CN102045741A - Monitoring method, system and device - Google Patents
Monitoring method, system and device Download PDFInfo
- Publication number
- CN102045741A CN102045741A CN2009102043142A CN200910204314A CN102045741A CN 102045741 A CN102045741 A CN 102045741A CN 2009102043142 A CN2009102043142 A CN 2009102043142A CN 200910204314 A CN200910204314 A CN 200910204314A CN 102045741 A CN102045741 A CN 102045741A
- Authority
- CN
- China
- Prior art keywords
- monitor terminal
- monitor
- service logic
- data transmission
- terminal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Abstract
The invention discloses a monitoring method, a monitoring system and a monitoring device. The method comprises the following steps that: a first monitoring terminal transmits acquired uplink monitoring information to first data transmission equipment which is connected with the first monitoring terminal; the first data transmission equipment encapsulates the uplink monitoring information and then transmits the encapsulated information to the monitoring device through a wireless communication network; when determining that the first monitoring terminal is equipment involved in preconfigured service logic according to the received uplink monitoring information, the monitoring device looks up service logic configuration information which is related to the first monitoring terminal, determines a related second monitoring terminal, generates corresponding downlink monitoring information and transmits the generated information to second data transmission equipment through the wireless communication network; the second data transmission equipment analyzes the received downlink monitoring information and then transmits the analyzed information to a corresponding second monitoring terminal; and the second monitoring terminal executes corresponding operation according to the downlink monitoring information. By the method, the system and the device, coordination of a plurality of monitoring terminals and omni-directional diverse monitoring of a surrounding monitoring space are realized.
Description
Technical field
The present invention relates to communication technique field, refer to a kind of method for supervising, system and supervising device especially based on mobile communication technology.
Background technology
At present, supervisory control system generally is made up of headend equipment (data acquisition equipment) and rear end equipment (dispatching and monitoring equipment) two parts.Its structure as shown in Figure 1.
Headend equipment mainly is made up of terminal (terminal one among the figure and terminal two) and data acquisition service module two parts.Terminal can be equipment/modules such as video monitoring equipment, transducer, data acquisition equipment, power supply, warning system, lightning-protection system, main collection, simple analysis, alarm and the transmission that realizes field data.The data acquisition service module mainly is made up of equipment/modules such as data allocations module, data acquisition modules, the main realization receives and preliminary treatment the data of the terminal collection of different brands, difference in functionality, dissimilar, different spaces, different transmission channels, and the data that collect are sent to rear end equipment, and accept the control command that rear end equipment sends over, the terminal equipment/module of appointment is controlled.
Rear end equipment mainly is made up of control end, memory device, monitoring server three parts.Wherein, control end is used for monitoring, analysis, the alarm of automatic or manual realization to headend equipment transmission data, and sends instruction headend equipment is controlled.Memory device is mainly used in the storage to headend equipment transmission data.Monitoring server is mainly realized the data of multiplex terminal collection transmission are carried out treatment classification, is transferred to control end and memory device, and control end is assigned, sends, carried out the control command that a certain terminal sends.
Along with people to the improving constantly of living environment security requirement, in order to prevent and monitor the generation of various accidents, crime case etc., increasing watch-dog and system have come into people's life, the drawback of existing supervisory control system also comes out thereupon.Because the core of existing supervisory control system is exactly a monitoring server, it is connecting the control end and the memory device of headend equipment and rear end equipment, undertaking transfer of data and control between headend equipment and rear end equipment, can be described as the nerve center of whole monitoring system, therefore, in the face of complexity and its existing problem of diversified monitoring requirement are also obvious day by day day by day.Mainly there is following problem in existing supervisory control system:
(1) existing supervisory control system, because monitoring server is at the terminal configuration of a certain particular type, can only provide transfer of data and control for one type monitor terminal, therefore, use a cover supervisory control system can't satisfy monitoring demand complicated, various in the same space zone.For example: a tame hospital need comprehensively monitor space environment, fire alarm, water power coal network, patient physiological condition, first-aid apparatus system, ambulance operating position and orientation, place in the hospital, then it must install many cover supervisory control systems, respectively above-mentioned various situations are monitored, be that its monitoring content of every suit supervisory control system all can only be confined in certain scope, function singleness, scope of application limitation, compatible concertedness is poor.
(2) supervisory control system is upgraded when needs, just need upgrade or change, increased upgrade cost monitoring server.
(3) existing supervisory control system generally is to adopt the mode or the in-plant wireless communication technology of wired connection to carry out transfer of data.Wherein, adopt wired mode, increased the installation cost and the difficulty of construction of supervisory control system.And in-plant wireless transmission method, then limited because of its transmission range, just realize the transfer of data of monitoring in a less spatial dimension, its use is subjected to the restriction of space length very big, and the stability of wirelessly transmitting data, reliability and antijamming capability all are difficult to be protected.
Summary of the invention
The embodiment of the invention provides a kind of method for supervising, system and supervising device, can't satisfy problem complicated, diversified monitoring demand for control to solve the prior art supervisory control system.
A kind of method for supervising comprises:
The up monitor message that first monitor terminal will collect sends to first data transmission set that is connected; First data transmission set sends to supervising device with described up monitor message encapsulation back by cordless communication network;
Supervising device is according to the up monitor message that receives, when determining that described first monitor terminal is equipment related in the pre-configured service logic, find the service logic configuration information relevant with described first monitor terminal, determine second monitor terminal that is associated, generate the corresponding downstream monitor message and send to second data transmission set by cordless communication network;
Send to corresponding described second monitor terminal after the descending monitor message that second data transmission set will receive is resolved, described second monitor terminal is carried out corresponding operation according to described descending monitor message.
