CN110858891A - Monitoring processing method, device and equipment and storage medium - Google Patents

Abstract

The invention provides a monitoring processing method, a device and equipment and a storage medium, wherein the monitoring processing method is applied to wireless monitoring equipment and comprises the following steps: monitoring a specified event; capturing the monitored image in the image channel corresponding to the specified event; and pushing the grabbed image and the event description related to the specified event to a specified terminal in a multimedia message form. The problem of very consume the mobile data flow because of the video of real-time transmission collection realizes remote monitoring is solved.

Description

Monitoring processing method, device and equipment and storage medium

Technical Field

The present invention relates to the field of monitoring technologies, and in particular, to a monitoring processing method, apparatus, and device, and a storage medium.

Background

With the popularization of high-speed mobile communication technology, monitoring NETWORKs deployed through wireless environments are rapidly applied, and wireless monitoring products integrated with mobile communication modules (such as 4G modules) are produced, such as NETWORK Video Recorder (NVR). By adding a 4G module in a common NVR and configuring an SIM card of an operator and network services, the NVR gets rid of the limitation of network wiring, and can access a central monitoring platform through mobile data or realize P2P services directly connected with an APP of a user terminal at any place.

At present, after these wireless monitoring products are accessed to a central monitoring platform or P2P service directly connected with APP of a user terminal is realized, when remote monitoring is performed, the wireless monitoring products use mobile data traffic to transmit videos acquired in real time to the central monitoring platform or the user terminal in a mobile data transmission mode.

However, in the current remote monitoring, the wireless monitoring product uses the mobile data traffic to transmit the collected video to the central monitoring platform or the user terminal in real time, and the video data volume is large, so the mobile data traffic is consumed, and the traffic cost is expensive.

Disclosure of Invention

In view of this, the present invention provides a monitoring processing method, apparatus and device, and a storage medium, which solve the problem of high mobile data traffic consumption caused by the realization of remote monitoring by transmitting acquired videos in real time.

The first aspect of the present invention provides a monitoring processing method, applied to a wireless monitoring device, including:

monitoring a specified event;

capturing the monitored image in the image channel corresponding to the specified event;

and pushing the grabbed image and the event description related to the specified event to a specified terminal in a multimedia message form.

According to an embodiment of the invention, the method further comprises:

identifying a specified short message meeting specified conditions from received short messages sent from the outside;

and forwarding the identified specified short message to a specified terminal.

According to an embodiment of the present invention, the identifying a specific short message satisfying a specific condition from among received short messages sent from the outside includes:

matching the account number of the sender of the short message with the account number of the operator;

when the matching is successful, searching whether the specified keywords exist in the short message;

and if the specified keyword exists, identifying the short message as the specified short message meeting specified conditions.

According to an embodiment of the invention, the method further comprises:

identifying an instruction short message of a white list terminal preset by the equipment as a sending party from the received short message sent from the outside;

searching whether a matched instruction exists in an instruction list prestored in the equipment according to the identified content of the instruction short message;

and executing the processing according to the execution mode corresponding to the search result.

According to an embodiment of the present invention, the executing the processing according to the execution mode corresponding to the search result includes:

if the matched list query instruction is found or the matched instruction is not found, sending the instruction list to a sender of the instruction short message in a short message form;

if the matched state query instruction is found, capturing an image in an appointed image channel according to the indication of the state query instruction, and sending the captured image and the obtained state information of the appointed image channel to a sender of the instruction short message in the form of a multimedia message;

and if the matched operation control instruction is found, operating according to the instruction of the operation control instruction, and sending an operation result to a sender of the instruction short message in a short message form.

The second aspect of the present invention provides a monitoring processing apparatus, which is applied to a wireless monitoring device, and the apparatus includes:

the event monitoring module is used for monitoring a specified event;

the image capturing module is used for capturing the monitored image in the image channel corresponding to the specified event;

and the multimedia message pushing module is used for pushing the captured image and the event description related to the specified event to a specified terminal in a multimedia message form.

According to an embodiment of the invention, the apparatus further comprises:

the first identification module is used for identifying a specified short message meeting specified conditions from the received short messages sent from the outside;

and the short message forwarding module is used for forwarding the identified specified short message to a specified terminal.

According to one embodiment of the invention, the first identification module comprises:

the account matching unit is used for matching the account of the sender of the short message with the account of the operator;

the keyword searching unit is used for searching whether the specified keyword exists in the short message when the matching is successful;

and the identification unit is used for identifying the short message as the specified short message meeting specified conditions if the specified key words exist.

