JP4161159B2 - Display terminal and reception quality level display method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display terminal for a wireless LAN (Local Area Network) system and a method for displaying a reception quality level of the display terminal .
[0002]
[Prior art]
In a limited area such as a house or a room, it is considered that a wireless LAN system is constructed between a plurality of devices to transmit and receive data. IEEE (The Institute of Electrical and Electronics Engineers) , Inc.) 802.11 standard defines 2.4 GHz band and 5 GHz band as radio frequency bands that can be used in such a wireless LAN system.
[0003]
In this case, wireless communication between a base device to which a telephone line is connected, a tuner is incorporated, or an external device such as a receiver or a DVD (Digital Video Disc, Digital Versatile Disc) player is connected to the base device. By transmitting a command to the base device, receiving image data and audio data from the base device, displaying an image on a display, and outputting a sound from a speaker or earphone, a wireless LAN system can be By constructing, users can access the Internet, watch TV broadcasts and BS / CS digital broadcasts, play DVDs, etc. with their display terminals, regardless of where they are in the house or room. It can be carried out.
[0004]
Conventionally, when communication is performed by a wireless communication device, the electric field strength at the reception location is measured and displayed in advance, and the user confirms that the electric field strength is equal to or higher than a predetermined strength by looking at the display. Like to do.
[0005]
[Problems to be solved by the invention]
However, since the frequency band of the wireless LAN system described above is an ultra-high frequency that extends to microwaves in the ISM (Industrial Scientific Medical) band, such as the 2.4 GHz band or the 5 GHz band, the wireless LAN is used indoors as described above. When the system is constructed, it is susceptible to multipath interference due to various reflections of radio waves on the walls and pillars of the room, and even if the electric field strength is sufficient, depending on the location of the display terminal, multipath interference As a result, the reception quality level of the display terminal is lowered, and the image quality and sound quality may be lowered.
[0006]
Therefore, according to the present invention, in a display terminal for a wireless LAN system, the user can surely and easily know the situation in which the reception quality level is reduced due to an increase in multipath interference, and the reception quality level is reduced. Sometimes, data transmitted from other devices can be received in a state where the multipath interference is small and the reception quality level is high by moving the reception location.
[0007]
[Means for Solving the Problems]
The display terminal of the present invention is
A display terminal for a wireless LAN system that receives image data from another device by wireless communication with another device and displays an image on the display by the received image data,
Means for calculating a bit error rate per unit time of data received from another device;
The bit error rate of the calculation result is compared with a first threshold when the received data is a first type of data that requires a relatively high quality level as the reception quality level of the display terminal, When the received data is a second type of data that does not require as high a quality level as the first type of data as the reception quality level of the display terminal, a comparison operation is performed with a second threshold lower than the first threshold. Means to
According to the comparison calculation result, the reception quality level of the display terminal as a graph or numerical value on the display, and when the bit error rate of the calculation result is equal to the threshold value calculated by the comparison calculation means, the graph or the When the numerical error is a reference ratio or value and the bit error rate of the calculation result is larger than the threshold value calculated by the comparison operation means, the graph or the numerical value is determined from the reference ratio or value according to the difference between the two. When the bit error rate of the calculation result is smaller than the threshold value calculated and compared by the comparison operation means, the graph or the numerical value is made larger than the reference ratio or value according to the difference between them. Display control means for displaying each unit time;
Is provided.
[0008]
In this case, the display control means displays the reception quality level of the display terminal as a graph or a numerical value on the display according to the comparison calculation result only when the reception quality level display is controlled to be on. can do.
[0010]
The above arrangement, the display terminal of the present invention, the user, by receiving data transmitted from another device by hand display terminal, high quality level as the reception quality level, such as data of the digital broadcast Even when the required data is received, even when receiving data that does not require a high quality level such as digital broadcast data as the reception quality level, such as data on the Internet homepage, it is received due to increased multipath interference. It is possible to reliably and easily know the situation where the quality level is low, and when the reception quality level is low, by moving the reception location, etc., other devices with low multipath interference and high reception quality level. The data transmitted from can be received.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
[Example of Wireless LAN System ... FIGS. 1 to 3]
FIG. 1 shows an example of a wireless LAN system using the display terminal of the present invention. The wireless LAN system of this example includes a base device 10 and a display terminal 30.
