CN104182690A - Method and device for monitoring safety state - Google Patents

Abstract

The invention discloses a method and a device for monitoring a safety state. The method comprises the following steps: acquiring environment information of a monitored object and task monitoring information of each task of the monitored object; determining safety levels corresponding to the acquired task monitoring information and the acquired environment information respectively according to preset corresponding relations between the task monitoring information and the corresponding safety level and between the environment information and the corresponding safety level; outputting the safety level corresponding to the task monitoring information and the safety level corresponding to the environment information so as to prompt to process the monitored object corresponding to the safety level representative of a danger. According to the method and the device, a plurality of systems can be simultaneously monitored in a unified and centralized manner, and environment states of the systems are monitored.

Description

A kind of method and device of monitoring safe condition

Technical field

The present invention relates to field of computer technology, relate in particular to a kind of method and device of monitoring safe condition.

Background technology

At present, along with the development of computer technology, in the production run of all trades and professions, all can use computing machine and carry out actual operation and controlling.And because computing machine is when the operation and controlling, that technician is written to the medium machine to be calculated of computing machine calling these codes by required operation with the form of code in advance, and in actual applications, computing machine during due to computing machine invoke code, may there are error calls or call in a large number simultaneously, so there will be mistake or makes computing machine overload operation when operating or control.Therefore the operation and controlling of computing machine is monitored and is necessary.

When to the monitoring of computing machine, be at present all that monitoring module is monitored single system, cannot accomplish all system flows to carry out unified monitoring.For example, during monitoring that the system in Dui power plant is carried out, because power plant comprises a plurality of genset, each genset is to be operated and controlled by computing machine, so control the computing machine of a genset, forms an independently mini system, also has a general control system in Er Yige power plant, when monitoring, can only be independently in mini system, to add supervisory system at present, and this mini system is monitored, and cannot monitor whole general control system.And when system is monitored, can only monitor the ruuning situation of system itself, and can not monitor system place ambient condition at present.

Currently available technology cannot the monitoring that unify, concentrated to the supervisory system being comprised of a plurality of systems, and ambient condition that cannot supervisory system place.

Summary of the invention

The embodiment of the present invention provides a kind of method and device of monitoring safe condition, for realizing the monitoring that unify, concentrated to a plurality of systems simultaneously, and system place ambient condition is monitored.

A method of monitoring safe condition, comprises the following steps: the Mission Monitor information of obtaining the environmental information of monitored object and each task of monitored object; According to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained corresponding safe class respectively; Export the corresponding safe class of described Mission Monitor information and the corresponding safe class of described environmental information, to point out representing that monitored object corresponding to dangerous safe class process.By obtain the Mission Monitor information of the environmental information of monitored object and each task of monitored object simultaneously, and definite environmental information of monitored object getting and the corresponding safe class of Mission Monitor information of each task of monitored object, the definite safe class of unified output, realized the monitoring that unify, concentrated to a plurality of systems simultaneously, and the object that system place ambient condition is monitored.

Described Mission Monitor information, comprising: any one in the sequence number of monitored object, the network address of monitored object, error identification, correct information and error message or multinomial; Described environmental information, comprising: monitored object place hard drive space is used the real-time process state of state and/or monitored object.By monitor message and the environmental information of setting the tasks, can obtain more accurately monitored object and the monitored object place environment information relevant with safe class.

The described Mission Monitor information of obtaining each task of monitored object, comprising: the numerical value producing while obtaining monitored object operation; According to described numerical value, analyze the Mission Monitor information of described monitored object.The numerical value producing during operation by the monitored object of direct collection, and from this numerical value, analyze the Mission Monitor information of each task of monitored object, be not to gather monitored object to provide Mission Monitor information, thereby error or mistake that the Mission Monitor information that the monitored object that provides when operation makes mistakes due to monitored object has been provided is made mistakes and produced in operation because of monitored object, improved the accuracy rate of the Mission Monitor information of each task of obtaining monitored object.