A kind of supervisory control system comprises: some monitor terminals, plurality of data transmission equipment and supervising device;
Described monitor terminal is as first monitor terminal, and the up monitor message that is used for collecting sends to first data transmission set that is connected;
Described data transmission set is as first data transmission set, and the described up monitor message encapsulation back that is used for receiving sends to supervising device by cordless communication network;
Described supervising device, be used for according to the up monitor message that receives, when determining that described first monitor terminal is equipment related in the pre-configured service logic, find the service logic configuration information relevant with described first monitor terminal, determine second monitor terminal that is associated, generate the corresponding downstream monitor message and send to second data transmission set by cordless communication network;
Described data transmission set is as second data transmission set, be used to receive the descending monitor message that described supervising device sends and resolve after send to the second corresponding monitor terminal;
Described monitor terminal is used for carrying out corresponding operation according to the descending monitor message that receives as second monitor terminal.
A kind of supervising device comprises: Data Transmission Controlling module, service logic module and Executive Module;
Described Data Transmission Controlling module is used to receive the up monitor message after the encapsulation that first data transmission set that is connected with first monitor terminal sends by cordless communication network; And the descending monitor message that described Executive Module is generated sends to second data transmission set that is connected with second monitor terminal by cordless communication network;
Service logic module is used for according to the described up monitor message that receives, when determining that described first monitor terminal is equipment related in the pre-configured service logic, finds the service logic configuration information relevant with described first monitor terminal;
Described Executive Module is used for determining second monitor terminal that is associated according to described service logic configuration information, generates corresponding described descending monitor message.
The method for supervising that the embodiment of the invention provides, system and supervising device, by the supervising device that is provided with, set up the service logic relation of first monitor terminal and second monitor terminal in advance, after the first monitor terminal reporting uplink monitor message, control the business logical operation that second monitor terminal is associated by supervising device according to up monitor message, realize in the supervisory control system that a plurality of monitor terminals can co-ordination, realize jointly can satisfying the monitoring demand of various complexity to multi-faceted, the diversified monitoring in surrounding environment space; And this system realizes transfer of data between monitor terminal and the supervising device by cordless communication network, thereby makes this system can not be subjected to the restriction of space length, realizes the comprehensively monitoring to bigger wider spatial dimension; And the reduction by wireless transmission the complexity of installing, saved system's installation cost.
Description of drawings
Fig. 1 is the structural representation of supervisory control system in the prior art;
Fig. 2 is the structural representation of supervisory control system in the embodiment of the invention;
Fig. 3 is the structural representation of supervising device in the embodiment of the invention;
Fig. 4 is the flow chart of method for supervising in the embodiment of the invention;
Fig. 5 is a concrete structure exemplary plot of the structural representation of supervisory control system in the embodiment of the invention;
Fig. 6 is a specific implementation flow chart of method for supervising in the embodiment of the invention.
Embodiment
Support 3-G (Generation Three mobile communication system) (the 3rd Generation Mobile Communications System of the honeycomb mobile communication technology of high speed data transfer, the 3G system), than second generation mobile communication system (2nd Generation Mobile Communications System, the 2G system), on the speed of transmission data, very large lifting has been arranged.The 3G communication system can realize the radio roaming broadband access network in the world better, handle multiple media formats such as image, music, video flowing, multiple information services such as comprising video calling, mobile TV, web page browsing, videoconference, ecommerce is provided, and has favorable compatibility with the 2G system.
The 3G system can support the transmission speed of 2Mbps (megabit/per second), 384kbps (kilobit/per second) at least and 144kbps (kilobit/per second) respectively in the environment of indoor, outdoor and driving, realize the quick transmission of data such as video, audio frequency, be enough to satisfy the needs of existing supervisory control system.Therefore, method for supervising that the embodiment of the invention provides and system based on cordless communication network, mainly are the compatible and control that the 3G system realizes multiple monitor terminal.
The supervisory control system that the embodiment of the invention provides comprises as shown in Figure 2: monitor terminal (10,11,12,13 etc.), data transmission set (20,21 etc.) and supervising device 30.
Wherein, monitor terminal is meant the watch-dog of user side, can comprise ancillary equipment such as monitoring client, memory device and control end.Each monitor terminal all is connected with data transmission set that self is complementary with one, and for example monitor terminal 10, monitor terminal 11 are connected with data transmission set 20 among the figure, and monitor terminal 12, monitor terminal 13 are connected with data transmission set 21.
Monitor terminal (10,11,12,13 etc.) all can be used as first monitor terminal, the up monitor message that is used for collecting sends to first data transmission set 20 that is connected.That is to say operations such as the concrete monitoring of this monitor terminal execution, monitoring control or monitor message storage, and send the data that write down in the monitor procedure to be attached thereto data transmission set.
The data transmission set that is connected with monitor terminal as first monitor terminal in the data transmission set (20,21 etc.) is first data transmission set, and the up monitor message encapsulation back that is used for receiving sends to supervising device 30 by cordless communication network.That is to say, data transmission set is mainly used in the transfer of data that realizes between supervising device and the monitor terminal, the monitor message that monitor terminal can be collected is packaged into and satisfies cordless communication network (for example: the up monitor message that requires of the transformat 3G system) sends to supervising device 30 by the communication interface with cordless communication network.
