CN104735702A - Wireless network automatic connection test method and system thereof - Google Patents

Wireless network automatic connection test method and system thereof Download PDF

Info

Publication number
CN104735702A
CN104735702A CN201510176997.0A CN201510176997A CN104735702A CN 104735702 A CN104735702 A CN 104735702A CN 201510176997 A CN201510176997 A CN 201510176997A CN 104735702 A CN104735702 A CN 104735702A
Authority
CN
China
Prior art keywords
determinand
server
test
line information
induction medium
Prior art date
Application number
CN201510176997.0A
Other languages
Chinese (zh)
Inventor
费钟琥
Original Assignee
环旭电子股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 环旭电子股份有限公司 filed Critical 环旭电子股份有限公司
Priority to CN201510176997.0A priority Critical patent/CN104735702A/en
Publication of CN104735702A publication Critical patent/CN104735702A/en

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/02Arrangements for optimising operational condition

Abstract

The invention provides a wireless network automatic connection test method and a system thereof. By means of the inductive coupling technology of electromagnetic field, analyte online data can be acquired automatically, manual setting is omitted, and the wireless communication and post testing programs can be operated. The method includes operating a server to wait for online operation; providing and allowing inductive medium to be close to the analyte in a non-contact manner, and prewriting the online information of the server to the inductive medium; by establishing one online program, allowing the analyte to acquire the online information written in the inductive medium, and calling the server for online operation according to the online information; establishing an information transmission channel between the server and the analyte.

Description

The automatic connecting test method of wireless network and system thereof

Technical field

The present invention relates to a kind of wireless network connecting test, particularly relate to the system of a kind of automatic connecting test method of wireless network and execution the method.

Background technology

Along with the production of electronic product and growing with each passing hour of additional function, production line is equipped with testing station, can detect or verify electronic product, to guarantee that it produces yield and quality.Refer to Fig. 1, it is the first conventional detection mode, and product 3a to be measured is by USB connecting line 2a and main frame 1a substantial exposure, and product 3a to be measured is connected with between main frame 1a, and main frame 1a carries out various test to product 3a to be measured thus.The plug of USB connecting line 2a, the search of main frame 1a product 3a to be measured confirming, and operating personnel must repeat aforementioned activities and testing procedure thereof at every turn, obviously consuming timely take a lot of work, and also takies working space.

For this reason, the second conventional detection mode, as Fig. 2, for reducing working space, and replace USB connection with Radio Transmission Technology, namely, main frame 1b and article 3b to be measured are respectively equipped with radio transmission elements 12b, 32b, and two radio transmission elements 12b, 32b can wireless transmission each other.But operating personnel still needs to be repeated on setting WIFI information on article 3b to be measured at every turn, although working space and detection tool reduce, the artificial WIFI of setting information still unavoidably produces the situation setting mistake, and does not therefore reduce in operation manpower and man-hour.

For this reason, industry develops various radio test method one after another, but all concentrate on wireless connections complete after test program process.Such as, Fig. 3 is that Taiwan patent of invention discloses No. 200705886, it proposes a kind of wireless detecting system, wherein, wireless detection device/probe 72c can carry out wireless transmission with memory cell (terminal installation) 74c, server 80c and analyzer/collection device 55c and base station/frequency hopper/repeater 53c, by being equipped with a wireless transceiver 78c on such devices, and carry out data monitoring, analysis, report etc.But this prior art does not provide about how to determine wireless transmission method, setting and reduction how to shorten wireless messages artificially set the miss produced.

And for example, Fig. 4 is that Chinese invention patent announces No. 101287266B, it proposes a kind of mobile phone detection system, also lays particular emphasis between multiple mobile phone to be measured and test terminal machine 301d after all built vertical wireless transmission, and test terminal machine 301d sequentially can carry out test instruction to multiple mobile phone to be measured.Same, this prior art is not addressed the setting-up time of any shortening wireless messages or is reduced the solution artificially setting the mistake produced.

Summary of the invention

For solving the defects such as aforementioned prior art, the invention provides a kind of automatic connecting test method of wireless network, it utilizes the inductively technology of electromagnetic field, determinand is made automatically to obtain on line data, need not by artificial setting, and by line data directly and server reach wireless telecommunications, thus carry out follow-up trace routine.Therefore, avoid manual tool or artificial setting derive consuming timely take a lot of work or set error etc., and then avoid setting risk, reduce work hours, raise the efficiency.

