CN113194310A - Full frequency point detection method and system based on smart television operating system - Google Patents

Abstract

The invention provides a full frequency point detection method and a full frequency point detection system based on an intelligent television operating system, which belong to the technical field of intelligent televisions, and the method comprises the following steps: step S10, the computer acquires the full frequency point list, sets the time interval, creates the frequency point modification script based on the full frequency point list and the time interval, and creates the scanning script based on the time interval; step S20, the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television based on the frequency point modification script; s30, controlling the intelligent television to automatically execute a channel scanning operation on the code stream signal by the computer based on the channel scanning script; s40, shooting a detection video of the smart television by the computer through the camera, and acquiring a scanning log of the smart television and a code stream log of the code stream instrument; and step S50, the computer checks the full frequency point scanning operation based on the detection video, the scanning log and the code stream log. The invention has the advantages that: the efficiency and the quality of full frequency point detection of the intelligent television are greatly improved, and the detection cost is reduced.

Description

Full frequency point detection method and system based on smart television operating system

Technical Field

The invention relates to the technical field of intelligent televisions, in particular to a full frequency point detection method and system based on an intelligent television operating system.

Background

The smart television is a new product formed based on internet wave impact, aims to bring more convenient experience to users, and has become the trend of televisions at present. Nowadays, smart televisions have gone into thousands of households, and become an essential part of life of people.

The automatic channel searching is a basic function of the smart television, and the automatic channel searching refers to selecting a corresponding frequency point, acquiring program information in the frequency point, and storing the acquired program information. Before the smart television leaves a factory, whether program information corresponding to all frequency points is correctly displayed after the smart television performs channel scanning operation (automatic channel searching) needs to be detected, namely full frequency point detection.

For full-frequency point detection of a smart television, conventionally, a method of performing channel scanning operation and verification on each frequency point one by a tester based on a full-frequency point list is adopted, but the conventional method has the following disadvantages: 1. the manual execution efficiency is low, and the detection frequency points are easy to omit; 2. and full frequency point detection needs to be executed every version iteration, and a large amount of labor cost is consumed.

Therefore, how to provide a method and a system for detecting full frequency points based on an operating system of a smart television to achieve the purposes of improving the efficiency and quality of full frequency point detection of the smart television and reducing the detection cost becomes a problem to be solved urgently.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a method and a system for detecting full frequency points based on an intelligent television operating system, so that the efficiency and the quality of full frequency point detection of the intelligent television are improved, and the detection cost is reduced.

In a first aspect, the invention provides a full frequency point detection method based on an intelligent television operating system, which comprises the following steps:

step S10, the computer acquires the full frequency point list, sets a time interval, creates a frequency point modification script based on the full frequency point list and the time interval, and creates a scanning script based on the time interval;

step S20, the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television based on the frequency point modification script;

step S30, the computer controls the intelligent television to automatically execute the channel scanning operation on the code stream signal based on the channel scanning script;

step S40, the computer shoots the detection video of the intelligent television by using the camera, and acquires the scanning log of the intelligent television and the code stream log of the code stream instrument;

and step S50, the computer checks the full frequency point scanning operation of the intelligent television based on the detection video, the scanning log and the code stream log, and the full frequency point detection is completed.

Further, the step S10 is specifically:

the method comprises the steps that a computer obtains a full frequency point list at least comprising frequency points of DVB, ATSC and ISDB, a time interval is set, a frequency point modification script is created based on the full frequency point list and the time interval, and a scanning script is created based on the time interval;

the frequency point modification script is used for modifying the frequency points corresponding to the code stream signals sent to the smart television by the code stream instrument at preset time intervals according to the sequence of the full frequency point list, setting the repeated times of sending of each frequency point and storing a code stream log;

the scanning table script is used for executing scanning table operation on code stream signals sent by the code stream instrument at preset time intervals and storing scanning table logs.