The Mission Monitor information that described basis is default and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained corresponding safe class respectively, comprising: mate described Mission Monitor information and environmental information respectively with the corresponding relation of default safety level information; According to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine safe class corresponding to described Mission Monitor information.By judgement Mission Monitor information and the corresponding relation of environmental information respectively and between default Mission Monitor information, the monitor message that sets the tasks and safe class corresponding to environmental information difference.Because default safety level information and Mission Monitor information and the environmental information obtained have corresponding corresponding relation, so can be easy to determine the corresponding safe class of Mission Monitor information, the corresponding safe class of the monitor message that sets the tasks more accurately.

Described according to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine described Mission Monitor information and safe class corresponding to environmental information difference, comprise: according to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine in described Mission Monitor information the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information; According to safe class corresponding to each environmental information item difference in each Mission Monitor item of information and environmental information in described Mission Monitor information, determine described Mission Monitor information and the corresponding safe class of environmental information.Because each Mission Monitor information comprises one or more Mission Monitor items of information, and the safe class of each Mission Monitor item of information is all not identical, so determine the safe class of this Mission Monitor information by the safe class of all Mission Monitor items of information of comprehensive judgement, in like manner determine the safe class of this environmental information by the safe class of all environmental information items of comprehensive judgement.Due to the set the tasks safe class of monitor message and environmental information of the safe class of comprehensive all Mission Monitor items of information and environmental information item, the safe class of monitor message and the environmental information of can setting the tasks more comprehensively, more accurately.

Described according to safe class corresponding to each environmental information item difference in each Mission Monitor item of information and environmental information in described Mission Monitor information, determine described Mission Monitor information and the corresponding safe class of environmental information, comprise: according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information in described Mission Monitor information, determine the most dangerous environmental information item of safe class in Mission Monitor item of information that safe class in described Mission Monitor information is the most dangerous and environmental information; Described in determining, the most dangerous corresponding safe class of Mission Monitor item of information is the safe class that the safe class of the most dangerous environmental information item of the safe class of Mission Monitor information and environmental information is environmental information.Take the safe class of safe class corresponding to the most dangerous Mission Monitor item of information and the most dangerous environmental information item correspondence as being respectively the safe class of this Mission Monitor information and the safe class of environmental information, the security of evaluating for Mission Monitor information and environmental information in the time of can improving monitoring.

A device of monitoring safe condition, comprising: acquisition module, determination module and output module; Acquisition module, for obtaining the Mission Monitor information of the environmental information of monitored object and each task of monitored object; Determination module, for according to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained corresponding safe class respectively; Output module, for exporting the corresponding safe class of described Mission Monitor information and the corresponding safe class of described environmental information, to point out representing that monitored object corresponding to dangerous safe class process.

Described acquisition module, comprising: acquiring unit and analytic unit; Acquiring unit, for obtaining the numerical value producing when monitored object moves; Analytic unit, for according to described numerical value, analyzes the Mission Monitor information of described monitored object.

Described determination module, comprising: matching unit, for mate described Mission Monitor information and environmental information respectively with the corresponding relation of default safety level information; Determining unit, for according to described Mission Monitor information and environmental information respectively with the matching result of default safe class, determine described Mission Monitor information and environmental information corresponding safe class respectively.

Described determining unit, comprising: individual event determines that secondary units and safe class determine secondary units; Secondary units is determined in individual event, for according to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine in described Mission Monitor information the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information; Safe class is determined secondary units, for according to safe class corresponding to each environmental information item difference in each Mission Monitor item of information of described Mission Monitor information and environmental information, determines described Mission Monitor information and the corresponding safe class of environmental information.

Described safe class is determined secondary units, comprising: endanger most definite three grades of unit and safe class are determined three grades of unit; The item of endangering is most determined three grades of unit, for according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information of described Mission Monitor information and environmental information, determine the most dangerous environmental information item of safe class in Mission Monitor item of information that safe class in described Mission Monitor information is the most dangerous and environmental information; Safe class is determined three grades of unit, the safe class that the safe class that is the most dangerous environmental information item of the safe class of Mission Monitor information and environmental information for the most dangerous corresponding safe class of Mission Monitor item of information described in determining is environmental information.

