CN103245365A - Detection device of military electronic equipment, and detection method and detection system of detecting device - Google Patents
Detection device of military electronic equipment, and detection method and detection system of detecting device Download PDFInfo
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- CN103245365A CN103245365A CN2012100285774A CN201210028577A CN103245365A CN 103245365 A CN103245365 A CN 103245365A CN 2012100285774 A CN2012100285774 A CN 2012100285774A CN 201210028577 A CN201210028577 A CN 201210028577A CN 103245365 A CN103245365 A CN 103245365A
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Abstract
The invention is applicable to the technical field of management of military materials, and provides a detection device of military electronic equipment, and a detection method and a detection system of the detection device. The detection method includes the steps as follows: when an environmental parameter sampling value and an operating parameter sampling value of the military electronic equipment are not beyond the ranges of corresponding prestored thresholds respectively, an environmental parameter contribution value and an operating parameter contribution value are calculated; the environmental parameter contribution value and the best prestored environmental parameter contribution value are subjected to variance processing, and the operating parameter contribution value and the best prestored operating parameter contribution value are subjected to variance processing to obtain an environmental parameter variance value and an operating parameter variance value; and a comprehensive health reference value of the military electronic equipment is calculated in combination of a weight processing mode to realize automatic comprehensive analysis of a current operating condition of the military electronic equipment and avoid the problem of poor reliability of an analysis result in a conventional manual mode, so that the popularization and the application of a product are facilitated.
Description
Technical field
The invention belongs to military supplies administrative skill field, relate in particular to a kind of Military Electronic Equipment pick-up unit and detection method thereof, detection system.
Background technology
Military Electronic Equipment is the various electronic devices that confession under directions army uses, and for example: various military communications equipments, military electronic chart, military wrist-watch etc. also comprise various electronic test equipments.
Present Military Electronic Equipment is in no supervision state in practical work process, because the quantity of Military Electronic Equipment is big, the internal work state of a large amount of Military Electronic Equipment can't be known or can't in time be known to managerial personnel, caused the unreasonable use and maintenance of a large amount of Military Electronic Equipment, military supplies have been caused great waste, and the no supervision state of this kind ubiquity in each Logistics support force of army.
For this reason, prior art provides a kind of Military Electronic Equipment pick-up unit, it is by voltage sensor, current sensor or the realization of the various environmental sensor real-time collection to voltage, electric current or the environmental parameter of Military Electronic Equipment, and collection result sent to a Surveillance center, to realize the monitoring to Military Electronic Equipment operation conditions and working environment.
Yet, this Military Electronic Equipment pick-up unit only can provide the actual detected end value of voltage, electric current or environmental parameter, by staff's the present situation according to each actual detected end value analysis-by-synthesis Military Electronic Equipment, subjectivity is strong, the analysis result reliability is low, and comprehensively each actual detected end value provides the health data of electronic equipment automatically.
Summary of the invention
The object of the present invention is to provide a kind of detection method of Military Electronic Equipment pick-up unit, the Military Electronic Equipment pick-up unit that being intended to solve prior art provides only can provide the actual detected end value of voltage, electric current or environmental parameter, and by the present situation of manual type analysis-by-synthesis Military Electronic Equipment, subjectivity is strong, the problem that the analysis result reliability is low.
The present invention is achieved in that a kind of detection method of Military Electronic Equipment pick-up unit, said method comprising the steps of:
Receive environmental parameter sampled value and the operational factor sampled value of Military Electronic Equipment, and do not exceed corresponding prestoring during threshold range respectively when described environmental parameter sampled value and operational factor sampled value, according to described environmental parameter sampled value and operational factor sampled value computing environment parameter contribution margin and operational factor contribution margin;
The best contribution margin of described environmental parameter contribution margin and the environmental parameter that prestores is done variance handle, and the best contribution margin of described operational factor contribution margin and the operational factor that prestores is done variance handle, obtain environmental parameter variance yields and operational factor variance yields;
According to described environmental parameter variance yields, operational factor variance yields and the environmental parameter weight that prestores, operational factor weight, calculate the comprehensive health reference value of described Military Electronic Equipment.