Further, the step S20 is specifically:

the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television in turn according to the sequence of the full frequency point list based on the frequency point modification script, and stores a code stream log;

the code stream log comprises the sending state and the timestamp of the code stream signal corresponding to each frequency point; the transmission state is normal or abnormal.

Further, the step S30 is specifically:

the computer controls the smart television to execute a scanning operation on a code stream signal sent by the code stream instrument at preset time intervals through a UART interface based on the scanning script, and stores a scanning log;

the scanning log comprises scanned frequency points and time stamps scanned by the frequency points.

Further, the step S50 is specifically:

the computer carries out image recognition on the detection video, and the full frequency point scanning operation of the intelligent television is verified by comparing the detection video with the original code stream signal corresponding to each frequency point;

the computer detects whether the number of the frequency points in the scanning log is consistent with the number of the frequency points in the full frequency point list or not, and if so, a first detection report of successful verification is generated; if the two are not consistent, generating a first detection report of verification failure;

the computer searches whether an abnormal sending state exists in the code stream log or not, and if the abnormal sending state does not exist in the code stream log, a second detection report with successful verification is generated; and if so, generating a second detection report of verification failure.

In a second aspect, the invention provides a full-frequency point detection system based on an intelligent television operating system, which comprises the following modules:

the script creating module is used for acquiring a full frequency point list by a computer, setting a time interval, creating a frequency point modification script based on the full frequency point list and the time interval, and creating a scanning script based on the time interval;

the code stream signal sending module is used for controlling the code stream instrument to automatically send corresponding code stream signals to the intelligent television by the computer based on the frequency point modification script;

the scanning operation module is used for controlling the intelligent television to automatically execute scanning operation on the code stream signals based on the scanning script by the computer;

the system comprises a detection video and log acquisition module, a video acquisition module and a video acquisition module, wherein the detection video of the intelligent television is shot by a computer through a camera, and a scanning log of the intelligent television and a code stream log of a code stream instrument are acquired;

and the scanning calibration module is used for calibrating the full frequency point scanning operation of the intelligent television by the computer based on the detection video, the scanning log and the code stream log to complete full frequency point detection.

Further, the script creating module is specifically:

the method comprises the steps that a computer obtains a full frequency point list at least comprising frequency points of DVB, ATSC and ISDB, a time interval is set, a frequency point modification script is created based on the full frequency point list and the time interval, and a scanning script is created based on the time interval;

the frequency point modification script is used for modifying the frequency points corresponding to the code stream signals sent to the smart television by the code stream instrument at preset time intervals according to the sequence of the full frequency point list, setting the repeated times of sending of each frequency point and storing a code stream log;

the scanning table script is used for executing scanning table operation on code stream signals sent by the code stream instrument at preset time intervals and storing scanning table logs.

Further, the code stream signal sending module specifically is:

the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television in turn according to the sequence of the full frequency point list based on the frequency point modification script, and stores a code stream log;

the code stream log comprises the sending state and the timestamp of the code stream signal corresponding to each frequency point; the transmission state is normal or abnormal.

Further, the scanning platform operation module specifically comprises:

the computer controls the smart television to execute a scanning operation on a code stream signal sent by the code stream instrument at preset time intervals through a UART interface based on the scanning script, and stores a scanning log;

the scanning log comprises scanned frequency points and time stamps scanned by the frequency points.

Further, the scanning platform checking module specifically comprises:

the computer carries out image recognition on the detection video, and the full frequency point scanning operation of the intelligent television is verified by comparing the detection video with the original code stream signal corresponding to each frequency point;

the computer detects whether the number of the frequency points in the scanning log is consistent with the number of the frequency points in the full frequency point list or not, and if so, a first detection report of successful verification is generated; if the two are not consistent, generating a first detection report of verification failure;

the computer searches whether an abnormal sending state exists in the code stream log or not, and if the abnormal sending state does not exist in the code stream log, a second detection report with successful verification is generated; and if so, generating a second detection report of verification failure.