According to an embodiment of the invention, the apparatus further comprises:

the second identification module is used for identifying the instruction short message of the white list terminal preset by the device as a sender from the received short message sent from the outside;

the instruction searching module is used for searching whether a matched instruction exists in an instruction list prestored in the equipment according to the identified content of the instruction short message;

and the processing module is used for executing processing according to the execution mode corresponding to the search result.

According to one embodiment of the invention, the processing module comprises:

the first processing unit is used for sending the instruction list to a sender of the instruction short message in a short message form if the matched list query instruction is found or the matched instruction is not found;

the second processing unit is used for grabbing the image in the appointed image channel according to the indication of the state query instruction if the matched state query instruction is found, and sending the grabbed image and the acquired state information of the appointed image channel to a sender of the instruction short message in a multimedia message form;

and the third processing unit is used for operating according to the instruction of the operation control instruction if the matched operation control instruction is found, and sending the operation result to the sender of the instruction short message in a short message form.

A third aspect of the present invention provides a wireless monitoring device, comprising a processor and a memory; the memory stores a program that can be called by the processor; wherein the processor, when executing the program, implements the monitoring processing method according to the first aspect of the present invention.

A fourth aspect of the present invention provides a machine-readable storage medium, on which a program is stored, the program, when executed by a processor, implementing the monitoring processing method according to the first aspect of the present invention.

Compared with the prior art, the embodiment of the invention at least has the following beneficial effects:

when the equipment monitors the appointed event, the condition of the appointed event is pushed to the appointed terminal in a multimedia message mode, the multimedia message comprises the image in the corresponding image channel captured aiming at the appointed event and the event description about the appointed event, so that the appointed terminal can timely know the condition of the appointed event, the aim of remote monitoring is fulfilled, the video does not need to be transmitted to the remote equipment in real time by using mobile data flow, the mobile data flow consumed by video transmission is saved, the problem of high mobile data flow caused by real-time transmission of the monitoring video to realize remote monitoring is solved, and the cost is reduced.

Drawings

FIG. 1 is a schematic flow chart illustrating a monitoring method according to an embodiment of the present invention;

FIG. 2 is a block diagram of a monitoring device according to an embodiment of the present invention;

fig. 3 is a schematic flow chart of pushing a multimedia message when a specified event is monitored according to an embodiment of the present invention;

FIG. 4 is a schematic flow chart illustrating a monitoring method according to another embodiment of the present invention;

FIG. 5 is a block diagram of a monitoring device according to another embodiment of the present invention;

FIG. 6 is a schematic flow chart illustrating a process of forwarding a short message when receiving a specific short message according to an embodiment of the present invention;

FIG. 7 is a schematic flow chart illustrating a monitoring method according to another embodiment of the present invention;

FIG. 8 is a block diagram of a monitoring device according to another embodiment of the present invention;

FIG. 9 is a schematic flow chart illustrating the process executed when receiving an instruction message according to an embodiment of the present invention;

fig. 10 is a block diagram of an electronic device according to an embodiment of the invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

In order to make the description of the embodiments of the present invention more clear and concise, some technical terms are explained below.

A new generation camera, which is generated by combining a conventional camera and a network technology, is an internet protocol camera (ipc) (ip camera), and can transmit images to other devices through a network.

Network VIDEO recorder (nvr) (network VIDEO recorder), a type of VIDEO recording device, receives VIDEO code stream transmitted by IPC device through network for storage and management.

The following is a description of the monitoring method according to the embodiment of the present invention, but should not be limited thereto.

In one embodiment, referring to fig. 1, a monitoring processing method may include the steps of:

s100: monitoring a specified event;

s200: capturing the monitored image in the image channel corresponding to the specified event;

s300: and pushing the grabbed image and the event description related to the specified event to a specified terminal in a multimedia message form.

The monitoring processing method of the embodiment of the invention can be applied to wireless monitoring equipment, such as NVR, handheld camera terminal and the like, and is not limited specifically. The wireless monitoring device may include, for example, a processor, a memory, and other hardware, such as a hard disk. The memory stores a program that can be called by the processor; the processor executes the program to realize the monitoring processing method of the embodiment of the invention. The processor may be, for example, a DSP, without limitation.

