CN104656531A - Monitoring method and device for intelligent equipment - Google Patents

Monitoring method and device for intelligent equipment Download PDF

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Publication number
CN104656531A
CN104656531A CN201510023634.3A CN201510023634A CN104656531A CN 104656531 A CN104656531 A CN 104656531A CN 201510023634 A CN201510023634 A CN 201510023634A CN 104656531 A CN104656531 A CN 104656531A
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CN
China
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described
smart machine
status data
mark
time
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CN201510023634.3A
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Chinese (zh)
Inventor
张泽
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张泽
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Priority to CN201510023634.3A priority Critical patent/CN104656531A/en
Publication of CN104656531A publication Critical patent/CN104656531A/en

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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/04Programme control other than numerical control, i.e. in sequence controllers or logic controllers
    • G05B19/048Monitoring; Safety

Abstract

The application discloses a monitoring method and device for intelligent equipment. The method comprises the following steps: receiving state data and identifications sent by the intelligent equipment, wherein the identifications are the identifications of the intelligent equipment sending the state data; acquiring the time for receiving the state data; according to the identifications of the intelligent equipment, the state data and the time for receiving the state data, judging the operating state of the intelligent equipment. According to the monitoring method and device, the problem that the operating state of the intelligent equipment cannot be monitored in real time in the prior art is solved.

Description

A kind of method for supervising of smart machine and device

Technical field

The present invention relates to remote monitor supervision area, in particular to a kind of method for supervising and device of smart machine.

Background technology

Existing smart machine, such as internet of things intelligent household equipment, more specifically, as the equipment such as smart jack, intelligent appliance, can respond remote control command time online, for people's life brings great convenience.But, electronic product is not cocksure, after causing smart machine surprisingly to go offline due to the device interior system failure or external factor, smart machine is remote-controllable no longer, because smart machine is not provided in the function of line states monitoring, cause user can not the state of Timeliness coverage smart machine; When often waiting until that user needs to use, just find that smart machine is abnormal or unavailable, thus have impact on the normal use of user.Especially, when a system comprises numerous smart machine, wherein several equipment go offline and entire system can be caused unreliable, and investigate the equipment of going offline one by one and can consume a large amount of manpower and materials.Such as, the smart machine in existing hotel, adopt the mode of Wireless Networking to be connected to hotel's LAN (Local Area Network) mostly, reception counter of hotel staff passes through access, the unlatching of hotel's local area network remote or closes smart machine, and the unlocking cipher of smart machine or the badge ID etc. that unblanks are set, but the condition monitoring function whether existing smart machine does not provide smart machine online, once there is the situations such as latch failure, dead battery, network failure, hotel management personnel can not obtain relevant information in time and to go forward side by side row relax, thus affect guest and move in.As from the foregoing, the status detection function whether smart machine is online is not provided in prior art, does not provide yet and analyzing and processing is carried out to the state of smart machine, may produced problem with early warning smart machine.

For cannot the problem of real-time monitoring intelligent equipment working state in prior art, at present effective solution be not yet proposed.

Summary of the invention

Fundamental purpose of the present invention is the method for supervising and the device that provide a kind of smart machine, cannot real-time monitoring intelligent equipment working state problem in prior art to solve.

To achieve these goals, according to an aspect of the embodiment of the present invention, a kind of method for supervising of smart machine is provided.Method for supervising according to smart machine of the present invention comprises: the status data and the mark that receive smart machine transmission, wherein, be designated the mark of the smart machine of status data; Obtain the time receiving status data; According to the mark of smart machine, status data, receive time of status data, judge the duty of smart machine.

To achieve these goals, according to the another aspect of the embodiment of the present invention, provide a kind of supervising device of smart machine.Supervising device according to smart machine of the present invention comprises: receiver module, receives status data and the mark of smart machine transmission, wherein, is designated the mark of the smart machine of status data; Acquisition module, for obtaining the time receiving status data; Judge module, for the mark according to smart machine, status data, receives time of status data, judges the duty of smart machine.

Further, judge module also comprises: the first judging unit and the second judging unit,

First judging unit, for judging whether smart machine is in line states and off-line state, wherein, the first judging unit also comprises:

First receives subelement, and for receiving the first trigger pip, wherein, the first trigger pip at least comprises any one generating mode following: generated trigger pip by the manual clicking trigger control of user, generated trigger pip by the transmission frequency preset; First obtains subelement, for obtaining prefixed time interval threshold value; First computation subunit, receives the time of status data corresponding to mark and the time difference of current time for calculating the last time; First judges subelement, during for being greater than prefixed time interval threshold value when time difference, judges that the smart machine of mark correspondence is in off-line state; When time difference is less than or equal to prefixed time interval threshold value, judge that the smart machine of mark correspondence is in line states.

Second judging unit, for judging whether smart machine is in normal condition and abnormality, wherein, the second judging unit also comprises:

Second receives subelement, for receiving the second trigger pip, wherein, the second trigger pip at least comprises any one generating mode following: the status data generate trigger pip by the manual clicking trigger control of user, generated trigger pip by the transmission frequency preset, initiatively sending by receiving smart machine generates trigger pip, by judging that smart machine generates trigger pip after being in line states; Second obtains subelement, for obtaining the secure threshold scope of the status data of the smart machine pre-set; Whether the first comparer unit, exceed secure threshold scope for comparison status data; Second judges subelement, during for exceeding secure threshold scope when status data, judges that smart machine is in abnormality, when status data does not exceed secure threshold scope, judges that smart machine is in normal condition.