That is to say that each subscriber equipment can be equipped with corresponding data transmission device according to the difference of its data type that provides, with what realize the encapsulation of its monitor message that provides and transmission.
Wherein, service logic is pre-configured, the service logic incidence relation of first monitor terminal and second monitor terminal that is associated in the service logic configuration information, second monitor terminal that has been associated with it when specifically having comprised any one monitor terminal, and next step pending operation of corresponding second monitor terminal of the monitor message that reports with first monitor terminal as first monitor terminal.
Second data transmission set, can be in the data transmission set (20,21 etc.) any one or several, be used to receive the descending monitor message that supervising device 30 sends and resolve after send to the second corresponding monitor terminal.
Second monitor terminal, can be in the monitor terminal (10,11,12,13 etc.) any one or several, be used for carrying out corresponding operation according to the descending monitor message that receives.
Obvious, what the top was given only is an example, in fact first monitor terminal and second monitor terminal can be same monitor terminals, also can be different monitor terminals; First data transmission set that is connected with first monitor terminal also can be identical data transmission set or different pieces of information transmission equipment with second data transmission set that is connected with second monitor terminal.
In the preferable above-mentioned supervisory control system, watch-dog 30 also is used to provide portal user and keeper's door function, allows domestic consumer and administrator to carry out the configuration of service logic.
The effect of portal user is: the monitor terminal to connecting system inserts configuration and logic configuration, and generates the correspondent service logic configuration information.Wherein, inserting configuration comprises: the device type of the monitor terminal of typing connecting system, parameter configuration and installation port information etc.Logic configuration comprises that the monitor terminal of setting up connecting system is during as first monitor terminal, with the service logic incidence relation of second monitor terminal that is associated; And the monitor terminal of setting up connecting system is during as second monitor terminal, with the service logic incidence relation of first monitor terminal that is associated.
Promptly when new monitor terminal connecting system,, the monitor terminal that inserts is inserted configuration according to its monitoring function that can provide, and with logic configuration, formation logic configuration information and the storage of other monitor terminal.Thereby set up the monitor terminal of this new access and the service logic incidence relation of other monitor terminals, reach the desired monitoring capacity of user, the unified of all monitor terminals inserts and collaborative work in the realization system.
Preferable, portal user can also provide monitor terminal whether to insert successful test and authentication function, after the monitor terminal configuration of new connecting system is finished, test the monitoring function of this monitor terminal and whether normal, when equal explanations just often inserts successfully with logic association function between the monitor terminal that is associated.
The effect of keeper's door is that users all on the portal user and configuration operation thereof are managed, and realizes the operations such as login authentication of non-registered users audit approval and control of authority and registered users.
In the above-mentioned supervisory control system, the structure of supervising device 30 comprises as shown in Figure 3: Data Transmission Controlling module 301, service logic module 302 and Executive Module 303.
Data Transmission Controlling module 301 is used to receive the up monitor message after the encapsulation that first data transmission set that is connected with first monitor terminal sends by cordless communication network; And the descending monitor message that Executive Module is generated sends to second data transmission set that is connected with second monitor terminal by cordless communication network.
Preferable, service logic module 302 further can comprise: resolution unit 3021, judging unit 3022 and search unit 3023.
Preferable, Executive Module 303 further can comprise: determining unit 3031 and generation unit 3032.
Determining unit 3031, be used for the service logic configuration information that finds is resolved, according to the service logic incidence relation between the business logical operation of the service logic state of first monitor terminal that parses and second monitor terminal, determine second monitor terminal that is associated and pending business logical operation thereof.
Above-mentioned supervising device 30 further can also comprise: portal user module 304 and keeper's door module 305.
Preferable, portal user module 304 further can comprise: insert dispensing unit 3041 and logic configuration unit 3042.
Insert dispensing unit 3041, be used for device type, parameter configuration and the installation port information of the monitor terminal of typing connecting system.
Keeper's door module 305 is used to provide keeper's door function, and realization is examined and control of authority non-registered users, and the login authentication of registered users.
The method for supervising that the embodiment of the invention provides, as shown in Figure 4, execution in step is as follows:
Step S1: the up monitor message that first monitor terminal will collect sends to first data transmission set that is connected.
For example: the environment around the video monitoring camera head monitor, and the environmental information that monitors sent to first data transmission set that is connected by with the equipment of first data transmission set port being installed.
Step S2: first data transmission set will receive up monitor message encapsulation back and send to supervising device by cordless communication network.
First data transmission set is when encapsulating the up monitor message that receives, the device identification that can send first monitor terminal of this up monitor message encapsulates in the into up monitor message together, obtains the up monitor message after the encapsulation that the compliance with wireless communication network transmission format requires.
Wherein, device identification comprises the numbering of monitor terminal and/or port numbering etc. is installed.
Step S3: supervising device is resolved the up monitor message that receives.
Supervising device receives the up monitor message after the encapsulation that first data transmission set sends, and the up monitor message that receives is resolved, and parses the information such as device identification of first monitor terminal that wherein comprises.
Step S4:, judge that whether first monitor terminal is related monitor terminal in the pre-configured service logic according to the up monitor message that receives.
