KR102381696B1 - Method and apparatus for avoiding HDMI connection failure - Google Patents

Abstract

A method and apparatus for avoiding HDMI connection failure are disclosed. A method for avoiding HDMI connection failure according to an embodiment may include the steps of: determining whether the display failure of a display apparatus has occurred based on the number of times a set-top box receives an HDCP reauthentication request from the display apparatus for a preset time; and resetting an HDMI port when it is determined that the display failure has occurred.

Description

Method and apparatus for avoiding HDMI connection failure

The present invention relates to a method and apparatus for HDMI connection failure avoidance.

HDMI (High Definition Multimedia Interface) is often used for connection between a display device and a device that outputs image information to the display device. HDMI is one of the uncompressed digital video/audio interface standards. HDMI is a computer-display interface standard standard, DVI, for AV electronics. EDID (Extended Display Identification Data) is used for device-to-device authentication, and CEC (Consumer Electronics Control) is used to connect the entire system to the control system.

Display failure management method of a system including a set-top box and a display device connected by an HDMI cable according to an embodiment, the set-top box is based on the number of times the HDCP re-authentication (reauthentication) request is received from the display device for a preset time determining whether a display failure of the display device has occurred; and resetting the HDMI port when it is determined that the display failure has occurred.

The display failure management method may further include transmitting, by the set-top box, a result of determining whether the display failure has occurred to the server.

The display failure management method may determine that the display failure has occurred when HDCP re-authentication requests are received a preset number of times during the preset time.

The resetting of the HDMI port may include: performing a Transition Minimized Differential Signaling (TMDS) reset; and transmitting a data stream from the set-top box to the display device.

The resetting of the HDMI port may include: turning off the HDMI transmitter (TX) and re-performing a Forced Hot plug by turning the HDMI transmitter on; and transmitting a data stream from the set-top box to the display device.

The step of resetting the HDMI port may include: determining whether TMDS reset is experienced; resetting the TMDS when there is no experience of resetting the TMDS; Turning off the HDMI transmitter and turning on the HDMI transmitter if there is experience in performing the TMDS reset to perform forced hot plug again; and transmitting a data stream from the set-top box to the display device.

A set-top box according to an embodiment includes: a communication unit for receiving an HDCP re-authentication request from a display device and transmitting a data stream to the display device; a determination unit configured to determine whether a display failure of the display apparatus has occurred based on the number of times the communication unit has received an HDCP reauthentication request from the display apparatus for a preset time; and a control unit controlling the HDMI port to be reset when the determination unit determines that the display failure has occurred.

The set-top box may further include a network unit communicating with the server, and the network unit may transmit a result of determining whether the display failure has occurred to the server.

The determination unit may determine that the display failure has occurred when HDCP re-authentication requests are received a preset number of times during the preset time.

When it is determined that the display failure has occurred, the controller may reset the TMDS and reset the HDMI port by transmitting a data stream to the display device.

When it is determined that the display failure has occurred, the controller may turn off the HDMI transmitter and turn on the HDMI transmitter to re-perform the forced hot plug.

When it is determined that the display failure has occurred, the controller determines whether or not the TMDS reset is experienced, resets the TMDS when there is no TMDS implementation experience, and turns off the HDMI transmitter when the TMDS reset experience is experienced. The HDMI transmitter may be turned on to perform forced hot plug again, and a data stream may be transmitted from the set-top box to the display device.

Display failure management system according to an embodiment, a set-top box communicating with the display device; and the set-top box and the display device connected via an HDMI cable, wherein the set-top box is based on the number of times it receives an HDCP reauthentication request from the display device for a preset time. A display failure of the display device occurs. It is determined whether or not the display has failed, and when it is determined that the display failure has occurred, the HDMI port may be reset.

The display failure management system may further include a server communicating with the set-top box, and the set-top box may transmit a determination result of whether the display failure has occurred to the server.

The set-top box may determine that the display failure has occurred when receiving HDCP re-authentication requests a preset number of times during the preset time.