The wireless monitoring device may further integrate a mobile communication Module, and after the mobile communication Module is connected to a Subscriber Identity Module (SIM) card, a mobile communication service may be implemented, where the mobile communication service includes, for example, short message service, multimedia message service, and the like, and certainly may also include a service that uses data traffic to transmit data in a mobile data transmission mode.

The mobile communication module may be, for example, a GPS module, a 3G module, a 4G module, etc., and may be a newer generation mobile communication module as long as a desired mobile communication service can be realized, with the development of mobile communication technology.

In step S100, a specified event is monitored. The specified event may include more than one event. The specific event may be any abnormal event associated with the device, which occurs in the monitoring process, and the abnormal event may be of many types, such as an abnormal event identified from an image, a hardware abnormal event or a software abnormal event of the device itself, and the like.

Whether the abnormal event needs to be used as the specific event for monitoring can be determined according to the event properties such as the importance of the abnormal event, for example, if the influence caused by the occurrence of the abnormal event is serious, the abnormal event can be used as the specific event. The specific monitored event may also be determined according to a monitoring purpose, for example, if the monitoring purpose is to find a target object, the occurrence of the target object may be determined as the specific event, and when the target object is monitored, the specific event is monitored. Of course, the above-described content regarding determining the specific events to monitor is merely exemplary and not limiting.

In step S200, an image in an image channel corresponding to the monitored specified event is captured. Each image channel of the device can acquire the image of the corresponding monitoring area, so that the image can be captured from the image channel associated with the specified event.

For example, the device is connected to a camera device for acquiring images, such as NVR, each channel of the device may receive a video stream of a monitoring area acquired by IPC, and when a specific event is monitored, one or several frames of images in the video stream acquired by the image channel corresponding to the specific event may be captured. Of course, the device may also be other devices, for example, a device with a camera, each image channel of the device directly acquires an image of a corresponding monitored area, and when a specific event is monitored, one or more frames of images in a video stream acquired by the image channel corresponding to the specific event may be captured.

After the appointed event is monitored, the image in the corresponding image channel is captured, and the monitoring condition can be timely acquired when the appointed event occurs. The wireless monitoring equipment can comprise more than one image channel, so that when in grabbing, the wireless monitoring equipment grabs from the image channel corresponding to the specified event, thereby avoiding grabbing redundant images of other unrelated image channels and reducing the image data volume required to be pushed.

The image may be a picture or a video, the format is not limited, the processor of the apparatus may be used to perform capturing, and after capturing, certain image processing may be performed, for example, downsampling, compressing, encoding, and the like may be performed, without limitation.

In step S300, the captured image and the event description about the specified event are pushed to a specified terminal in the form of a multimedia message.

The designated terminal may be a white list terminal preset by the device, and may be one terminal or a plurality of terminals, in other words, the push of the multimedia message may be single-sending or group-sending. The white list terminal is a terminal corresponding to an account recorded in a white list pre-stored by the device. Some accounts are maintained in the white list, and terminals corresponding to the accounts can be used as the specified terminals.

In the embodiment of the present invention, the account number recorded in the white list may be a card number of an SIM card used by the specified terminal, commonly referred to as a mobile phone number or a short number, and is not limited specifically.

The event description about the specified event may include content configured in advance according to the type of the specified event, and when the specified event is monitored, the corresponding event description is called from the device; the event description about the specified event may also include contents generated according to the event situation after the specified event is monitored. The two contents can be used together or individually as event descriptions about specified events, and the specific contents of the event descriptions are not limited. Specifically, the event description about the specified event may include, for example, device identification information, event details, occurrence time, and the like.

The captured image may be, for example, a video frame in a video stream, which may be converted into a picture. The event description for a given event may be a piece of text. The processor of the device can write the pictures and the characters into the multimedia message and control the mobile communication module to push the multimedia message.

After receiving the multimedia message, the designated terminal can acquire the occurrence of the designated event, can determine the specific content of the event according to the event description about the designated event, and can process the abnormal event in time, for example, can send an instruction short message to the device to control the device to execute corresponding processing.

In the embodiment of the invention, when the equipment monitors the specified event, the condition of the specified event is pushed to the specified terminal in a multimedia message mode, the multimedia message comprises the image in the corresponding image channel captured for the specified event and the event description about the specified event, so that the specified terminal can timely know the condition of the specified event, the aim of remote monitoring is fulfilled, the video does not need to be transmitted to the remote equipment in real time by using the mobile data flow, the mobile data flow consumed by video transmission is saved, the problem of very high mobile data flow caused by real-time transmission of the monitoring video to realize remote monitoring is solved, and the cost is favorably reduced.

