CN103763757A - Method for rapid networking based on internet-of-thing embedded type Wi-Fi module - Google Patents

Abstract

The invention discloses a method for rapid networking based on an internet-of-thing embedded type Wi-Fi module. According to the method, rapid configuration is conducted on a Wi-Fi module which does not have access to a network through a mobile phone APP or Wi-Fi interfaces of other network devices. According to the method, the method that a Wi-Fi air interface is monitored is adopted and specific coding is conducted on content needing to be transmitted so that a specific code can be identified from the monitored air interface by the Wi-Fi module, a corresponding transmission code can be analyzed, and therefore the embedded-type Wi-Fi module is configured to achieve rapid networking. According to the specific code, transmitted data can be prevented from being influenced by the fact whether a router is encrypted or not. The characteristics of transmission time, data length and Wi-Fi physical layer information are comprehensively utilized through the coding method so that the accuracy of the transmitted data can be guaranteed. The method can easily and rapidly configure the internet-of-thing embedded type Wi-Fi module and the networking complexity of the embedded type Wi-Fi module is greatly reduced.

Description

A kind of quick networking method based on the embedded Wi-Fi module of Internet of Things

Technical field

The present invention relates to a kind of networking method, particularly a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things fast.

Background technology

Internet of Things revolution makes more new equipment be able to wireless mode and is connected to family expenses networking and high in the clouds.But for great majority, there is no these terminal equipments of keyboard or touch-screen, and as household appliances, lamp, thermostat, treadmill, the equipment such as electronic scale, how making it successfully be connected to Wi-Fi network is but to hinder it to become the huge obstacle that widespread deployment connects homebrew.Be operated in these products under wireless base station (STA) pattern, want successfully accessing Internet network, must first complete network configuration process, this comprises the wireless router that selecting properly is to be accessed, set cipher mode and cryptographic algorithm, then input correct password, finally ability access network, passage connects.These layoutprocedures are for computer, even it is not a process simply that mobile phones etc. provide the equipment at rich interactive interface, needing operating personnel to have certain radio network technique background just can realize, for great majority, there is no the internet of things equipment of keyboard or touch-screen, user is not having operation interface, lack in the situation of enough feedback mechanisms and diagnosis way, the configuration that has wanted these parameters is really very difficult.And a big chunk consumer group of Internet of Things housed device does not still have old man and the children of radio network technique background knowledge.

Summary of the invention

For the deficiency of existing Wi-Fi networking technology, the object of this invention is to provide a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things.

A kind of quick networking method based on the embedded Wi-Fi module of Internet of Things in the present invention,

S1: the embedded Wi-Fi module not networking, by monitoring the mode of Wi-Fi air interface, receives data;

S2: the data of receiving are filtered by the time of the Wi-Fi physical layer information of the data that receive, signal strength signal intensity, data length, reception data, according to Data Transport Protocol, according to the length that receives data, converse the ASCII character of real data, thereby avoided going to separate the process of encrypt data;

S3: the valid data that filter out are carried out to encoding and decoding processing, verification correction process, thus obtain correct data message.

In such scheme, in described S1, concrete implementation step is:

S11: scan surrounding router, write down the MAC Address of each router, channel, signal strength signal intensity;

S12: according to the information scanning, switch in these channels, and monitor air interface, receive lead code;

S13: judge whether to receive lead code; As do not receive, turn S12, receive, turn S14;

S14: determine monitor channel, wait for and receive opening code;

S15: judge whether to receive opening code; As do not receive, turn S14, receive, turn S16;

S16: continue to receive data, and judge whether the data of receiving are end code;

S17: judge whether to receive end code; As do not receive, save data also turns S16, receives, turns S18;

S18: receive check code.

In such scheme, in described S2, concrete implementation step is:

S21: judge whether that verification is correct; Verification is incorrect, turns S22; Verification is correct, turns S35;

S35: networked deployment success fast, restarts and connection route device;

S22: judge whether to receive systemic circulation through three times; No, turn S15, be to turn S3.