[0012]
The base device 10 is connected to the telephone line 1, and is provided with an antenna 11 for wireless communication with the display terminal 30. The display terminal 30 can perform telephone communication by wireless communication with the base device 10. And is configured to be able to access the Internet.
[0013]
Further, the base device 10 is connected to an antenna 12 for receiving terrestrial television broadcasts, has a built-in tuner 13, and the display terminal 30 is connected to the base device 10 by wireless communication with the terrestrial television broadcast. It is configured to receive broadcast video and audio.
[0014]
Further, a BS / CS digital broadcast receiver (STB: Set Top Box) 50 is connected to the base device 10, and the receiver 50 has a parabolic antenna 51 for receiving BS / CS digital broadcast including a converter. Connected, the display terminal 30 is configured to receive program information such as video and audio of BS / CS digital broadcasting through wireless communication with the base device 10.
[0015]
A remote control transmitter 60 such as a remote control mouse is connected to the base device 10, and an infrared remote control signal sent therefrom is received by a remote control light receiving unit 52 provided in the receiver 50, thereby controlling the receiver 50. Configured to be. “Remote control” is an abbreviation for “remote control”.
[0016]
The display terminal 30 is provided with an antenna 31 for wireless communication with the base device 10, an LCD (Liquid Crystal Display) 32 for displaying images, a speaker 33 for sound output, and a microphone 34 for sound input. In addition, the display terminal 30 is provided with a key operation unit 35 including a power key, an Internet key, an e-mail key, a channel selection key, a volume adjustment key, and the like.
[0017]
Further, a touch panel 36 is provided on the screen of the LCD 32, and when the user touches a predetermined area of the touch panel 36, a control panel 37 is displayed on the LCD 32. By touching the switch unit, the base device 10 side can be controlled.
[0018]
In terms of functional blocks, the base device 10 is configured as shown in FIG. 2, and the display terminal 30 is configured as shown in FIG.
[0019]
As shown in FIG. 2, the base device 10 is provided with a key operation unit 16 and a display unit 17 constituting a user interface unit, and the key operation unit 16 is connected to the main control unit 21 via the interface unit 18. The display unit 17 is connected to the main control unit 21 via the display control unit 19. The remote control transmitter 60 is connected to the main control unit 21 via the interface unit 27.
[0020]
The terrestrial television broadcast signal selected by the tuner 13 is demodulated by the demodulator 14 and sent to the compression / decompression unit 24, and the BS / CS digital broadcast signal selected by the receiver 50 is input from the external input. The data is sent to the compression / decompression unit 24 via the interface unit 15.
[0021]
The telephone line 1 is connected to the compression / decompression unit 24 through the line interface unit 25 and further connected to the signal control unit 23 through the modem unit 26.
[0022]
In the compression / decompression unit 24, video data and audio data from the demodulation unit 14, the external input interface unit 15, or the line interface unit 25 are compressed by a predetermined compression method, for example, MPEG (Moving Picture Experts Group) method, and after compression The video data and audio data are sent to the signal control unit 23.
[0023]
In the compression / expansion unit 24, the compressed audio transmitted from the display terminal 30 and received by the wireless communication unit 22 to be transmitted from the wireless communication unit 22 to the compression / expansion unit 24 via the signal control unit 23. The data is decompressed and sent to the line interface unit 25.
[0024]
In the wireless communication unit 22, the data from the signal control unit 23 is modulated by a predetermined modulation method, for example, CCK (Complementary Code Keying) method or OFDM (Orthogonal Frequency Division Multiplexing) method, and further in 2.4 GHz band or 5 GHz band. It is converted into a high frequency signal and transmitted from the antenna 11 to the display terminal 30.
[0025]
In the wireless communication unit 22, the high frequency signal transmitted from the display terminal 30 and received by the antenna 11 is converted into an intermediate frequency signal, further demodulated, and the demodulated data is sent to the signal control unit 23. The
[0026]
The signal control unit 23 sends the video data and audio data compressed by the compression / decompression unit 24, the data received by the modem unit 26, and control data from the main control unit 21 to the wireless communication unit 22 while arbitrating. At the same time, the data transmitted from the display terminal 30 and received by the wireless communication unit 22, the data sent from the wireless communication unit 22 to the signal control unit 23 is converted into the main control unit 21, the modem unit 26, and the compression / decompression unit 24. Sort out and send.