Other features and advantages of the present invention will be set forth in the following description, and, partly from instructions, become apparent, or understand by implementing the present invention.Object of the present invention and other advantages can be realized and be obtained by specifically noted structure in the instructions write, claims and accompanying drawing.

Below by drawings and Examples, technical scheme of the present invention is described in further detail.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for instructions, for explaining the present invention, is not construed as limiting the invention together with embodiments of the present invention.In the accompanying drawings:

Fig. 1 is a kind of schematic flow sheet of monitoring the method for safe condition in the embodiment of the present invention;

Fig. 2 is a kind of embodiment schematic flow sheet of monitoring the method for safe condition in the embodiment of the present invention;

Fig. 3 is a kind of structural representation of monitoring the device of safe condition in the embodiment of the present invention;

Fig. 4 is the structural representation of acquisition module in a kind of device of monitoring safe condition in the embodiment of the present invention;

Fig. 5 is the structural representation of determination module in a kind of device of monitoring safe condition in the embodiment of the present invention;

Fig. 6 is the structural representation of determining unit in a kind of device of monitoring safe condition in the embodiment of the present invention;

Fig. 7 be in the embodiment of the present invention in a kind of device of monitoring safe condition safe class determine the structural representation of secondary units.

Embodiment

Below in conjunction with accompanying drawing, the preferred embodiments of the present invention are described, should be appreciated that preferred embodiment described herein, only for description and interpretation the present invention, is not intended to limit the present invention.

As shown in Figure 1, a kind of method of monitoring safe condition, concrete implementation step is as follows:

In step 101, obtain the Mission Monitor information of the environmental information of monitored object and each task of monitored object.

In step 102, according to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, determine the Mission Monitor information obtained and described in the environmental information obtained corresponding safe class respectively.

In step 103, the output corresponding safe class of Mission Monitor information and the corresponding safe class of environmental information, to point out representing that monitored object corresponding to dangerous safe class process.

The embodiment of the present invention provides a kind of method of monitoring safe condition, by obtain the Mission Monitor information of the environmental information of monitored object and each task of monitored object simultaneously, and definite environmental information of monitored object getting and the corresponding safe class of Mission Monitor information of each task of monitored object, the definite safe class of unified output.At present when multisystem is monitored, all to take system to monitor as unit, and the monitored results of a plurality of triangular webs is arranged to the monitored results that obtains multisystem after merging, the Mission Monitor information that during due to monitoring, each system provides is different, therefore cannot the monitoring that unify, concentrated to a plurality of systems.And because the monitor message that each system provides is different, so the expansion of supervisory system is also made troubles.And current supervisory system can only monitor the ruuning situation of each system, and cannot monitor the moving market condition of supervisory system place environment.For the above problem embodiment of the present invention, provide a kind of method of monitoring safe condition, realized the monitoring that unify, concentrated to a plurality of systems simultaneously, and the object that system place ambient condition is monitored.

In step 101, Mission Monitor information, comprising: any one in the sequence number of monitored object, the network address of monitored object, error identification, correct information and error message or multinomial; Environmental information, comprising: monitored object place hard drive space is used the real-time process state of state and/or monitored object.By monitor message and the environmental information of setting the tasks, can obtain more accurately monitored object and the monitored object place environment information relevant with safe class.

In step 101, the Mission Monitor information of obtaining each task of monitored object can realize in order to lower scheme.Option A 1: the numerical value producing while obtaining monitored object operation; According to numerical value, analyze the Mission Monitor information of monitored object.The numerical value producing during operation by the monitored object of direct collection, and from this numerical value, analyze the Mission Monitor information of each task of monitored object, be not to gather monitored object to provide Mission Monitor information, thereby error or mistake that the Mission Monitor information that the monitored object that provides when operation makes mistakes due to monitored object has been provided is made mistakes and produced in operation because of monitored object, improved the accuracy rate of the Mission Monitor information of each task of obtaining monitored object.