Search pre-configured service logic, when in finding pre-configured service logic, comprising the device identification of first monitor terminal that parses, determine that first monitor terminal is a related equipment in the pre-configured service logic; Otherwise, determine that first monitor terminal is not a related equipment in the pre-configured service logic.
If, execution in step S6 then; Otherwise, execution in step S5.
Step S5: finish.
Step S6: find the service logic configuration information relevant, determine second monitor terminal that is associated with first monitor terminal.
According to the device identification of first monitor terminal that parses, find comprise in the pre-configured service logic with the first monitor terminal corresponding service logic configuration information.
The service logic configuration information that finds is resolved, according to the service logic incidence relation between the business logical operation of the service logic state of first monitor terminal that parses and second monitor terminal, determine second monitor terminal that is associated and pending business logical operation thereof.
Step S7: generate descending monitor message at second monitor terminal.
According to second monitor terminal of determining and pending business logical operation thereof, generate the descending monitor message of the second monitor terminal operational order.Descending monitor message also is second monitor terminal of determining and pending information such as business logical operation thereof to be encapsulated the back generate, and wherein comprises the device identification of second monitor terminal and the operational order of pending business logical operation.
Step S8: descending monitor message is sent to second data transmission set by cordless communication network.
According to the device identification of second monitor terminal, inquire and be attached thereto the data transmission set that connects, be i.e. second data transmission set.Descending monitor message after will encapsulating by cordless communication network sends to second data transmission set of determining that is connected with second monitor terminal.
Step S9: send to the second corresponding monitor terminal after the descending monitor message that second data transmission set will receive is resolved.
Second data transmission set is resolved receiving descending monitor message, obtains the device identification that wherein comprises, and determines the target monitoring terminal according to device identification, i.e. second monitor terminal.And the descending monitor message after will parsing, mainly be that the information such as operational order of pending business logical operation send to second monitor terminal.
Step S10: second monitor terminal is carried out corresponding operation according to the descending monitor message that receives.
Second monitor terminal is carried out the correspondent service logic operation according to the operational order of the pending business logical operation that comprises in the descending monitor message that receives.For example: the turning to etc. of monitoring camera.
Provide a concrete network architecture example of the supervisory control system that the embodiment of the invention provides below by a specific embodiment, this system architecture as shown in Figure 5, supervising device specifically comprises Data Transmission Controlling module, service logic module and Executive Module, portal server, portal user and keeper's door in this system; Wherein, portal user and portal server are realized the function of portal user module, and keeper's door and portal server are realized the function of portal user module.In this system, monitor terminal is specially some fire-alarms, some ball-type cameras, control end and memory device etc.Carry out transfer of data by cordless communication network between Data Transmission Controlling module and the data transmission set.
Fire-alarm is realized the fire alarm function by temperature height and smokescope in the monitoring environment.Space environment around the ball-type camera then is used for is carried out video monitoring.By the monitoring of this cover supervisory control system realization to the condition of a fire and the space environment of surrounding space environment.Control end can control the ball-type camera rotation, move etc.
At first need this cover system is installed, the data transmission set that monitor terminal is complementary with it couples together.For example: a ball-type camera is installed, need to install the data transmission set that to discern the ball-type camera, this ball-type camera is installed port with the equipment on the data transmission set link to each other, and note the device numbering and the equipment installation port numbering of data transmission set; Certainly data transmission set also can write down the information such as device numbering of this ball-type camera.The connection of other monitor terminals is given unnecessary details no longer one by one.
By portal user and portal server login supervising device, the monitor terminal installation is linked into this supervisory control system, each monitor terminal is inserted configuration.For example: insert a ball-type camera, be introduced into the newly-increased page of monitor terminal, the device numbering of the data transmission set that input is connected with the ball-type camera and equipment are installed port numbering and are preserved.Preferable, but whether the test data transmission equipment can carry out communication with native system, after test was passed through, selecting the type of newly-increased monitor terminal again was the ball-type camera, and input ball-type camera device type (as: model, device numbering etc.), parameter configuration and installation port information etc. are also preserved.And whether test macro can receive the monitor video of this ball-type camera transmission, and can control the operations such as rotation of this ball-type camera, and this ball-type camera successful installation then is described.
Other monitor terminals such as fire-alarm, control end and storage device be connected and insert the configuration give unnecessary details no longer one by one.
After finishing connection and access configuration to all monitor terminals, need carry out the service logic configuration to each monitor terminal, set up the service logic incidence relation between each monitor terminals such as fire-alarm, ball-type camera, control end and memory device, so that realize the needed function of this cover supervisory control system.For example: need to realize the fire alarm monitoring function.When the condition of a fire took place, the fire-alarm of ignition point sent alarm automatically, and then this moment, the ball-type camera need turn to ignition point, write down the live video of ignition point and was transferred to memory device and store.When fire alarm is as first monitor terminal under the then above-mentioned situation, the ball-type camera is second monitor terminal, it is that the up monitor message that the fire-alarm transmission is reported to the police is when the condition of a fire takes place that logic association between the two closes, and the ball-type camera is regulated the monitoring orientation of self to ignition point.The ball-type camera is during as first monitor terminal, and memory device is second monitor terminal, and it is ball-type camera when sending the up monitor message of ignition point live video that logic association between the two closes, this information of memory device, stores.The effect of control end then is the business logical operation that allows user people to carry out appointment for other monitor terminals, for example artificially controls ball-type camera rotation etc.