Further, after judge module, state monitoring device also comprises: sending module, for sending data; Wherein, sending module also comprises:

First transmitting element, for sending feedback information to smart machine; Second transmitting element, for sending Offtime and mark to management equipment, or abnormality alarm and mark.

Further, the first transmitting element comprises: the 3rd obtains subelement, for when judging that smart machine is in off-line state, obtains the last time and the current time that receive status data corresponding to mark; Second computation subunit, calculates the Offtime being in the smart machine of off-line state, wherein, and the difference of two time values that Offtime obtains for the first acquiring unit; First sends subelement, the mark and Offtime that are in the smart machine of off-line state is sent;

Further, second transmitting element is used for when judging that smart machine is in not offline state, feedback information is sent to smart machine, wherein, when not containing operational order or mark in feedback information, smart machine does not operate, when comprising operational order and mark in feedback information, and the smart machine executable operations instruction that mark is corresponding.

Further, after acquisition module, state monitoring device also comprises: memory module, for storing the mark of smart machine, status data, the time receiving status data and mark and the corresponding relation between status data and the time receiving status data.

According to inventive embodiments, processed by the status data that sends the smart machine that receives and mark, to judge smart machine current operating state, solving in prior art cannot real-time monitoring intelligent equipment working state problem, reach real-time monitoring intelligent equipment, whether real-time judge smart machine the online and early warning smart machine effect of fault that may occur.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the process flow diagram of the method for supervising of smart machine according to the embodiment of the present invention; And

Fig. 2 is the schematic diagram of the supervising device of smart machine according to the embodiment of the present invention.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

The present invention program is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the embodiment of a part of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

It should be noted that, term " first ", " second " etc. in instructions of the present invention and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged, in the appropriate case so that embodiments of the invention described herein.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

It should be noted that, the smart machine related in all embodiments of the present invention, for can obtaining oneself state and status data and self identification data being sent by the communication interface of equipment self and receive data by communication interface and carry out the equipment of corresponding operating for data; Such as, smart machine of the present invention includes but not limited to: intelligent door lock, smart jack, intelligent appliance and air purifier etc.In this application, server does not limit kind, can be centralized server, distributed server, Cloud Server etc.

Embodiments provide a kind of method for supervising of smart machine.

Fig. 1 is the process flow diagram of the method for supervising of smart machine according to the embodiment of the present invention.As shown in Figure 1, to comprise step as follows for the method for supervising of this smart machine:

Step S102, receives status data and the mark of smart machine transmission, wherein, is designated the mark of the smart machine of status data;

Concrete, in above-mentioned steps S102, the smart machine status data and the mark that send oneself to server initiatively, preferably, be designated the ID of smart machine, status data characterizes the current state of smart machine, and such as, status data is that smart machine uses the communication interface of duration, smart machine dump energy, smart machine and server, smart machine and the communication type of server, the intensity etc. of wireless signal.In the application, smart machine kind is different, the kind of status data can be caused to have corresponding increasing or minimizing, optionally, when smart machine is intelligent door lock, status data except comprise above-mentioned several except, also can comprise the open and-shut mode of intelligent door lock, the intelligent door lock opening and closing number of times within certain time period, the wrong opening and closing etc. of intelligent door lock; Optionally, when smart machine is smart jack, status data except comprise above-mentioned several except, also can comprise the on off state of smart jack, the smart jack power consumption data within certain time period, the time switch information etc. of smart jack; Optionally, when smart machine is intelligent air condition, status data except comprise above-mentioned several except, also can comprise the temperature of the current setting of intelligent air condition, current indoor temperature that intelligent air condition collects, the time switch information of intelligent air condition, the expectation of intelligent air condition are adjusted to design temperature time etc. from room temperature; Optionally, when smart machine is Intelligent air purifier, status data except comprise above-mentioned several except, also can comprise the purification wind speed of Intelligent air purifier, IAQ (indoor air quality) etc. that Intelligent air purifier gathers.In a word, status data is not unalterable, when needing to use a certain status data of smart machine in for the monitor procedure of smart machine, then the state of these needs can be added duty, by smart machine, selected duty be carried out active report.Smart machine, from the state of inside reading oneself, converts status data to, by the data layout with server commitment, the status data of oneself and mark is sent to server.

Step S104, obtains the time receiving status data;

Concrete, in above-mentioned steps S104, optionally, by digital signature technology, namely among smart machine status data and mark containing the timestamp signed and issued, then filtered out timestamp by server from receiving data and be converted into temporal information; Optionally, receive the time of status data, also can for system time when server truly receives status data and identifies; As long as there is the character string of an outwardness, characterizes and receive the status data of smart machine transmission and the time of mark.

Step S106, according to the mark of smart machine, status data, receives time of status data, judges the duty of smart machine.

Concrete, in above-mentioned steps S106, duty at least comprises two groups of states: presence and off-line state are one group of corresponding state, and normal condition and abnormality are another corresponding group state.In the application, according to the classification of the status data received in step S102, and according to the threshold value of the different conditions data category pre-set, judge that whether the duty of smart machine is normal or abnormal; According to the time receiving status data obtained in the status data received in step S102 and step S104, judge smart machine whether online or off-line.Above-mentioned two groups of duties are the most general duty classification, and along with smart machine kind is different, the kind of duty has corresponding increasing or further refinement; Such as when smart machine is intelligent door lock, abnormal operation also can comprise; Dump energy is unblanked extremely, continuously, and duration is abnormal, mistake unlocking times is abnormal; When smart machine is smart jack, abnormal operation also can comprise: charging current is abnormal, power consumption is abnormal; When smart machine is intelligent air condition, abnormal operation also can comprise: abnormal, the continuous start duration of the setting temperature difference is abnormal; When smart machine is Intelligent air purifier, abnormal operation also can comprise: IAQ (indoor air quality) is abnormal.