In step 102, according to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained respectively corresponding safe class can realize in order to lower scheme.Option b 1: matching task monitor message and environmental information respectively with the corresponding relation of default safe class; According to Mission Monitor information and environmental information respectively with the matching result of default safe class, the monitor message that sets the tasks and environmental information be corresponding safe class respectively.The corresponding relation respectively and between default safe class by matching task monitor message and environmental information, the safe class of the monitor message that sets the tasks and environmental information.Because default safety level information and Mission Monitor information and the environmental information obtained have corresponding corresponding relation, so can be easy to determine the corresponding safe class of Mission Monitor information, the corresponding safe class of the monitor message that sets the tasks more accurately.

In option b 1, according to Mission Monitor information and environmental information respectively with the matching result of default safety level information, safe class corresponding to the monitor message that sets the tasks and environmental information difference can realize in order to lower scheme, as scheme C1: according to Mission Monitor information and environmental information respectively with the matching result of default safety level information, each environmental information item corresponding safe class respectively in each Mission Monitor item of information and environmental information in the monitor message that sets the tasks; According to safe class corresponding to each environmental information item difference in each Mission Monitor item of information and environmental information in Mission Monitor information, the corresponding safe class of the monitor message that sets the tasks and environmental information.Because each Mission Monitor information comprises one or more Mission Monitor items of information, and the safe class of each Mission Monitor item of information is all not identical, so determine the safe class of this Mission Monitor information by the safe class of all Mission Monitor items of information of comprehensive judgement, in like manner determine the safe class of this environmental information by the safe class of all environmental information items of comprehensive judgement.Due to the set the tasks safe class of monitor message and environmental information of the safe class of comprehensive all Mission Monitor items of information and environmental information item, the safe class of monitor message and the environmental information of can setting the tasks more comprehensively, more accurately.

In scheme C1, according to safe class corresponding to each environmental information item difference in each Mission Monitor item of information and environmental information in Mission Monitor information, the corresponding safe class of the monitor message that sets the tasks and environmental information can realize in order to lower scheme, as scheme D1: according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information in Mission Monitor information, the most dangerous environmental information item of safe class in the most dangerous Mission Monitor item of information of safe class and environmental information in the monitor message that sets the tasks; The safe class that the safe class of the environmental information item that the safe class that the most dangerous definite corresponding safe class of Mission Monitor item of information is Mission Monitor information and environmental information are the most dangerous is environmental information.Take the safe class of safe class corresponding to the most dangerous Mission Monitor item of information and the most dangerous environmental information item correspondence as being respectively the safe class of this Mission Monitor information and the safe class of environmental information, the security of evaluating for Mission Monitor information and environmental information in the time of can improving monitoring.

Below by several exemplary embodiments, introduce in detail the technical scheme that the embodiment of the present invention provides.

Embodiment mono-

As shown in Figure 2, the present embodiment provides a kind of method of monitoring safe condition, and concrete implementation step is as follows:

In step 201, obtain the numerical value producing when the environmental information of monitored object and each task of monitored object are obtained monitored object operation.Wherein, environmental information, comprising: monitored object place hard drive space is used the real-time process state of state and/or monitored object.

In step 202, according to the corresponding relation of default environmental information and safe class, determine safe class corresponding to environmental information of obtaining.

In step 203, according to numerical value, analyze the Mission Monitor information of monitored object.Wherein, Mission Monitor information, comprising: any one in the sequence number of monitored object, the network address of monitored object, error identification, correct information and error message or multinomial.

In step 204, the corresponding relation of matching task monitor message and default safety level information.

In step 205, according to Mission Monitor information and environmental information respectively with the matching result of default safety level information, each environmental information item corresponding safe class respectively in each Mission Monitor item of information and environmental information in the monitor message that sets the tasks.