Another object of the present invention is to, a kind of detection system of Military Electronic Equipment pick-up unit also is provided, described system comprises:
Memory module, environmental parameter sampled value and operational factor sampled value respective threshold scope, the best contribution margin of environmental parameter, the best contribution margin of operational factor, environmental parameter weight, operational factor weight respectively are used for prestoring;
Signal receiving module is for the environmental parameter sampled value and the operational factor sampled value that receive Military Electronic Equipment;
Judge module is used for judging whether described environmental parameter sampled value and operational factor sampled value that described signal receiving module receives exceed the respective threshold scope that described memory module prestores respectively;
The contribution margin computing module, be used for when described judge module judges that described environmental parameter sampled value that described signal receiving module receives and operational factor sampled value do not exceed the respective threshold scope that described memory module prestores respectively the described environmental parameter sampled value and operational factor sampled value computing environment parameter contribution margin and the operational factor contribution margin that receive according to described signal receiving module;
The variance processing module, be used for the described environmental parameter contribution margin that described contribution margin computing module is calculated and the best contribution margin of described environmental parameter that described memory module prestores and do the variance processing, and the best contribution margin of described operational factor that described operational factor contribution margin and described memory module prestore is done variance handle, obtain environmental parameter variance yields and operational factor variance yields;
Comprehensive health reference value computing module, for environmental parameter weight, the operational factor weight that the described environmental parameter variance yields, operational factor variance yields and the described memory module that calculate according to described variance processing module prestore, calculate the comprehensive health reference value of described Military Electronic Equipment.
Another object of the present invention is to, a kind of Military Electronic Equipment pick-up unit also is provided, comprising: alarm unit; Sensor unit is used for environmental parameter and the operational factor of Military Electronic Equipment are sampled, and sends environmental parameter sampled value and operational factor sampled value; And the detection system of a Military Electronic Equipment pick-up unit; The detection system of described Military Electronic Equipment pick-up unit is the detection system of aforesaid Military Electronic Equipment pick-up unit.
Each actual detected end value that the detection method of Military Electronic Equipment pick-up unit provided by the invention provides according to existing Military Electronic Equipment pick-up unit, utilize the mode that variance is handled and weight is handled, realization is to the automatic Synthesis analysis of the current operation conditions of Military Electronic Equipment, avoid the problem of analysis result poor reliability under the existing manual type, be conducive to popularization and the application of product.
Description of drawings
Fig. 1 is the process flow diagram of the detection method of the Military Electronic Equipment pick-up unit that provides of the embodiment of the invention;
Fig. 2 is the structure principle chart of the detection system of the Military Electronic Equipment pick-up unit that provides of the embodiment of the invention.
Embodiment
In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the present invention, and be not used in restriction the present invention.
Problem at the prior art existence, each actual detected end value that the detection method of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides provides according to existing Military Electronic Equipment pick-up unit, utilize the mode that variance is handled and weight is handled, realize the automatic Synthesis analysis to the current operation conditions of Military Electronic Equipment.
Fig. 1 shows the flow process of the detection method of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides.
In step S101, receive environmental parameter sampled value and the operational factor sampled value of Military Electronic Equipment, and do not exceed corresponding prestoring during threshold range respectively when environmental parameter sampled value and operational factor sampled value, according to environmental parameter sampled value and operational factor sampled value computing environment parameter contribution margin and operational factor contribution margin.
In the embodiment of the invention, it is Military Electronic Equipment temperature sampling value, humidity sampled value, dust sampled value on every side that the environmental parameter sampled value preferably is not limited to; It is main power voltage sampled value, mains current sampled value, accessory power supply voltage sample value, the accessory power supply current sampling data of Military Electronic Equipment that the operational factor sampled value preferably is not limited to.
When the environmental parameter sampled value is temperature sampling value, humidity sampled value, dust sampled value, suppose that the humidity sampled value is H, the temperature sampling value is T, the dust sampled value is D, the environment regulatory factor that prestores is δ, the environmental parameter contribution margin is η, and then the step of computing environment parameter contribution margin can be expressed as:
η=δf2(H,T,D)
When operational factor is main power voltage sampled value, mains current sampled value, accessory power supply voltage sample value, accessory power supply current sampling data, suppose that the main power voltage sampled value is β
0, the mains current sampled value is γ
0, the primary power regulatory factor that prestores is α
0, accessory power supply voltage sample value is β
1, the accessory power supply current sampling data is γ
1, the accessory power supply regulatory factor that prestores is α
1, the operational factor contribution margin comprises primary power contribution margin ε
0With accessory power supply contribution margin ε
1, the step of then calculating the operational factor contribution margin can be expressed as:
ε
0=α
0f
0(β
0,γ
0)
ε
1=α
1f
1(β
1,γ
1)
In step S102, the best contribution margin of environmental parameter contribution margin and the environmental parameter that prestores is done variance handle, and the best contribution margin of operational factor contribution margin and the operational factor that prestores is done variance handle, obtain environmental parameter variance yields and operational factor variance yields.
