CN103217654B - Touch screen remotely monitors fault diagnosis system and method - Google Patents
Touch screen remotely monitors fault diagnosis system and method Download PDFInfo
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- CN103217654B CN103217654B CN201210020072.3A CN201210020072A CN103217654B CN 103217654 B CN103217654 B CN 103217654B CN 201210020072 A CN201210020072 A CN 201210020072A CN 103217654 B CN103217654 B CN 103217654B
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Abstract
Touch screen remotely monitors fault diagnosis system, is specifically related to a kind of touch panel monitor system system.Including a touch screen main body, touch screen main body includes a touch screen control module, and touch screen control module connects a communication interface, and touch screen main body connects one for the server end remotely monitored by the communication interface of touch screen control module.Touch screen control module is also connected with a fluorescent tube detection module, the state parameter launching fluorescent tube and reception fluorescent tube of fluorescent tube detection module test touch screen main body, and sends the state parameter of test to touch screen control module.Present invention achieves the long-range monitoring of touch screen, help user to understand abnormal touch screen duty in time, the fault that gives warning in advance occurs;Provide solution simultaneously, low cost touch screen is carried out breakdown judge, improve after-sale service efficiency.
Description
Technical field
The present invention relates to touch screen technology field, be specifically related to a kind of touch panel monitor system system.
Background technology
Infrared touch panel, as a branch of touch screen, is gradually widely used in each due to its a series of advantage
Individual field, along with the application extensive, large-scale of infrared touch panel also brings a difficult problem for follow-up maintenance and fault diagnosis.Existing
Some infrared touch panels in use, the performance state of user its exception of None-identified, thus cannot be to infrared touch
The fault of screen carries out early warning, and the application scenario important to some carries out fault diagnosis after breaking down and maintenance have impact on normally
Application, after touch screen breaks down simultaneously, technical support personnel need at the scene the touch screen broken down to be carried out one be
Row test, the reason broken down with judgement, also need to invite multiple experienced technical specialist to work in coordination with the when of necessary and judge
Failure cause also proposes solution, and these are all unfavorable for the raising of after-sales service efficiency, adds the solution cost of fault, adds
The big application cost of infrared touch panel.
Summary of the invention
It is an object of the invention to provide a kind of touch screen and remotely monitor fault diagnosis system, solve above technical problem.
The present invention also aims to provide a kind of touch screen remotely to monitor method for diagnosing faults, solve above technology and ask
Topic.
Technical problem solved by the invention can realize by the following technical solutions:
Touch screen remotely monitors fault diagnosis system, and including a touch screen main body, described touch screen main body includes a touch
Screen control module, it is characterised in that described touch screen control module connects a communication interface, described touch screen main body is by described
The communication interface of touch screen control module connects one for the server end remotely monitored;
Described touch screen control module is also connected with a fluorescent tube detection module, and described fluorescent tube detection module tests described touch screen
The state parameter launching fluorescent tube and reception fluorescent tube of main body, and the state parameter of test is sent to described touch screen control mould
Block, is sent described state parameter to server end by described touch screen control module.
Described fluorescent tube detection module includes a light intensity sensing device, and described fluorescent tube detection module tests described touch screen master
The light intensity parameter launching fluorescent tube and reception fluorescent tube of body, and the light intensity parameter of test is sent to described touch screen control mould
Block.
Described touch screen control module includes that a microprocessor system, described microprocessor system are provided with for examining
Surveying launching fluorescent tube and receiving the fluorescent tube self-check program of fluorescent tube performance state of touch screen main body, described fluorescent tube self-check program is provided with one
Decision rule, the state parameter that described decision rule is tested according to described fluorescent tube detection module by described transmitting fluorescent tube and receives lamp
The performance state of pipe is divided into reasonable working range, critical working range, unreasonable working range, described microprocessor system root
Judge to launch fluorescent tube and receive fluorescent tube to be in reasonable working range, critical working range, unreasonable work according to described decision rule
During scope, by described touch screen control module, the state parameter of test is sent to described server end.
Described microprocessor system judges to launch fluorescent tube and receive fluorescent tube to be in critical work according to described decision rule
When scope and unreasonable working range, by described touch screen control module, the state parameter of test is sent to described server
End.Achieve the long-range monitoring of touch screen main body, user can be helped in time to find the abnormal information of touch screen main body, in order to
Relevant Emergency Preparedness is carried out in time.