In such scheme, in described S3, concrete implementation step is:

S31: compare between two error correction;

S32: judge that whether error correction is successful; Error correction success, turns S33, and error correction failure, turns S34;

S33: password repeating data is started to decoding; Turn S35;

S34: error correction failure, prompting restarts;

S35: networked deployment success fast, restarts and connection route device.

In such scheme, the method that described S31 adopts three groups of data that receive to compare is between two carried out error correction.

In such scheme, if there are multiple continuous data in the password receiving in described S31, carry out secondary coding, only remaining two data after coding, coded representation data above, the number of repetition of these data of coded representation below, the method that three group codings that receive are compared is between two carried out error correction.

In such scheme, described Data Transport Protocol comprises: the process of data preamble transmission, opening code transmission, cipher text, end code transmission, check code transmission.

In such scheme, after described data preamble finishes, all data all send with certain interval.

In such scheme, the described time interval is 50ms.

Advantage of the present invention and beneficial effect are: the invention provides a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things.The present invention compared with prior art, has the following advantages and beneficial effect:

1, quick networking method of the present invention, has any radio network technique background without operator, just can realize Wi-Fi module and correctly be connected into any previously selected wireless router with STA pattern, realizes a step online.

2, quick networking method of the present invention, without intelligent terminal, revise the operation of connection route device, can be connected on original router always, just can be configured Wi-Fi module, the complexity that has greatly reduced the configuration step of Wi-Fi and reduced the uncertain of layoutprocedure and configured.

3, quick networking method of the present invention, can utilize the mode of the most general udp broadcast, without distinguishing intelligent terminal, is Android system or iOS system or other network equipment.

4, quick networking method of the present invention, provides a kind of agreement of quick networked deployment, has defined: the transfer of data flow process of lead code → opening code → cipher text → end code → check code, and except anterior layer code, the repeatedly flow process of systemic circulation transmission.

5, quick networking method of the present invention, has defined the method that adopts the misdata to repeatedly receiving to compare between two error correction, to improve its accuracy.Repeating data in password is encoded again, thereby avoid comparing between two the limitation of error correction method.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is principle schematic of the present invention;

Fig. 2 is specific embodiment of the invention block diagram;

Fig. 3 is the error correction method schematic diagram contrasting between two.

Embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is further described.Following examples are only for technical scheme of the present invention is more clearly described, and can not limit the scope of the invention with this.

As shown in Figure 1, the present invention is a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things, and concrete steps are:

S1: the embedded Wi-Fi module not networking, by monitoring the mode of Wi-Fi air interface, receives data;

S2: the data of receiving are filtered by the time of the Wi-Fi physical layer information of the data that receive, signal strength signal intensity, data length, reception data, according to Data Transport Protocol, according to the length that receives data, converse the ASCII character of real data, thereby avoided going to separate the process of encrypt data;

S3: the valid data that filter out are carried out to encoding and decoding processing, verification correction process, thus obtain correct data message.

As shown in Figure 2, in such scheme, in S1, concrete implementation step is:

S11: scan surrounding router, write down the MAC Address of each router, channel, signal strength signal intensity;

S12: according to the information scanning, switch in these channels, and monitor air interface, receive lead code;

S13: judge whether to receive lead code; As do not receive, turn S12, receive, turn S14;

S14: determine monitor channel, wait for and receive opening code;

S15: judge whether to receive opening code; As do not receive, turn S14, receive, turn S16;

S16: continue to receive data, and judge whether the data of receiving are end code;

S17: judge whether to receive end code; As do not receive, save data also turns S16, receives, turns S18;

S18: receive check code.

In such scheme, in S2, concrete implementation step is:

S21: judge whether that verification is correct; Verification is incorrect, turns S22; Verification is correct, turns S35;

S35: networked deployment success fast, restarts and connection route device;

S22: judge whether to receive systemic circulation through three times; No, turn S15, be to turn S3.