In one embodiment, the above method flow can be executed by the monitoring processing device 10, as shown in fig. 2, the monitoring processing device 10 mainly includes 3 modules: the event monitoring module 100, the image capturing module 200 and the multimedia message pushing module 300. The event monitoring module 100 is configured to execute the step S100, the image capturing module 200 is configured to execute the step S200, and the multimedia message pushing module 300 is configured to execute the step S300.

Preferably, the specified event may include:

an invaded event occurs in a monitoring area corresponding to an image channel of the equipment;

the hardware related to the image channel of the device generates abnormal events.

It is to be understood that the specified event is not limited to the above event, and may also be other events, for example, an event that an object of interest (for example, a human face and/or a vehicle, etc.) appears in a monitored area corresponding to an image channel of the present apparatus, and the like.

If an intrusion event is monitored from an image of an image channel of the device, it is indicated that a monitored area corresponding to the image channel (an area monitored by the camera device corresponding to the image channel) is intruded.

The manner of determining the occurrence of an intrusion event may include: the intrusion event is declared to have occurred when an object moves in and out of a designated area in an image acquired (captured or received) by the image channel. The invading object may be a person or an object, and the invading object can be identified from the image through a target identification technology and can also be tracked through a target tracking technology. For example, when a person appears in a wall area in an image, the person can be identified and tracked, and if the person moves out of the wall area partially or completely within a specified time range, it is indicated that the person has crossed the wall, i.e. an intrusion event occurs.

When an intrusion event is monitored, capturing an image in an image channel corresponding to the intrusion event, and capturing an image currently obtained by the image channel after the intrusion event is monitored because the moving speed of an intrusion object is relatively slow, wherein the intrusion object is most likely to exist in the image. Of course, the image obtained by the image channel at the time of the intrusion event may also be captured, which is not limited specifically.

If an abnormal event that the hardware associated with the image channel of the equipment is abnormal is monitored, the image channel cannot be normally monitored, the image in the image channel can be captured and the event description about the abnormal event is added, and the image is pushed to a designated terminal in a multimedia message mode to give an alarm.

The abnormal event that the hardware is abnormal may include, for example, an excessive temperature of the hardware related to the image channel, a bad block of the hard disk recording the image channel, an image error of the image channel on the hard disk, and the like. Hardware information, such as the number of the hardware in which the abnormality occurs, and the like, and abnormal situations can be described as events.

Of course, the abnormal event of the hardware abnormality may also be an event description about the abnormal event, which is sent only by a short message, so as to play a role of warning.

Specifically, referring to fig. 3, the device is NVR, and the account of the designated terminal is a white list account of the device. When the device monitors an appointed event, the DSP of the device is used for capturing an image in an image channel corresponding to the appointed event and coding the image into a jpg picture, and the jpg picture and the event description are generated into a multimedia message and are pushed to an appointed terminal. And the appointed terminal can acquire the occurrence of the appointed event after receiving the multimedia message so as to process in time.

In one embodiment, referring to fig. 4, the monitoring processing method further comprises the steps of:

s400: identifying a specified short message meeting specified conditions from received short messages sent from the outside;

s500: and forwarding the identified specified short message to a specified terminal.

The short message can be sent from the outside, under the condition that the account is intercepted without setting a blacklist, the device can receive any short message sent from the outside, and the content of the short message sent by different accounts is possibly various, so that the device needs to identify and process the short message when receiving the short message. And when the short message is identified as the specified short message meeting the specified condition, forwarding the specified short message to the specified terminal.

The situation of insufficient flow or arrearage often occurs in the operation and maintenance process of the wireless terminal equipment, and an operator directly issues short messages indicating insufficient flow or arrearage to the wireless terminal equipment instead of terminals of management and control personnel.

In the device, the short message which indicates that the flow is insufficient or the arrearage is issued by the operator can be set as the specified short message which meets the specified conditions, the short message can be identified from the received short message, and the short message is forwarded to the specified terminal, so that the management and control personnel can be reminded to process the short message in time.

Certainly, the specified short message meeting the specified condition is not limited specifically, and may also be a short message indicating that the recharging is successful from an operator, for example; or short messages from other specified accounts.

