CN110062403A - Message processing method, device, equipment and storage medium - Google Patents

Abstract

The disclosure provides a kind of message processing method, device, equipment and storage medium, is related to field of communication technology.The described method includes: receiving the verifying message that the signal receiver to be verified being deployed on programme path is sent, according to attribute information, first movement data, timestamp and preset moving parameter that verifying message includes, verify in signal receiver to be verified with the presence or absence of abnormal signal receiver；There will be no the first identifiers of abnormal signal receiver and its location information on programme path to be bound；Wherein, first movement data generate during mobile on programme path by intelligent terminal according to the verifying sequence of signal receiver to be verified.Technical solution in the disclosure, is greatly improved verification efficiency；Meanwhile when the quantity of signal receiver is more, effectively avoid because each signal receiver identify it is more close, and caused by bind the problem of mistake, improve binding efficiency and accuracy rate.

Description

Message processing method, device, equipment and storage medium

Technical field

This disclosure relates to field of communication technology more particularly to a kind of message processing method, device, equipment and storage medium.

Background technique

Current many gardens, which position relevant solution, can all use many signal receivers, here with ordinary higher learning school Location requirement for: ordinary higher learning school is for intelligentized demand, it is desirable to by technology of Internet of things, pass in and out school to student, attend class It enlivens situation, health condition, security situation, positioning scenarios etc. and carries out information system management.In most Internet of Things campus solution party In case, each student and teacher can carry a terminal (such as bracelet, school badge, student's identity card) with internet of things functional, each Classroom can all dispose the signal receiver of a reception terminal signaling, other regions such as playground etc. can also dispose several signals and connect Receive device.In one medium-sized or Large-scale Campus environment, it will in many region (especially classroom) deployment signal receivers, when When needing to use positioning function, the corresponding region that is tied to signal receiver by administrative staff in corresponding map.

Summary of the invention

In view of this, the disclosure provides a kind of message processing method, device, equipment and storage medium, it is intended to promotion signal The verification efficiency of receiver.

To achieve the above object, disclosure first aspect provides a kind of message processing method, is applied to server-side, comprising:

Receive the verifying message that the signal receiver to be verified being deployed on programme path is sent, the verifying message packet The attribute information of the signal receiver to be verified, the timestamp of first movement data, the first movement data are included, it is described First movement data, according to the verifying sequence of the signal receiver to be verified, are moved up by intelligent terminal in the programme path It is generated in dynamic process；

According to the attribute information, the first movement data, the timestamp and preset moving parameter, described in verifying With the presence or absence of abnormal signal receiver in signal receiver to be verified；

There will be no the first identifiers of abnormal signal receiver and its location information progress on the programme path Binding.

To achieve the above object, disclosure second aspect provides a kind of message process device, comprising:

Receiving unit, the verifying message sent for receiving the signal receiver to be verified being deployed on programme path, The verifying message includes the attribute information of the signal receiver to be verified, and intelligent terminal is according to the signal to be verified The verifying sequence of receiver, first movement data during mobile on the programme path, the first movement data Timestamp；

Authentication unit, for according to the attribute information, the first movement data, the timestamp and preset movement Parameter is verified in the signal receiver to be verified with the presence or absence of abnormal signal receiver；

Binding unit, for there will be no the first identifiers of abnormal signal receiver and the signal that exception is not present Location information of the receiver on the programme path is bound.

To achieve the above object, the disclosure third aspect provides a kind of electronic equipment, comprising: memory and processor；

It is stored with computer program on the memory, when the computer program is executed by the processor, realizes such as Method described in disclosure first aspect.

To achieve the above object, disclosure fourth aspect provides a kind of machine readable storage medium, is stored thereon with calculating Machine program when the computer program is executed by processor, realizes the method as described in disclosure first aspect.

In the technical solution of the disclosure, by receiving the signal receiver transmission to be verified being deployed on programme path Message is verified, according to attribute information, the first movement data, first movement for verifying the signal receiver to be verified that message includes The timestamp of data and preset moving parameter are verified in signal receiver to be verified and are connect with the presence or absence of abnormal signal Device is received, and there will be no the first identifiers of abnormal signal receiver and its location information on programme path to be bound. Wherein first movement data move on programme path by intelligent terminal according to the verifying sequence of signal receiver to be verified During generate.The verification efficiency of signal receiver is improved as a result,；Meanwhile when the quantity of signal receiver is more, have Effect is avoided because each signal receiver identification information is more close, and causes the problem of binding mistake, improves binding efficiency And accuracy rate.

Detailed description of the invention

By reading the following detailed description of the preferred embodiment, various other advantages and benefits are common for this field Technical staff will become clear.The drawings are only for the purpose of illustrating a preferred embodiment, and is not considered as to the disclosure Limitation.And throughout the drawings, the same reference numbers will be used to refer to the same parts.In the accompanying drawings:

Attached drawing 1 is a kind of structural schematic diagram for message handling system that some embodiments of the disclosure provide；

Attached drawing 2 is a kind of flow chart for message processing method that some embodiments of the disclosure provide；

Attached drawing 3 is the refinement figure for the step 102 that some embodiments of the disclosure provide；

Attached drawing 4 is a kind of deployment schematic diagram for signal receiver that some embodiments of the disclosure provide；

Attached drawing 5 is the structural schematic diagram for the message process device that some embodiments of the disclosure provide；

Attached drawing 6 is the structural schematic diagram for a kind of electronic equipment that some embodiments of the disclosure provide.