In such scheme, in S3, concrete implementation step is:

S31: compare between two error correction;

S32: judge that whether error correction is successful; Error correction success, turns S33, and error correction failure, turns S34;

S33: password repeating data is started to decoding; Turn S35;

S34: error correction failure, prompting restarts;

S35: networked deployment success fast, restarts and connection route device.

Wherein, the method that S31 adopts three groups of data that receive to compare is between two carried out error correction; If there are multiple continuous data in the password receiving in S31, carry out secondary coding, only remaining two data after coding, coded representation data above, the number of repetition of these data of coded representation below, the method that three group codings that receive are compared is between two carried out error correction.

Data Transport Protocol comprises: the process of data preamble transmission, opening code transmission, cipher text, end code transmission, check code transmission.After data preamble finishes, all data all send with certain interval, and the time interval can be set as 50ms.

The present invention has adopted the mode of monitoring Wi-Fi air interface to receive data, but the data of receiving in general air interface are all Wi-Fi signals in this wireless space, how to differentiate whether the data that receive are valid data, this is the problem that needs solve.

First, embedded Wi-Fi block search Wi-Fi signal around, determines around and has which router, respectively in which channel.Then enter and monitor Wi-Fi air interface state, and constantly in those several channels, switch back and forth, whether search has mobile phone A PP sending data message.The packet that the mode of now mobile phone A PP employing udp broadcast constantly sends regular length is as lead code, when embedded Wi-Fi module is received the packet of this length continuously several times, and the information such as binding signal intensity, determine that the data that this mobile phone A PP sends out are active data.Wi-Fi module is according to the Wi-Fi physical layer information of the data that receive, can obtain the MAC Address of the router mac address that will connect, cipher mode, mobile phone, records these data and prepares for receiving code data.In addition the length of lead code selects there be certain being particular about, should be not oversize to reduce the processing time of module to packet, should be too not short, and to avoid other udp broadcast bag that may occur in Wi-Fi network.So just solved the problem of just now mentioning.

The Wi-Fi module not networking cannot send confirmation data, so this communication modes is one-way communication mode, the data accuracy problem so how solving in folk prescription communication modes is also a difficult point.In conjunction with information such as the route-map just now obtaining, mobile phone MAC Address, signal strength signal intensities, embedded Wi-Fi module waits for that mobile phone A PP sends data initial code, then receives data text, finally receives end code and check code.Receiving after all data, whether the data that Wi-Fi module first receives with check code verification are correct, if correct, password transmission success; If incorrect, repeat this step and repeatedly receive, if repeatedly reception is all incorrect, the data that repeatedly receive are carried out to error correction by the mode comparing between two, if error correction result is consistent with check code, password transmission success.In this step, the feature of makeing mistakes of this data communication method is analyzed, determined a kind of reliable error correcting system, thereby the success rate of password transmission is reached more than 95%, even if also can reach such success rate in very complicated Wi-Fi environment.

Because data content is routed device encryption in transmitting procedure, so can't see actual data content, it in agreement, is the content of data length being encoded to represent different data, wherein opening code, end code and check code all repeatedly transmit, to guarantee that Wi-Fi module can correctly receive, check code generates according to the length of cipher text.Except data preamble, other data are all pressed " opening code → cipher text → end code → check code " such systemic circulation and are repeatedly sent, so that Wi-Fi module is carried out data redundancy error correction.If the data that Wi-Fi module repeatedly receives are not all mated with check code, can compare between two error correction to the multi-group data receiving, to improve the accuracy of transfer of data.