In one embodiment, as shown in fig. 5, the monitoring processing device 10 may further include: a first identification module 400 and a short message forwarding module 500. The first identification module 400 is configured to perform the step S400, and the short message forwarding module 500 is configured to perform the step S500.

Preferably, when the first identifying module 400 is configured to execute the step S400, the following steps are specifically executed:

s401: matching the account number of the sender of the short message with the account number of the operator;

s402: when the matching is successful, searching whether the specified keywords exist in the short message;

s403: and if the specified keyword exists, identifying the short message as the specified short message meeting specified conditions.

In step S301, a sender account of the received short message may be extracted first, and then the sender account and an operator account are compared to determine whether the short message matches. The operator account may be pre-stored in the device, and may be called when matching is performed. The carrier account is an account of a carrier providing mobile communication services, for example, the mobile carrier account 10086 is not limited.

In step S302, if the matching is successful, that is, the sender account is consistent with the operator account, whether the specified keyword exists is searched in the short message. The keywords used for searching the specified keywords can be pre-stored in the device and can be called during searching, and the specified keywords can be, for example, "arrearage", "flow reminding", "recharging success", "deficiency", and the like.

The operator account usually sends many types of short messages, and can screen specified keywords after determining that the short messages are sent by the operator, determine whether the short messages meet specified conditions, and avoid forwarding any received short messages from the operator.

In step S303, if the specified keyword exists in the short message, the short message is identified as a specified short message satisfying the specified condition, and the specified short message can be forwarded to the specified terminal. The device can prompt management and control personnel holding the appointed terminal to process the traffic flow under the conditions of traffic flow exhaustion or arrearage and the like, and the problem that the mobile communication function of the device is stopped using can be avoided.

Of course, when the matching between the sending account of the short message and the operator account is successful, the short message may be determined as the specified short message meeting the specified condition and forwarded, and the step of searching for the specified keyword in the short message is not performed, so that the function of reminding the management and control personnel holding the specified terminal to perform the processing may also be performed.

Specifically, referring to fig. 6, the device is NVR, the operator pushes a reminding short message to the device, and the device forwards the reminding short message to the designated terminal. Monitoring the use condition of the charge and the flow of the account number of the equipment by an operator, and pushing a reminding short message to the equipment when the charge or the flow of the account number of the equipment is monitored to be insufficient; after receiving the short message, the equipment identifies that the received short message is a reminding short message with arrearage or insufficient flow, and forwards the reminding short message to a specified terminal; after receiving the prompt short message, the appointed terminal can recharge the corresponding account of the equipment for the cost or the flow; the operator sends a recharging success short message after receiving recharging; after receiving the short message, the device identifies the received short message as a reminding short message with successful recharging, forwards the reminding short message to the appointed terminal, and the appointed terminal can confirm the recharging result after receiving the reminding short message.

In one embodiment, referring to fig. 7, the monitoring processing method further comprises the steps of:

s600: identifying an instruction short message of a white list terminal preset by the equipment as a sending party from the received short message sent from the outside;

s700: searching whether a matched instruction exists in an instruction list prestored in the equipment according to the identified content of the instruction short message;

s800: and executing the processing according to the execution mode corresponding to the search result.

The short message can be sent from the outside, under the condition that the account is intercepted without setting a blacklist, the device can receive any short message sent from the outside, and the content of the short message sent by different accounts is possibly various, so that the device needs to identify and process the short message when receiving the short message. Therefore, in step S600, the instruction short message of the white list terminal preset by the device as the sender is identified from the received short message sent from the outside.

In step S600, the account of the sender of the short message may be extracted first, the account of the sender is searched in the white list of the device, and if the account of the sender is found, the sender of the short message is indicated as a preset white list terminal of the device. The white-listed terminals may be the same terminals as the previously specified terminals. More than one account is maintained in the white list, and the short message is determined to be an instruction short message from a white list terminal as long as the short message is matched with one account.

In step S700, after the instruction short message is identified, whether there is a matching instruction can be searched in an instruction list pre-stored in the device according to the content of the instruction short message. If the content of the instruction short message is a correct instruction, when a corresponding matched instruction is found in the instruction list, the content of the execution of the whole correct instruction can be determined; and if the content of the instruction short message is an error instruction, the corresponding matched instruction cannot be found in the instruction list. The error instruction can comprise a character string of a non-instruction class and a character string of an error instruction class, and the instruction which cannot be identified is taken as the error instruction to execute corresponding processing.