In addition, the automatic connecting test method of wireless network provided by the present invention, after determinand is automatic and server reaches wireless telecommunications, directly can carries out subsequent detection program, need not stop last program.Therefore, network further increases detection efficiency from being dynamically connected with the combination of test program.

In addition, the automatic connecting test method of wireless network provided by the present invention is near field wireless telecommunications (the Near Field Communication utilizing electromagnetic field inducing to be coupled, hereinafter referred to as " NFC ") technology, make induction medium near the determinand being preset with NFC element, then on-line information can automatic transmission to this determinand, this determinand thus reach wireless telecommunications with server.The present invention need not additional device or main frame, can reach aforementioned object and effect.

For this reason, the invention provides a kind of automatic connecting test method of wireless network, it is online to wait for that it at least comprises the steps: to start server; Induction medium is provided and makes mode that this induction medium contacts with insubstantial close to determinand, wherein, the on-line information of pre-write server in this induction medium; Set up on-line program by one, make determinand obtain in order to the mode be coupled with electromagnetic field inducing in be built in the on-line information of induction medium, and carry out online according to this on-line information call server; And information transfer channel is set up between server and determinand.

Wherein, this is set up on-line program and comprises: (a) this determinand sets up a certain electric magnetic field, and provides an initial command by this certain electric magnetic field; B (), by this induction medium inductively this certain electric magnetic field, to initial command providing an acknowledgement command, wherein this acknowledgement command at least comprises this on-line information; And (c) makes this determinand be read this acknowledgement command by this certain electric magnetic field and be stored on-line information.

In addition, this step setting up the another kind of executive mode of on-line program comprises: (a) this induction medium sets up a certain electric magnetic field, and provides an initial command by this certain electric magnetic field, and wherein this initial command at least comprises this on-line information; B (), by this determinand inductively this certain electric magnetic field, this determinand obtains this initial command; And (c) makes this determinand accept to write this on-line information by this induction medium.

For this reason, the invention provides the automatic connecting test system of a kind of wireless network, it includes a server, induction medium and a determinand; This server has one first non-near field wireless telecommunications element; Be provided with an on-line information in this induction medium and there is one first near field wireless telecommunications element; This determinand has one second near field wireless telecommunications element and one second non-near field wireless telecommunications element; Wherein, the first near-field communication element of this induction medium inductively goes out a certain electric magnetic field with the second near-field communication element of this determinand in the mode that insubstantial contacts; This determinand obtains the on-line information of this induction medium by this certain electric magnetic field; Second non-near field wireless telecommunications element of this determinand according to this on-line information, and reaches wireless telecommunications between first of server the non-near field wireless telecommunications element; This server detects determinand by this.

Accompanying drawing explanation

Fig. 1 is the system schematic of the first prior art;

Fig. 2 is the system schematic of the second prior art;

Fig. 3 is the system schematic of the 3rd prior art;

Fig. 4 is the system block diagrams of the 4th prior art;

Fig. 5 is the system diagram of the automatic connecting test system of wireless network of the present invention;

Fig. 6 is the near field induction schematic diagram of the automatic connecting test system of wireless network of the present invention;

Fig. 7 is the flow chart of the automatic connecting test method of wireless network of the present invention;

Fig. 8 is the flow chart setting up on-line program of the present invention;

Fig. 9 is that of the present invention another sets up the flow chart of on-line program.

(symbol description)

< prior art >:

3a ... product 2a to be measured ... USB connecting line

1a ... main frame 12b, 32b ... radio transmission elements

72c ... wireless detection device/probe 74c ... memory cell (terminal installation)

80c ... server 55c ... analyzer/collection device

53c ... base station/frequency hopper/repeater 301d ... test terminal machine

< > of the present invention:

10 ... server 12 ... first non-near field wireless telecommunications element

20 ... induction medium 22 ... first near field wireless telecommunications element

30 ... determinand 32 ... second non-near field wireless telecommunications element

34 ... second near field wireless telecommunications element 36 ... lens member

38 ... scanning element D1 ... on-line information

RF ... certain electric magnetic field Oi ... initial command

Os ... acknowledgement command

S100 ... the automatic connecting test method of wireless network

S102, S104, S106, S108, S110, S112, S114 ... step

S200, S300 ... set up on-line program

S202, S204, S206, S208 ... step

S302, S304, S306, S308 ... step

Embodiment

Along with the universal use of mobile device and Wearable device, NFC technique (near field wireless communication technique) is included in the basic outfit of its product by increasing manufacturer one after another, and the present invention utilizes this technology to carry out certainly being dynamically connected of network.