The set-top box resets TMDS if there is no experience in implementing TMDS based on whether or not the implementation of TMDS reset is experienced, and turns off the HDMI transmitter and turns on the HDMI transmitter if there is experience in implementing TMDS reset. A forced hot plug may be performed again, and a data stream may be transmitted from the set-top box to the display device.

1 is a diagram illustrating a configuration of a display failure management system according to an embodiment.
2 is a diagram for explaining a normal connection according to the HDMI standard according to an embodiment.
3 is a diagram illustrating an abnormal operation of an HDMI connection and measures for the abnormal operation according to an exemplary embodiment.
4 is a flowchart for explaining a measure for an abnormal operation of an HDMI connection according to an embodiment.
5 is a diagram for explaining an example of a display failure management method according to an embodiment.
6 is a flowchart illustrating a display failure management method according to an embodiment.
7 is a diagram illustrating a configuration of a set-top box according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, since various changes may be made to the embodiments, the scope of the patent application is not limited or limited by these embodiments. It should be understood that all modifications, equivalents and substitutes for the embodiments are included in the scope of the rights.

The terms used in the examples are used for the purpose of description only, and should not be construed as limiting. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as "comprise" or "have" are intended to designate that a feature, number, step, operation, component, part, or a combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the embodiment belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

Recently, many new products made by new manufacturers, such as TVs with various new technologies and low-end TVs, are being released. In configuring the IPTV service set-top box, there is a limit to verifying the compatibility by performing the HDMI connection compatibility test for all various TV models, and new TVs induce an unexpected display black phenomenon. Here, the display black phenomenon refers to a phenomenon in which a black screen is intermittently output during video playback. According to the HDMI standard, if there is a connection problem, the problem is solved by updating the connection. Even if new TV products are released according to the HDMI standard and certification, various compatibility problems on the link, such as cable problems, may occur. existed. In particular, if no action is taken against the display black phenomenon, the blinking period may be shorter.

Through the method and apparatus for avoiding HDMI connection failure, logic to determine/predict the occurrence of screen black issues that occur frequently in the existing HDMI standard flow and logic to recover can be applied. The method and apparatus for HDMI connection failure avoidance suggest logic for judging and predicting display black phenomena in various cases in the HDMI standard flow of a set-top box. The set-top box can determine the display black phenomenon that could not be defined in the past and induce the display black phenomenon to be restored through HDMI port reset.

1 is a diagram illustrating a configuration of a display failure management system according to an embodiment.

Referring to FIG. 1 , the display failure management system 100 may include a set-top box 120 and a display device 130 . In one embodiment, the display failure management system 100 may further include a server 110 in communication with the set-top box (120).

The set-top box 120 may be connected to the server 110 through a network to transmit/receive content such as a broadcast program or video on demand (VOD).

The set-top box 120 and the display device 130 may be connected through an HDMI cable. The display device 130 may output the image received from the set-top box 120 to the display.

When the set-top box 120 and the display device 130 are connected through an HDMI cable and an image is transmitted from the set-top box 120 to the display device 130 , a black screen is intermittently output during image playback on the display device 130 . Display failure (display black phenomenon) may appear. As mentioned earlier, new TVs are being released by various companies recently, and there is a limit to conducting a compatibility test with a set-top box for all display devices. Due to this, even if a new display device is manufactured according to the HDMI standard, display failure may occur.

The set-top box 120 may solve the above problem by determining whether a display failure occurs based on a signal transmitted and received through HDMI and operating to minimize the failure. When it is determined that a display failure has occurred, the set-top box 120 may operate to reset the HDMI port to solve the display failure. In an embodiment, the set-top box 120 may transmit a result of the display failure determination to the server 110 . Details of the method of determining whether a display failure has occurred and the countermeasures will be described in detail below. The process of determining whether a display failure has occurred and taking action can be used as an index for judging the compatibility of a newly released product, and can be used as a logic to minimize failure even if there is a compatibility problem.