Wherein, when duty is at least included in line states and off-line state, step S106 comprises:

Step S202: receive the first trigger pip, wherein, the first trigger pip at least comprises any one generating mode following: generated trigger pip by the manual clicking trigger control of user, generated trigger pip by the transmission frequency preset;

Concrete, in above-mentioned steps S202, optionally, the generating mode of the first trigger pip comprises: mode one, generates trigger pip, such as, for user clicks the presence test button provided in server by the manual clicking trigger control of user; Mode two, by the transmission frequency f preset 4generate trigger pip, for having the cyclical signal of setpoint frequency, if smart machine is also establish frequency f according to another 3to server status data and mark, so, preferably, the frequency f of trigger pip in mode two 4be greater than the frequency f of smart machine status data 3, to guarantee that server can detect the online of smart machine or off-line state in time; The frequency f of trigger pip in mode two 4larger, judge that whether abnormal smart machine time delay less, the real-time of judged result is better.

Step S204: obtain prefixed time interval threshold value;

Concrete, in above-mentioned steps S204, after receiving the first trigger pip, obtain prefixed time interval threshold value.Prefixed time interval threshold value represents time span, such as, and 50s.Optionally, prefixed time interval threshold range is 10 ~ 60s.Prefixed time interval threshold value must be not identical with the cycle of smart machine status data.

Step S206: calculate the last time of status data and the time difference of current time that receive mark correspondence;

Concrete, in above-mentioned steps S206, because prefixed time interval threshold value must be not identical with the cycle of smart machine status data, preferably, prefixed time interval threshold value is slightly larger than the cycle of smart machine status data.When server have received repeatedly the status data that smart machine sends, server filters out the time that the last time receives status data from the data received, and calculates this last time and receive the time of status data and the difference of current time.

Step S208: when time difference is greater than prefixed time interval threshold value, judges that the smart machine of mark correspondence is in off-line state; When time difference is less than or equal to prefixed time interval threshold value, judge that the smart machine of mark correspondence is in line states.

Herein, it should be noted that, presence and off-line state, represent whether current device can be connected to the state of server, smart machine, every predetermined time interval threshold value, just sends frame state data to server, when server exceedes that this predetermined time interval, threshold value did not also receive status data, just judge this smart machine current not on-line joining process and server, namely this smart machine is in off-line state.Causing the reason of smart machine off-line, may be the fault of smart machine itself, also may be the wired or wireless communication link occurs fault between smart machine and server.

To sum up, by step S202 to step S208, the technical scheme that the present embodiment provides, by monitoring the time of smart machine status data, achieve and exceed the information that prefixed time interval threshold value does not receive smart machine, namely judge the effect of smart machine off-line.

Wherein, after judging that smart machine is in line states, when duty also comprises normal condition and abnormality, step S106 comprises:

Step S302a: receive the trigger pip judging to generate after smart machine is in line states;

Concrete, in above-mentioned steps S302a, after server judges that smart machine is online, generate trigger pip; That is, only when judging that smart machine is online, just can further judge the normal of smart machine or abnormality.Optionally, can judging that smart machine generates this trigger pip after online at once, also can generate this trigger pip after judging the preset time period after smart machine is online.When smart machine keeps online, the signal period of this trigger pip, be equal to the signal period of aforementioned first trigger pip.

Step S304a: the secure threshold scope obtaining the status data of the smart machine pre-set;

Concrete, in above-mentioned steps S304a, secure threshold scope can be the scope determined by a closed interval, such as, 5% ~ 20%, then the similar status data falling into this closed region is considered to normal status data; Secure threshold scope also can be that such as, secure threshold range set is for being greater than 10, then the similar status data being greater than 10 is considered to normal status data by specific point value and the scope of opening determined with the magnitude relationship of specific point value.

Step S306a: whether comparison status data exceeds secure threshold scope, when status data exceeds secure threshold scope, judges that smart machine is in abnormality.

Concrete, in above-mentioned steps S306a, secure threshold scope determines covered region, for smart machine status data is normal region.When status data does not exceed secure threshold scope, judge that smart machine state is normal, when status data is beyond secure threshold scope, judge smart machine abnormal state.

To sum up, by step S302a ~ step S306a, achieving when judging that smart machine is in line states, judging that the duty of smart machine is normal condition or abnormality further.Abnormality herein, represents that current device normally can be connected with server, but the state of equipment itself, and be in a kind of improper presence, this smart machine is likely within the foreseeable time or foreseeable instances fail.Corresponding with abnormality, normal condition refers to that the status data of equipment is normal, temporarily foreseeable fault can not occur.Therefore, based on the classification of above-mentioned smart machine duty, smart machine may be in online normal condition, online abnormality, off-line state.Understand online, the off-line state of smart machine, can contribute to locating off-line smart machine clearly fast, facilitate managerial personnel to keep in repair; And understand smart machine and whether be in abnormality, can contribute to understanding the contingent problem of smart machine in advance, facilitate managerial personnel to safeguard before smart machine off-line.