Described server end is provided with Fault Diagnosis Database, described Fault Diagnosis Database be provided with failure information database and
The solution data base matched with described fault message, the shape that described touch screen control module is sent by described server end
The fault data of state parameter and described failure information database shows and mates, and corresponding solution is sent to institute
State in the client terminal display that server end remotely connects, for point out touch screen main body user next step maintenance and
Troubleshooting methods.Described client terminal display can be in the computer at scene, the display terminal of portable set.
Described Fault Diagnosis Database is a static database, and described Fault Diagnosis Database storage has a setting quantity
The fault data performance of touch screen main body and corresponding solution.
Described Fault Diagnosis Database is a dynamic data base, and fault data performance is carried out by described Fault Diagnosis Database
Record and be stored in the failure information database of described Fault Diagnosis Database, store the solution matched to solution party simultaneously
Case data base.Described dynamic data base is in use extended, and constitutes a dynamic data with Self-learning Model
Storehouse.
Described touch screen control module is also connected with a geographical location information module, and described geographical location information module is one
GPS locating module, the positional information of described touch screen main body is sent to described server end by described GPS locating module, it is simple to
The position judgment of the server end touch screen main body to breaking down.
Touch screen remotely monitors method for diagnosing faults, and including a touch screen main body, described touch screen main body includes a touch
Screen control module, described touch screen control module connects a communication interface, and described touch screen main body is controlled by described touch screen
The communication interface of module connects one for the server end remotely monitored, it is characterised in that: comprise the following steps:
The first step: described touch screen control module starts described touch screen main body;
Second step: described touch screen control module includes launching fluorescent tube and receiving the property of fluorescent tube of a detection touch screen main body
The fluorescent tube self-check program of energy state, described touch screen main body runs described fluorescent tube self-check program;
3rd step: the test data of described fluorescent tube self-check program are sent by described touch screen control module by communication interface
Give the described server end for remotely monitoring;
4th step: described server end judges the fault data performance of described touch screen main body, and by corresponding solution party
Crime is delivered in the client terminal display that is remotely connected with server end.
The described first step can also send a signal to described touch screen control module by described server end, by institute
State touch screen control module and start described touch screen main body.Realize server end the selection of specific touch screen main body is monitored.
Described touch screen control module is also connected with a fluorescent tube detection module, and described fluorescent tube detection module tests described touch screen
The state parameter launching fluorescent tube and reception fluorescent tube of main body, and the state parameter of test is sent to described touch screen control mould
Block.
Described fluorescent tube detection module includes a light intensity sensing device, and described fluorescent tube detection module tests described touch screen master
The light intensity parameter launching fluorescent tube and reception fluorescent tube of body, and the light intensity parameter of test is sent to described touch screen control mould
Block.
Described touch screen control module includes that a microprocessor system, described microprocessor system are provided with described lamp
Pipe self-check program, described fluorescent tube self-check program is provided with a decision rule, and described decision rule is surveyed according to described fluorescent tube detection module
Examination state parameter by described transmitting fluorescent tube and receive fluorescent tube performance state be divided into reasonable working range, critical working range,
Unreasonable working range, described microprocessor system judges to launch fluorescent tube and receive fluorescent tube to be in conjunction according to described decision rule
During reason working range, critical working range, unreasonable working range, by described touch screen control module, the state of test is joined
Number is sent to described server end.
Described microprocessor system judges launch fluorescent tube and receive at the performance state of fluorescent tube according to described decision rule
When critical working range and unreasonable working range, by described touch screen control module, the state parameter of test is sent to
Described server end.Achieve the long-range monitoring of touch screen main body, user can be helped in time to find the different of touch screen main body
Often information, in order to carry out relevant Emergency Preparedness in time.