[0027]
The main control unit 21 controls each unit of the base device 10, and is omitted in the figure, but functions as a CPU, a ROM in which programs to be executed by the CPU, fixed data, and the like are written, and a work area of the CPU. It is comprised by RAM etc.
[0028]
As shown in FIG. 3, in the display terminal 30, the key operation unit 35 is connected to the main control unit 41 via the interface unit 38. In addition, a coordinate detection unit 39 is provided for the touch panel 36, the coordinate touched on the touch panel 36 is detected by the coordinate detection unit 39, and the detected coordinate value is sent to the main control unit 41.
[0029]
When a predetermined area of the touch panel 36 is touched, the main control unit 41 controls the display control unit 45 to display the control panel 37 on the LCD 32, and the control panel 37 is displayed with the control panel 37 displayed. When the key switch unit is touched, control data corresponding to the touched key switch unit is generated, and when the key operation unit 35 is operated, control data corresponding to the operated key is generated to perform signal control. Send to unit 43.
[0030]
In the display terminal 30, the audio signal from the microphone 34 is amplified by the audio amplifier 48 and converted into digital audio data by the A / D converter 49. The audio data is compressed by the compression / decompression unit 44 by a predetermined compression method, and the compressed audio data is sent to the signal control unit 43.
[0031]
The signal control unit 43 sends the control data from the main control unit 41 and the audio data compressed by the compression / decompression unit 44 to the wireless communication unit 42 while arbitrating, and is transmitted from the base device 10 to perform wireless communication. The data received by the unit 42 is sent to the signal control unit 43 from the wireless communication unit 42, the control data and the data received by the modem unit 26 are sent to the main control unit 41 and compressed video data and audio. The data is distributed and sent to the compression / decompression unit 44.
[0032]
In the wireless communication unit 42, the data from the signal control unit 43 is modulated by a predetermined modulation method, further converted into a 2.4 GHz band or 5 GHz band high frequency signal, and transmitted from the antenna 31 to the base device 10.
[0033]
In the wireless communication unit 42, the high frequency signal transmitted from the base device 10 and received by the antenna 31 is converted into an intermediate frequency signal, further demodulated, and the demodulated data is sent to the signal control unit 43. The
[0034]
The compression / decompression unit 44 decompresses the compressed video data and audio data from the signal control unit 43. The expanded video data is displayed as an image on the LCD 32 by the display control unit 45. The expanded audio data is converted into an analog audio signal by the D / A converter 46, the audio signal is amplified by the audio amplifier 47, and the audio is output from the speaker 33.
[0035]
The main control unit 41 controls each unit of the display terminal 30 and is configured by a CPU, a ROM, a RAM, and the like as in the main control unit 21 of the base device 10 although omitted in the figure.
[0036]
When receiving the terrestrial television broadcast or the BS / CS digital broadcast in the wireless LAN system described above, the base device 10 compresses and decompresses the video data and audio data from the demodulation unit 14 or the external input interface unit 15. The data is compressed by the unit 24 and transmitted to the display terminal 30 by the wireless communication unit 22 via the signal control unit 23.
[0037]
In the display terminal 30, the compressed video data and audio data are received by the wireless communication unit 42, sent to the compression / decompression unit 44 via the signal control unit 43 and decompressed, and an image is displayed on the LCD 32. Sound is output from the speaker 33.
[0038]
When the user selects a channel using the key operation unit 35 or the control panel 37, a command is transmitted from the main control unit 41 of the display terminal 30 to the base device 10 by the wireless communication unit 42 via the signal control unit 43.
[0039]
In the base device 10, the command is received by the wireless communication unit 22 and sent to the main control unit 21 via the signal control unit 23, the tuner 13 is controlled by the main control unit 21, or the remote control transmitter 60. The receiver 50 is controlled to perform channel selection.
[0040]
When accessing the Internet, when a user requests connection to an ISP (Internet Service Provider) through the key operation unit 35 or the control panel 37, the wireless communication is performed from the main control unit 41 of the display terminal 30 via the signal control unit 43. The request is transmitted to the base device 10 by the communication unit 42.