The invention has the advantages that:

by creating the frequency point modification script and the scanning script, the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television by using the frequency point modification script, and controls the intelligent television to automatically execute scanning operation on the code stream signals by using the scanning script, so that the automatic execution of the scanning operation of the full frequency point is realized, and the traditional low efficiency of manual execution and omission of detection frequency points are avoided; in the scanning operation executing process, a detection video of the intelligent television is shot by using the camera, a scanning log of the intelligent television and a code stream log of the code stream instrument are obtained, the detection video and an original code stream signal are identified and compared through an image identification technology, full frequency point scanning operation is quickly checked through detecting the scanning log and the code stream log, corresponding scripts are only needed to be modified when versions are iterated, a large amount of labor investment is saved, the efficiency and the quality of full frequency point detection of the intelligent television are finally greatly improved, and the detection cost is greatly reduced.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a flowchart of a full frequency point detection method based on an intelligent television operating system according to the present invention.

Fig. 2 is a schematic structural diagram of a detection system based on a full frequency point of an intelligent television operating system according to the present invention.

Fig. 3 is a hardware architecture diagram of the present invention.

Detailed Description

The technical scheme in the embodiment of the application has the following general idea: the method comprises the steps of creating a frequency point modification script and a scanning script for automatic execution of full-frequency point scanning operation, in the scanning operation execution process, shooting a detection video of the intelligent television by using a camera, acquiring a scanning log of the intelligent television and a code stream log of a code stream instrument, identifying and comparing the detection video and an original code stream signal by using an image recognition technology, and quickly checking full-frequency point scanning operation by detecting the scanning log and the code stream log, so that the full-frequency point detection efficiency and quality of the intelligent television are improved, and the detection cost is reduced.

Referring to fig. 1 to fig. 3, a preferred embodiment of a full frequency point detection method based on an intelligent television operating system according to the present invention includes the following steps:

step S10, the computer acquires the full frequency point list, sets a time interval, creates a frequency point modification script based on the full frequency point list and the time interval, and creates a scanning script (RedRat script) based on the time interval; the frequency point modification script is generated based on an Airtest tool;

step S20, the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television based on the frequency point modification script;

step S30, the computer controls the intelligent television to automatically execute the channel scanning operation on the code stream signal based on the channel scanning script;

step S40, the computer shoots the detection video of the intelligent television by using the camera, and acquires the scanning log of the intelligent television and the code stream log of the code stream instrument;

and step S50, the computer checks the full frequency point scanning operation of the intelligent television based on the detection video, the scanning log and the code stream log, and the full frequency point detection is completed.

The step S10 specifically includes:

the method comprises the steps that a computer obtains a full frequency point list at least comprising frequency points of DVB, ATSC and ISDB, a time interval is set, a frequency point modification script is created based on the full frequency point list and the time interval, and a scanning script is created based on the time interval;

the frequency point modification script is used for modifying the frequency points corresponding to the code stream signals sent to the smart television by the code stream instrument at preset time intervals according to the sequence of the full frequency point list, setting the repeated times of sending of each frequency point and storing a code stream log; the frequency point modification script is also used for setting a code stream mode;

the scanning table script is used for executing scanning table operation on code stream signals sent by the code stream instrument at preset time intervals and storing scanning table logs; the channel scanning script is used for simulating manual channel searching actions manually according to a remote controller of the intelligent television, and when the channel scanning script is executed, the channel scanning page can be automatically entered no matter what page the intelligent television is on.

Because the bandwidths of the very high frequency and the ultra high frequency of the digital television may be inconsistent, in specific implementation, a plurality of scanning scripts may be set based on the bandwidth, for example, one scanning script is set for a 6MHz bandwidth, one scanning script is set for a 7MHz bandwidth, one scanning script is set for an 8MHz bandwidth, and then concatenation of the scanning scripts is completed through a TimeEvent.