Described fluorescent tube self-check program comprises the following steps:
The first step: revise the off-axis number launching fluorescent tube of described touch screen main body, gathered by described fluorescent tube detection module
The light intensity parameter receiving fluorescent tube that described transmitting fluorescent tube is corresponding, by the light intensity parameter of described reception fluorescent tube and described judgement
Rule is compared, within determining whether the performance state of described transmitting fluorescent tube is in rational working range on geometrical axis;
Second step: revise the off-axis number receiving fluorescent tube of described touch screen main body, gathered by described fluorescent tube detection module
The light intensity parameter of described reception fluorescent tube, compares the light intensity parameter of described reception fluorescent tube with described decision rule, really
Within whether the performance state of fixed described reception fluorescent tube is in rational working range on geometrical axis;
3rd step: preserve described transmitting fluorescent tube, the light intensity parameter of reception fluorescent tube;
4th step: respectively to described transmitting fluorescent tube and described reception fluorescent tube off-axis several under light intensity parameter carry out time shaft
Digital Filter Analysis, judge whether its performance on a timeline is in conjunction according to state parameter after Digital Filter Analysis
The duty of reason.
Described server end is provided with Fault Diagnosis Database, described Fault Diagnosis Database be provided with failure information database and
The solution data base matched with described fault message, the survey that described touch screen control module is sent by described server end
Examination data show with the fault data of described failure information database mates, and sends corresponding solution to client
On terminal display.
Beneficial effect: owing to using above technical scheme, present invention achieves the long-range monitoring of touch screen, help user and
Time understand abnormal touch screen duty, the fault that gives warning in advance occurs;Solution can be provided in real time simultaneously, low cost
Touch screen is carried out breakdown judge;Improve after-sale service efficiency.
Detailed description of the invention
For the technological means making the present invention realize, creation characteristic, reach purpose and be easy to understand with effect, enter below
One step illustrates the present invention.
Touch screen remotely monitors fault diagnosis system, and including a touch screen main body, touch screen main body includes a touch screen control
Molding block, touch screen control module connects a communication interface, and touch screen main body is by the communication interface of touch screen control module even
Connect one for the server end remotely monitored.Touch screen control module is also connected with a fluorescent tube detection module, and fluorescent tube detection module is surveyed
The state parameter launching fluorescent tube and reception fluorescent tube of examination touch screen main body, and the state parameter of test is sent to touch screen control
Module, is sent described state parameter to server end by described touch screen control module.
Fluorescent tube detection module includes a light intensity sensing device, the transmitting fluorescent tube of fluorescent tube detection module test touch screen main body
With receive fluorescent tube light intensity parameter, and by test light intensity parameter send to touch screen control module.
Touch screen control module includes a microprocessor system, and microprocessor system is provided with for detecting touch screen
The fluorescent tube self-check program launching fluorescent tube and reception fluorescent tube performance state of main body, fluorescent tube self-check program is provided with a decision rule, sentences
The performance state launching fluorescent tube and reception fluorescent tube is then divided into reasonable work according to the state parameter of fluorescent tube detection module test by set pattern
Making scope, critical working range, unreasonable working range, microprocessor system judges launch fluorescent tube and connect according to decision rule
When receipts fluorescent tube is in reasonable working range, critical working range, unreasonable working range, will test by touch screen control module
State parameter be sent to server end.Achieve the long-range monitoring of touch screen main body, user can be helped in time to find to touch
Touch the abnormal information of screen main body, in order to carry out relevant Emergency Preparedness in time.
Microprocessor system judges to launch fluorescent tube and receive fluorescent tube to be in critical working range and not according to decision rule
Rationally during working range, by touch screen control module, the state parameter of test is sent to server end.
Server end is provided with Fault Diagnosis Database, and Fault Diagnosis Database is provided with failure information database and believes with fault
The solution data base of manner of breathing coupling, state parameter that touch screen control module is sent by server end and fault information data
The fault data performance in storehouse is mated, and sends corresponding solution to the client terminal being remotely connected with server end
On display, for point out touch screen main body user next step maintenance and troubleshooting methods.Client terminal display
The computer at scene, the display terminal of portable set can be in.
Fault Diagnosis Database is a static database, and Fault Diagnosis Database storage has the touch screen master of a setting quantity
The fault data performance of body and corresponding solution.Fault Diagnosis Database is preferably a dynamic data base, fault diagnosis
Data base records and is stored in the failure information database of Fault Diagnosis Database to fault data performance, stores phase simultaneously
The solution of coupling is to solution data base.Dynamic data base is in use extended, and constitutes one and has independently
The dynamic data base of learning model.
Touch screen control module is also connected with a geographical location information module, and geographical location information module is that a GPS positions mould
Block, the positional information of touch screen main body is sent to server end by GPS locating module, it is simple to server end is to touching of breaking down
Touch the position judgment of screen main body.