Refer to Fig. 5, it shows the automatic connecting test system of wireless network involved in the present invention, includes server 10, induction medium 20 and determinand 30.

Server 10 has the first non-near field wireless telecommunications element 12, is generally WiFi technology, can sets up a wireless network, the settings such as this wireless network ports having address, IP address, physical address.

An on-line information D1 of this server 10 of pre-write in induction medium 20, this on-line information is the information setting such as port address, IP address, physical address of aforementioned wireless networks.Induction medium 20 is electronic card at the present embodiment, and inside has the first near field wireless telecommunications element 22.

Determinand 30 has the second non-near field wireless telecommunications element 32 and the second near field wireless telecommunications element 34.This second non-near field wireless telecommunications element 32 adopts identical Radio Transmission Technology as WIFI with the first non-near field communication element 12, links up.This second near field wireless telecommunications element 34 adopts identical NFC technique with the first near field wireless telecommunications element 22.

Consult Fig. 6 simultaneously, the mode that first near field wireless telecommunications element 22 of induction medium 20 contacts with insubstantial is close to the second non-near field wireless telecommunications element 32 of determinand 30, it is close to distance by NFC technique institute specification, and the two inductively goes out mutually a certain electric magnetic field RF, to link up.

Due to the communication of NFC technique, passive device collocation active member or active member collocation active member can be adopted.Active member produces micro-electric current and initiatively sets up electromagnetic field, is read or is exported or rewrite the data of counterparty by this electromagnetic field.Passive device is not owing to setting up electromagnetic field, but the electromagnetic field that passive inductively counterparty sets up, only for being read.Therefore, in the present invention, in the second near field wireless telecommunications element 34 and the first near field wireless telecommunications element 22, at least one is active member, to set up certain electric magnetic field RF.

Wherein an execution mode is: the first near field wireless telecommunications element 22 is passive device, is only preset with on-line information D1; Second near field wireless telecommunications element 34 is active member, can set up certain electric magnetic field RF.Therefore, the two mutually inductively after, determinand 30 by this certain electric magnetic field RF obtain default in induction medium 20 on-line information D1.After determinand 30 stores this on-line information D1, second non-near field wireless telecommunications element 32 of this determinand 30 is according to this on-line information D1, and reach the wireless telecommunications of WIFI between first of server 10 the non-near field wireless telecommunications element 12, after device to be serviced 10 and determinand 30 reach wireless telecommunications, server 10 can detect determinand 30 itself or its lens member 36 or scanning element 38.

Another execution mode is: the first near field wireless telecommunications element 22 is active member, is preset with on-line information D1, can also sets up certain electric magnetic field RF.Now, the second near field wireless telecommunications element 34 can be passive device or active member.If the second near field wireless telecommunications element 34 is passive device, then its inductively certain electric magnetic field RF passively, simple the first near-field communication element 22 accepting induction medium 20 writes this on-line information D1; If the second near field wireless telecommunications element 34 is active member, then, except passive write, certain electric magnetic field RF can also be set up, initiatively obtain this on-line information D1, described in the similar leading portion of execution mode to the first near field wireless telecommunications element 22.Both all can reach the state that determinand 30 obtains on-line information D1, and second of determinand 30 the non-near field wireless telecommunications element 32 is according to on-line information D1, after reaching WIFI communication with the first non-near field wireless telecommunications element 12 of server 10, detect this survey thing 30 and lens member 36, scanning element 38 further.

For the present invention can be understood more in detail, please refer to Fig. 7, the invention provides the automatic connecting test method S100 of a kind of wireless network.

When operator is for detecting determinand, preparing at least one determinand 30 simultaneously, starting the wait on-line program (step S102) that server 10 is built-in.

Then, induction medium 20 is provided, the on-line information D1 of this server 10 of pre-write in this induction medium 20, and in the mode of insubstantial contact close to determinand 30 (step S104).

Enter step S106 immediately, start one and set up on-line program, this sets up on-line program by pre-write determinand 30, and is coordinate the NFC technique between determinand 30 and induction medium 20 and write design.Wherein an execution mode is: induction medium 20 is NFC passive device, sets up on-line program S200 by pre-write determinand 30.