The step S20 specifically includes:

the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television in turn according to the sequence of the full frequency point list based on the frequency point modification script, and stores a code stream log;

the code stream log comprises the sending state and the timestamp of the code stream signal corresponding to each frequency point; the transmission state is normal or abnormal.

The step S30 specifically includes:

the computer controls the smart television to execute a scanning operation on a code stream signal sent by the code stream instrument at preset time intervals through a UART interface based on the scanning script, and stores a scanning log;

the scanning log comprises scanned frequency points and time stamps scanned by the frequency points.

The step S50 specifically includes:

the computer carries out image recognition on the detection video, and the full frequency point scanning operation of the intelligent television is verified by comparing the detection video with the original code stream signal corresponding to each frequency point;

the computer detects whether the number of the frequency points in the scanning log is consistent with the number of the frequency points in the full frequency point list or not, and if so, a first detection report of successful verification is generated; if the two are not consistent, generating a first detection report of verification failure;

the computer searches whether an abnormal sending state exists in the code stream log or not, and if the abnormal sending state does not exist in the code stream log, a second detection report with successful verification is generated; and if so, generating a second detection report of verification failure.

The invention discloses a preferred embodiment of a detection system based on full frequency points of an intelligent television operating system, which comprises the following modules:

the script creating module is used for acquiring a full frequency point list by a computer, setting a time interval, creating a frequency point modification script based on the full frequency point list and the time interval, and creating a scanning script (RedRat script) based on the time interval; the frequency point modification script is generated based on an Airtest tool;

the code stream signal sending module is used for controlling the code stream instrument to automatically send corresponding code stream signals to the intelligent television by the computer based on the frequency point modification script;

the scanning operation module is used for controlling the intelligent television to automatically execute scanning operation on the code stream signals based on the scanning script by the computer;

the system comprises a detection video and log acquisition module, a video acquisition module and a video acquisition module, wherein the detection video of the intelligent television is shot by a computer through a camera, and a scanning log of the intelligent television and a code stream log of a code stream instrument are acquired;

and the scanning calibration module is used for calibrating the full frequency point scanning operation of the intelligent television by the computer based on the detection video, the scanning log and the code stream log to complete full frequency point detection.

The script creating module is specifically as follows:

the method comprises the steps that a computer obtains a full frequency point list at least comprising frequency points of DVB, ATSC and ISDB, a time interval is set, a frequency point modification script is created based on the full frequency point list and the time interval, and a scanning script is created based on the time interval;

the frequency point modification script is used for modifying the frequency points corresponding to the code stream signals sent to the smart television by the code stream instrument at preset time intervals according to the sequence of the full frequency point list, setting the repeated times of sending of each frequency point and storing a code stream log; the frequency point modification script is also used for setting a code stream mode;

the scanning table script is used for executing scanning table operation on code stream signals sent by the code stream instrument at preset time intervals and storing scanning table logs; the channel scanning script is used for simulating manual channel searching actions manually according to a remote controller of the intelligent television, and when the channel scanning script is executed, the channel scanning page can be automatically entered no matter what page the intelligent television is on.

Because the bandwidths of the very high frequency and the ultra high frequency of the digital television may be inconsistent, in specific implementation, a plurality of scanning scripts may be set based on the bandwidth, for example, one scanning script is set for a 6MHz bandwidth, one scanning script is set for a 7MHz bandwidth, one scanning script is set for an 8MHz bandwidth, and then concatenation of the scanning scripts is completed through a TimeEvent.

The code stream signal sending module specifically comprises:

the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television in turn according to the sequence of the full frequency point list based on the frequency point modification script, and stores a code stream log;

the code stream log comprises the sending state and the timestamp of the code stream signal corresponding to each frequency point; the transmission state is normal or abnormal.