Touch screen remotely monitors method for diagnosing faults, and including a touch screen main body, touch screen main body includes a touch screen control
Molding block, touch screen control module connects a communication interface, and touch screen main body is by the communication interface of touch screen control module even
Connect one for the server end remotely monitored, it is characterised in that: comprise the following steps:
The first step: touch screen control module starts touch screen main body;
Second step: touch screen control module includes launching fluorescent tube and receiving the performance shape of fluorescent tube of a detection touch screen main body
The fluorescent tube self-check program of state, touch screen main body runs fluorescent tube self-check program;
3rd step: the test data of fluorescent tube self-check program are sent to for far by touch screen control module by communication interface
The server end of range monitoring;
4th step: server end judges the fault data performance of touch screen main body, and corresponding solution is sent extremely
In the client terminal display being remotely connected with server end.
The first step can also send a signal to touch screen control module by server end, pass through touch screen control module
Start touch screen main body.Realize server end the selection of specific touch screen main body is monitored.
Touch screen control module is also connected with a fluorescent tube detection module, the emission lamp of fluorescent tube detection module test touch screen main body
Pipe and the state parameter of reception fluorescent tube, and the state parameter of test is sent to touch screen control module.Fluorescent tube detection module bag
Include a light intensity sensing device, the light intensity ginseng launching fluorescent tube and reception fluorescent tube of fluorescent tube detection module test touch screen main body
Number, and the light intensity parameter of test is sent to touch screen control module.
Touch screen control module includes a microprocessor system, and microprocessor system is provided with fluorescent tube self-check program,
Fluorescent tube self-check program is provided with a decision rule, it is determined that rule according to fluorescent tube detection module test state parameter will launch fluorescent tube and
The performance state receiving fluorescent tube is divided into reasonable working range, critical working range, unreasonable working range, microprocessor system
Judge to launch fluorescent tube and receive fluorescent tube to be in reasonable working range, critical working range, unreasonable work model according to decision rule
When enclosing, by touch screen control module, the state parameter of test is sent to server end.Achieve the long-range of touch screen main body
Monitoring, can help user to find the abnormal information of touch screen main body, in order to carry out relevant emergent standard in time in time
Standby.Microprocessor system can also be arranged judge to launch fluorescent tube according to decision rule and receive the performance state of fluorescent tube and be in and face
When boundary's working range and unreasonable working range, by touch screen control module, the state parameter of test is sent to server
End.
Fluorescent tube self-check program comprises the following steps:
The first step: the off-axis number launching fluorescent tube of amendment touch screen main body, launches fluorescent tube by fluorescent tube detection module collection
The corresponding light intensity parameter receiving fluorescent tube, compares the light intensity parameter receiving fluorescent tube with decision rule, determines and sends out
Within whether the performance state of shot-light pipe is in rational working range on geometrical axis;
Second step: the off-axis number receiving fluorescent tube of amendment touch screen main body, receives fluorescent tube by fluorescent tube detection module collection
Light intensity parameter, by receive fluorescent tube light intensity parameter compare with decision rule, determine reception fluorescent tube performance state
Within whether geometrical axis is in rational working range;
3rd step: preserve the light intensity parameter launched fluorescent tube, receive fluorescent tube;
4th step: respectively to launching fluorescent tube and receiving the numeral that the off-axis several lower light intensity parameter of fluorescent tube carry out time shaft and filter
According to the state parameter after Digital Filter Analysis, wave analysis, judges whether its performance on a timeline is in reasonably work
State.
Server end is provided with Fault Diagnosis Database, and Fault Diagnosis Database is provided with failure information database and believes with fault
The solution data base of manner of breathing coupling, test data that touch screen control module is sent by server end and fault information data
The fault data performance in storehouse is mated, and corresponding solution is sent to client terminal display.
Such as: when fault data shows as the luminous intensity launching fluorescent tube less than a setting threshold value, Fault Diagnosis Database
The performance degradation of fluorescent tube is launched in prompting, informs that the position launching fluorescent tube broken down prompting are replaced.
Fault data shows as receiving fluorescent tube when not having signal export, Fault Diagnosis Database prompting reception fluorescent tube fault,
Inform that the position receiving fluorescent tube broken down prompting are replaced.