Consult Fig. 8 simultaneously, start this and set up on-line program S200, then start the following step.

The the second near field wireless telecommunications element 34 ordering about determinand 30 produces certain electric magnetic field RF, and determinand 30 provides an initial command Oi (step S202) by this certain electric magnetic field RF.

Medium 20 will be responded near determinand 30, distance is enough near to the first near field wireless telecommunications element 22 inductively certain electric magnetic field RF that can make induction medium 20, induction medium 20 provides an acknowledgement command Os to just making order Oi, and this acknowledgement command Os at least will comprise the on-line information D1 (step S204) that can enter server 10.

When second near field wireless telecommunications element 34 of determinand 30 obtains acknowledgement command Os by this certain electric magnetic field RF, first can judge whether this acknowledgement command Os comprises on-line information D1 (step S206).If judged result is "Yes", then enter step S208; If judged result is "No", then get back to step S204.

When determinand 30 confirms that acknowledgement command Os carries on-line information D1, store this on-line information D1 (step 208).

Return the automatic connecting test method S100 of wireless network of Fig. 7.

After being built in the on-line information D1 of induction medium 20 in determinand 30 obtains, according to on-line information D1, the first non-near field communication element 12 (step S106) of its second non-near field wireless telecommunications element 32 call server 10 can be made.

Wait on-line program in server 10 can judge whether determinand 30 successfully sets up on-line information D1 (step S108).If success is online for both, then enter step S110; If both are unsuccessful online, then get back to step S104.

When server 10 and the success of both determinands 30 are online, server 10 opens the information transfer channel between determinand 30, and by this information transfer channel, server 10 pairs of determinands 30 carry out trace routine (step S110).

Afterwards, server 10 has judged whether this trace routine (step S112).If complete trace routine, then enter step S114; If the trace routine of not completing, then get back to step S110.

When entering step S114, represent that server 10 has completed the aforementioned trace routine of carrying out determinand 30, operator can determine whether enter next test.When determining to enter next test, then get back to step S102; Or end step.

Again as shown in Figure 9, Fig. 9 shows another execution mode setting up on-line program of the present invention.Induction medium 20 is NFC active member, sets up on-line program S300 and comprises the following steps.

Induction medium 20 sets up certain electric magnetic field RF, and provides an initial command Oi by this certain electric magnetic field RF, and this initial command Oi at least comprises on-line information D1 (step S302).

To respond to medium 20 near determinand 30, distance is enough near to the second near field wireless telecommunications element 34 inductively this certain electric magnetic field RF that can make determinand 30, and determinand 30 obtains this initial command Oi (step S304).

When second near field wireless telecommunications element 34 of determinand 30 obtains this initial command Oi by this certain electric magnetic field RF, first can judge whether this initial command Oi comprises on-line information D1 (step S306).If judged result is "Yes", then enter step S308; If judged result is "No", then get back to step S304.

When determinand 30 confirms that this initial command Oi carries on-line information D1, the second near field wireless telecommunications element 34 of determinand 30 is made to accept to write this on-line information D1 (step S308) by the first near field wireless telecommunications element 22 of induction medium 20.

Therefore, the present invention is in conjunction with a kind of near field wireless telecommunications (NFC) technology, by the interelement electromagnetic field inducing coupling of two NFC, make to be provided with between the determinand 30 of NFC element and induction medium 20 and can automatically exchange on-line information D1, need not by the artificial setting of operator, eliminate the installing of tool, artificial data inputs etc. are consuming time the process such as to take a lot of work, only need induction medium 20 near determinand 30, the NFC specification that proximity distance is then followed jointly depending on both, thus, determinand 30 obtains and stores on-line information D1, and directly and server 10 reach another wireless telecommunications, as WIFI.Determine between determinand 30 and server 10 to set up online after, then open an information transfer channel in addition, thus be convenient to carry out follow-up trace routine between server 10 and determinand 30.

In addition, induction medium 20 can make any form, as light, thin in hand-holdable formula device, card, token etc. and portable object morphology, and the illustrated induction medium 20 of the present invention be simple signal, and the mode of appearance responding to medium 20 is not limited.Therefore, be convenient to operator and take, operate, also do not account for working space.