Specific embodiment

The illustrative embodiments of the disclosure are more fully described below with reference to accompanying drawings.Although showing this public affairs in attached drawing The illustrative embodiments opened, it being understood, however, that may be realized in various forms the disclosure without the reality that should be illustrated here The mode of applying is limited.It is to be able to thoroughly understand the disclosure on the contrary, providing these embodiments, and can be by this public affairs The range opened is fully disclosed to those skilled in the art.

In addition, in the term that the disclosure uses, merely for the sake of for the purpose of describing particular embodiments, rather than this public affairs is limited It opens.The "an" of singular used in the disclosure and claims, " described " and "the" are also intended to including most shapes Formula, unless context clearly shows that other meanings.It is also understood that term "and/or" used herein refers to comprising one A or multiple associated any or all possible combinations for listing project.It will be appreciated that though may be used in the disclosure Term first, second, third, etc. describes various information, but these information should not necessarily be limited by these terms.These terms are only used to Same type of information is distinguished from each other out.For example, the first information can also be claimed without departing from the scope of this disclosure For the second information, similarly, the second information can also be referred to as the first information.Depending on context, in addition, used word " if " can be construed to " ... when ", alternatively, " when ... when ", alternatively, " in response to determination ".

The disclosure after signal receiver deployment is completed, verifies each signal receiver mainly in the related technology Whether dispose it is correct and with the presence or absence of during exception, usually by verifying personnel successively to the portion of each signal receiver Position is affixed one's name to, carries out on-site verification one by one, verification efficiency is low；And when signal receiver is more, due to the mark of receiver It is all similar to know information, therefore, it is also very numerous that the identification information of each signal receiver, which is carried out binding with location information, Trivial work needs biggish time cost, and is very easy to the problem of making a fault.

In this regard, the disclosure provides a kind of message processing method, by receiving the letter to be verified being deployed on programme path The verifying message that number receiver is sent, the attribute information for the signal receiver to be verified for including according to verifying message, first move Whether the timestamp and preset moving parameter of dynamic data, first movement data, verify in signal receiver to be verified and deposit In abnormal signal receiver, and there will be no the first identifier of abnormal signal receiver and its positions on programme path Information is bound.Wherein first movement data by intelligent terminal according to signal receiver to be verified verifying sequence, It is generated during movement on programme path；The verification efficiency of signal receiver is improved as a result,；Meanwhile in signal receiver Quantity it is more when, effectively avoid because each signal receiver identification information is more close, and cause binding mistake problem, Improve binding efficiency and accuracy rate.

Message processing method, device, equipment and the storage medium provided below in conjunction with attached drawing the disclosure is described in detail.

Attached drawing 1 is a kind of structural schematic diagram for message handling system that the embodiment of the present disclosure provides, as shown in Figure 1, message Processing system includes: intelligent terminal, multiple signal receivers and server-side to be verified；

Wherein, multiple signal receivers to be verified are deployed on programme path；Intelligent terminal is with step function, object The terminal of network savvy etc., for example, bracelet, school badge, student's identity card etc.；Server-side can be Cloud Server, can also be common Server etc..The mistake that the user for wearing intelligent terminal moves on programme path according to the received verifying sequence of signal to be verified Cheng Zhong, intelligent terminal generate first movement data according to predeterminated frequency (such as one per second), according to first movement data and the The timestamp of one mobile data generates mobile message, and broadcasts mobile message.Signal receiver to be verified is receiving intelligence When the mobile message of terminal broadcast, according to the timestamp of first movement data and first movement data that mobile message includes, with And the attribute information of itself generates verifying message, and sends verifying message to server-side.Server-side receives signal to be verified and connects The verifying message that device is sent is received, the time of the attribute information, first movement data, first movement data that include according to verifying message Stamp is verified with the presence or absence of abnormal signal receiver in signal receiver to be verified, and there will be no abnormal signals to receive The first identifier of device and its location information on programme path are bound.

Further, attribute information includes the first identifier and signal strength of signal receiver to be verified.Wear intelligence The process that the user of terminal moves on programme path according to the received verifying sequence of signal to be verified, can move for walking It is dynamic, it can also be mobile etc. by the vehicles, such as cycle movement；Correspondingly, first movement data can be step number, may be used also Think wheel revolutions, movement speed etc..

Based on above system, the embodiment of the message processing method of disclosure offer is provided with reference to the accompanying drawing.

Attached drawing 2 is a kind of flow chart for message processing method that some embodiments of the disclosure provide, and is applied to server-side, such as Shown in Fig. 2, message processing method includes:

Step 101: the verifying message that the signal receiver to be verified being deployed on programme path is sent is received, wherein testing Card message include the attribute information of signal receiver to be verified, first movement data, first movement data timestamp, first Mobile data, according to the verifying sequence of signal receiver to be verified, is given birth to by intelligent terminal during moving on programme path At；

In some embodiments of the present disclosure, it is contemplated that intelligent terminal may be also during mobile on programme path Other terminals are moved on programme path or are moved about in programme path simultaneously, and verifying message can also include intelligent terminal Second identifier；Correspondingly, method further include:

Step A1: the second identifier of intelligent terminal is obtained；

Step A2: screening includes the verifying message of the second identifier obtained in the verifying message received.

In some embodiments of the present disclosure, the second identifier of intelligent terminal is saved to the memory block of server-side in advance.

In other embodiments of the disclosure, before step 101 further include: operation display interface obtains user's (example Such as, administrator) second identifier that is arranged in the operation interface, and the second identifier that will acquire is saved to memory block；

Correspondingly, step A1 includes: the second identifier for obtaining intelligent terminal in memory block.

In some embodiments of the present disclosure, in advance by the verifying sequential storage of signal receiver to be verified in server-side In.