The platform sweeping operation module specifically comprises:

the computer controls the smart television to execute a scanning operation on a code stream signal sent by the code stream instrument at preset time intervals through a UART interface based on the scanning script, and stores a scanning log;

the scanning log comprises scanned frequency points and time stamps scanned by the frequency points.

The scanning platform checking module specifically comprises:

the computer carries out image recognition on the detection video, and the full frequency point scanning operation of the intelligent television is verified by comparing the detection video with the original code stream signal corresponding to each frequency point;

the computer detects whether the number of the frequency points in the scanning log is consistent with the number of the frequency points in the full frequency point list or not, and if so, a first detection report of successful verification is generated; if the two are not consistent, generating a first detection report of verification failure;

the computer searches whether an abnormal sending state exists in the code stream log or not, and if the abnormal sending state does not exist in the code stream log, a second detection report with successful verification is generated; and if so, generating a second detection report of verification failure.

In summary, the invention has the advantages that:

by creating the frequency point modification script and the scanning script, the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television by using the frequency point modification script, and controls the intelligent television to automatically execute scanning operation on the code stream signals by using the scanning script, so that the automatic execution of the scanning operation of the full frequency point is realized, and the traditional low efficiency of manual execution and omission of detection frequency points are avoided; in the scanning operation executing process, a detection video of the intelligent television is shot by using the camera, a scanning log of the intelligent television and a code stream log of the code stream instrument are obtained, the detection video and an original code stream signal are identified and compared through an image identification technology, full frequency point scanning operation is quickly checked through detecting the scanning log and the code stream log, corresponding scripts are only needed to be modified when versions are iterated, a large amount of labor investment is saved, the efficiency and the quality of full frequency point detection of the intelligent television are finally greatly improved, and the detection cost is greatly reduced.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (10)

1. A full frequency point detection method based on an intelligent television operating system is characterized by comprising the following steps: the method comprises the following steps:

step S10, the computer acquires the full frequency point list, sets a time interval, creates a frequency point modification script based on the full frequency point list and the time interval, and creates a scanning script based on the time interval;

step S20, the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television based on the frequency point modification script;

step S30, the computer controls the intelligent television to automatically execute the channel scanning operation on the code stream signal based on the channel scanning script;

step S40, the computer shoots the detection video of the intelligent television by using the camera, and acquires the scanning log of the intelligent television and the code stream log of the code stream instrument;

and step S50, the computer checks the full frequency point scanning operation of the intelligent television based on the detection video, the scanning log and the code stream log, and the full frequency point detection is completed.

2. The method for detecting the full frequency point based on the smart television operating system as claimed in claim 1, wherein: the step S10 specifically includes:

the method comprises the steps that a computer obtains a full frequency point list at least comprising frequency points of DVB, ATSC and ISDB, a time interval is set, a frequency point modification script is created based on the full frequency point list and the time interval, and a scanning script is created based on the time interval;

the frequency point modification script is used for modifying the frequency points corresponding to the code stream signals sent to the smart television by the code stream instrument at preset time intervals according to the sequence of the full frequency point list, setting the repeated times of sending of each frequency point and storing a code stream log;

the scanning table script is used for executing scanning table operation on code stream signals sent by the code stream instrument at preset time intervals and storing scanning table logs.

3. The method for detecting the full frequency point based on the smart television operating system as claimed in claim 1, wherein: the step S20 specifically includes:

the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television in turn according to the sequence of the full frequency point list based on the frequency point modification script, and stores a code stream log;

the code stream log comprises the sending state and the timestamp of the code stream signal corresponding to each frequency point; the transmission state is normal or abnormal.

4. The method for detecting the full frequency point based on the smart television operating system as claimed in claim 1, wherein: the step S30 specifically includes:

the computer controls the smart television to execute a scanning operation on a code stream signal sent by the code stream instrument at preset time intervals through a UART interface based on the scanning script, and stores a scanning log;

the scanning log comprises scanned frequency points and time stamps scanned by the frequency points.