The present invention can be applied at least one determinand, operator makes multiple determinand 30 obtain on-line information D1 with at least one induction medium 20, after these determinands 30 reach the object of wireless telecommunications with server 10 respectively, then why, how subsequent detection program detects and how to have order or detect efficiently, and non-invention asked.Therefore, it is possible to avoid manual tool or artificial setting derive consuming timely take a lot of work or set error etc., and then can avoid setting risk, reduce work hours, raise the efficiency.

In addition, the present invention makes determinand 30 automatically and after server 10 reaches wireless telecommunications, directly can carry out subsequent detection program, need not stop last program in same program.Network is from being dynamically connected and the combination of trace routine thus, can reduce detection time further, improve detection efficiency.

In addition, utilize the NFC technique that determinand is built-in, need not additionally increase any communication element, checkout gear or main frame, aforementioned object and effect can be reached.

In addition, the present invention and specific embodiment thereof are not limited to above-mentioned illustration, and its concept can be made and being substituted or conversion under the concept and category of claim.

Claims (10)

1. the automatic connecting test method of wireless network, is characterized in that, comprising:
Start server online to wait for;
Induction medium is provided and makes mode that this induction medium contacts with insubstantial close to determinand, wherein, the on-line information of server described in pre-write in described induction medium;
Set up on-line program by one, make described determinand obtain in order to the mode be coupled with electromagnetic field inducing in be built in the described on-line information of described induction medium, and call out described server according to described on-line information and carry out online; And
Information transfer channel is set up between described server and described determinand.
2. the automatic connecting test method of wireless network as claimed in claim 1, is characterized in that,
Described on-line program of setting up comprises:
A () described determinand sets up a certain electric magnetic field, and provide an initial command by this certain electric magnetic field;
B (), by described induction medium inductively described certain electric magnetic field, corresponding described initial command provides an acknowledgement command, and wherein this acknowledgement command at least comprises described on-line information; And
C () makes described determinand read described acknowledgement command by described certain electric magnetic field and store described on-line information.
3. the automatic connecting test method of wireless network as claimed in claim 1, is characterized in that,
Described on-line program of setting up comprises:
A () described induction medium sets up a certain electric magnetic field, and provide an initial command by this certain electric magnetic field, and wherein this initial command at least comprises described on-line information;
B (), by described determinand inductively described certain electric magnetic field, described determinand obtains described initial command; And
C () makes described determinand accept to write described on-line information by described induction medium.
4. the automatic connecting test method of the wireless network according to any one of claims 1 to 3, is characterized in that,
After described server and described determinand set up described information transfer channel, described server detects described determinand.
5. the automatic connecting test method of wireless network as claimed in claim 4, is characterized in that,
Described server judges whether described determinand successfully sets up on-line information before detecting described determinand.
6. the automatic connecting test method of wireless network as claimed in claim 4, is characterized in that,
After described server detects described determinand, described server has judged whether trace routine.
7. the automatic connecting test method of wireless network as claimed in claim 4, is characterized in that,
After described server detects described determinand, judge whether to enter next test.
8. the automatic connecting test method of wireless network as claimed in claim 2, is characterized in that,
Set up taking a step forward of on-line program (c) comprise described: confirm whether described acknowledgement command comprises described on-line information by described determinand.
9. the automatic connecting test method of wireless network as claimed in claim 3, is characterized in that,
Set up taking a step forward of on-line program (c) comprise described: confirm whether described initial command comprises described on-line information by described determinand.
10. the automatic connecting test system of wireless network, is characterized in that, comprising:
Server, it has the first non-near field wireless telecommunications element;
Induction medium, is provided with on-line information in it, and has the first near field wireless telecommunications element; And
Determinand, it has the second near field wireless telecommunications element and the second non-near field wireless telecommunications element;
Wherein, the described first near-field communication element of described induction medium inductively goes out a certain electric magnetic field with the described second near-field communication element of described determinand in the mode that insubstantial contacts; Described determinand obtains the described on-line information of described induction medium by described certain electric magnetic field; The described second non-near field wireless telecommunications element of described determinand according to described on-line information, and reaches wireless telecommunications between the described first non-near field wireless telecommunications element of described server.
CN201510176997.0A 2015-04-15 2015-04-15 Wireless network automatic connection test method and system thereof CN104735702A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201510176997.0A CN104735702A (en) 2015-04-15 2015-04-15 Wireless network automatic connection test method and system thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201510176997.0A CN104735702A (en) 2015-04-15 2015-04-15 Wireless network automatic connection test method and system thereof

Publications (1)