Fault data show as wherein one section launch fluorescent tube and receive fluorescent tube when not having signal to export, Fault Diagnosis Database
Prompting accident analysis data base points out and launches fluorescent tube and receive circuit board damage or the connecting line disengagement that fluorescent tube is connected, and need to carry out
Change.
Fault data show as server end and touch screen main body cannot communication time, Fault Diagnosis Database prompting master control
Plate damages, and needs to change master control borad.
Fault data shows as computer can relate to touch screen main body, but data are the most unreasonable, and fault is examined
Disconnected data base points out master control borad to damage, or Petting Area or non-tactile district have unknown object to be detained for a long time, reminds visitor
Family checks that whether Petting Area is with the presence of foreign body.
The ultimate principle of the present invention and principal character and advantages of the present invention have more than been shown and described.The technology of the industry
Personnel, it should be appreciated that the present invention is not restricted to the described embodiments, simply illustrating this described in above-described embodiment and description
The principle of invention, without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications, and these become
Change and improvement both falls within scope of the claimed invention.Claimed scope by appending claims and
Equivalent defines.
Claims (5)
1. touch screen remotely monitors fault diagnosis system, and including a touch screen main body, described touch screen main body includes a touch screen
Control module, it is characterised in that described touch screen control module connects a communication interface, described touch screen main body is touched by described
The communication interface touching screen control module connects one for the server end remotely monitored;Described touch screen control module is also connected with one
Fluorescent tube detection module, described fluorescent tube detection module tests launching fluorescent tube and receiving the state ginseng of fluorescent tube of described touch screen main body
Number, and the state parameter of test is sent to described touch screen control module, by described touch screen control module by described shape
State parameter sends to server end;
Described fluorescent tube detection module includes a light intensity sensing device, and described fluorescent tube detection module tests described touch screen main body
Launch fluorescent tube and receive the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to described touch screen control module;
Described touch screen control module includes that a microprocessor system, described microprocessor system are provided with for detecting tactile
Touching launching fluorescent tube and receiving the fluorescent tube self-check program of fluorescent tube performance state of screen main body, described fluorescent tube self-check program is provided with a judgement
Rule, the state parameter that described decision rule is tested according to described fluorescent tube detection module by described transmitting fluorescent tube and receives fluorescent tube
Performance state is divided into reasonable working range, critical working range, unreasonable working range, and described microprocessor system is according to institute
State decision rule to judge to launch fluorescent tube and receive fluorescent tube to be in reasonable working range, critical working range, unreasonable working range
Time, by described touch screen control module, the state parameter of test is sent to described server end;
Described fluorescent tube self-check program comprises the following steps:
The first step: revise the off-axis number launching fluorescent tube of described touch screen main body, gathered by described fluorescent tube detection module described
Launch the light intensity parameter receiving fluorescent tube that fluorescent tube is corresponding, by the light intensity parameter of described reception fluorescent tube and described decision rule
Compare, within determining whether the performance state of described transmitting fluorescent tube is in rational working range on geometrical axis;
Second step: revise the off-axis number receiving fluorescent tube of described touch screen main body, gathered by described fluorescent tube detection module described
Receive the light intensity parameter of fluorescent tube, the light intensity parameter of described reception fluorescent tube is compared with described decision rule, determines institute
State receive fluorescent tube performance state on geometrical axis, whether be in rational working range within;
3rd step: preserve described transmitting fluorescent tube, the light intensity parameter of reception fluorescent tube;
4th step: respectively to described transmitting fluorescent tube and described reception fluorescent tube off-axis several under light intensity parameter carry out the number of time shaft
According to the state parameter after Digital Filter Analysis, word Filtering Analysis, judges whether its performance on a timeline is in reasonably
Duty.
Touch screen the most according to claim 1 remotely monitors fault diagnosis system, it is characterised in that: described server end sets
Faulty diagnostic data base, described Fault Diagnosis Database is provided with failure information database and matches with described fault message
Solution data base, the state parameter that described touch screen control module is sent by described server end and described fault message number
Show according to the fault data in storehouse and mate, and corresponding solution is sent to the visitor being remotely connected with described server end
On the terminal display of family;Described Fault Diagnosis Database is a static database, and described Fault Diagnosis Database storage has one to set
The fault data performance of the touch screen main body of determined number and corresponding solution.