Wherein, when duty also comprises normal condition and abnormality, step S106 comprises:

Step S302b: receive the second trigger pip, wherein, the second trigger pip at least comprises any one generating mode following: the status data generate trigger pip by the manual clicking trigger control of user, generated trigger pip by the transmission frequency preset, initiatively sending by receiving smart machine generates trigger pip;

Concrete, in above-mentioned steps S302b, optionally, the generating mode of the second trigger pip comprises: mode one, generates trigger pip, such as, for user clicks the abnormality detection button provided in server by the manual clicking trigger control of user; Mode two, by the transmission frequency f preset 2generate trigger pip, for having the cyclical signal of setpoint frequency, if smart machine is also according to another setpoint frequency f 1to server status data and mark, so, preferably, the frequency f of trigger pip in mode two 2be greater than the frequency f of smart machine status data 1, to guarantee that server can detect whether smart machine is in abnormality in time; The frequency f of trigger pip in mode two 2larger, judge that whether abnormal smart machine time delay less, the real-time of judged result is better; Mode three: the status data initiatively sent by receiving smart machine generates trigger pip, for server is once the trigger pip just produced immediately after receiving status data that smart machine initiatively sends, that is, server, once receive new status data, just judges that whether the status data received is normal immediately.

Optionally; the generative process of the second trigger pip of mode one to mode three; and do not rely on the whether online judged result of smart machine; that is; judge based on the normal of the second trigger pip or abnormality, can judge independent of or off-line state online based on the smart machine of the first trigger pip.

Step S304b: the secure threshold scope obtaining the status data of the smart machine pre-set;

Concrete, in above-mentioned steps S304b, secure threshold scope can be the scope determined by a closed interval, such as, 5% ~ 20%, then the similar status data falling into this closed region is considered to normal status data; Secure threshold scope also can be that such as, secure threshold range set is for being greater than 10, then the similar status data being greater than 10 is considered to normal status data by specific point value and the scope of opening determined with the magnitude relationship of specific point value.

Step S306b: whether comparison status data exceeds secure threshold scope, when status data exceeds secure threshold scope, judges that smart machine is in abnormality.

Concrete, in above-mentioned steps S306b, secure threshold scope determines covered region, for smart machine status data is normal region.When status data does not exceed secure threshold scope, judge that smart machine state is normal, when status data is beyond secure threshold scope, judge smart machine abnormal state.

To sum up, by step S302b to step S306b, achieving the duty judging smart machine is normal condition or abnormality.Abnormality herein, represents that current device normally can be connected with server, but the state of equipment itself, and be in a kind of improper presence, this smart machine is likely within the foreseeable time or foreseeable instances fail.Corresponding with abnormality, normal condition refers to that the status data of equipment is normal, temporarily foreseeable fault can not occur.Therefore, presence and off-line state mutual exclusion, normal condition and abnormality mutual exclusion, namely smart machine must be in the state of one of both one of both line states and off-line state, normal condition and abnormality.Optionally, online off-line state and normal abnormality separate, therefore, based on the classification of above-mentioned smart machine duty, smart machine may be in online normal condition, online abnormality, off-line normal condition, off-line abnormality.Further, the situation of smart machine can be judged according to normal abnormality residing during smart machine off-line, such as, if it is determined that smart machine is in off-line normal condition, then represent when smart machine is by off-line, the status data of the smart machine detected within secure threshold scope, then the off-line reason of smart machine may be more transient cause as communication link fails, or unpredictable sudden reason.Again such as, if it is determined that smart machine is in off-line abnormality, then represent that, when smart machine is by off-line, the status data of the smart machine detected exceeds secure threshold scope, then the off-line reason of smart machine may be more the immanent cause that these abnormality data are pointed to.To sum up, understand online, the off-line state of smart machine, can contribute to locating off-line smart machine clearly fast, facilitate managerial personnel to keep in repair; And understand smart machine and whether be in abnormality, can contribute to understanding the contingent problem of smart machine in advance, facilitate managerial personnel to safeguard before smart machine off-line.

Wherein, after step S208, method also comprises:

Step S210: server continues the duty detecting smart machine, when detecting that the duty of smart machine changes, server notice management equipment or managerial personnel.The duty of smart machine changes, and the duty comprising smart machine becomes off-line state from presence, and the duty also comprising smart machine conjugates presence by off-line state.Wherein, the duty detecting smart machine from when presence becomes off-line state, be upper once detect time server judge this smart machine presence, but when this detects, the duty of this smart machine becomes off-line state; The duty detecting smart machine is from when off-line state becomes presence, and when being last detection, server judges this smart machine off-line state, but when this detects, the duty of this smart machine becomes presence.By above-mentioned steps S210, especially when equipment overhauls time, site examining and repairing staff can see that equipment recovers normal work, but cannot know whether it can carry out proper communication with server, now, if managerial personnel, by management system or management equipment, have received the duty changing smart machine and conjugate online message by off-line, can judge that this equipment can carry out proper communication with server.In sum, the method that above-mentioned steps S210 provides also is a kind ofly combine repair method with long-range online.

Wherein, after step S208, method also comprises:

Step S212: when judging that smart machine is in off-line state, receives the time of status data corresponding to mark and the time difference of current time according to the last time, calculates the Offtime of the smart machine being in off-line state; The mark and Offtime that are in the smart machine of off-line state are sent;

Concrete, in above-mentioned steps S212, the mark and Offtime that are in the smart machine of off-line state are sent to management equipment by server; Management equipment is the office terminal of this smart machine of management, and this terminal can receive and the information of storage server transmission.When server judges smart machine off-line, send information warning to management equipment, and the mark of off-line smart machine and Offtime are sent to management equipment, for managerial personnel or maintenance personal provide guide.Managerial personnel, by this management equipment, understand the online off-line case of smart machine in real time.

Step S214: when judging that smart machine is in not offline state, feedback information is sent to smart machine, wherein, when not containing operational order or mark in feedback information, smart machine does not operate, when comprising operational order and mark in feedback information, the smart machine executable operations instruction that mark is corresponding.