In step 206, according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information in Mission Monitor information, the most dangerous environmental information item of safe class in the most dangerous Mission Monitor item of information of safe class and environmental information in the monitor message that sets the tasks.

In step 207, the safe class that the safe class of the environmental information item that the safe class that the most dangerous definite corresponding safe class of Mission Monitor item of information is Mission Monitor information and environmental information are the most dangerous is environmental information.

For example, during the monitoring in power plant, operational system carried out, because power plant comprises many group genset, every group of genset is all that the computing machine by this genset operates and controls.Suppose, have 10 groups of genset in power plant, respectively genset is numbered to 101,102,103 ¨ ¨ ¨ 109,110, the computing machine of every group of genset all only moves 10 tasks when start.Supposing to have 5 groups of genset work is 102,104,105,106,109; and another 5 genset are in stopped status; when monitoring, only need monitor this 5 groups of genset of working; because every group of genset start computer-chronograph all moves 10 tasks; when the numerical value producing while obtaining each task runs of this 5 groups of genset and the environmental information of monitored object, the environmental information when numerical value producing in the time of can getting 50 task runs and 5 computer run.According to obtain 50 numerical value, analyze and comprise: 50 Mission Monitor information of the sequence number of monitored object, the network address of monitored object, error identification, correct information and error message and obtaining comprise: monitored object place hard drive space is used 5 environmental informations of the real-time process state of state and monitored object.Whether the Mission Monitor information that discriminatory analysis obtains mates with default Mission Monitor information, the relativity of monitor task information as shown in table 1 and safety level information.While determining the safe class of each monitor task, need evaluate in conjunction with 5 corresponding safe classes of master data of this monitor task the safe class that the most dangerous safe class of this monitor task of take is this monitor task.Suppose that matching result is as follows: the monitor task that the monitor task that the monitor task that the monitor task that meets normal level information has 14 monitor tasks, meet level of interest information has 10 monitor tasks, meet alert level information has 14 monitor tasks, meet grave warning class information has 12 monitor tasks, and according to the sequence number of monitored object, determines the safe class corresponding to each task of every group of genset.According to the corresponding relation of default environmental information and safe class, determine the safe class corresponding to environmental information difference of 5 groups of genset simultaneously.Safe class corresponding to environmental information is divided into four grades equally, is respectively normal, concern, warning, grave warning.Determine that result is that 5 safe classes corresponding to environmental information are normally.By Mission Monitor information security grade result: normal (14), pay close attention to (10), warning (14), grave warning (12) and safe class result corresponding to environmental information: normal (5) export to user simultaneously, for user, judge which result needs to process, which result does not need is processed.

The relativity of table 1 monitor task information and safety level information

The embodiment of the present invention provides a kind of method of monitoring safe class, by obtaining the numerical value producing when the environmental information of monitored object and each task of monitored object are obtained monitored object operation.According to numerical value, analyze the Mission Monitor information of monitored object.According to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, determine the Mission Monitor information obtained and described in the environmental information obtained corresponding safe class respectively.The output corresponding safe class of Mission Monitor information and the corresponding safe class of environmental information, to point out representing that monitored object corresponding to dangerous safe class process.Realized the monitoring that unify, concentrated to a plurality of systems simultaneously, and the object that system place ambient condition is monitored.

More than described a kind of implementation procedure of monitoring the method for safe condition, this process can be realized by device, below built-in function and the structure of device is introduced.

As shown in Figure 3, a kind of device of monitoring safe condition, comprising: acquisition module 301, determination module 302 and output module 303.

Acquisition module 301, for obtaining the Mission Monitor information of the environmental information of monitored object and each task of monitored object.

Determination module 302, for according to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, determine the Mission Monitor information of obtaining and the environmental information of obtaining corresponding safe class respectively.

Output module 303, for exporting the corresponding safe class of Mission Monitor information and the corresponding safe class of environmental information, to point out representing that monitored object corresponding to dangerous safe class process.