The source of the short message can be distinguished firstly through the matching search of the sending party account, and the content of the short message is identified by the instruction after the short message is determined as the instruction short message.

The content indicated by the instruction short message is not limited specifically, and may be an instruction for performing query, control, feedback, and the like. The device may be pre-stored with an instruction list and execution modes corresponding to the instructions, and may also be pre-stored with the execution modes when the instructions are identified as wrong instructions. In step S800, the processing is executed according to the execution mode corresponding to the search result.

In one embodiment, as shown in fig. 8, the monitoring processing device 10 may further include: a second identification module 600, an instruction lookup module 700 and a processing module 800. The second identification module 600 is configured to perform the step S600, the instruction search module 700 is configured to perform the step S700, and the processing module 800 is configured to perform the step S800.

Preferably, when the processing module 800 is configured to execute the step S800, the following steps are specifically executed:

s801: if the matched list query instruction is found or the matched instruction is not found, sending the instruction list to a sender of the instruction short message in a short message form;

s802: if the matched state query instruction is found, capturing an image in an appointed image channel according to the indication of the state query instruction, and sending the captured image and the obtained state information of the appointed image channel to a sender of the instruction short message in the form of a multimedia message;

s803: and if the matched operation control instruction is found, operating according to the instruction of the operation control instruction, and sending an operation result to a sender of the instruction short message in a short message form.

Steps S801 to S803 do not have a sequence, and a corresponding execution step is determined according to the search result.

According to the content searching instruction list in the instruction short message, the searching result can be divided into a correct instruction and an error instruction, wherein the correct instruction is an instruction recorded in the instruction list, and the error instruction is an instruction which is not recorded in the instruction list. The preset instruction list may record instructions such as a list query instruction, a state query instruction, an operation control instruction, and processing modes corresponding to the instructions.

If the matched list query instruction is found or the matched instruction is not found, the sender of the instruction short message needs to perform instruction control, but all instructions are difficult to remember manually and the exact instruction is not known, so that the list query instruction is sent or the instruction is wrongly edited.

In step S801, after the device finds a matching list query instruction or finds no matching instruction, the instruction list is sent to the sender of the instruction short message in a short message form. The sender is the white list terminal. The white list terminal can send the required instruction to the device according to the returned instruction list. The transmitted instruction list can be an instruction list which is recorded with all correct instructions or an instruction list which is composed of partial instructions.

In step S802, if the matched status query instruction is found, capturing an image in an appointed image channel according to an instruction of the status query instruction, and sending the captured image and the obtained status information of the appointed image channel to a sender of the instruction short message in a multimedia message form.

The state query instruction can be used for querying the state of a designated image channel of the equipment, the state can be an online state, a video recording state, a coding state and the like, the state information of the corresponding image channel can be collected according to the instruction of the instruction, the image of the designated image channel indicated by the state query instruction can be captured, the image and the state information are written into a multimedia message, and the multimedia message is returned to a sender of the short message, so that the effects of querying at any time and feeding back the monitoring condition in real time are achieved.

In step S803, if the matched operation control instruction is found, the operation is performed according to the instruction of the operation control instruction, and the operation result is sent to the sender of the instruction short message in a form of a short message.

Taking the case that the operation control instruction instructs to start and stop the mobile data transmission mode of the device as an example, after the matched operation control instruction is found, the mobile data transmission mode of the device is started and stopped according to the instruction of the operation control instruction, and the start and stop result is sent to the sender of the instruction short message in a short message form.

The mobile data transmission mode of the device is closed, the device can be forbidden from using mobile data traffic to carry out data communication with the outside, so that unnecessary traffic loss is avoided, and the device can be turned on again when needed. After the mobile data transmission mode of the device is started and stopped according to the instruction of the operation control instruction, the device returns the execution starting and stopping result to the sender of the short message, so that the opposite side can know the execution condition of the device about starting and stopping the mobile data transmission mode.

It can be understood that the operation indicated by the operation control instruction is not limited to this, and may also be other operations, such as turning on and off a video recording mode of the device, turning on and off a dialing mode of the device, capturing an image in a specified image channel and sending the image through a multimedia message, and the like, and corresponding operations may be executed according to a search result, so as to better implement remote monitoring, which is not limited herein.