The feature that in the method, data are made mistakes is mainly loses data, and does not understand the data of receiving more.So can adopt the method that multi-group data is compared between two, carry out error correction.Error correction method is as follows:

If correct data is " 012345678 ", and 2 secondary data of receiving are respectively " 01235678 " and " 01234567 ", two secondary data are all wrong, but wrong place difference.The feature of makeing mistakes according to the method data is for losing data, but not the data of receiving more, so in fact can carry out error correction by the comparison of these 2 groups of data, see that first group of data is between " 3 " and " 5 ", to lose a data " 4 ", second group of data is that " 7 " lose " 8 " below.Data after error correction can be by the check of verification, so data are correct.The concrete principle of error correction is as shown in Figure 3:

First, by matrix of the relatively generation to 2 groups of misdata, data coexist mutually in matrix and are designated as " 1 ", and difference is designated as " 0 ".If 2 groups of data are equal, diagonal should be all " 1 ", if certain position of diagonal is not " 1 ", illustrates that this place is wrong, as above schemes sign place, and a password is lost " 3 ", and another password is lost " 8 ".If just can make diagonal angle after recovering is all " 1 ", that is to say error correction success.If the data after error correction can be by the check of check code, this data transfer success.The method that three groups of data are compared is between two carried out error correction and can greatly be improved success rate.

The previously described error correction method of comparing between two has a defect, if there are multiple continuous data in password exactly, as: " 11111111 ", such password.Error correction will lose efficacy.For such situation, this method has defined encodes again to data.If run into the same continuously data, the previous data that are encoded to itself, the number of repetition certificate of rear these data of coding.If code data is above after this coding: " 1 " " 5 ", indicate 5 " 1 ".Wherein 2 encoding domains separate, in order to avoid cause discrimination meaning.So just can realize simple and quick networking, and the data security obtaining is reliable.

The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (9)

1. the quick networking method based on the embedded Wi-Fi module of Internet of Things, is characterized in that,

S1: the embedded Wi-Fi module not networking, by monitoring the mode of Wi-Fi air interface, receives data;

S2: the data of receiving are filtered by the time of the Wi-Fi physical layer information of the data that receive, signal strength signal intensity, data length, reception data, according to Data Transport Protocol, according to the length that receives data, converse the ASCII character of real data, thereby avoided going to separate the process of encrypt data;

S3: the valid data that filter out are carried out to encoding and decoding processing, verification correction process, thus obtain correct data message.

2. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 1, is characterized in that, in described S1, concrete implementation step is:

S11: scan surrounding router, write down the MAC Address of each router, channel, signal strength signal intensity;

S12: according to the information scanning, switch in these channels, and monitor air interface, receive lead code;

S13: judge whether to receive lead code; As do not receive, turn S12, receive, turn S14;

S14: determine monitor channel, wait for and receive opening code;

S15: judge whether to receive opening code; As do not receive, turn S14, receive, turn S16;

S16: continue to receive data, and judge whether the data of receiving are end code;

S17: judge whether to receive end code; As do not receive, save data also turns S16, receives, turns S18;

S18: receive check code.

3. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 2, is characterized in that, in described S2, concrete implementation step is:

S21: judge whether that verification is correct; Verification is incorrect, turns S22; Verification is correct, turns S35;

S35: networked deployment success fast, restarts and connection route device;

S22: judge whether to receive systemic circulation through three times; No, turn S15, be to turn S3.

4. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 3, is characterized in that, in described S3, concrete implementation step is:

S31: compare between two error correction;

S32: judge that whether error correction is successful; Error correction success, turns S33, and error correction failure, turns S34;

S33: password repeating data is started to decoding; Turn S35;

S34: error correction failure, prompting restarts;

S35: networked deployment success fast, restarts and connection route device.

5. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 4, is characterized in that, the method that described S31 adopts three groups of data that receive to compare is between two carried out error correction.

6. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 4, it is characterized in that, if there are multiple continuous data in the password receiving in described S31, carry out secondary coding, only remaining two data after coding, coded representation data above, the number of repetition of these data of coded representation below, the method that three group codings that receive are compared is between two carried out error correction.

7. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 1, it is characterized in that, described Data Transport Protocol comprises: the process of data preamble transmission, opening code transmission, cipher text, end code transmission, check code transmission.

8. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 7, is characterized in that, after described data preamble finishes, all data all send with certain interval.

9. a kind of quick networking method based on the embedded Wi-Fi module of Internet of Things according to claim 8, is characterized in that, the described time interval is 50ms.

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