[0041]
In the base device 10, the request is received by the wireless communication unit 22, sent to the main control unit 21 via the signal control unit 23, and the modem unit 26 and the line interface unit 25 are controlled by the main control unit 21. , The ISP is connected, for example, data sent from the ISP to the telephone line 1 in response to a request for browsing a certain homepage is sent to the signal control unit 23 via the line interface unit 25 and the modem unit 26 to perform wireless communication. The data is transmitted to the display terminal 30 by the unit 22.
[0042]
In the display terminal 30, the data is received by the wireless communication unit 42 and sent to the main control unit 41 via the signal control unit 43. In the main control unit 41, the data is processed to generate display data, and the display data is sent to the display control unit 45 to display the home page on the LCD 32.
[0043]
When a telephone call is made, a transmission voice signal from the microphone 34 of the display terminal 30 is converted into digital voice data by the A / D converter 49, compressed by the compression / decompression unit 44, and the compressed voice data is The signal is transmitted to the base device 10 by the wireless communication unit 42 via the signal control unit 43.
[0044]
In the base device 10, the compressed voice data is received by the wireless communication unit 22, sent to the compression / decompression unit 24 via the signal control unit 23, and decompressed. It is sent to the telephone line 1 via the unit 25.
[0045]
On the other hand, the received voice signal obtained on the telephone line 1 is sent to the compression / decompression unit 24 via the line interface unit 25 and compressed, and the compressed voice data is transmitted to the wireless communication unit 22 via the signal control unit 23. Is transmitted to the display terminal 30.
[0046]
In the display terminal 30, the compressed audio data is received by the wireless communication unit 42, sent to the compression / decompression unit 44 via the signal control unit 43 and decompressed, and the decompressed audio data is converted into a D / A converter. 46 is converted into an analog voice signal, and the received voice is output from the speaker 33.
[0047]
[Embodiments for Displaying Reception Quality Level ... FIGS. 4 to 7]
In the wireless LAN system as described above, an embodiment in which the reception quality level is displayed on the display terminal 30 will be described below.
[0048]
FIG. 4 shows an example of a configuration for displaying the reception quality level. In the display terminal 30, the compressed data received from the base device 10 is decompressed by the compression / decompression unit 44, and then the bit error is corrected. The decompressed data before the error correction is received by the reception quality monitoring unit. 71 is taken in.
[0049]
The reception quality level display data is received on the base device 10 side when the user intends to view the image or sound at a place suitable for reception of the display terminal 30 when viewing the image or sound. The data transmitted to the display terminal 30 is used. When the user wants to check in advance a place suitable for reception of the display terminal 30 such as in a house or in a room, the base device 10 holds the data. Certain data transmitted from the base device 10 to the display terminal 30 can be used by an operation at the key operation unit 16 of the base device 10 or a request at the key operation unit 35 or the control panel 37 of the display terminal 30. .
[0050]
In the reception quality monitoring unit 71, the bit error detection unit 72 detects the bit error of the data after the decompression from the compression / decompression unit 44, and the bit error rate calculation unit 73 further detects the upper dot in FIG. As shown, the bit error rate per unit time is calculated. The unit time is set to a few seconds of commas or about 1 second.
[0051]
Further, in the reception quality monitoring unit 71, the comparison calculation unit 74 compares the bit error rate of the calculation result of the bit error rate calculation unit 73 with the threshold value (reference value) read from the memory 75. As the threshold values, for example, two of a relatively high threshold value Lth1 and a relatively low threshold value Lth2 are stored in the memory 75 in advance, and either one of them is stored in the memory 75 according to the type of data received by the display terminal 30. And is compared with the bit error rate calculated by the bit error rate calculation unit 73.
[0052]
For example, when receiving a terrestrial television broadcast or a BS / CS digital broadcast, the data received by the display terminal 30 includes moving image data, and a high quality level is required as the reception quality level of the display terminal 30. Therefore, the threshold value Lth2 is read from the memory 75 and compared with the bit error rate, and when receiving data such as a homepage by accessing the Internet, terrestrial television broadcast or BS / CS digital broadcast is received. Since the high quality level is not required as the reception quality level of the display terminal 30 as much as the case, the threshold value Lth1 is read from the memory 75 and compared with the bit error rate.