Concrete, in above-mentioned steps S214, when server judges that judgment device is in not offline state, can send customary feedback information to smart machine, mark have received the status data that smart machine sends; Also can to smart machine transmit operation instruction and mark, wherein, the operational order that the opertaing device that operational order can have permission for other is sent by server; Also can be the status data according to smart machine and the timestamp receiving status data, the operational order of the response of server auto-returned, in this case, store aggregate list in server, store the corresponding relation between the status data of smart machine and status data to be returned.Such as, when the dump energy of smart machine is less than 10%, and equipment use duration was more than 12 hours, then return the instruction resetting equipment authority keys.

Concrete, in above-mentioned steps S214, not offline state and presence; Optionally, based on the classification of above-mentioned smart machine duty, smart machine may be in online normal condition, online abnormality, off-line normal condition, off-line abnormality, and therefore not offline state can comprise: online normal condition and online abnormality.

Wherein, in step S214, when comprising operational order and mark in feedback information, the method for the smart machine executable operations instruction that mark is corresponding comprises:

Step S402: smart machine receiving feedback information,

Step S404: when monitor in feedback information comprise operational order and mark, the mark of carrying in read operation instruction,

Wherein, in above-mentioned steps S404, operational order is the steering order that smart machine can identify, for different types of smart machine, its steering order that can identify is also corresponding different.Such as, when smart machine is intelligent door lock, operational order can comprise: unlock command, the PORT COM etc. of locking order, resetting door lock password, resetting the badge ID that unblanks, arrange the IP address of equipment, arrange equipment; Again such as, when smart machine is smart jack, operational order can comprise: the order of socket remote switch, socket power consumption monitor order, the order of socket time switch, exceed the automatic ON-and OFF-command of setting electricity, control the setting of password and amendment order etc.; Again such as, when smart machine is intelligent air condition, operational order can comprise: regulate heat command, remote switch order, time switch order etc.; Again such as, when smart machine is Intelligent air purifier, operational order can comprise: regulate wind speed order, switch command etc.In a word, operational order is not unalterable, is also not limited in list in the application several, can identifies and the operational order performed, can carry out Long-distance Control by server for smart machine itself.

Step S406: the mark of the mark of carrying in operational order and smart machine is compared, the mark of carrying in operational order is identical with the mark of smart machine, the operation that the instruction of smart machine executable operations is corresponding.

To sum up, step S402 to step S406 by judging that whether the operational order of server feedback is for issuing this smart machine, and performs the instruction confirming to issue this smart machine, achieves the Long-distance Control of server to smart machine.

Wherein, in step S102, the method for smart machine status data comprises:

Step S502: receive the 3rd trigger pip; Wherein, the 3rd trigger pip is the trigger pip that the transmission frequency by presetting generates;

Concrete, in above-mentioned steps S502, the frequency of the first trigger pip, is the frequency of smart machine to server status data.

Step S504: the current state obtaining smart machine, generates status data;

Concrete, in above-mentioned steps S504, when after reception the 3rd trigger pip, perform the operation of above-mentioned steps S504, smart machine or scanning own hardware, or the status data stored in fetch equipment storer, be converted to status data strictly according to the facts by state current for equipment.

Step S506: status data.

To sum up, step S502, to step S506, achieves smart machine regularly to the effect of server status data.

Wherein, in step S402 to step S406, or in the implementation of step S502 to step S506, if smart machine receives the operational order of outside input, then interrupt performing this step S402 to step S406, or any one step performed of step S502 to step S506; When the operational order of smart machine terminating reception outside input, the service data initiatively steering order because performing outside input generated sends to server, and recovers to perform ongoing step when interrupting.Concrete, the operational order of outside input is the operational order that smart machine this locality directly receives, corresponding with the operational order that Server remote sends.The operational order of most typical a kind of outside input, i.e. outside smart machine directly being operated by user of input and the steering order that produces, for different smart machines, the operational order of its outside input is also different, for intelligent door lock, the operational order of outside input includes but not limited to: input password unlocking, swipe the card and unblank, lock; For smart jack, the operational order of outside input includes but not limited to: press shift knob etc.; For intelligent air condition, the operational order of outside input includes but not limited to: press shift knob, raise design temperature, reduce design temperature, timing etc., corresponding to the controlling functions that intelligent air conditioner remote controller possesses; For Intelligent air purifier, the operational order of outside input includes but not limited to: press shift knob, arrange purification of air speed etc.

Such as, in the middle of the process of smart machine execution step S504, namely smart machine is scanning self current state, and generates in the process of data mode, when smart machine receives the operational motion order that user directly operates smart machine, smart machine enters interrupt mode; Smart machine interrupts and records in the step of current execution is ongoing concrete operations in step S504, and perform the operational order that user specifies, in the order that the user that is finished specifies, when not receiving other operational orders of user, the operational order that smart machine is specified according to executed user, generate user operation data and these data are sent to server, being sent completely rear smart machine and exiting interrupt mode, continuing to perform the step performed before interrupting.

Wherein, after step s 104, the method for supervising of smart machine also comprises: step S105: store the mark of smart machine, status data, the time receiving status data and mark and the corresponding relation between status data and the time receiving status data.

Optionally, by setting up watch-list, or the mode of linked database, the incidence relation between storaging mark, status data, the time receiving status data and aforementioned three.So, the historical state data of smart machine is all recorded in the server, facilitate supvr to safeguard, data foundation can also be provided for follow-up large data processing.