In other embodiments of the disclosure, before step 101 further include: operation display interface receives user's (example Such as, administrator) be arranged in the operation interface verifying sequence.Further, operation interface may include the electronics of programme path Map, electronic map include the location information of signal receiver to be verified, and server-side obtains the location information of user's selection, and Using the selecting sequence of user as the verifying of signal receiver to be verified sequence.Alternatively, electronic map does not include to be verified The location information of signal receiver, server-side obtains the sequence that location information is arranged in user in electronic map, as to be verified Signal receiver verifying sequence.

Step 102: according to attribute information, first movement data, timestamp and preset moving parameter, verifying to be verified With the presence or absence of abnormal signal receiver in signal receiver；

In some embodiments of the present disclosure, as shown in figure 3, step 102 includes:

Step 102-1: the maximum target verification report of the corresponding signal strength of each first identifier is screened in verifying message Text；

In some embodiments of the present disclosure, step 102-1 includes: to be searched in verifying message containing identical first mark The the first verifying message known compares the signal strength that the first verifying message includes and obtains maximum signal, and peak signal is strong The first verifying message where degree is as object message.

In other embodiments of the disclosure, step 102-1 includes: the first identifier for including according to verifying message, believes Number intensity, second identifier, first movement data and timestamp generate message list, are searched in message list containing identical the The list item of one mark, compares the signal strength contained in the list item found, obtains maximum signal, and peak signal is strong Verifying message where spending is as target verification message.Step 102-2: judge target verification message quantity and letter to be verified Whether the quantity of number receiver is consistent, is that then there is no abnormal signal receivers in determining signal receiver to be verified；It is no Then follow the steps 102-3；

Step 102-3: the first movement data and timestamp for including according to preset moving parameter, target verification message, Position abnormal signal receiver.

In some embodiments of the present disclosure, method further include: record starts the verification time and terminates the verification time；

Correspondingly, step 102-3 includes:

Step B1: the timestamp for including according to target verification message determines that first target is tested according to the sequencing of time Demonstrate,prove message and end target verification message；

Specifically, comparing the timestamp that target verification message includes, earliest time stamp and latest time stamp are obtained, will include The target verification message of earliest time stamp will include that latest time stabs the conduct of target verification message as first target verification message Last target verification message.

Step B2: according to the beginning verification time, terminate verification time, first target verification message and end target verification report Text, two signal receivers of first and last are with the presence or absence of abnormal in authentication sequence；

Specifically, first time difference between the timestamp that calculating starts the verification time and first target verification message includes； Calculate second time difference terminated between the timestamp that verification time and end a target verification message include；Judge first time difference and Whether two time differences were respectively less than preset duration, were that exception is not present in two signal receivers of first and last in determining verifying sequence, no It is abnormal then to determine that signal receiver corresponding not less than the time difference of preset duration exists.Wherein, preset duration can answered actually The sets itself as needed in, for example, 5 seconds.

Further, when the number for the quantity and signal receiver to be verified for determining target verification message in step 102-2 When measuring inconsistent, method further include:

The quantity of signal receiver to be verified and the quantity of target verification message are subtracted each other, obtained in the presence of abnormal signal The quantity of receiver.

Further, when determining in verifying sequence there is abnormal signal receiver in two signal receivers of first and last, And the quantity that there is abnormal signal receiver, which is greater than in verifying sequence, has abnormal letter in two signal receivers of first and last When the quantity of number receiver, repaired to there is abnormal signal receiver in verifying sequence in two signal receivers of first and last Afterwards, the method provided again according to the disclosure positions next signal receiver that there is exception.

Step B3: if exception is not present in two signal receivers of first and last in verifying sequence, according to preset mobile ginseng The first movement data and timestamp that several, each target verification message includes, except two signals receptions of first and last in verifying sequence Abnormal signal receiver is positioned in signal receiver outside device.

In some embodiments of the present disclosure, include according to preset moving parameter, each target verification message first Mobile data and timestamp position abnormal letter in the signal receiver in addition to two signal receivers of first and last in verifying sequence Number receiver, comprising:

Step C1: according to the sequencing for the timestamp that each target verification message includes, the time adjacent two-by-two is calculated The difference for the first movement data that target verification message where stamp includes；

Specifically, the sequencing for the timestamp for including according to each target verification message, sorts to obtain to object message Ranking results settle accounts the difference for the first movement data that target verification message adjacent two-by-two in ranking results includes.

Step C2: using the difference of first movement data as signal receiver adjacent two-by-two in verifying sequence corresponding Two mobile datas；

Step C3: according to preset moving parameter, the corresponding mobile data threshold value of each second mobile data is determined；

In some embodiments of the present disclosure, step C3 include: according to signal receiver to be verified on programme path Location information, preset moving parameter, calculate in verifying sequence the mobile number of the corresponding third of adjacent signal receiver two-by-two According to using third mobile data as the corresponding mobile data threshold value of the second mobile data；

In the embodiment of the present disclosure, different first movement data, corresponding different moving parameter and third mobile data.Make For example, first movement data are mobile step number, and corresponding preset moving parameter is that minimum movement step-length and first expand again Number, third mobile data are maximum step number；The calculation method of third mobile data includes: to be existed according to signal receiver to be verified Location information on programme path calculates the linear distance between signal receiver adjacent two-by-two in verifying sequence, will calculate Linear distance be multiplied to obtain maximum distance with the first expansion multiple, calculate the ratio of maximum distance and preset minimum step, Obtain maximum step number.As another example, first movement data are wheel revolutions, and corresponding preset moving parameter is wheel week Long and the second expansion multiple, third mobile data are the maximum revolution of wheel；The calculation method of third mobile data includes: basis The location information of signal receiver to be verified on programme path, calculate in verifying sequence two-by-two adjacent signal receiver it Between linear distance, the linear distance of calculating is multiplied to obtain maximum distance with the second expansion multiple, calculates maximum distance and vehicle The ratio of wheel perimeter obtains the maximum revolution of wheel.