[0053]
The bit error detection unit 72, the bit error rate calculation unit 73, and the comparison calculation unit 74 of the reception quality monitoring unit 71 can be configured by a CPU, a ROM, a RAM, and the like that constitute the main control unit 41. As the memory 75, a RAM constituting the main control unit 41 can be used.
[0054]
The output of the comparison calculation unit 74 is sent to the reception quality display control unit 76. The reception quality display control unit 76 generates the data to be displayed on the LCD 32 by using the output of the comparison calculation unit 74 and displays the reception quality level of the display terminal 30 on both the bar graph and the numerical value, for example, and sends it to the display control unit 45. To do. As a result, as shown in FIG. 6, the reception quality level is displayed on the LCD 32 by the bar graph G and the numerical value N.
[0055]
In this case, the calculation result of the comparison calculation unit 74 does not change in a binary manner depending on whether the bit error rate is greater than the threshold value Lth1 or Lth2, but when the bit error rate is equal to the threshold value Lth1 or Lth2, the bar graph G Is a length of 50% of the reference, and the numerical value N is a value of “50” of the reference, and the bit error rate is larger than the threshold Lth1 or Lth2, the bar graph G is 50 according to the difference from the threshold Lth1 or Lth2. %, The numerical value N is smaller than “50”, and the bit error rate is smaller than the threshold value Lth1 or Lth2, the bar graph G is longer than 50% and the numerical value N according to the difference from the threshold value Lth1 or Lth2. Is greater than “50”.
[0056]
The calculation result of the comparison calculation unit 74 is held by the comparison calculation unit 74 or the reception quality display control unit 76 for the above unit time, and the value does not change intermittently at unit time intervals. As a result, the bar graph G and the numerical value N are not displayed intermittently at unit time intervals on the LCD 32, but the length (high) of the bar graph G per unit time. And the numerical value N can be changed continuously and continuously.
[0057]
The period T1 in FIG. 5 is a case where the threshold value Lth1 is read from the memory 75 and the reception quality level of the display terminal 30 is low and the bit error rate is greater than the threshold value Lth1 due to large multipath interference. By reducing the multipath interference by changing the reception location by the user, the reception quality level of the display terminal 30 is increased and the bit error rate is smaller than the threshold value Lth1, as shown as the period T2 in FIG. Become.
[0058]
In the period T3 in FIG. 5, when the threshold value Lth2 is read from the memory 75 and the multipath interference is relatively large, the reception quality level of the display terminal 30 is relatively low and the bit error rate is larger than the threshold value Lth2. Even in this case, the reception quality level of the display terminal 30 is sufficiently high as shown by the period T4 in the figure by making the multipath interference sufficiently small by changing the reception location by the user. Thus, the bit error rate becomes smaller than the threshold value Lth2.
[0059]
The monitoring of the reception quality level by the reception quality monitoring unit 71 and the display of the reception quality level on the LCD 32 by the reception quality display control unit 76 are performed by the user on the key operation unit 35 or the control panel 37 of the display terminal 30. When the monitoring / display is turned off, the multipath interference is reduced by the user changing the reception location as described above, and then the monitoring / display is turned off.
[0060]
As described above, according to this embodiment, the user can surely and easily know the situation where the reception quality level is reduced due to the increase of multipath interference, and when the reception quality level is reduced, the reception location The data transmitted from the base device 10 can be received in a state where the multipath interference is small and the reception quality level is high.
[0061]
In the example described above, the reception quality level is displayed by a bar graph G and a numerical value N, but may be displayed by either a bar graph or a numerical value. Or you may make it display with graphs, such as a pie chart, instead of a bar graph.
[0062]
Alternatively, as shown in FIG. 7, the reception quality level may be displayed as drawing information by changing the expression of the character C representing the human face.
[0063]
Further, the reception quality level is displayed by a bar graph G or a numerical value N as shown in FIG. 6, or the reception quality level is displayed by drawing information such as a character C as shown in FIG. 3 is used to output a sound whose pitch or intermittent sound interval changes according to the reception quality level, for example, using the system of the D / A converter 46, the sound amplifier 47 and the speaker 33 shown in FIG. Also good.
[0064]
[Other Embodiments]
An external device such as a DVD player or a digital VTR (Video Tape Recorder) may be connected to the base device 10 so that future video data and audio data are transmitted from the base device 10 to the display terminal 30.