As shown in Figure 4, acquisition module 301, comprising: acquiring unit 401 and analytic unit 402.

Acquiring unit 401, for obtaining the numerical value producing when monitored object moves.

Analytic unit 402, for according to numerical value, analyzes the Mission Monitor information of monitored object.

As shown in Figure 5, determination module 302, comprising: matching unit 501 and determining unit 502.

Matching unit 501, for matching task monitor message and environmental information respectively with the corresponding relation of default safety level information.

Determining unit 502, for according to Mission Monitor information and environmental information respectively with the matching result of default safe class, the monitor message that sets the tasks and environmental information be corresponding safe class respectively.

As shown in Figure 6, determining unit 502, comprising: individual event determines that secondary units 601 and safe class determine secondary units 602.

Secondary units 601 is determined in individual event, for according to Mission Monitor information and environmental information respectively with the matching result of default safety level information, each environmental information item corresponding safe class respectively in each Mission Monitor item of information and environmental information in the monitor message that sets the tasks.

Safe class is determined secondary units 602, for distinguishing corresponding safe class, the corresponding safe class of the monitor message that sets the tasks and environmental information according to each environmental information item in each Mission Monitor item of information of Mission Monitor information and environmental information.

As shown in Figure 7, safe class is determined secondary units 602, comprising: endanger most definite three grades of unit 701 and safe class are determined three grades of unit 702.

The item of endangering is most determined three grades of unit 701, for according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information of Mission Monitor information and environmental information, the most dangerous environmental information item of safe class in the most dangerous Mission Monitor item of information of safe class and environmental information in the monitor message that sets the tasks.

Safe class is determined three grades of unit 702, the safe class that the safe class of the environmental information item that the safe class that is Mission Monitor information for the most dangerous definite corresponding safe class of Mission Monitor item of information and environmental information are the most dangerous is environmental information.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt complete hardware implementation example, implement software example or in conjunction with the form of the embodiment of software and hardware aspect completely.And the present invention can adopt the form that wherein includes the upper computer program of implementing of computer-usable storage medium (including but not limited to magnetic disk memory and optical memory etc.) of computer usable program code one or more.

The present invention is with reference to describing according to process flow diagram and/or the block scheme of the method for the embodiment of the present invention, equipment (system) and computer program.Should understand can be in computer program instructions realization flow figure and/or block scheme each flow process and/or the flow process in square frame and process flow diagram and/or block scheme and/or the combination of square frame.Can provide these computer program instructions to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, the instruction of carrying out by the processor of computing machine or other programmable data processing device is produced for realizing the device in the function of flow process of process flow diagram or a plurality of flow process and/or square frame of block scheme or a plurality of square frame appointments.

These computer program instructions also can be stored in energy vectoring computer or the computer-readable memory of other programmable data processing device with ad hoc fashion work, the instruction that makes to be stored in this computer-readable memory produces the manufacture that comprises command device, and this command device is realized the function of appointment in flow process of process flow diagram or a plurality of flow process and/or square frame of block scheme or a plurality of square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make to carry out sequence of operations step to produce computer implemented processing on computing machine or other programmable devices, thereby the instruction of carrying out is provided for realizing the step of the function of appointment in flow process of process flow diagram or a plurality of flow process and/or square frame of block scheme or a plurality of square frame on computing machine or other programmable devices.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (11)

1. a method of monitoring safe condition, is characterized in that, comprises the following steps:

Obtain the Mission Monitor information of the environmental information of monitored object and each task of monitored object;

According to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained corresponding safe class respectively;

Export the corresponding safe class of described Mission Monitor information and the corresponding safe class of described environmental information, to point out representing that monitored object corresponding to dangerous safe class process.

2. the method for claim 1, is characterized in that, described Mission Monitor information, comprising: any one in the sequence number of monitored object, the network address of monitored object, error identification, correct information and error message or multinomial;

Described environmental information, comprising: monitored object place hard drive space is used the real-time process state of state and/or monitored object.