For example: the implementation of concrete configuration operation can comprise: the monitor terminal service logic configuration page that enters portal user, this page shows the user to be used for the assembly of the various functions of logic configuration, and the user uses the functional unit that is provided to carry out the selection of monitor terminal and the foundation of logic association relation etc.After the user enters the interface, can select a start assembly, the icon that occurs a start assembly on the page, this start assembly is used to start a service logic configuration information of foundation, promptly when the monitor terminal that wherein relates to is transferred to supervising device with up monitor message, start the operation of calling this service logic configuration information.Carry out the selection and the business association configuration of monitor terminal then, for example: select to add a fire-alarm, occur the icon of a fire-alarm on the page.Be connected with the icon of this start assembly by the icon of coupling assembling with fire-alarm, realize that both logics connect, this moment, this fire alarm promptly was identified as the monitor terminal that relates in this service logic configuration information.Simultaneously, click the icon of this fire alarm and can check the two states that it can transmit: normal condition and alarm status, as: normal condition is designated 0, and alarm status is designated 1.Select one to be installed near this fire-alarm again, can monitor the ball-type camera of this fire-alarm guarded region, the icon that occurs a ball-type camera on the page, add the icon that occurs an operating assembly on the operating assembly page, clicking this operating assembly icon can enter operating assembly the page is set, by this operating assembly fire-alarm being set is access device (i.e. first monitor terminal) and the ball-type camera is set is outlet device (i.e. second monitor terminal), and the logic association pass that is provided with between the two is: receive the up monitor message of access device, determine that its monitor state is, does not carry out any operation at 0 o'clock; Receive the up monitor message of access device, determine that its monitor state is at 1 o'clock, port of export equipment is sent corresponding operational order, direction, angle and track etc. that instruction is rotated monitor this fire-alarm guarded region.And fire-alarm icon, ball-type camera icon and operating assembly icon on the use coupling assembling connection page, when so just having realized the generation condition of a fire, camera turns to the function of conflagration area automatically.
Mode according to the above connects fire-alarm and control end respectively, realizes the controlled function of control end to fire-alarm; Connect ball-type camera and control end etc., realize the monitoring function of control end the ball-type camera; Connect ball-type camera and memory device, realize function, thereby finished the fire alarm monitoring function of this supervisory control system the scene of fire video storage; Or the like.
After installing and having disposed supervisory control system, use this concrete network architecture to realize the concrete grammar flow process of monitoring, as shown in Figure 6, be that example describe as first monitor terminal, ball-type camera as second monitor terminal with fire-alarm, concrete execution in step is as follows:
Step S11: fire-alarm is monitored the temperature and the smokescope of surrounding environment, and the information that monitors is sent to connected data transmission set as up monitor message, i.e. first data transmission set.
Step S12: send to the Data Transmission Controlling module in the supervising device after the up monitor message encapsulation that the data transmission set that is connected with fire-alarm will receive.
The data transmission set that is connected with fire-alarm is judged the equipment installation port that fire-alarm was connected earlier, then the numbering of this port and the device numbering of fire-alarm are assembled into device identification, all information are encapsulated as can be by the up monitor message of 3G network transmission, sends to Data Transmission Controlling module in the supervising device by 3G network.
Step S13: the Data Transmission Controlling module sends to service logic module with up monitor message
Up monitor message after the encapsulation that the Data Transmission Controlling module will receive is converted into the form that service logic module can be discerned, and sends to service logic module again.
Step S14: service logic module is resolved up monitor message, and sends the service logic configuration information that finds to Executive Module.
Service logic module is resolved up monitor message, parses the device identification of the fire-alarm that wherein comprises.Service logic module is according to the device identification of the fire-alarm that parses, find this fire-alarm in this supervisory control system during mounted equipment, further search pre-configured service logic, when in determining service logic, comprising the device identification of the fire-alarm that parses, determine that fire-alarm is an equipment related in the service logic.
Then further find the correspondent service logic configuration information, determining that logic association between fire-alarm and the ball-type camera closes is fire-alarm when sending the up monitor message of reporting to the police, and the ball-type camera is regulated the monitoring orientation of self to ignition point.And check and find the service logic configuration information to send to Executive Module.
Step S15: Executive Module generates descending monitor message, sends the Data Transmission Controlling module to.
After Executive Module is determined above-mentioned logic association between fire-alarm and the ball-type camera and is concerned according to the service logic configuration information that sends, be converted into corresponding operational order according to ball-type camera and pending business logical operation (angle of rotation, direction, rotary motion trace etc.) thereof, generate the descending monitor message comprise device identification of ball-type camera and pending business logical operation instruction.
The Executive Module inquiry is verified the port numbering that finds with the Downlink Control Information that generates and is transferred to the Data Transmission Controlling module by the data transmission set that the ball-type camera connected (as: data transmission set numbering, connectivity port numbering etc.) of portal user typing in advance.
Step S16: the Data Transmission Controlling module sends descending monitor message to the data transmission set that is connected with the ball-type camera, i.e. second data transmission set by cordless communication network.
The descending monitor message that the Data Transmission Controlling module will generate is packaged into can be by the Downlink Control Information of 3G network transmission, and the port of the Downlink Control Information after will encapsulate by the numbering of appointment is sent to and specifies on the data transmission set of numbering with the ball-type camera is connected.