[0065]
The wireless LAN system can also be constructed by one base device and a plurality of display terminals, by a plurality of base devices and one display terminal, or by a plurality of base devices and a plurality of display terminals.
[0066]
【The invention's effect】
As described above, according to the present invention, the user, by receiving data transmitted from another device by hand display terminal, high quality level required for the reception quality level, such as data of the digital broadcast Even when receiving data that is received, data quality that is not required to be as high as digital broadcast data, such as Internet homepage data, the reception quality is also increased due to increased multipath interference. The situation where the level is low can be known reliably and easily, and when the reception quality level is low, by moving the reception location, etc., from other devices with low multipath interference and high reception quality level. The transmitted data can be received.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of a wireless LAN system using a display terminal of the present invention.
FIG. 2 is a diagram illustrating an example of a functional block configuration of a base device.
FIG. 3 is a diagram illustrating an example of a functional block configuration of a display terminal.
FIG. 4 is a diagram illustrating an example of a configuration for displaying a reception quality level of a display terminal.
FIG. 5 is a diagram illustrating an example of a relationship between a change in bit error rate and a change in a bar graph for displaying a reception quality level.
FIG. 6 is a diagram illustrating an example in which a reception quality level is displayed by a bar graph and a numerical value.
FIG. 7 is a diagram illustrating an example of displaying a reception quality level by drawing information.
[Explanation of symbols]
Since all the main parts are described in the figure, they are omitted here.

Claims (4)

A display terminal for a wireless LAN system that receives image data from another device by wireless communication with another device and displays an image on the display by the received image data,
Means for calculating a bit error rate per unit time of data received from another device;
The bit error rate of the calculation result is compared with a first threshold when the received data is a first type of data that requires a relatively high quality level as the reception quality level of the display terminal, When the received data is a second type of data that does not require as high a quality level as the first type of data as the reception quality level of the display terminal, a comparison operation is performed with a second threshold lower than the first threshold. Means to
According to the comparison calculation result, the reception quality level of the display terminal as a graph or numerical value on the display, and when the bit error rate of the calculation result is equal to the threshold value calculated by the comparison calculation means, the graph or the When the numerical error is a reference ratio or value and the bit error rate of the calculation result is larger than the threshold value calculated by the comparison operation means, the graph or the numerical value is determined from the reference ratio or value according to the difference between the two. When the bit error rate of the calculation result is smaller than the threshold value calculated and compared by the comparison operation means, the graph or the numerical value is made larger than the reference ratio or value according to the difference between them. Display control means for displaying each unit time;
A display terminal comprising: The display terminal according to claim 1,
The display terminal that displays the reception quality level of the display terminal as a graph or a numerical value on the display according to the comparison calculation result only when the display control means is controlled to be in a reception quality level display ON state. A display terminal for a wireless LAN system that receives image data from another device by wireless communication with another device and displays an image on the display using the received image data. The reception quality level is indicated on the display. Display method,
A step of calculating a bit error rate per unit time of data received from another device;
The bit error rate of the calculation result is compared with a first threshold when the received data is a first type of data that requires a relatively high quality level as the reception quality level of the display terminal, When the received data is a second type of data that does not require as high a quality level as the first type of data as the reception quality level of the display terminal, a comparison operation is performed with a second threshold lower than the first threshold. And a process of
According to the comparison calculation result, the reception quality level of the display terminal is displayed on the display as a graph or a numerical value. When the bit error rate of the calculation result is equal to the threshold value calculated in the comparison calculation step, the graph or the When the numerical error is a reference ratio or value and the bit error rate of the calculation result is larger than the threshold value calculated in the comparison operation step, the graph or the numerical value is determined from the reference ratio or value according to the difference between the two. When the bit error rate of the calculation result is smaller than the threshold value calculated in the comparison operation step, the graph or the numerical value is made larger than the reference ratio or value according to the difference between the two. A display control process to display every unit time;
A reception quality level display method comprising: The reception quality level display method according to claim 3,
A reception quality level display method for displaying the reception quality level of the display terminal as a graph or a numerical value on the display according to the comparison calculation result only when the display terminal is controlled to be in a reception quality level display ON state.

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