Be smart lock below with smart machine be example, the smart machine method for supervising that the present embodiment provides is further described.The method for supervising of the smart lock of this embodiment can be a kind of preferred implementation of the method for supervising of the smart machine of above-described embodiment.It is as follows that the method for supervising of this smart lock comprises step:

Steps A, smart lock, according to oneself state, according to interval sometime, initiatively sends frame state data and a mark to server; Wherein, the status data of transmission comprises: device category, equipment dump energy, devices communicating type; Smart lock is in the process performing steps A, if when receiving the operational motion order that user directly operates smart lock, smart lock interrupts the current step performed, perform user operation, and user operation data are sent to server, complete user operation and after user operation data are sent to server, smart lock recovers the step performing this interruption.

Wherein, user operation directly comprises the operation of smart lock: remote-control unlocking, badge are unblanked, password unlocking, key unlocking, lock;

User operation data comprise: mode of unblanking, uncaging time, Password Input false alarm, Pickproof alarm, lock data, mistake in badge open alarm etc., and mode of wherein unblanking data also comprise remote-control unlocking data, key unlocking data and password unlocking data.

Step B, server settings abnormality checks frequency f 5, online off-line state checks frequency f 6, judge smart lock Offtime interval threshold t 1, and, the secure threshold scope of smart lock status data; Wherein, after setting frequency, server is according to the f of setting 5frequency reception smart lock abnormality checks trigger pip, according to the f of setting 6the online off-line state of frequency reception checks trigger pip.

Optionally, smart lock Offtime interval threshold t is judged 1be 10 ~ 60s; Dump energy threshold range is 3% ~ 15%.

Step C, the status data that server reception smart lock is sent and mark, and obtain the time receiving status data;

Step D, server sets up watch-list, stores the status data that smart lock is sent, the time identifying, receive status data, and the incidence relation between aforementioned three.

Step e, server receives f 6the line off-line state of frequency checks trigger pip, obtains the judgement smart lock Offtime interval threshold t preset 1, for each mark from watch-list, filter out the up-to-date time of mark ID association; Calculate the mistiming of up-to-date time and current time; When the mistiming is greater than prefixed time interval threshold value, then judge that the smart lock corresponding with the mark ID of up-to-date time correlation is in off-line state, when the mistiming is less than or equal to prefixed time interval threshold value, judge that the smart lock corresponding with the mark ID of up-to-date time correlation is in line states.When judging that smart lock is in off-line state, server record identifies, goes offline the time, and mark and the time of going offline are sent to Hospitality management system or smart lock management system, and notice hotel management personnel or door lock maintenance personal process.

Step F: server receives f 5the smart lock abnormality of frequency checks trigger pip, obtain the secure threshold scope of the smart lock status data preset, for each mark from watch-list, filter out the status data that up-to-date timestamp is corresponding, judge whether this status data is positioned at secure threshold scope, if status data exceeds secure threshold scope, then judge that smart lock is as abnormality.When server determining apparatus is abnormal, give the alarm to management equipment.

Optionally, the mode given the alarm can for send SMS message to hotel management personnel.

Step G: server is under the state judging smart lock not offline, feedback information is sent to smart lock, feedback information can for characterizing the customary feedback information receiving status data, also can for carrying the control information of operational order, wherein, operational order comprises: unlock command, the PORT COM of locking order, resetting door lock password, resetting the badge ID that unblanks, arrange the IP address of equipment, arrange equipment;

Step H: smart lock receives this feedback information, when monitor in feedback information comprise operational order and mark, the mark of carrying in read operation instruction, the mark of the mark of carrying in operational order and smart lock is compared, the mark of carrying in operational order is identical with the mark of smart lock, the operation that the instruction of smart lock executable operations is corresponding.Smart lock is in the process performing step H, if when receiving the operational motion order that user directly operates smart lock, smart lock interrupts the current step performed, perform user operation, and user operation data are sent to server, complete user operation and after user operation data are sent to server, smart lock recovers the step performing this interruption.

Below for intelligent air condition, the smart machine method for supervising that the present embodiment provides is further described.The method for supervising of the intelligent air condition of this embodiment can be a kind of Alternate embodiments of the method for supervising of the smart machine of above-described embodiment.It is as follows that the method for supervising of this intelligent air condition comprises step:

Step a, intelligent air condition initiatively sends frame state data and a mark with characteristic frequency to server; In this example, status data comprises intelligent air condition open and close state, intelligent air condition design temperature, intelligent air condition Current Temperatures, intelligent air condition service time etc.;

Step b, server settings abnormality checks frequency f 5, online off-line state checks frequency f 6, judge smart lock Offtime interval threshold t 1, and, the secure threshold scope of smart lock status data;

Step c, the status data that server reception intelligent air condition is sent and mark, and obtain the time receiving status data;

Steps d, server by the status data received, identify, receive time of status data corresponding stored in database;

Step e, server receives f 6after the line off-line state inspection trigger pip of frequency, first obtain the judgement smart lock Offtime interval threshold t preset 1, from data, then filter out the up-to-date time receiving status data that each mark is corresponding, calculate the mistiming of up-to-date time and current time; T is greater than when the mistiming 1time, then judge the intelligent air condition off-line of this mark correspondence, be less than or equal to t when the mistiming 1time, judge that the intelligent air condition of this mark correspondence is online.When judging intelligent air condition off-line, server record mark and Offtime, and this mark and Offtime are sent to management system, notify that managerial personnel process.

Optionally, online, off-line state does not correspond to the open and close state of intelligent air condition, even if intelligent air condition does not bring into operation, as long as but its be connected with power supply and also oneself state data can be sent to server, then server assert that it is online; Optionally, online, off-line state corresponds to the open and close state of intelligent air condition, when only having the operation when intelligent air condition, oneself state data are just allowed to send to server, now, only have when intelligent air condition is opened and can be communicated, server just assert that it is online.In this embodiment, online, off-line state does not correspond to the open and close state of intelligent air condition.

