehicle device CCTV video handoff system in the subway environment, characterized in that it comprises a network video recorder (NVR).
The method of claim 14,
The communication device is a CCTV image handoff system in a subway environment, characterized in that the AP (Access Point) to enable wireless communication.

Images