Step C4: comparing the size of each second mobile data and corresponding mobile data threshold value, obtains being greater than mobile number According to the quantity of the second mobile data of threshold value；

Step C5: it is connect according to quantity, the second mobile data and the signal of the second mobile data for being greater than mobile data threshold value The corresponding relationship for receiving device, positions abnormal signal in the signal receiver in addition to two signal receivers of first and last in verifying sequence Receiver.

Specifically, judgement is greater than the type of the quantity of the second mobile data of mobile data threshold value, when greater than mobile data The quantity of second mobile data of threshold value is for the moment, by corresponding two signal receivers of unique second mobile data, to test The posterior signal receiver of card sequence is as the signal receiver that there is exception；

When be greater than mobile data threshold value the second mobile data quantity be greater than for the moment, the preceding signal of verifying sequence is connect Corresponding the second mobile data greater than mobile data threshold value of receipts device is corresponding by object movement data as object movement data The posterior signal receiver of verifying sequence is as the signal receiver that there is exception；

When being greater than the quantity of the second mobile data of mobile data threshold value is zero, it is corresponding to update each second mobile data Mobile data threshold value, and according to updated mobile data threshold value, return step C4, until navigating in the presence of abnormal signal Receiver.Wherein, by taking first movement data are mobile step number as an example, the corresponding mobile data threshold of each second mobile data is updated Value, comprising: the first expansion multiple is adjusted to third and expands multiple, and multiple is expanded according to third, calculates mobile data threshold value； Wherein, third expands multiple and expands multiple less than first.

It should be pointed out that being positioned when the quantity that there is abnormal signal receiver is multiple according to preceding method When to one of abnormal signal receiver, the signal receiver of the exception is repaired, and after repairing successfully, presses Next signal receiver that there is exception is repositioned according to preceding method；And so on, until all abnormal signals are connect Device is received all to navigate to and repair completion.

Step 103: there will be no the first identifiers and its location information on programme path of abnormal signal receiver It is bound.

Specifically, when abnormal signal receiver is not present in signal receiver to be verified, according to target verification report Each object message is included successively first identifier as each signal in verifying sequence by the sequencing for the timestamp that text includes The first identifier of receiver, and the position of the first identifier of each signal receiver and signal receiver on programme path is believed Breath is bound；

Further, when there is abnormal signal receiver in signal receiver to be verified, abnormal signal is connect It receives device to remove in verifying sequence, obtains new verifying sequence；According to the sequencing for the timestamp that target verification message includes, It include successively first identifier as the first identifier of each signal receiver in new verifying sequence using each object message, and will Location information of the first identifier and signal receiver of each signal receiver on programme path is bound.

For example, the first identifier of each signal receiver is corresponding with location information of the signal receiver on programme path It saves into information table.

In some embodiments of the present disclosure, server-side is stored with the electronic map of programme path, includes in electronic map The location information of signal receiver to be verified；Alternatively, further including receiving on user (for example, administrator) before step 103 Believe the position for the signal receiver to be verified that the electronic map of biography and user (for example, administrator) are arranged in electronic map Breath；Correspondingly, step 103 includes: that there will be no the first identifiers of abnormal signal receiver to be tied in electronic map accordingly Position.

The verifying message sent as a result, by receiving the multiple signal receivers to be verified being deployed on programme path, According to the attribute information of the verifying message signal receiver to be verified that includes, first movement data, first movement data when Between stab and preset moving parameter, verify with the presence or absence of abnormal signal receiver in signal receiver to be verified, and will There is no the first identifiers of abnormal signal receiver and its location information on programme path to be bound.Wherein first move Verifying sequence of the data by intelligent terminal according to signal receiver to be verified is moved, it is raw during mobile on programme path At；Compared to the deployed position of existing user (for example, administrator) to each signal receiver, the scene of progress is tested one by one as a result, Card, is greatly improved the verification efficiency of signal receiver；Meanwhile when the quantity of signal receiver is more, effectively avoid Because each signal receiver identification information is more close, and the problem of binding mistake is caused, improves binding efficiency and accuracy rate.

Below in conjunction with a specific embodiment, above-mentioned message processing method is described in detail, comprising:

Step 201: receiving the electronic map for the programme path that user uploads；

Step 202: the verifying of the second identifier and signal receiver to be verified that obtain the intelligent terminal of user setting is suitable Sequence；

Step 203: record starts the verification time, receives the signal receiver to be verified being deployed on programme path and sends Verifying message, and when finishing receiving, the record end verification time；Wherein, verifying message includes that signal to be verified receives The first identifier of device, the signal strength of signal receiver to be verified, first movement data, first movement data timestamp, The second identifier of intelligent terminal, first movement data by intelligent terminal according to signal receiver to be verified verifying sequence, It is generated during movement on programme path.

Wherein, verifying may include end of identification in message, and whether the verifying message that server-side judgement receives includes this End of identification, and when the judgment result is yes, determination finishes receiving.