In the actual mechanical process, the best contribution margin of environmental parameter and the best contribution margin of operational factor are respectively to be in the numerical value of gathering and storing under the optimum operation situation in corresponding Military Electronic Equipment in advance.
The embodiment of the invention can also may further comprise the steps before step S102: when environmental parameter sampled value and/or operational factor sampled value exceed corresponding prestoring during threshold range, the alarm unit of control Military Electronic Equipment pick-up unit sends prompt messages.
In step S103, according to environmental parameter variance yields, operational factor variance yields and the environmental parameter weight that prestores, operational factor weight, calculate the comprehensive health reference value of Military Electronic Equipment.
Particularly, step S103 can may further comprise the steps: convert the environmental parameter variance yields to the environmental parameter percentage value, convert the operational factor variance yields to the operational factor percentage value; The environmental parameter percentage value be multiply by the environmental parameter weight that prestores obtain the environmental parameter modified value, the operational factor percentage value be multiply by the operational factor weight that prestores obtain the operational factor modified value, and with after environmental parameter modified value and the addition of operational factor modified value, deduct result after the addition with a total points, obtain the comprehensive health reference value under this total points system.
In addition, the staff in time grasps the health status of Military Electronic Equipment for convenience, and the present invention can also may further comprise the steps after step S103: the comprehensive health reference value that obtains is sent to user's handheld terminal by wireless network.
Each actual detected end value that the detection method of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides provides according to existing Military Electronic Equipment pick-up unit, utilize the mode that variance is handled and weight is handled, realization is to the automatic Synthesis analysis of the current operation conditions of Military Electronic Equipment, avoid the problem of analysis result poor reliability under the existing manual type, be conducive to popularization and the application of product.
Fig. 2 shows the structural principle of the detection system of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides, and for convenience of explanation, only shows the part relevant with the embodiment of the invention.
The detection system of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides comprises: memory module 23, and environmental parameter sampled value and operational factor sampled value respective threshold scope, the best contribution margin of environmental parameter, the best contribution margin of operational factor, environmental parameter weight, operational factor weight respectively are used for prestoring; Signal receiving module 21 is for the environmental parameter sampled value and the operational factor sampled value that receive Military Electronic Equipment; Judge module 22 is used for judging whether environmental parameter sampled value and operational factor sampled value that signal receiving module 21 receives exceed the respective threshold scope that memory module 23 prestores respectively; Contribution margin computing module 24, when being used for the environmental parameter sampled value that receives when judge module 22 judgement signal receiving modules 21 and operational factor sampled value and not exceeding the respective threshold scope that memory module 23 prestores respectively, the environmental parameter sampled value and operational factor sampled value computing environment parameter contribution margin and the operational factor contribution margin that receive according to signal receiving module 21; Variance processing module 25, be used for the environmental parameter contribution margin that contribution margin computing module 24 is calculated and the best contribution margin of environmental parameter that memory module 23 prestores and do the variance processing, and the best contribution margin of operational factor that operational factor contribution margin and memory module 23 prestore is done variance handle, obtain environmental parameter variance yields and operational factor variance yields; Comprehensive health reference value computing module 26, for environmental parameter weight, the operational factor weight that the environmental parameter variance yields, operational factor variance yields and the memory module 23 that calculate according to variance processing module 25 prestore, calculate the comprehensive health reference value of Military Electronic Equipment.
Wherein, the environmental parameter sampled value that contribution margin computing module 24 receives according to signal receiving module 21 and the concrete steps of operational factor sampled value computing environment parameter contribution margin and operational factor contribution margin, and comprehensive health reference value computing module 26 the environmental parameter variance yields, operational factor variance yields and the memory module 23 that calculate according to variance processing module 25 the environmental parameter weight, the operational factor weight that prestore, calculate Military Electronic Equipment the comprehensive health reference value concrete steps as mentioned above, do not repeat them here.
The detection system of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides can also comprise: alarm control module 27, be used for when judge module 22 judges that environmental parameter sampled value that signal receiving modules 21 receive and/or operational factor sampled value exceed the respective threshold scope that memory module 23 prestores, the alarm unit of controlling the Military Electronic Equipment pick-up unit sends prompt messages.