The set-top box 120 may include one or more processors and memory. The processor may process signals, data, information, etc. through components of the set-top box 120 or run an application program stored in a memory to perform a function of managing a connection between devices and a communication network. The memory may include a computer-readable storage medium or a computer-readable storage device, and the memory may store instructions executable by the processor, an application program, or various data necessary for the operation of the set-top box 120 .

In one embodiment, the set-top box 120 and the server 110 may communicate via a wired or wireless network. For example, communication may be performed using a wired communication method or a wireless communication method such as Bluetooth, Wi-Fi, 3G (generation), or LTE (Long Term Evolution).

According to an embodiment, the set-top box 120 may be a set-top box, a smart box, and various source devices such as a computer and a DVD player, and the display device 130 may be an output device such as a TV, a smart TV, or a monitor. However, the set-top box 120 and the display device 130 are not limited thereto.

2 is a diagram for explaining a normal connection according to the HDMI standard according to an embodiment.

Referring to FIG. 2 , the set-top box 220 and the display device 230 may be connected through an HDMI cable. In step 235 , the set-top box 220 may be turned on. In step 240 , the set-top box 220 may turn on the HDMI port, activate HDCP, and check a Hot Plug Detect (HPD) signal. The HPD function is one of the communication mechanisms between the source device and the connected device, and recognizes that the source device is connected or disconnected from the connected device.

A forced hot plug may be performed in step 245 . In step 245, the set-top box 220 turns off the transmitter (TX) of the HDMI port when the HDMI cable is unplugged from the port using the hot plug function of the HDMI standard (unplug event) -off), and in step 245 , when the HDMI cable is plugged into the port (plug event), the transmitter (TX) of the HDMI port may be turned on.

In step 250 , the set-top box 220 may parse the EDID between the display devices 230 , configure an output, and perform HDCP authentication. EDID is a standardized means for the display device 230 to transmit its information to the source device.

In step 255 , the set-top box 220 may unmute HDMI and transmit a data stream including image information to the display device 230 .

In step 260 , the display device 230 may transmit an HDCP reauthentication request to the set-top box 220 in some cases during image reproduction. In this case, in step 265 , the set-top box 220 may perform HDCP re-authentication and transmit the data stream to the display device 230 again.

3 is a diagram illustrating an abnormal operation of an HDMI connection and measures for the abnormal operation according to an exemplary embodiment. Referring to FIG. 3 , the content of signal transmission between the set-top box 320 and the display device 330 is illustrated.

In an embodiment, the HDCP re-authentication request and data stream transmission between the set-top box 320 and the display device 330 may be repeated.

During data stream transmission in step 335 , an HDCP re-authentication request may be transmitted from the display device 330 to the set-top box 320 in step 340 . In step 345 , HDCP re-authentication is successfully performed between the set-top box 320 and the display device 330 , and a data stream may be transmitted from the set-top box 320 to the display device 330 again.

The above process may be repeated again in steps 350 and 355 , and may be repeated again in steps 360 and 365 . In one embodiment, the HDCP reauthentication request and data stream transmission may occur over and over again.

When the process is repeated, a display failure (display black phenomenon) in which a black screen is intermittently output while an image is output on the display of the display device 330 may appear.

In an embodiment, the set-top box 320 may determine whether a display failure occurs based on a signal repeated between the set-top box 320 and the display device 330 as described above. In step 375 , the set-top box 320 may determine that a display failure has occurred based on the repeated HDCP re-authentication request and the data stream transmission signal. In an embodiment, the set-top box 320 may determine that a display failure has occurred when receiving the HDCP re-authentication request a preset number of times for a preset time.

When it is determined that a display failure has occurred, in step 380 , the set-top box 320 may perform a reset of the HDMI port as a measure to avoid the display failure. To reset the HDMI port, perform TMDS reset of the HDCP certification process or turn on the HDMI port's transmitter (TX) and turn-off the HDMI port's transmitter to force hot plug (Forced hot plug) may include the process of re-executing.