Step 204: the verifying message of the second identifier including user setting is searched in the verifying message received；

Step 205: screening the maximum target of the corresponding signal strength of each first identifier in the verifying message of lookup and test Demonstrate,prove message；

Step 206: whether the quantity for judging target verification message is consistent with the quantity of signal receiver to be verified；If one It causes, it is determined that there is no abnormal signal receivers in signal receiver to be verified, execute step 216, no to then follow the steps 207；

Step 207: the timestamp for including according to target verification message determines that first target is tested according to the sequencing of time Demonstrate,prove message and end target verification message；

Step 208: according to the beginning verification time, terminating verification time, first target verification message and end target verification Message, in authentication sequence two signal receivers of first and last with the presence or absence of abnormal, and there is no it is abnormal when, execute step 209；

Step 209: according to the sequencing for the timestamp that each target verification message includes, calculating the time adjacent two-by-two The difference for the first movement data that target verification message where stamp includes；

Step 210: the difference of first movement data is corresponding as signal receiver adjacent two-by-two in verifying sequence Second mobile data；

Step 211: according to preset moving parameter, determining the corresponding mobile data threshold value of each second mobile data；

Step 212: comparing the size of each second mobile data and corresponding mobile data threshold value, obtain being greater than mobile number According to the quantity of the second mobile data of threshold value, when the quantity for the second mobile data for being greater than mobile data threshold value is for the moment, to execute Step 213；When the quantity for the second mobile data for being greater than mobile data threshold value is greater than a period of time, execution step 214；It is moved when being greater than When the quantity of second mobile data of data threshold is zero, step 215 is executed；

Step 213: by corresponding two signal receivers of unique second mobile data, the posterior signal of verifying sequence Receiver is as the signal receiver that there is exception；

Step 214: by corresponding the second mobile number greater than mobile data threshold value of the preceding signal receiver of verifying sequence According to as object movement data, the posterior signal receiver of the corresponding verifying sequence of object movement data is used as and there is exception Signal receiver；

Step 215: updating the corresponding mobile data threshold value of each second mobile data, and according to updated mobile data Threshold value, return step 212；

Step 216: there will be no the first identifiers and its location information on programme path of abnormal signal receiver It is bound.

It is illustrated by taking the wisdom education scheme of certain school as an example, to one layer of progress signal receiver of its some teaching building Deployment diagram after deployment is as shown in Figure 4, it is known that deploys signal receiver a, signal receiver b, signal receiver c, signal and connects Receive device d, signal receiver e.Server-side receives the electronic map for the programme path that user uploads, and obtains the intelligence of user setting The second identifier 001 of terminal, verifying sequence " signal receiver a- signal receiver b- signal receiver c- signal receiver d- letter Number receiver e ".By taking first movement data are mobile step number as an example, server-side generates following message list according to verifying message:

The target verification message that server-side is screened according to message list are as follows: including timestamp 7:00:02, second identifier 001, The verifying message 1 of first identifier 01, signal strength 100, mobile step number 2；Including timestamp 7:01:15, second identifier 001, The verifying message 2 of one mark 03, signal strength 100, mobile step number 150；Including timestamp 7:02:01, second identifier 001, The verifying message 3 of one mark 04, signal strength 100, mobile step number 240；Including timestamp 7:02:30, second identifier 001, The verifying message 4 of one mark 05, signal strength 100, mobile step number 300.

Server-side is different there are one according to the quantity 4 of target verification message, the determination of the quantity 5 of signal receiver to be verified Normal signal receiver.Server-side determines first target verification message for verifying report according to the timestamp that target verification message includes Text 1, end target verification message are verifying message 2；The beginning verification time of record is 7:00:00, the end verification time is 7: 02:34, according to the timestamp 7:02:30 that the verifying message 1 timestamp 7:00:02, the flying formation of geese message 2 that include includes, the of calculating One time difference was 2 seconds, and the second time difference was 4 seconds, respectively less than preset duration 5 seconds, and two signals of first and last connect in decision verification sequence Receiving device, there is no abnormal.

The timestamp that server-side includes according to target verification message sorts target verification message to obtain the first ranking results For " verifying message 1- verifies message 2- and verifies message 3- verifying message 4 ", calculating target verification message adjacent two-by-two includes The difference of first movement data, i.e. the second mobile data are 148,90,60.

Step length data when adult's normal walking is acquired in the disclosure in advance, is analyzing adult known to the data of acquisition just Often walking, a step is about 50~80cm, to improve fault-tolerance, preset moving parameter, that is, minimum step is set as 40cm, by the One expansion multiple is set as 3 times.Server-side determines the corresponding mobile data of each second mobile data according to the moving parameter set Threshold value is as shown in the table:

Signal receiver	A~b	B~c	C~d	D~e
					Linear distance (rice)	20	30	30	20
Maximum moving distance	60	90	90	60
					Mobile data threshold value	150	225	225	150

Server-side compares the size of each second mobile data with corresponding mobile data threshold value, obtains the second mobile data 148 are less than corresponding mobile data threshold value 150, and the second mobile data 90 is less than corresponding mobile data threshold value 225, and second is mobile Data 60 are less than corresponding mobile data threshold value 225；The quantity for determining the second mobile data for being greater than mobile data threshold value is zero, Then when the first expansion multiple is reduced into 2.5 times, the corresponding mobile data threshold value of each second mobile data, each of update are updated The corresponding mobile data threshold value of second mobile data is as shown in the table:

	A~b	B~c	C~d	D~e
					Linear distance (rice)	20	30	30	20
Maximum moving distance	50	75	75	50
					The mobile step number of maximum	125	188	188	150

Server-side compares the size of each second mobile data with corresponding updated mobile data threshold value again, obtains Only the second mobile data 148 is greater than corresponding mobile threshold value 125, then by corresponding signal receiver a and signal receiver b In, the posterior signal receiver b of verifying sequence is as abnormal signal receiver.