Specifically, referring to fig. 9, the device is NVR, and the white list terminal sends an instruction to the device in the form of a short message. Firstly, a white list terminal sends a short message of a list query instruction to the device, the device acquires an instruction list for query and control, the instruction list is returned to the white list terminal in a short message mode, and the white list terminal can further send an instruction short message to the device after receiving the instruction list. Secondly, the white list terminal sends a short message of a state inquiry instruction to the device, the device acquires states of an image channel such as online, video recording, coding and the like, captures an image in the corresponding image channel by using a DSP of the device and codes the image into a jpg picture, generates the state and the jpg picture into a state multimedia message, sends the state multimedia message to the white list terminal, and the white list terminal can know the state of the image channel and the monitored image condition after receiving the state short message. Thirdly, the white list terminal sends a short message of an operation control instruction to the device, the device operates according to the instruction of the instruction after receiving the operation control instruction, and sends an operation result short message to the white list terminal after the operation is finished, and the white list terminal receives the operation result.

The following describes the monitoring processing device according to the embodiment of the present invention, but the present invention should not be limited thereto.

In one embodiment, referring to fig. 2, a monitoring processing apparatus 10 for use with a wireless monitoring device, the apparatus comprising:

an event monitoring module 100 for monitoring a specified event;

the image capturing module 200 is configured to capture an image acquired by an image channel corresponding to the monitored specified event;

the multimedia message pushing module 300 is configured to push the captured image and the event description related to the specified event to a specified terminal in a form of a multimedia message.

In one embodiment, referring to fig. 5, the monitoring processing device 10 further comprises:

a first identification module 400, configured to identify a specific short message meeting a specific condition from received short messages sent from the outside;

a short message forwarding module 500, configured to forward the identified specified short message to a specified terminal.

In one embodiment, the first identification module 400 includes:

the account matching unit is used for matching the account of the sender of the short message with the account of the operator;

the keyword searching unit is used for searching whether the specified keyword exists in the short message when the matching is successful;

and the identification unit is used for identifying the short message as the specified short message meeting specified conditions if the specified key words exist.

In one embodiment, referring to fig. 8, the monitoring processing device 10 further comprises:

a second identification module 600, configured to identify, from the received short message sent from the outside, an instruction short message of a white list terminal preset by the device as a sender;

the instruction searching module 700 is configured to search whether a matching instruction exists in an instruction list pre-stored in the device according to the identified content of the instruction short message;

and the processing module 800 is configured to execute processing according to the execution mode corresponding to the search result.

In one embodiment, the processing module 800 includes:

the first processing unit is used for sending the instruction list to a sender of the instruction short message in a short message form if the matched list query instruction is found or the matched instruction is not found;

the second processing unit is used for grabbing the image in the appointed image channel according to the indication of the state query instruction if the matched state query instruction is found, and sending the grabbed image and the acquired state information of the appointed image channel to a sender of the instruction short message in a multimedia message form;

and the third processing unit is used for operating according to the instruction of the operation control instruction if the matched operation control instruction is found, and sending the operation result to the sender of the instruction short message in a short message form.

The implementation process of the functions and actions of each unit in the above device is specifically described in the implementation process of the corresponding step in the above method, and is not described herein again.

For the device embodiments, since they substantially correspond to the method embodiments, reference may be made to the partial description of the method embodiments for relevant points. The above-described embodiments of the apparatus are merely illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts shown as units may or may not be physical units.

The invention also provides wireless monitoring equipment, which comprises a processor and a memory; the memory stores a program that can be called by the processor; wherein, when the processor executes the program, the monitoring processing method as described in the foregoing embodiments is implemented.

The embodiment of the monitoring processing device can be applied to electronic equipment. Taking a software implementation as an example, as a logical device, the device is formed by reading, by a processor of the electronic device where the device is located, a corresponding computer program instruction in the nonvolatile memory into the memory for operation. From a hardware aspect, as shown in fig. 6, fig. 10 is a hardware structure diagram of a wireless monitoring device where a monitoring processing apparatus 100 is located according to an exemplary embodiment of the present invention, and except for the processor 510, the memory 530, the interface 520, and the nonvolatile memory 540 shown in fig. 10, an electronic device where the apparatus 10 is located in the embodiment may also include other hardware such as a mobile communication module according to an actual function of the electronic device, which is not described again.

The present invention also provides a machine-readable storage medium, characterized in that a program is stored thereon, which when executed by a processor, implements the monitoring processing method as described in the foregoing embodiments.