Step S17: send to and the ball-type camera after the descending monitor message that the data transmission set that is connected with the ball-type camera will receive is resolved.
The data transmission set that is connected with the ball-type camera will be converted into the descending monitor message that the ball-type camera can be discerned by the descending monitor message that 3G network transmits.The port of numbering by this appointment according to the device numbering and the equipment installation port numbering of ball-type camera sends to the ball-type camera of designated equipment numbering again, realizes the business logical operation control to the ball-type camera.
The ball-type camera is carried out the correspondent service logic operation according to the descending monitor message that receives.
The ball-type camera is carried out the correspondent service logic operation according to the operational order of the pending business logical operation that comprises in the descending monitor message that receives.Turn to the orientation of scene of fire, video monitoring is carried out in the scene of fire.
Above-mentioned supervisory control system, method and the supervising device that the embodiment of the invention provides provides can be for the supervising device of configuration, the user only needs monitor terminal is installed this supervising device of access, after carrying out logic configuration by portal user, can set up service logic incidence relation with other monitor terminal by this supervising device, thereby after realizing a monitor terminal reporting information, other monitor terminal that is associated can carry out the monitoring purposes of associative operation automatically.By supervising device the multiple monitor terminal in the system is unified configuration and management, realize in the supervisory control system that a plurality of monitor terminals can co-ordination, realize jointly can satisfying the monitoring demand of various complexity to multi-faceted, the diversified monitoring in surrounding environment space.
Avoided monitoring server function singleness in the prior art, can't or difficult with other monitoring server collaborative work, replaced the drawback of a plurality of monitoring servers of polytype monitor terminal needs in traditional supervisory control system simultaneously by a supervising device.Realized compatible and collaborative to different brands, difference in functionality, dissimilar, different spaces, different transmission channel user side watch-dogs.And provide the self-defined and preset value function of the collaborative work between each monitor terminal, make and in a cover supervisory control system, polytype monitor terminal can be installed easily, also become simple in the first system extension that increase new monitor terminal in back is installed, promptly realized the simple access of various monitor terminals.
This system carries out transfer of data by cordless communication network based on 3G technology between various monitor terminals and the supervising device, thereby makes this system can not be subjected to the restriction of space length, realizes the comprehensively monitoring to bigger wider spatial dimension; And grow the transfer of data of distance by existing cordless communication network, both guaranteed transfer of data accurately, efficient, safety, stable, reduced the complexity of installing again, saved the cost of system's installation, upgrading, maintenance, reduced difficulty of construction.
The above; only be the preferable embodiment of the present invention; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily, replace or be applied to other similar devices, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claims.
Claims (15)
1. a method for supervising is characterized in that, comprising:
The up monitor message that first monitor terminal will collect sends to first data transmission set that is connected; First data transmission set sends to supervising device with described up monitor message encapsulation back by cordless communication network;
Supervising device is according to the up monitor message that receives, when determining that described first monitor terminal is equipment related in the pre-configured service logic, find the service logic configuration information relevant with described first monitor terminal, determine second monitor terminal that is associated, generate the corresponding downstream monitor message and send to second data transmission set by cordless communication network;
Send to corresponding described second monitor terminal after the descending monitor message that second data transmission set will receive is resolved, described second monitor terminal is carried out corresponding operation according to described descending monitor message.
2. the method for claim 1 is characterized in that, supervising device is according to the device identification that comprises in the up monitor message, determines that described first monitor terminal is a related equipment in the pre-configured service logic, specifically comprises:
Described supervising device receives the up monitor message after the encapsulation that described first data transmission set sends;
The up monitor message that receives is resolved, parse the device identification of first monitor terminal that wherein comprises;
When in finding pre-configured service logic, comprising the device identification that parses, determine that described first monitor terminal is a related equipment in the pre-configured service logic.
3. the method for claim 1 is characterized in that, describedly finds the service logic configuration information relevant with described first monitor terminal, determines second monitor terminal that is associated, and generates the corresponding downstream monitor message, specifically comprises:
According to the device identification of first monitor terminal, find the corresponding service logic configuration information;
The service logic configuration information that finds is resolved, according to the service logic incidence relation between the business logical operation of the service logic state of described first monitor terminal that parses and second monitor terminal, determine second monitor terminal that is associated and pending business logical operation thereof;
The business logical operation pending according to second monitor terminal generates the descending monitor message of the second monitor terminal operational order.
4. as the arbitrary described method of claim 1-3, it is characterized in that, also comprise: by the portal user function that described supervising device provided, the monitor terminal of connecting system is inserted configuration and logic configuration, and generate the correspondent service logic configuration information.
5. method as claimed in claim 4 is characterized in that, describedly inserts configuration, specifically comprises:
The device type of the monitor terminal of typing connecting system, parameter configuration and installation port information;
Carrying out logic configuration comprises: the monitor terminal of setting up connecting system is during as first monitor terminal, with the service logic incidence relation of second monitor terminal that is associated; And the monitor terminal of setting up connecting system is during as second monitor terminal, with the service logic incidence relation of first monitor terminal that is associated.
6. method as claimed in claim 4 is characterized in that, also comprises: by keeper's door function that described supervising device provided, realization is examined and control of authority non-registered users, and the login authentication of registered users.