5. The method for detecting the full frequency point based on the smart television operating system as claimed in claim 1, wherein: the step S50 specifically includes:

the computer carries out image recognition on the detection video, and the full frequency point scanning operation of the intelligent television is verified by comparing the detection video with the original code stream signal corresponding to each frequency point;

the computer detects whether the number of the frequency points in the scanning log is consistent with the number of the frequency points in the full frequency point list or not, and if so, a first detection report of successful verification is generated; if the two are not consistent, generating a first detection report of verification failure;

the computer searches whether an abnormal sending state exists in the code stream log or not, and if the abnormal sending state does not exist in the code stream log, a second detection report with successful verification is generated; and if so, generating a second detection report of verification failure.

6. The utility model provides a detecting system based on intelligent TV operating system full frequency point which characterized in that: the system comprises the following modules:

the script creating module is used for acquiring a full frequency point list by a computer, setting a time interval, creating a frequency point modification script based on the full frequency point list and the time interval, and creating a scanning script based on the time interval;

the code stream signal sending module is used for controlling the code stream instrument to automatically send corresponding code stream signals to the intelligent television by the computer based on the frequency point modification script;

the scanning operation module is used for controlling the intelligent television to automatically execute scanning operation on the code stream signals based on the scanning script by the computer;

the system comprises a detection video and log acquisition module, a video acquisition module and a video acquisition module, wherein the detection video of the intelligent television is shot by a computer through a camera, and a scanning log of the intelligent television and a code stream log of a code stream instrument are acquired;

and the scanning calibration module is used for calibrating the full frequency point scanning operation of the intelligent television by the computer based on the detection video, the scanning log and the code stream log to complete full frequency point detection.

7. The system according to claim 6, wherein the smart television operating system full-frequency point-based detection system comprises: the script creating module is specifically as follows:

the method comprises the steps that a computer obtains a full frequency point list at least comprising frequency points of DVB, ATSC and ISDB, a time interval is set, a frequency point modification script is created based on the full frequency point list and the time interval, and a scanning script is created based on the time interval;

the frequency point modification script is used for modifying the frequency points corresponding to the code stream signals sent to the smart television by the code stream instrument at preset time intervals according to the sequence of the full frequency point list, setting the repeated times of sending of each frequency point and storing a code stream log;

the scanning table script is used for executing scanning table operation on code stream signals sent by the code stream instrument at preset time intervals and storing scanning table logs.

8. The system according to claim 6, wherein the smart television operating system full-frequency point-based detection system comprises: the code stream signal sending module specifically comprises:

the computer controls the code stream instrument to automatically send corresponding code stream signals to the intelligent television in turn according to the sequence of the full frequency point list based on the frequency point modification script, and stores a code stream log;

the code stream log comprises the sending state and the timestamp of the code stream signal corresponding to each frequency point; the transmission state is normal or abnormal.

9. The system according to claim 6, wherein the smart television operating system full-frequency point-based detection system comprises: the platform sweeping operation module specifically comprises:

the computer controls the smart television to execute a scanning operation on a code stream signal sent by the code stream instrument at preset time intervals through a UART interface based on the scanning script, and stores a scanning log;

the scanning log comprises scanned frequency points and time stamps scanned by the frequency points.

10. The system according to claim 6, wherein the smart television operating system full-frequency point-based detection system comprises: the scanning platform checking module specifically comprises:

the computer carries out image recognition on the detection video, and the full frequency point scanning operation of the intelligent television is verified by comparing the detection video with the original code stream signal corresponding to each frequency point;

the computer detects whether the number of the frequency points in the scanning log is consistent with the number of the frequency points in the full frequency point list or not, and if so, a first detection report of successful verification is generated; if the two are not consistent, generating a first detection report of verification failure;

the computer searches whether an abnormal sending state exists in the code stream log or not, and if the abnormal sending state does not exist in the code stream log, a second detection report with successful verification is generated; and if so, generating a second detection report of verification failure.

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