Step f: server receives f 5the intelligent air condition abnormality of frequency checks trigger pip, obtain the secure threshold scope of the intelligent air condition status data preset, herein, secure threshold scope has two, one is continuous working period threshold value, and it two is design temperature and current room temperature maximum temperature difference threshold value;

For each mark from database, filter out the status data that up-to-date timestamp is corresponding, for the service time received, judge whether to exceed continuous working period threshold value; For the current indoor temperature received and current intelligent air condition design temperature, calculate its difference, and judge whether this difference is positioned at maximum temperature difference threshold range; If arbitrarily once beyond secure threshold scope in above-mentioned twice judgement, then judge that intelligent air condition is as abnormality.

Step g: when server judges the online but non-abnormality of air-conditioning, send the feedback information not carrying operational order to intelligent air condition, feedback information is characterize the customary feedback information receiving status data.When server determining apparatus is abnormal, send the feedback information carrying operational order to intelligent air condition, such as, send the instruction of closing air-conditioning;

Step h: intelligent air condition receives the feedback information that this does not carry operational order, undo; When receiving this and carrying the feedback information of operational order, the mark of carrying in read operation instruction, the mark of the mark of carrying in operational order and intelligent air condition is compared, the mark of carrying in operational order is identical with the mark of intelligent air condition, the operation that the instruction of intelligent air condition executable operations is corresponding.

Wherein, intelligent air condition is in the process performing step a and h, if when receiving the operational motion order that user directly operates intelligent air condition, intelligent air condition interrupts the current step performed, perform user operation, and user operation data being sent to server, complete user operation and after user operation data are sent to server, intelligent air condition recovers the step performing this interruption.

Can be found out by above-mentioned two instantiations about smart lock, intelligent air condition, the method for supervising that the application provides, after carrying out adaptive adjustment to status data, threshold data, operational order, this method is applicable to the smart machine of indication in any the application.

The embodiment of the present invention additionally provides a kind of supervising device of smart machine.It should be noted that, the supervising device of the smart machine of the embodiment of the present invention may be used for the method for supervising performing the smart machine that the embodiment of the present invention provides, and the supervising device of the smart machine that the method for supervising of the smart machine of the embodiment of the present invention also can be provided by the embodiment of the present invention performs.

Fig. 2 is the schematic diagram of the supervising device of smart machine according to the embodiment of the present invention.As shown in Figure 2, comprising:

Receiver module 10, receives status data and the mark of smart machine transmission, wherein, is designated the mark of the smart machine of status data;

Acquisition module 30, for obtaining the time receiving status data;

Judge module 50, for the mark according to smart machine, status data, receives time of status data, judges the duty of smart machine.

Judge module 50 also comprises:

First judging unit 51, for judging whether smart machine is in line states and off-line state,

Second judging unit 52, for judging whether smart machine is in abnormality;

Wherein, the first judging unit 51 also comprises:

First receives subelement, and for receiving the first trigger pip, wherein, the first trigger pip at least comprises any one generating mode following: generated trigger pip by the manual clicking trigger control of user, generated trigger pip by the transmission frequency preset;

First obtains subelement, for obtaining prefixed time interval threshold value;

First computation subunit, receives the time of status data corresponding to mark and the time difference of current time for calculating the last time;

First judges subelement, during for being greater than prefixed time interval threshold value when time difference, judges that the smart machine of mark correspondence is in off-line state; When time difference is less than or equal to prefixed time interval threshold value, judge that the smart machine of mark correspondence is in line states.

Wherein, the second judging unit 52 also comprises:

Second receives subelement, for receiving the second trigger pip, wherein, the second trigger pip at least comprises any one generating mode following: the status data generate trigger pip by the manual clicking trigger control of user, generated trigger pip by the transmission frequency preset, initiatively sending by receiving smart machine generates trigger pip, by judging that smart machine generates trigger pip after being in line states;

Second obtains subelement, for obtaining the secure threshold scope of the status data of the smart machine pre-set,

Whether the first comparer unit, exceed secure threshold scope for comparison status data,

Second judges subelement, during for exceeding secure threshold scope when status data, judges that smart machine is in abnormality; When status data does not exceed secure threshold scope, judge that smart machine is in normal condition.

Wherein, after judge module 50, state monitoring device also comprises: sending module 70, for sending data;

Wherein, sending module 70 also comprises:

First transmitting element, for sending feedback information to smart machine;

Second transmitting element, for sending Offtime and mark to management equipment, or abnormality alarm and mark.

Wherein, the first transmitting element comprises:

3rd obtains subelement, for when judging that smart machine is in off-line state, obtains the last time and the current time that receive status data corresponding to mark;

Second computation subunit, calculates the Offtime being in the smart machine of off-line state, wherein, and the difference of two time values that Offtime obtains for the first acquiring unit;

First sends subelement, the mark and Offtime that are in the smart machine of off-line state is sent;

Wherein, second transmitting element is used for when judging that smart machine is in not offline state, feedback information is sent to smart machine, wherein, when not containing operational order or mark in feedback information, smart machine does not operate, when comprising operational order and mark in feedback information, and the smart machine executable operations instruction that mark is corresponding.

Wherein, after acquisition module 30, state monitoring device also comprises: memory module 40, for storing the mark of smart machine, status data, the time receiving status data and mark and the corresponding relation between status data and the time receiving status data.