In an embodiment, when the set-top box 320 determines that a display failure has not occurred, it may continue to transmit a data stream after performing HDCP re-authentication successfully.

In step 385 , the set-top box 320 may transmit a data stream to the display device 330 again after performing an HDMI reset.

Determination of whether a display failure occurs and a measure for the display failure will be described in more detail with reference to FIG. 4 .

4 is a flowchart for explaining an action for an abnormal operation of an HDMI connection according to an embodiment.

According to an embodiment, whether the display is faulty may be determined based on whether an abnormal signal repetition of a predetermined number of times occurs between the set-top box 120 and the display device 130 for a predetermined time.

Referring to FIG. 4 , in step 405 , the set-top box 120 may receive an HDCP re-authentication request from the display device 130 .

In step 410 , the set-top box 120 determines whether a display failure of the display device 130 has occurred based on the number of times the HDCP reauthentication request is received from the display device 130 for a preset time. can

In an embodiment, the set-top box 120 may determine that a display failure has occurred when it receives a preset number of HDCP re-authentication requests for a preset time. In one embodiment, step 410 may correspond to step 375 .

In step 415, if the HDCP re-authentication request is not received for a preset number of times for a preset time, the set-top box 120 may determine that a display failure has not occurred, and the set-top box 120 continues to display A data stream may be transmitted to the device 130 . When the HDCP re-authentication request is received from the display device again as in step 405 during data stream transmission, the set-top box 120 may determine whether a display failure has occurred again in step 410 .

When the set-top box 120 determines that a display failure has occurred, in step 420 , the set-top box 120 may determine whether it has previously performed TMDS reset of the HDCP authentication process. If there is no experience of performing a TMDS reset before, the set-top box 120 may perform a TMDS reset in step 425 . If there is experience to perform a TMDS reset before, in step 430, the set-top box 120 turns off the HDMI transmitter (TX) and turns off the HDMI transmitter (turn-on) to force Forced Hot Plug can be re-executed. TMDS reset in the HPCP certification process can use functions on the HDMI standard.

In one embodiment, after step 410 , the set-top box 120 may transmit a result of determining whether a display failure has occurred to the server 110 connected to the set-top box 120 . The server 110 may receive and store a result of determining whether a display failure has occurred, and the result of determining whether a display failure has occurred may be utilized for service improvement thereafter.

In one embodiment, step 430 may be performed independently regardless of whether or not the user has experience in performing the TMDS reset of steps 420 and 425 . Also, step 425 may be independently performed regardless of whether step 430 is performed.

In one embodiment, steps 420 , 425 , 430 may correspond to step 380 . The set-top box 120 may transmit the data stream to the display device 130 again after going through the steps 420 , 425 , and 430 .

5 is a diagram for explaining an example of a display failure management method according to an embodiment.

Referring to FIG. 5 , the predetermined time may be 1 minute and the predetermined number of times may be 4 times. In steps 525 , 535 , and 545 , the display device 520 may transmit an HDCP re-authentication request signal to the set-top box 510 . In steps 530 , 540 , and 550 , the set-top box 510 may transmit a data stream to the display device 520 after HDCP re-authentication is successful.

In step 555, if the HDCP re-authentication signal transmission from the display device 520 is repeated a fourth time, in step 560, the set-top box 510 determines that a display failure has occurred and TMDS reset (reset) of the HDCP authentication process ) can be done. Step 560 may correspond to steps 410 , 420 and 425 . In an embodiment, the set-top box 510 may transmit a result of determining whether a display failure has occurred to a server communicating with the set-top box 510 . TMDS reset in the HPCP certification process can use functions on the HDMI standard.

In operation 565 , when the TMDS reset is completed, a data stream may be transmitted from the set-top box 510 to the display device 520 again.