7. a supervisory control system is characterized in that, comprising: some monitor terminals, plurality of data transmission equipment and supervising device;
Described monitor terminal is as first monitor terminal, and the up monitor message that is used for collecting sends to first data transmission set that is connected;
Described data transmission set is as first data transmission set, and the described up monitor message encapsulation back that is used for receiving sends to supervising device by cordless communication network;
Described supervising device, be used for according to the up monitor message that receives, when determining that described first monitor terminal is equipment related in the pre-configured service logic, find the service logic configuration information relevant with described first monitor terminal, determine second monitor terminal that is associated, generate the corresponding downstream monitor message and send to second data transmission set by cordless communication network;
Described data transmission set is as second data transmission set, be used to receive the descending monitor message that described supervising device sends and resolve after send to the second corresponding monitor terminal;
Described monitor terminal is used for carrying out corresponding operation according to the descending monitor message that receives as second monitor terminal.
8. system as claimed in claim 7 is characterized in that, described supervising device also is used for:
The portal user function is provided, the monitor terminal of connecting system is inserted configuration and logic configuration, and generate the correspondent service logic configuration information.
9. as claim 7 or 8 described systems, it is characterized in that described supervising device also is used for:
Keeper's door function is provided, and realization is examined and control of authority non-registered users, and the login authentication of registered users.
10. a supervising device is characterized in that, comprising: Data Transmission Controlling module, service logic module and Executive Module;
Described Data Transmission Controlling module is used to receive the up monitor message after the encapsulation that first data transmission set that is connected with first monitor terminal sends by cordless communication network; And the descending monitor message that described Executive Module is generated sends to second data transmission set that is connected with second monitor terminal by cordless communication network;
Service logic module is used for according to the described up monitor message that receives, when determining that described first monitor terminal is equipment related in the pre-configured service logic, finds the service logic configuration information relevant with described first monitor terminal;
Described Executive Module is used for determining second monitor terminal that is associated according to described service logic configuration information, generates corresponding described descending monitor message.
11. device as claimed in claim 10 is characterized in that, described service logic module specifically comprises:
Resolution unit is used for the up monitor message that receives is resolved, and parses the device identification of first monitor terminal that wherein comprises;
Judging unit is used for when finding pre-configured service logic when comprising the device identification that parses, and determines that described first monitor terminal is a related equipment in the pre-configured service logic;
Search the unit, be used for finding the service logic configuration information relevant, offer described Executive Module with described first monitor terminal according to the device identification of first monitor terminal.
12. device as claimed in claim 10 is characterized in that, described Executive Module specifically comprises:
Determining unit, be used for the service logic configuration information that finds is resolved, according to the service logic incidence relation between the business logical operation of the service logic state of described first monitor terminal that parses and second monitor terminal, determine second monitor terminal that is associated and pending business logical operation thereof;
Generation unit is used for the business logical operation pending according to second monitor terminal, generates the descending monitor message of the second monitor terminal operational order.
13. as the arbitrary described device of claim 10-12, it is characterized in that, also comprise:
The portal user module is used to provide the portal user function, and the monitor terminal of connecting system is inserted configuration and logic configuration, and generates the correspondent service logic configuration information.
14. device as claimed in claim 13 is characterized in that, described portal user module specifically comprises:
Insert dispensing unit, be used for device type, parameter configuration and the installation port information of the monitor terminal of typing connecting system;
Logic configuration unit, the monitor terminal that is used to set up connecting system are during as first monitor terminal, with the service logic incidence relation of second monitor terminal that is associated; And the monitor terminal of setting up connecting system is during as second monitor terminal, with the service logic incidence relation of first monitor terminal that is associated.
15. device as claimed in claim 13 is characterized in that, also comprises:
Keeper's door module is used to provide keeper's door function, and realization is examined and control of authority non-registered users, and the login authentication of registered users.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009102043142A CN102045741A (en) | 2009-10-12 | 2009-10-12 | Monitoring method, system and device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009102043142A CN102045741A (en) | 2009-10-12 | 2009-10-12 | Monitoring method, system and device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN102045741A true CN102045741A (en) | 2011-05-04 |
Family
ID=43911394
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2009102043142A Pending CN102045741A (en) | 2009-10-12 | 2009-10-12 | Monitoring method, system and device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102045741A (en) |
Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102510565A (en) * | 2011-10-11 | 2012-06-20 | 航天科工深圳(集团)有限公司 | Method and device for implementing synchronous interaction of transmission line state monitoring |
| CN102740058A (en) * | 2012-05-31 | 2012-10-17 | 成都元创测控技术股份有限公司 | Industrial image monitoring method and system, server and monitoring terminal |
| CN103313287A (en) * | 2012-03-07 | 2013-09-18 | 京信通信系统(中国)有限公司 | Method and device for repeater equipment alarm notification |
| CN104158690A (en) * | 2013-12-24 | 2014-11-19 | 南宁市磁汇科技有限公司 | Detector system |
| CN104243230A (en) * | 2013-06-24 | 2014-12-24 | 北京新媒传信科技有限公司 | Method and device for obtaining monitoring data of Linux server |
| TWI479289B (en) * | 2012-07-17 | 2015-04-01 | Mitsubishi Electric Corp | Control device and control method |
| CN104765349A (en) * | 2015-03-30 | 2015-07-08 | 联想(北京)有限公司 | Method for managing smart home equipment, server and center control equipment |
| CN108961643A (en) * | 2018-06-12 | 2018-12-07 | 深圳市中电数通智慧安全科技股份有限公司 | A kind of parameter management method based on block chain, device and terminal device |
| CN113556795A (en) * | 2021-07-20 | 2021-10-26 | 哈尔滨海能达科技有限公司 | Method for determining first-time forwarding equipment, related device and computer storage medium |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1809013A (en) * | 2006-02-14 | 2006-07-26 | 北京邮电大学 | Method of implementing isomeric sensor network system supporting wake mechanism |
| CN2804977Y (en) * | 2005-07-16 | 2006-08-09 | 山东中瑞电气有限公司 | Image monitoring early warning device |
| CN101442459A (en) * | 2008-03-05 | 2009-05-27 | 中科院嘉兴中心微系统所分中心 | Networking scheme with high expansibility for wireless sensor network |
-
2009
- 2009-10-12 CN CN2009102043142A patent/CN102045741A/en active Pending
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN2804977Y (en) * | 2005-07-16 | 2006-08-09 | 山东中瑞电气有限公司 | Image monitoring early warning device |
| CN1809013A (en) * | 2006-02-14 | 2006-07-26 | 北京邮电大学 | Method of implementing isomeric sensor network system supporting wake mechanism |
| CN101442459A (en) * | 2008-03-05 | 2009-05-27 | 中科院嘉兴中心微系统所分中心 | Networking scheme with high expansibility for wireless sensor network |
Cited By (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102510565A (en) * | 2011-10-11 | 2012-06-20 | 航天科工深圳(集团)有限公司 | Method and device for implementing synchronous interaction of transmission line state monitoring |
| CN103313287A (en) * | 2012-03-07 | 2013-09-18 | 京信通信系统(中国)有限公司 | Method and device for repeater equipment alarm notification |
| CN102740058A (en) * | 2012-05-31 | 2012-10-17 | 成都元创测控技术股份有限公司 | Industrial image monitoring method and system, server and monitoring terminal |
| TWI479289B (en) * | 2012-07-17 | 2015-04-01 | Mitsubishi Electric Corp | Control device and control method |
| CN104243230A (en) * | 2013-06-24 | 2014-12-24 | 北京新媒传信科技有限公司 | Method and device for obtaining monitoring data of Linux server |
| CN104243230B (en) * | 2013-06-24 | 2018-04-27 | 北京新媒传信科技有限公司 | The method and apparatus of monitoring data in a kind of acquisition Linux server |
| CN104158690A (en) * | 2013-12-24 | 2014-11-19 | 南宁市磁汇科技有限公司 | Detector system |
| CN104765349A (en) * | 2015-03-30 | 2015-07-08 | 联想(北京)有限公司 | Method for managing smart home equipment, server and center control equipment |
| CN108961643A (en) * | 2018-06-12 | 2018-12-07 | 深圳市中电数通智慧安全科技股份有限公司 | A kind of parameter management method based on block chain, device and terminal device |
| CN113556795A (en) * | 2021-07-20 | 2021-10-26 | 哈尔滨海能达科技有限公司 | Method for determining first-time forwarding equipment, related device and computer storage medium |
| CN113556795B (en) * | 2021-07-20 | 2023-03-24 | 哈尔滨海能达科技有限公司 | Method for determining first-time forwarding equipment, related device and computer storage medium |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102045741A (en) | Monitoring method, system and device | |
| US11910290B2 (en) | Multiple application module or unit | |
| EP2566281B1 (en) | Internet of things service architecture and method for realizing internet of things service | |
| CN102224470B (en) | For providing the system and method for control and automation services | |
| CN101976885B (en) | Remote intelligent network management power management system | |
| CN103347274B (en) | The collocation method of Remote Radio Unit and distributed base station | |
| CN205657715U (en) | Vehicle communication system based on big dipper location | |
| EP3560229B1 (en) | Assurance framework for cp and dp slices | |
| CN103049988A (en) | Warehousing space parameter monitoring system and method based on WiFi (Wireless Fidelity) wireless network | |
| WO2010108339A1 (en) | A shield system for seamless graded management and use controlling method thereof | |
| CN105933220A (en) | Intelligent home gateway with LTE communication and network camera | |
| CN111147823B (en) | Method for realizing remote monitoring and supporting for transformer substation emergency repair by adopting monitoring platform | |
| CN105392149A (en) | Strategy adjusting trigger and strategy adjusting method and device, and strategy adjusting system | |
| CN105207800B (en) | The electric power of multi-communication mode fusion wirelessly communicates private network operation system | |
| CN106288221A (en) | Air conditioning control method and system and air conditioning unit | |
| CN101945086A (en) | Security system access business platform for video type security gateway and information transmission method | |
| CN201199725Y (en) | Wireless video monitoring apparatus | |
| CN107069968A (en) | A kind of method, main website, stability control device and the system of remotely modifying definite value | |
| CN104750073A (en) | Security linkage system | |
| CN202737918U (en) | Mobile managing and controlling platform | |
| CN104954881B (en) | Security system | |
| CN111147822B (en) | Monitoring system for transformer substation emergency repair | |
| CN113810797A (en) | Intelligent ODN management system and method based on optical port state monitoring | |
| CN112990947A (en) | Tea production line remote management traceability system based on cloud service and block chain technology | |
| CN207883104U (en) | A kind of fire remote-monitoring system based on LoRa and IP network technology |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20110504 |