Publication Number Publication Date
CN104735702A true CN104735702A (en) 2015-06-24

Family

ID=53459040

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201510176997.0A CN104735702A (en) 2015-04-15 2015-04-15 Wireless network automatic connection test method and system thereof

Country Status (1)

Country Link
CN (1) CN104735702A (en)

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101287266A (en) * 2008-05-30 2008-10-15 德信无线通讯科技(北京)有限公司 Test system and method for mobile phone
CN102647746A (en) * 2011-02-22 2012-08-22 鸿富锦精密工业(深圳)有限公司 Automated testing method of mobile phone
CN102769724A (en) * 2011-05-03 2012-11-07 Lg电子株式会社 Electronic device and method for operating the same
CN103068066A (en) * 2012-12-24 2013-04-24 广东欧珀移动通信有限公司 Intelligent mobile communication terminal and wireless network access method and system thereof
CN103188824A (en) * 2011-12-28 2013-07-03 三星电子株式会社 Network system of home appliance and network setup method of the same
CN103312850A (en) * 2013-05-10 2013-09-18 江苏科技大学 Mobile phone automation testing system and work method
CN103716911A (en) * 2014-01-02 2014-04-09 福建星网锐捷通讯股份有限公司 Method, device and system for configuring wireless terminal

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101287266A (en) * 2008-05-30 2008-10-15 德信无线通讯科技(北京)有限公司 Test system and method for mobile phone
CN102647746A (en) * 2011-02-22 2012-08-22 鸿富锦精密工业(深圳)有限公司 Automated testing method of mobile phone
CN102769724A (en) * 2011-05-03 2012-11-07 Lg电子株式会社 Electronic device and method for operating the same
CN103188824A (en) * 2011-12-28 2013-07-03 三星电子株式会社 Network system of home appliance and network setup method of the same
CN103068066A (en) * 2012-12-24 2013-04-24 广东欧珀移动通信有限公司 Intelligent mobile communication terminal and wireless network access method and system thereof
CN103312850A (en) * 2013-05-10 2013-09-18 江苏科技大学 Mobile phone automation testing system and work method
CN103716911A (en) * 2014-01-02 2014-04-09 福建星网锐捷通讯股份有限公司 Method, device and system for configuring wireless terminal

Similar Documents

Publication Publication Date Title
CN102860117B (en) Communication system, communication terminal, communication equipment, communication control method
KR101357857B1 (en) Apparatus and method for bluetooth connection in portable terminal
JP3651850B2 (en) Mobile communication terminal test equipment
CN105375994B (en) A kind of method and system of mobile terminal antenna test
CN103327644B (en) A kind of method and apparatus of wireless connections
KR20150014317A (en) Image forming apparatus and mobile device for performing wireless configuration using near field communication
CN102781019A (en) System and method for automatically testing wireless fidelity (WIFI) module
CN101848042B (en) Method and system for testing radio frequency of mobile phones
KR100848139B1 (en) Automatic Network Configuration Setup Apparatus and Method between Adjacent Short-Range Wireless Terminals
TWI539858B (en) Method for processing network connection with an electronic device and the electronic device
CN103312852B (en) A kind of mobile terminal electric current automatic test device and method of testing thereof
CN105226779B (en) Wireless charging device and its control method and control device
CN102421132B (en) Test system, test equipment and test method for mobile terminal
CN101387680B (en) Multi-mould radio installation electromagnetical disturbance test system
CN102684784B (en) Jumper fiber connection detection method and jumper fiber connection detection device
CN101545191B (en) Washing machine with function of Bluetooth communication and communication working method
CN104469886A (en) Intelligent equipment and method and device for rapidly connecting intelligent equipment into wireless network access equipment
CN102523052B (en) Testing method and testing device
CN103501505A (en) System capable of automatically testing WIFI module on Android device
CN106253974A (en) System and method for the physical parameter of certification communication link
CN102739570B (en) Method for opening home gateway through wireless fidelity (WiFi) of smart phone
CN105744466A (en) Bluetooth equipment connection method and Bluetooth equipment
CN105974211A (en) Method and device for testing equipment antenna
CN104392500A (en) Checking-in method
US20130254686A1 (en) Auto-generation of user interface by mobile terminal and equipment control system using same

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
WD01 Invention patent application deemed withdrawn after publication
WD01 Invention patent application deemed withdrawn after publication

Application publication date: 20150624