In addition, the staff in time grasps the health status of Military Electronic Equipment for convenience, the detection system of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides can also comprise: wireless signal transceiver module 28, the comprehensive health reference value that is used for Military Electronic Equipment that comprehensive health reference value computing module 26 is calculated sends to user's handheld terminal by wireless network.Wireless network wherein can be existing various remote-wireless communication networks or Small Area Wireless Communication Networks, and preferably, in the embodiment of the invention, this wireless network is the mobile communications network with wider coverage, to improve the versatility of system.
The embodiment of the invention also provides a kind of Military Electronic Equipment pick-up unit, comprises sensor unit, is used for environmental parameter and the operational factor of Military Electronic Equipment are sampled, and sends environmental parameter sampled value and operational factor sampled value; One alarm unit; And the detection system of a Military Electronic Equipment pick-up unit, the detection system of this Military Electronic Equipment pick-up unit is the detection system of aforesaid Military Electronic Equipment pick-up unit.
Each actual detected end value that the detection method of the Military Electronic Equipment pick-up unit that the embodiment of the invention provides provides according to existing Military Electronic Equipment pick-up unit, utilize the mode that variance is handled and weight is handled, realization is to the automatic Synthesis analysis of the current operation conditions of Military Electronic Equipment, avoid the problem of analysis result poor reliability under the existing manual type, be conducive to popularization and the application of product.
The above only is preferred embodiment of the present invention, not in order to limiting the present invention, all any modifications of doing within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. the detection method of a Military Electronic Equipment pick-up unit is characterized in that, said method comprising the steps of:
Receive environmental parameter sampled value and the operational factor sampled value of Military Electronic Equipment, and do not exceed corresponding prestoring during threshold range respectively when described environmental parameter sampled value and operational factor sampled value, according to described environmental parameter sampled value and operational factor sampled value computing environment parameter contribution margin and operational factor contribution margin;
The best contribution margin of described environmental parameter contribution margin and the environmental parameter that prestores is done variance handle, and the best contribution margin of described operational factor contribution margin and the operational factor that prestores is done variance handle, obtain environmental parameter variance yields and operational factor variance yields;
According to described environmental parameter variance yields, operational factor variance yields and the environmental parameter weight that prestores, operational factor weight, calculate the comprehensive health reference value of described Military Electronic Equipment.
2. the detection method of Military Electronic Equipment pick-up unit as claimed in claim 1 is characterized in that, described environmental parameter sampled value is temperature sampling value, humidity sampled value and dust sampled value, and the step of described computing environment parameter contribution margin is expressed as:
η=δf2(H,T,D)
Wherein, H is described humidity sampled value, and T is described temperature sampling value, and D is described dust sampled value, and δ is the environment regulatory factor that prestores, and η is described environmental parameter contribution margin.
3. the detection method of Military Electronic Equipment pick-up unit as claimed in claim 1, it is characterized in that, described operational factor is main power voltage sampled value, mains current sampled value, accessory power supply voltage sample value and accessory power supply current sampling data, and the step of described calculating operational factor contribution margin is expressed as:
ε
0=α
0f
0(β
0,γ
0)
ε
1=α
1f
1(β
1,γ
1)
Wherein, β
0Be the main power voltage sampled value, γ
0Be the mains current sampled value, α
0Be the primary power regulatory factor that prestores, β
1Be accessory power supply voltage sample value, γ
1Be the accessory power supply current sampling data, α
1Be the accessory power supply regulatory factor that prestores, ε
0Be the primary power contribution margin, ε
1It is the accessory power supply contribution margin.
4. the detection method of Military Electronic Equipment pick-up unit as claimed in claim 1 is characterized in that, described the best contribution margin of described environmental parameter contribution margin and the environmental parameter that prestores is done the step that variance handles before, described method is further comprising the steps of:
When described environmental parameter sampled value and/or operational factor sampled value exceed corresponding prestoring during threshold range, the alarm unit of controlling described Military Electronic Equipment pick-up unit sends prompt messages.
5. the detection method of Military Electronic Equipment pick-up unit as claimed in claim 1, it is characterized in that, described according to described environmental parameter variance yields, operational factor variance yields and the environmental parameter weight that prestores, operational factor weight, the step that calculates the comprehensive health reference value of described Military Electronic Equipment further may further comprise the steps:
Convert described environmental parameter variance yields to the environmental parameter percentage value, convert described operational factor variance yields to the operational factor percentage value;
Described environmental parameter percentage value be multiply by the environmental parameter weight that prestores obtain the environmental parameter modified value, described operational factor percentage value be multiply by the operational factor weight that prestores obtain the operational factor modified value, and with after described environmental parameter modified value and the addition of operational factor modified value, deduct result after the addition with a total points, obtain the comprehensive health reference value under the described total points system.