Server-side is " signal receiver a- signal determining signal receiver b there are new verifying sequence after exception, is obtained Receiver c- signal receiver d- signal receiver e ", includes the sequencing of timestamp according to object message, will verify message 1 Including first identifier 01 be tied to the position of signal receiver a in electronic map, the first identifier 03 message 2 will be verified included It is tied to the position of signal receiver c in electronic map, the first identifier 04 that message 3 includes will be verified and be tied in electronic map The first identifier 05 that verifying message 4 includes is tied to the position of signal receiver e in electronic map by the position of signal receiver d It sets.

It is greatly improved the verification efficiency of signal receiver as a result, and when the quantity of signal receiver is more, has Effect avoid because each signal receiver identify it is more close, and caused by bind mistake problem, improve binding efficiency and Accuracy rate.

It is a kind of message processing method that the embodiment of the present disclosure provides above, corresponds to the above method, the disclosure is also A kind of message process device is provided, since the implementation that described device solves the problems, such as is similar to the above method, with method The content of partial response, the detailed description that reference can be made to the above method embodiment are subsequent not repeat them here.It is understood that this The open device provided may include the unit or module for being able to carry out each step in above method example, these units or mould Block can realize that the disclosure does not limit by way of hardware, software or soft or hard combination.It 5 does specifically with reference to the accompanying drawing Description.

Attached drawing 5 is a kind of schematic diagram for message process device that some embodiments of the disclosure provide, and is applied to server-side, such as Shown in Fig. 5, message process device includes:

Receiving unit 301, the verifying report sent for receiving the signal receiver to be verified being deployed on programme path Text, wherein verifying message include the attribute information of signal receiver to be verified, first movement data, first movement data when Between stab, first movement data by intelligent terminal according to signal receiver to be verified verifying sequence, moved on programme path During generate；

Authentication unit 302, for according to attribute information, first movement data, timestamp and preset moving parameter, verifying With the presence or absence of abnormal signal receiver in signal receiver to be verified；

Binding unit 303, for there will be no the first identifier of abnormal signal receiver and its on programme path Location information is bound.

In some embodiments of the present disclosure, attribute information includes the first identifier and signal strength of signal receiver, is tested Demonstrate,proving unit 202 includes:

Subelement is screened, is tested for screening the maximum target of the corresponding signal strength of each first identifier in verifying message Demonstrate,prove message；

Judgment sub-unit, for judge target verification message quantity and signal receiver to be verified quantity whether one It causes；And when judging result is consistent, determine that there is no abnormal signal receivers in signal receiver to be verified；

Verify subelement, for the judging result in judgment sub-unit be it is inconsistent when, according to preset moving parameter, mesh The first movement data and timestamp that mark verifying message includes, position abnormal signal receiver.

In some embodiments of the present disclosure, device further include:

Recording unit starts verification time and end verification time for recording；

Corresponding, verifying subelement includes:

Determining module, the timestamp for including according to target verification message determine first according to the sequencing of time Target verification message and end target verification message；

Authentication module, for according to beginning verification time, end verification time, first target verification message and end target Message is verified, two signal receivers of first and last are with the presence or absence of abnormal in authentication sequence；

Locating module, for when two signal receivers of first and last are not present abnormal in verifying sequence, according to preset The first movement data and timestamp that moving parameter, each target verification message include, in addition to two signal receivers of first and last Signal receiver in position abnormal signal receiver.

In some embodiments of the present disclosure, authentication module is specifically used for:

Calculate it is described beginning the verification time and the first target verification message include timestamp between first time difference；

Calculate second time difference between the timestamp that the end verification time and the end a target verification message include；

Judge whether first time difference and second time difference are respectively less than preset duration, is the then determining verifying sequence Exception is not present in two signal receivers of middle first and last, otherwise determines that the time difference corresponding signal not less than the preset duration connects It receives device and there is exception.

In some embodiments of the present disclosure, locating module includes:

Computational submodule, the sequencing of the timestamp for including according to each target verification message calculate two two-phases The difference for the first movement data that target verification message where adjacent timestamp includes；

As submodule, for using the difference of first movement data as signal receiver adjacent two-by-two in verifying sequence Corresponding second mobile data；

Submodule is determined, for determining the corresponding mobile data of each second mobile data according to preset moving parameter Threshold value；

Submodule is compared, for comparing the size of each second mobile data with corresponding mobile data threshold value, is obtained big In the quantity of the second mobile data of mobile data threshold value；

Positioning submodule, for quantity, the second mobile data according to the second mobile data for being greater than mobile data threshold value With the corresponding relationship of signal receiver, abnormal signal is positioned in the signal receiver in addition to two signal receivers of first and last and is connect Receive device.

In some embodiments of the present disclosure, determine that submodule is specifically used for:

According to location information, preset moving parameter of the signal receiver to be verified on the programme path, The corresponding third mobile data of signal receiver adjacent two-by-two in the verifying sequence is calculated, the third mobile data is made For the corresponding mobile data threshold value of second mobile data；Alternatively,

By the corresponding moving parameter of signal receiver adjacent two-by-two in the preset verifying sequence, as described second The corresponding mobile data threshold value of mobile data.

In some embodiments of the present disclosure, positioning submodule is specifically used for:

When the quantity for the second mobile data for being greater than mobile data threshold value is that for the moment, unique second mobile data is corresponded to Two signal receivers in, the posterior signal receiver of verifying sequence is used as the signal receiver that there is exception；

When be greater than mobile data threshold value the second mobile data quantity be greater than for the moment, the preceding signal of verifying sequence is connect Corresponding the second mobile data greater than mobile data threshold value of receipts device is corresponding by object movement data as object movement data The posterior signal receiver of verifying sequence is as the signal receiver that there is exception；

When being greater than the quantity of the second mobile data of mobile data threshold value is zero, it is corresponding to update each second mobile data Mobile data threshold value, triggering compare submodule.