It should be noted that, for aforesaid each embodiment of the method, in order to simple description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the present invention is not by the restriction of described sequence of movement, because according to the present invention, some step can adopt other orders or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in instructions all belongs to preferred embodiment, and involved action and module might not be that the present invention is necessary.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiments.

In several embodiments that the application provides, should be understood that, disclosed device, the mode by other realizes.Such as, device embodiment described above is only schematic, the such as division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If described integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprises all or part of step of some instructions in order to make a computer equipment (can be personal computer, mobile terminal, server or the network equipment etc.) perform method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, ROM (read-only memory) (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), portable hard drive, magnetic disc or CD etc. various can be program code stored medium.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. a method for supervising for smart machine, is characterized in that, comprising:
Receive status data and mark that smart machine sends, wherein, described in be designated the mark of the smart machine sending described status data;
Obtain the time receiving described status data;
According to the described mark of described smart machine, described status data, receive time of described status data, judge the duty of described smart machine.
2. method according to claim 1, it is characterized in that, described duty is at least included in line states and off-line state, wherein, according to the described mark of described smart machine, described status data, receive time of described status data, judge that the step of the duty of described smart machine comprises:
Receive the first trigger pip, wherein, described first trigger pip at least comprises any one generating mode following: generated described trigger pip by user's manual triggers control, generated described trigger pip by the transmission frequency preset;
Obtain prefixed time interval threshold value;
Calculate the last time of described status data and the time difference of current time that receive described mark correspondence;
When described time difference is greater than described prefixed time interval threshold value, judge that the described smart machine of described mark correspondence is in off-line state; When described time difference is less than or equal to described prefixed time interval threshold value, judge that the described smart machine of described mark correspondence is in line states.
3. method according to claim 2, it is characterized in that, described duty also at least comprises normal condition and abnormality, wherein, according to the described mark of described smart machine, described status data, receive time of described status data, judge that the step of the duty of described smart machine comprises:
Receive the trigger pip judging to generate after described smart machine is in line states;
Obtain the secure threshold scope of the described status data of the described smart machine pre-set;
Whether status data described in comparison exceeds described secure threshold scope, when described status data exceeds described secure threshold scope, judge that described smart machine is in abnormality, when described status data does not exceed described secure threshold scope, judge that described smart machine is in normal condition.
4. method according to claim 1, it is characterized in that, described duty at least comprises normal condition and abnormality, wherein, according to the described mark of described smart machine, described status data, receive time of described status data, judge that the step of the duty of described smart machine comprises:
Receive the second trigger pip, wherein, described second trigger pip at least comprises any one generating mode following: the described status data generating described trigger pip by user's manual triggers control, generated described trigger pip by the transmission frequency preset, sending by receiving described smart machine generates described trigger pip;
Obtain the secure threshold scope of the described status data of the described smart machine pre-set;
Whether status data described in comparison exceeds described secure threshold scope, when described status data exceeds described secure threshold scope, judge that described smart machine is in abnormality, when described status data does not exceed described secure threshold scope, judge that described smart machine is in normal condition.
5. method according to claim 2, is characterized in that, after the duty judging described smart machine, described method also comprises:
When judging that described smart machine is in off-line state, receiving the time of described status data corresponding to described mark and the time difference of current time according to the last time, calculating the Offtime of the described smart machine being in off-line state; The described mark and described Offtime that are in the described smart machine of off-line state are sent;
When judging that described smart machine is in not offline state, feedback information is sent to described smart machine, wherein, when not containing operational order or mark in described feedback information, described smart machine does not operate, when comprising described operational order and described mark in described feedback information, the described smart machine of described mark correspondence performs described operational order.
6. method according to claim 5, is characterized in that, when comprising operational order and mark in described feedback information, the step that the described smart machine of described mark correspondence performs described operational order comprises:
Described smart machine receiving feedback information,
When monitor in described feedback information comprise operational order and mark, read the mark of carrying in described operational order,
The mark of the mark of carrying in described operational order and described smart machine compared, the mark of carrying in described operational order is identical with the mark of described smart machine, described smart machine performs operation corresponding to described operational order.
7. method as claimed in any of claims 1 to 6, is characterized in that, the step that described smart machine sends described status data comprises:
Receive the 3rd trigger pip; Wherein, described 3rd trigger pip is the described trigger pip that the transmission frequency by presetting generates;
Obtain the current state of described smart machine, generate described status data;
Send described status data.
8. method according to claim 7, it is characterized in that, in the implementation of the step of the method completed by described smart machine comprised in described method, if described smart machine receives the operational order of outside input, then any one step that the method that interruption execution is completed by smart machine is implemented; When the operational order of input outside described in described smart machine terminating reception, the service data initiatively steering order because performing the input of described outside generated sends to server, and recovers the step performing the method completed by smart machine of interrupting.
9. method as claimed in any of claims 1 to 5, it is characterized in that, after acquisition receives the time of described status data, described method also comprises: store the described mark of described smart machine, described status data, the time receiving described status data and described mark and the corresponding relation between described status data and the time receiving described status data.
10. a supervising device for smart machine, is characterized in that, comprising:
Receiver module, receives status data and mark that smart machine sends, wherein, described in be designated the mark of the smart machine sending described status data;
Acquisition module, for obtaining the time receiving described status data;
Judge module, for the described mark according to described smart machine, described status data, receives time of described status data, judges the duty of described smart machine.
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CN107145284A (en) * 2017-05-10 2017-09-08 北京小米移动软件有限公司 Triggering method, device and the equipment of smart machine
CN107145284B (en) * 2017-05-10 2020-01-07 北京小米移动软件有限公司 Triggering method and device of intelligent equipment and equipment

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