6. the detection system of a Military Electronic Equipment pick-up unit is characterized in that, described system comprises:
Memory module, environmental parameter sampled value and operational factor sampled value respective threshold scope, the best contribution margin of environmental parameter, the best contribution margin of operational factor, environmental parameter weight, operational factor weight respectively are used for prestoring;
Signal receiving module is for the environmental parameter sampled value and the operational factor sampled value that receive Military Electronic Equipment;
Judge module is used for judging whether described environmental parameter sampled value and operational factor sampled value that described signal receiving module receives exceed the respective threshold scope that described memory module prestores respectively;
The contribution margin computing module, be used for when described judge module judges that described environmental parameter sampled value that described signal receiving module receives and operational factor sampled value do not exceed the respective threshold scope that described memory module prestores respectively the described environmental parameter sampled value and operational factor sampled value computing environment parameter contribution margin and the operational factor contribution margin that receive according to described signal receiving module;
The variance processing module, be used for the described environmental parameter contribution margin that described contribution margin computing module is calculated and the best contribution margin of described environmental parameter that described memory module prestores and do the variance processing, and the best contribution margin of described operational factor that described operational factor contribution margin and described memory module prestore is done variance handle, obtain environmental parameter variance yields and operational factor variance yields;
Comprehensive health reference value computing module, for environmental parameter weight, the operational factor weight that the described environmental parameter variance yields, operational factor variance yields and the described memory module that calculate according to described variance processing module prestore, calculate the comprehensive health reference value of described Military Electronic Equipment.
7. the detection system of Military Electronic Equipment pick-up unit as claimed in claim 6, it is characterized in that, the described environmental parameter sampled value that described signal receiving module receives is temperature sampling value, humidity sampled value and dust sampled value, and described contribution margin computing module calculates described environmental parameter contribution margin according to following formula:
η=δf2(H,T,D)
Wherein, H is described humidity sampled value, and T is described temperature sampling value, and D is described dust sampled value, and δ is the environment regulatory factor that prestores, and η is described environmental parameter contribution margin.
8. the detection system of Military Electronic Equipment pick-up unit as claimed in claim 6, it is characterized in that, the described operational factor that described signal receiving module receives is main power voltage sampled value, mains current sampled value, accessory power supply voltage sample value and accessory power supply current sampling data, and described contribution margin computing module calculates described operational factor contribution margin according to following formula:
ε
0=α
0f
0(β
0,γ
0)
ε
1=α
1f
1(β
1,γ
1)
Wherein, β
0Be the main power voltage sampled value, γ
0Be the mains current sampled value, α
0Be the primary power regulatory factor that prestores, β
1Be accessory power supply voltage sample value, γ
1Be the accessory power supply current sampling data, α
1Be the accessory power supply regulatory factor that prestores, ε
0Be the primary power contribution margin, ε
1It is the accessory power supply contribution margin.
9. the detection system of Military Electronic Equipment pick-up unit as claimed in claim 6 is characterized in that, described system also comprises:
Alarm control module, be used for when described judge module judges that described environmental parameter sampled value that described signal receiving module receives and/or operational factor sampled value exceed the respective threshold scope that described memory module prestores, the alarm unit of controlling described Military Electronic Equipment pick-up unit sends prompt messages;
The wireless signal transceiver module, the comprehensive health reference value that is used for described Military Electronic Equipment that described comprehensive health reference value computing module is calculated sends to user's handheld terminal by wireless network.
10. a Military Electronic Equipment pick-up unit comprises: alarm unit; Sensor unit is used for environmental parameter and the operational factor of Military Electronic Equipment are sampled, and sends environmental parameter sampled value and operational factor sampled value; And the detection system of a Military Electronic Equipment pick-up unit; It is characterized in that the detection system of described Military Electronic Equipment pick-up unit is the detection system as each described Military Electronic Equipment pick-up unit of claim 6 to 9.
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Cited By (1)
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CN1928905A (en) * | 2006-07-21 | 2007-03-14 | 北京航空航天大学 | Enterprise crisis early warning system |
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