Touch screen the most according to claim 1 remotely monitors fault diagnosis system, it is characterised in that: described server end sets
Faulty diagnostic data base, described Fault Diagnosis Database is provided with failure information database and matches with described fault message
Solution data base, the state parameter that described touch screen control module is sent by described server end and described fault message number
Show according to the fault data in storehouse and mate, and corresponding solution is sent to the visitor being remotely connected with described server end
On the terminal display of family;Described Fault Diagnosis Database is a dynamic data base, and described Fault Diagnosis Database is to fault data
Performance carries out recording and being stored in the failure information database of described Fault Diagnosis Database, stores the solution matched simultaneously
To solution data base, described dynamic data base is in use extended, and constitutes one and has Self-learning Model
Dynamic data base.
4. touch screen remotely monitors method for diagnosing faults, and including a touch screen main body, described touch screen main body includes a touch screen
Control module, described touch screen control module connects a communication interface, and described touch screen main body controls mould by described touch screen
The communication interface of block connects one for the server end remotely monitored, it is characterised in that: comprise the following steps:
The first step: described touch screen control module starts described touch screen main body;
Second step: described touch screen control module includes launching fluorescent tube and receiving the performance shape of fluorescent tube of a detection touch screen main body
The fluorescent tube self-check program of state, described touch screen main body runs described fluorescent tube self-check program;
3rd step: the test data of described fluorescent tube self-check program are sent to use by described touch screen control module by communication interface
Described server end in remotely monitoring;
4th step: described server end judges the fault data performance of described touch screen main body, and by corresponding solution party's crime
Deliver in the client terminal display that is remotely connected with server end;
Described touch screen control module includes that a microprocessor system, described microprocessor system are provided with described fluorescent tube certainly
Inspection program, described fluorescent tube self-check program is provided with a decision rule, and described decision rule is tested according to described fluorescent tube detection module
The performance state of described transmitting fluorescent tube and reception fluorescent tube is divided into reasonable working range, critical working range, does not conforms to by state parameter
Reason working range, described microprocessor system judges to launch fluorescent tube and receive fluorescent tube to be in reasonable work according to described decision rule
When making scope, critical working range, unreasonable working range, by described touch screen control module, the state parameter of test is passed
Deliver to described server end;
Described fluorescent tube self-check program comprises the following steps:
The first step: revise the off-axis number launching fluorescent tube of described touch screen main body, gathered by described fluorescent tube detection module described
Launch the light intensity parameter receiving fluorescent tube that fluorescent tube is corresponding, by the light intensity parameter of described reception fluorescent tube and described decision rule
Compare, within determining whether the performance state of described transmitting fluorescent tube is in rational working range on geometrical axis;
Second step: revise the off-axis number receiving fluorescent tube of described touch screen main body, gathered by described fluorescent tube detection module described
Receive the light intensity parameter of fluorescent tube, the light intensity parameter of described reception fluorescent tube is compared with described decision rule, determines institute
State receive fluorescent tube performance state on geometrical axis, whether be in rational working range within;
3rd step: preserve described transmitting fluorescent tube, the light intensity parameter of reception fluorescent tube;
4th step: respectively to described transmitting fluorescent tube and described reception fluorescent tube off-axis several under light intensity parameter carry out the number of time shaft
According to the state parameter after Digital Filter Analysis, word Filtering Analysis, judges whether its performance on a timeline is in reasonably
Duty.
Touch screen the most according to claim 4 remotely monitors method for diagnosing faults, it is characterised in that:
Described touch screen control module is also connected with a fluorescent tube detection module, and described fluorescent tube detection module tests described touch screen main body
Launch fluorescent tube and receive the state parameter of fluorescent tube, and the state parameter of test is sent to described touch screen control module;
Described fluorescent tube detection module includes a light intensity sensing device, and described fluorescent tube detection module tests described touch screen main body
Launch fluorescent tube and receive the light intensity parameter of fluorescent tube, and the light intensity parameter of test is sent to described touch screen control module.
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CN106231298B (en) * | 2016-10-09 | 2018-03-13 | 大道网络(上海)股份有限公司 | Giant-screen remotely intelligently monitoring method, apparatus and system |
CN108280001A (en) * | 2017-12-29 | 2018-07-13 | 深圳市艾特智能科技有限公司 | Parameter testing method, system, control terminal, test terminal and terminal device |
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