3. the method for claim 1, is characterized in that, described in obtain the Mission Monitor information of each task of monitored object, comprising:

The numerical value producing while obtaining monitored object operation;

According to described numerical value, analyze the Mission Monitor information of described monitored object.

4. the method for claim 1, it is characterized in that, the Mission Monitor information that described basis is default and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained corresponding safe class respectively, comprising:

Mate described Mission Monitor information and environmental information respectively with the corresponding relation of default safety level information;

According to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine described Mission Monitor information and environmental information corresponding safe class respectively.

5. method as claimed in claim 4, is characterized in that, described according to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine described Mission Monitor information and environmental information corresponding safe class respectively, comprising:

According to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine in described Mission Monitor information the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information;

According to safe class corresponding to each environmental information item difference in each Mission Monitor item of information and environmental information in described Mission Monitor information, determine described Mission Monitor information and the corresponding safe class of environmental information.

6. method as claimed in claim 5, it is characterized in that, describedly according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information in described Mission Monitor information, determine described Mission Monitor information and the corresponding safe class of environmental information, comprising:

According to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information in described Mission Monitor information, determine the most dangerous environmental information item of safe class in Mission Monitor item of information that safe class in described Mission Monitor information is the most dangerous and environmental information;

Described in determining, the most dangerous corresponding safe class of Mission Monitor item of information is the safe class that the safe class of the most dangerous environmental information item of the safe class of Mission Monitor information and environmental information is environmental information.

7. a device of monitoring safe condition, is characterized in that, comprising: acquisition module, determination module and output module;

Acquisition module, for obtaining the Mission Monitor information of the environmental information of monitored object and each task of monitored object;

Determination module, for according to default Mission Monitor information and environmental information respectively with the corresponding relation of safe class, the Mission Monitor information of obtaining described in determining and described in the environmental information obtained corresponding safe class respectively;

Output module, for exporting the corresponding safe class of described Mission Monitor information and the corresponding safe class of described environmental information, to point out representing that monitored object corresponding to dangerous safe class process.

8. device as claimed in claim 7, is characterized in that, described acquisition module, comprising: acquiring unit and analytic unit;

Acquiring unit, for obtaining the numerical value producing when monitored object moves;

Analytic unit, for according to described numerical value, analyzes the Mission Monitor information of described monitored object.

9. device as claimed in claim 7, is characterized in that, described determination module, comprising: matching unit and determining unit;

Matching unit, for mate described Mission Monitor information and environmental information respectively with the corresponding relation of default safety level information;

Determining unit, for according to described Mission Monitor information and environmental information respectively with the matching result of default safe class, determine described Mission Monitor information and environmental information corresponding safe class respectively.

10. device as claimed in claim 9, is characterized in that, described determining unit, comprising: individual event determines that secondary units and safe class determine secondary units;

Secondary units is determined in individual event, for according to described Mission Monitor information and environmental information respectively with the matching result of default safety level information, determine in described Mission Monitor information the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information and environmental information;

Safe class is determined secondary units, for according to safe class corresponding to each environmental information item difference in each Mission Monitor item of information of described Mission Monitor information and environmental information, determines described Mission Monitor information and the corresponding safe class of environmental information.

11. methods as claimed in claim 10, is characterized in that, described safe class is determined secondary units, comprising: endanger most definite three grades of unit and safe class are determined three grades of unit;

The item of endangering is most determined three grades of unit, for according to the corresponding safe class respectively of each environmental information item in each Mission Monitor item of information of described Mission Monitor information and environmental information, determine the most dangerous environmental information item of safe class in Mission Monitor item of information that safe class in described Mission Monitor information is the most dangerous and environmental information;

Safe class is determined three grades of unit, the safe class that the safe class that is the most dangerous environmental information item of the safe class of Mission Monitor information and environmental information for the most dangerous corresponding safe class of Mission Monitor item of information described in determining is environmental information.