In one embodiment, after step 565 , the HDCP re-authentication request signal is transmitted from the display device 520 to the set-top box 510 again, and after the HDCP re-authentication is successful, from the set-top box 510 to the display device 520 . If the process of transmitting the data stream is repeated, the set-top box 510 may perform forced hot plug again as in step 430 .

6 is a flowchart illustrating a display failure management method according to an embodiment.

Referring to FIG. 6 , in step 605 , the set-top box may receive an HDCP re-authentication request from the display device.

In operation 610, the set-top box may determine whether a display failure of the display apparatus has occurred based on the number of times it has received an HDCP reauthentication request from the display apparatus for a preset time. In an embodiment, the set-top box may determine that a display failure has occurred when receiving a preset number of HDCP re-authentication requests for a preset time. In one embodiment, step 610 may correspond to step 410 .

In step 615 , the set-top box determines that a display failure has not occurred, and may continue to transmit the data stream to the display device. When the HDCP re-authentication request is received again as in step 605 while transmitting the data stream to the display device, the set-top box may determine whether a display failure has occurred in step 610 . When it is determined that a display failure has occurred, the set-top box may reset the HDMI port in step 620 . When it is determined that a display failure has not occurred, the set-top box may transmit a data stream to the display device again in step 615 . In one embodiment, step 615 may correspond to step 415 .

In step 620, the set-top box may determine that a display failure has occurred, and reset the HDMI port. In one embodiment, step 620 may correspond to steps 420 , 425 and 430 .

According to an embodiment, the set-top box may transmit a result of determining whether the display of the display device is black to a server connected to the set-top box. The server may receive and store the display failure determination result, and the display failure determination result may be utilized for service improvement later.

7 is a diagram illustrating a configuration of a set-top box according to an embodiment.

Referring to FIG. 7 , the set-top box 700 may include a communication unit 710 , a determination unit 720 , and a control unit 730 . In an embodiment, the set-top box 700 may correspond to the set-top box 120 .

According to an embodiment, the communication unit 710 may receive the HDCP re-authentication request from the display apparatus 130 and transmit a data stream to the display apparatus 130 .

The determination unit 720 may determine whether a display failure of the display apparatus 130 has occurred based on the number of times the communication unit 710 has received the HDCP reauthentication request from the display apparatus 130 for a preset time. there is. In an embodiment, the determination unit 720 may determine that a display failure has occurred when the HDCP re-authentication request is received a preset number of times for a preset time.

In an embodiment, when the determination unit 720 determines that a display failure has occurred, the controller 730 resets the TMDS of the HDCP authentication process and transmits a data stream to the display device to reset the HDMI port. . In another embodiment, when it is determined that a display failure has occurred, the controller 730 may turn off the HDMI transmitter and turn on the HDMI transmitter to re-perform the forced hot plug. In another embodiment, when it is determined that a display failure has occurred, the controller 730 determines whether or not TMDS reset is experienced, resets TMDS when there is no TMDS implementation experience, and when there is experience in TMDS reset, the HDMI transmitter is turned off and the HDMI transmitter is turned on to perform forced hot plug again, and a data stream may be transmitted from the set-top box to the display device 130 .

The set-top box 700 may further include a network unit (not shown) that communicates with the server 110 . The network unit may transmit a result of determining whether a display failure has occurred to the server 110 .

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

Software may comprise a computer program, code, instructions, or a combination of one or more thereof, which configures a processing device to operate as desired or is independently or collectively processed You can command the device. The software and/or data may be any kind of machine, component, physical device, virtual equipment, computer storage medium or apparatus, to be interpreted by or to provide instructions or data to the processing device. , or may be permanently or temporarily embody in a transmitted signal wave. The software may be distributed over networked computer systems and stored or executed in a distributed manner. Software and data may be stored in one or more computer-readable recording media.