In some embodiments of the present disclosure, binding unit 303 is specifically used for:

When abnormal signal receiver is not present in signal receiver to be verified, include according to target verification message Each object message is included successively first identifier as each signal receiver in verifying sequence by the sequencing of timestamp First identifier, and the location information of the first identifier of each signal receiver and signal receiver on programme path is tied up It is fixed；

When there is abnormal signal receiver in signal receiver to be verified, abnormal signal receiver is being verified It is removed in sequence, obtains new verifying sequence；It, successively will be each according to the sequencing for the timestamp that target verification message includes Object message includes first identifier of the first identifier as each signal receiver in the new verifying sequence, and by each letter Location information of the first identifier and signal receiver of number receiver on the programme path is bound.

The message process device that the embodiment of the present disclosure provides, the message processing method provided with previous embodiment, for phase Same inventive concept, has the same effect.

To realize above-described embodiment, the embodiment of the present disclosure also provides a kind of electronic equipment, which can be service End, such as Cloud Server, common server.For hardware view, the hardware structure schematic diagram of the electronic equipment be can be found in Fig. 6, comprising: memory 401, the processor 403 being connected by bus 402 with memory 401；

It is stored with machine program on memory 401, when which is executed by processor 403, is realized aforementioned any The message processing method that embodiment provides.

To realize above-described embodiment, the embodiment of the present disclosure also provides a kind of machine readable storage medium, machine readable storage Machine program is stored on medium, which realizes that aforementioned any embodiment mentions when being called and being executed by processor The message processing method of confession.

Here, machine readable storage medium can be any electronics, magnetism, optics or other physical storage devices, can be with Include or store information, such as executable instruction, data, etc..For example, machine readable storage medium may is that RAM (RadomAccess Memory, random access memory), volatile memory, nonvolatile memory, flash memory, memory driver (such as hard disk drive), solid state hard disk, any kind of storage dish (such as CD, dvd) or similar storage medium, or Person's their combination.

What above-described embodiment illustrated is device, module or unit, can specifically be realized by computer chip or entity, or It is realized by the product with certain function.A kind of typically to realize that equipment is computer, the concrete form of computer can be Appointing in personal computer, laptop computer, personal digital assistant, tablet computer, wearable device or these equipment The combination for several equipment of anticipating.

For convenience of description, it is divided into various units when description apparatus above with function to describe respectively.Certainly, implementing this The function of each unit can be realized in the same or multiple software and or hardware when open.

It should be understood by those skilled in the art that, embodiment of the disclosure can provide as method, equipment (system) or calculate Machine program product.Therefore, the disclosure can be used complete hardware embodiment, complete software embodiment or combine software and hardware side The form of the embodiment in face.Moreover, it wherein includes computer available programs that the embodiment of the present disclosure, which can be used in one or more, Implement in the computer-usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) of code The form of computer program product.

The disclosure is referring to method, the process of equipment (system) and computer program product according to the embodiment of the present disclosure Figure and/or block diagram describe.It is generally understood that being realized by computer program instructions each in flowchart and/or the block diagram The combination of process and/or box in process and/or box and flowchart and/or the block diagram.It can provide these computer journeys Sequence instruct to general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices processor with A machine is generated, so that the instruction generation executed by computer or the processor of other programmable data processing devices is used for Realize the dress for the function of specifying in one or more flows of the flowchart and/or one or more blocks of the block diagram It sets.

Moreover, these computer program instructions also can store be able to guide computer or other programmable datas processing set In standby computer-readable memory operate in a specific manner, so that instruction stored in the computer readable memory generates Manufacture including command device, the command device are realized in one process of flow chart or multiple processes and/or block diagram one The function of being specified in a box or multiple boxes.

These computer program instructions can also be loaded into computer or other programmable data processing devices, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer Or the instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram The step of function of being specified in one box or multiple boxes.

The preferable specific embodiment of the above, the only disclosure, but the protection scope of the disclosure is not limited thereto, Anyone skilled in the art is in the technical scope that the disclosure discloses, and any changes or substitutions that can be easily thought of, It should all cover within the protection scope of the disclosure.Therefore, the protection scope of the disclosure should be with scope of protection of the claims It is quasi-.

Claims (11)

1. a kind of message processing method, which is characterized in that be applied to server-side, comprising:

The verifying message that the signal receiver to be verified being deployed on programme path is sent is received, the verifying message includes institute State the attribute information of signal receiver to be verified, the timestamp of first movement data, the first movement data, described first Mobile data, according to the verifying sequence of the signal receiver to be verified, is moved by intelligent terminal on the programme path It generates in the process；

According to the attribute information, the first movement data, the timestamp and preset moving parameter, verify described to be tested With the presence or absence of abnormal signal receiver in the signal receiver of card；

There will be no the first identifiers of abnormal signal receiver and its location information on the programme path to be bound.

2. the method according to claim 1, wherein the attribute information includes the first identifier of signal receiver And signal strength；It is described according to the attribute information, the first movement data, the timestamp and preset moving parameter, It verifies in the signal receiver to be verified with the presence or absence of abnormal signal receiver, comprising:

The maximum target verification message of the corresponding signal strength of each first identifier is screened in the verifying message；

Judge whether the quantity of the target verification message is consistent with the quantity of the signal receiver to be verified；

If consistent, it is determined that there is no abnormal signal receivers in the signal receiver to be verified；

If inconsistent, the first movement data and timestamp for including according to preset moving parameter, the target verification message, Position abnormal signal receiver.