The present invention may take the form of a computer program product embodied on one or more storage media including, but not limited to, disk storage, CD-ROM, optical storage, and the like, having program code embodied therein. Machine-readable storage media include both permanent and non-permanent, removable and non-removable media, and the storage of information may be accomplished by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of machine-readable storage media include, but are not limited to: phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technologies, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic tape storage or other magnetic storage devices, or any other non-transmission medium, may be used to store information that may be accessed by a computing device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (12)

1. A monitoring processing method is applied to a wireless monitoring device, and comprises the following steps:

monitoring a specified event;

capturing the monitored image in the image channel corresponding to the specified event;

and pushing the grabbed image and the event description related to the specified event to a specified terminal in a multimedia message form.

2. The monitoring process of claim 1, wherein the process further comprises:

identifying a specified short message meeting specified conditions from received short messages sent from the outside;

and forwarding the identified specified short message to a specified terminal.

3. The monitoring processing method according to claim 2, wherein the identifying a specific short message satisfying a specific condition from the received short messages sent from the outside includes:

matching the account number of the sender of the short message with the account number of the operator;

when the matching is successful, searching whether the specified keywords exist in the short message;

and if the specified keyword exists, identifying the short message as the specified short message meeting specified conditions.

4. The monitoring process of claim 1, wherein the process further comprises:

identifying an instruction short message of a white list terminal preset by the equipment as a sending party from the received short message sent from the outside;

searching whether a matched instruction exists in an instruction list prestored in the equipment according to the identified content of the instruction short message;

and executing the processing according to the execution mode corresponding to the search result.

5. The monitoring processing method according to claim 4, wherein the executing processing according to the execution mode corresponding to the search result includes:

if the matched list query instruction is found or the matched instruction is not found, sending the instruction list to a sender of the instruction short message in a short message form;

if the matched state query instruction is found, capturing an image in an appointed image channel according to the indication of the state query instruction, and sending the captured image and the obtained state information of the appointed image channel to a sender of the instruction short message in the form of a multimedia message;

and if the matched operation control instruction is found, operating according to the instruction of the operation control instruction, and sending an operation result to a sender of the instruction short message in a short message form.

6. A monitoring processing device is applied to wireless monitoring equipment, and the device comprises:

the event monitoring module is used for monitoring a specified event;

the image capturing module is used for capturing the monitored image in the image channel corresponding to the specified event;

and the multimedia message pushing module is used for pushing the captured image and the event description related to the specified event to a specified terminal in a multimedia message form.

7. The monitoring processing method device of claim 6, wherein the device further comprises:

the first identification module is used for identifying a specified short message meeting specified conditions from the received short messages sent from the outside;

and the short message forwarding module is used for forwarding the identified specified short message to a specified terminal.

8. The monitoring processing device of claim 7, wherein the first identification module comprises:

the account matching unit is used for matching the account of the sender of the short message with the account of the operator;

the keyword searching unit is used for searching whether the specified keyword exists in the short message when the matching is successful;

and the identification unit is used for identifying the short message as the specified short message meeting specified conditions if the specified key words exist.

9. The monitoring processing device of claim 6, wherein the device further comprises:

the second identification module is used for identifying the instruction short message of the white list terminal preset by the device as a sender from the received short message sent from the outside;

the instruction searching module is used for searching whether a matched instruction exists in an instruction list prestored in the equipment according to the identified content of the instruction short message;

and the processing module is used for executing processing according to the execution mode corresponding to the search result.

10. The monitoring processing device of claim 9, wherein the processing module comprises:

the first processing unit is used for sending the instruction list to a sender of the instruction short message in a short message form if the matched list query instruction is found or the matched instruction is not found;

the second processing unit is used for grabbing the image in the appointed image channel according to the indication of the state query instruction if the matched state query instruction is found, and sending the grabbed image and the acquired state information of the appointed image channel to a sender of the instruction short message in a multimedia message form;

and the third processing unit is used for operating according to the instruction of the operation control instruction if the matched operation control instruction is found, and sending the operation result to the sender of the instruction short message in a short message form.

11. A wireless monitoring device comprising a processor and a memory; the memory stores a program that can be called by the processor; wherein the processor, when executing the program, implements the monitoring processing method of any one of claims 1 to 5.

12. A machine-readable storage medium, having stored thereon a program which, when executed by a processor, implements the monitoring processing method according to any one of claims 1 to 5.

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