As described above, although the embodiments have been described with reference to the limited drawings, those skilled in the art may apply various technical modifications and variations based on the above. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

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

Claims (17)

In the display failure management method of a system including a set-top box and a display device connected by an HDMI cable,
determining, by the set-top box, whether a display failure of the display device has occurred based on the number of times it has received an HDCP reauthentication request from the display device for a preset time; and
When it is determined that the display failure has occurred, resetting the HDMI port
containing,
How to manage display failures. According to claim 1,
Transmitting, by the set-top box, a result of determining whether the display failure has occurred to a server
further comprising,
How to manage display failures. According to claim 1,
The step of determining whether the display failure has occurred,
Determining that the display failure has occurred when HDCP re-authentication requests are received a preset number of times during the preset time,
How to manage display failures. According to claim 1,
The step of resetting the HDMI port comprises:
performing a Transition Minimized Differential Signaling (TMDS) reset; and
transmitting a data stream from the set-top box to the display device;
containing,
How to manage display failures. According to claim 1,
The step of resetting the HDMI port comprises:
Turning the HDMI transmitter (TX) off (turn-off) and turning on the HDMI transmitter (turn-on) to perform forced hot plug (Forced Hot plug) again; and
transmitting a data stream from the set-top box to the display device;
containing,
How to manage display failures. The method of claim 1,
The step of resetting the HDMI port comprises:
determining whether TMDS reset is experienced;
resetting the TMDS when there is no experience of resetting the TMDS;
Turning off the HDMI transmitter and turning on the HDMI transmitter if there is experience in performing the TMDS reset to perform forced hot plug again; and
transmitting a data stream from the set-top box to the display device;
containing,
How to manage display failures. A computer program stored in a medium for executing the method of any one of claims 1 to 6 in combination with hardware. a communication unit for receiving an HDCP re-authentication request from a display device through an HDMI connection and transmitting a data stream to the display device through an HDMI connection;
a determination unit configured to determine whether a display failure of the display apparatus has occurred based on the number of times the communication unit has received an HDCP reauthentication request from the display apparatus for a preset time; and
When the determination unit determines that the display failure has occurred, a control unit for controlling the HDMI port to be reset
set-top box with 9. The method of claim 8,
Network unit that communicates with the server
further comprising,
The network unit transmits a determination result of whether the display failure has occurred to the server,
set-top box. 9. The method of claim 8,
The judging unit,
Determining that the display failure has occurred when HDCP re-authentication requests are received a preset number of times during the preset time,
set-top box. 9. The method of claim 8,
The control unit is
When it is determined that the display failure has occurred, resetting the TMDS and transmitting a data stream to the display device to reset the HDMI port,
set-top box. 9. The method of claim 8,
The control unit is
When it is determined that the display failure has occurred, turning off the HDMI transmitter (TX) and turning the HDMI transmitter on to perform forced hot plug again,
set-top box. 9. The method of claim 8,
The control unit is
If it is determined that the display failure has occurred, it is determined whether or not the TMDS reset has been performed, and if there is no TMDS implementation experience, the TMDS is reset. -turn on to perform forced hot plug again, and transmit a data stream from the set-top box to the display device,
set-top box. a set-top box in communication with the display device; and
The set-top box and the display device connected via an HDMI cable
including,
The set-top box determines whether a display failure of the display device has occurred based on the number of times an HDCP reauthentication request is received from the display device for a preset time,
When it is determined that the display failure has occurred, resetting the HDMI port,
Display fault management system. 15. The method of claim 14,
Further comprising a server in communication with the set-top box,
The set-top box transmits the determination result of whether the display failure has occurred to the server,
Display fault management system. 15. The method of claim 14,
The set-top box is
Determining that the display failure has occurred when HDCP re-authentication requests are received a preset number of times during the preset time,
Display fault management system. 15. The method of claim 14,
The set-top box is
Based on the experience of implementing TMDS reset,
If you have no experience in implementing TMDS, reset TMDS,
If you have experience in performing TMDS reset, turn off the HDMI transmitter and turn on the HDMI transmitter to perform Forced Hot plug again,
transmitting a data stream from the set-top box to the display device;
Display fault management system.

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