3. according to the method described in claim 2, it is characterized in that, the method also includes: record starts verification time and knot The beam verification time；

The first movement data for including according to preset moving parameter, the target verification message and timestamp position different Normal signal receiver, comprising:

According to the timestamp that the target verification message includes, according to the sequencing of time determine first target verification message and Last target verification message；

According to the beginning verification time, the end verification time, the first target verification message and the end target Message is verified, verifying two signal receivers of first and last in the verifying sequence whether there is exception；

If exception is not present in two signal receivers of first and last in the verifying sequence, according to preset moving parameter, each The first movement data and timestamp that target verification message includes are received in the signal in addition to two signal receivers of the first and last Abnormal signal receiver is positioned in device.

4. according to the method described in claim 3, it is characterized in that, it is described according to the beginning verification time, it is described end test Time, the first target verification message and the end target verification message are demonstrate,proved, verifies in the verifying sequence first and last two Signal receiver is with the presence or absence of abnormal, comprising:

Calculate it is described beginning the verification time and the first target verification message include timestamp between first time difference；

Calculate second time difference between the timestamp that the end verification time and the end a target verification message include；

Judge whether first time difference and second time difference are respectively less than preset duration, is then first in the determining verifying sequence Exception is not present in last two signal receivers, otherwise determines the time difference corresponding signal receiver for being not less than the preset duration There are exceptions.

5. the method according to claim 3 or 4, which is characterized in that described to be tested according to preset moving parameter, each target The first movement data and timestamp that card message includes, it is fixed in the signal receiver in addition to two signal receivers of the first and last The abnormal signal receiver in position, comprising:

According to the sequencing for the timestamp that each target verification message includes, the target where timestamp adjacent two-by-two is calculated The difference for the first movement data that verifying message includes；

Using the difference of the first movement data as signal receiver corresponding second adjacent two-by-two in the verifying sequence Mobile data；

According to preset moving parameter, the corresponding mobile data threshold value of each second mobile data is determined；

The size for comparing each second mobile data with corresponding mobile data threshold value obtains second greater than mobile data threshold value The quantity of mobile data；

According to the quantity, second mobile data and the signal receiver of the second mobile data for being greater than mobile data threshold value Corresponding relationship, position abnormal signal receiver in the signal receiver in addition to two signal receivers of the first and last.

6. according to the method described in claim 5, determining each second it is characterized in that, described according to preset moving parameter The corresponding mobile data threshold value of mobile data, comprising:

According to location information, preset moving parameter of the signal receiver to be verified on the programme path, calculate The corresponding third mobile data of signal receiver adjacent two-by-two in the verifying sequence, using the third mobile data as institute State the corresponding mobile data threshold value of the second mobile data；Alternatively,

It is mobile as described second by the corresponding moving parameter of signal receiver adjacent two-by-two in the preset verifying sequence The corresponding mobile data threshold value of data.

7. according to the method described in claim 5, it is characterized in that, the basis is greater than the second mobile number of mobile data threshold value According to quantity, second mobile data and the signal receiver corresponding relationship, received except two signals of the first and last Abnormal signal receiver is positioned in signal receiver outside device, comprising:

When the quantity for the second mobile data for being greater than mobile data threshold value is for the moment, by unique second mobile data corresponding two In a signal receiver, the posterior signal receiver of verifying sequence is as the signal receiver that there is exception；

When the quantity for the second mobile data for being greater than mobile data threshold value is greater than for the moment, by the preceding signal receiver of verifying sequence Corresponding the second mobile data greater than mobile data threshold value is corresponding by the object movement data as object movement data The posterior signal receiver of verifying sequence is as the signal receiver that there is exception；

When being greater than the quantity of the second mobile data of mobile data threshold value is zero, the corresponding shifting of each second mobile data is updated Dynamic data threshold, and according to updated mobile data threshold value, execute each second mobile data of comparison and corresponding shifting The operation of the size of dynamic data threshold, until navigating in the presence of abnormal signal receiver.

8. according to the described in any item methods of claim 2-4,6-7, which is characterized in that described there will be no abnormal signals to connect The first identifier and its location information on the programme path for receiving device are bound, comprising:

When abnormal signal receiver is not present in the signal receiver to be verified, according to the target verification message packet Each object message is included successively first identifier as each signal in the verifying sequence by the sequencing of the timestamp included The first identifier of receiver, and the position by the first identifier of each signal receiver and signal receiver on the programme path Confidence breath is bound；

When there is abnormal signal receiver in the signal receiver to be verified, the abnormal signal receiver is existed It is removed in the verifying sequence, obtains new verifying sequence；The timestamp for including according to the target verification message it is successive suitable Each object message is included successively first identifier as the first mark of each signal receiver in the new verifying sequence by sequence Know, and the location information of the first identifier of each signal receiver and signal receiver on the programme path is tied up It is fixed.

9. a kind of message process device characterized by comprising

Receiving unit, the verifying message sent for receiving the signal receiver to be verified being deployed on programme path are described Verifying message includes the attribute information of the signal receiver to be verified, and intelligent terminal is received according to the signal to be verified The verifying sequence of device, first movement data during mobile on the programme path, the time of the first movement data Stamp；

Authentication unit, for according to the attribute information, the first movement data, the timestamp and preset mobile ginseng Number is verified in the signal receiver to be verified with the presence or absence of abnormal signal receiver；

Binding unit, for there will be no the first identifiers of abnormal signal receiver and the signal that exception is not present to receive Location information of the device on the programme path is bound.

10. a kind of electronic equipment characterized by comprising memory and processor；

It is stored with computer program on the memory, when the computer program is executed by the processor, realizes such as right It is required that the described in any item methods of 1-8.

11. a kind of machine readable storage medium, is stored thereon with computer program, which is characterized in that the computer program quilt When processor executes, the method according to claim 1 is realized.