CN102467372B - One kind measurement resource control system and measurement resource control method - Google Patents

Abstract

Resource control system is measured the invention discloses one kind, for controlling multiple measuring instruments and multiple application programs, measuring resource control system includes an instrument resource control module, is connected for being set up with measuring instrument, produces an original address corresponding with measuring instrument and an identifier；One input module, selection instruction is applied in the instruction of an apparatus selection and one for receiving user's input, apparatus selection is instructed for selecting a stand-by measuring instrument from identifier, is used to from application program select a stand-by application program using selection instruction；One resource matched module, for instructing according to apparatus selection and applying selection instruction, stand-by application program is passed to by the original address corresponding to stand-by measuring instrument.The measurement resource control system of the present invention is the exploitation of application program, safeguards relatively simple, and cost is relatively low.

Description

One kind measurement resource control system and measurement resource control method

Technical field

The present invention relates to one kind measurement resource control system and measurement resource control method, more particularly to one kind is run on Computer, the measurement resource control system for managing multiple measuring instruments and multiple application programs and its use measurement money Operated control method.

Background technology

In Industrial Engineering and education of science field, measurement tester be all in the links such as experiment, manufacture production, test not The basic tool that can or lack, such as oscillograph, universal meter, frequency spectrograph, signal source are all conventional multimeters.With section Technology is continued to develop, and measuring instrument also converts from analogue measurement instrument to digital measuring instruments.Digitized measuring instrument Have the advantages that not available for many analogue measurement instruments, for example, be easy to store, conveniently carry out data analysis and calculating, it is anti-interference Property it is strong etc..In addition, digital measuring instrument also have the advantages that one it is unique be exactly that it can easily and computer Connection, constitutes a measuring system, the resource and powerful function enriched using computer come measuring instrument is controlled with And increasingly complex processing is carried out to measurement result.

Due to above-mentioned advantage, the measuring system being made up of computer and measuring instrument is by extensive research and development.It is worth One is mentioned that, because computer possesses powerful data processing and display function so that the measuring instrument such as oscillograph is in measurement The effect of data acquisition has been functioned only as in system, and the data processing of itself and display function turn into a kind of and wasted.Therefore, survey Template card is given birth to therefrom.Measurement board is also regarded as a kind of measuring instrument, and unlike oscillograph etc., it only possesses data The effect of collection, itself and without the processing or display of data.When in use, measurement board, which is generally required, is plugged into calculating On the I/O interface of machine, for example, measurement board can be total by VXI (VME extensions for Instrumentation) Line, PXI (PCI extensions for Instrumentation) bus, GPIB (General Purpose Interface ) and the serial ports (serial port) or parallel port (parallel port) of computer to be connected with computer Bus.

It can be seen from above-mentioned introduction, Fig. 1 is refer to, current measuring system 1 includes a computer 11 and at least one Measuring instrument 12, each measuring instrument 12 is connected by an interface 13 with computer 11.Computer 11 can be personal electricity Brain (PC), server (server) are connected to client (client) of server etc. with data operation and processing function Equipment.Measuring instrument 12 is the equipment with data acquisition function, can be measuring instrument, e.g. oscillograph, universal meter, Frequency spectrograph, signal source or measurement board, or even can also be sensor etc..Interface 13 can be vxi bus, PXI total Line, GPIB, serial ports, parallel port or be LAN mouthfuls, serial ports include USB interface, RS232 etc..

Due to the diversity of interface 13, computer 11 it is general all can mounting interface driver 111, such as VISA drivings, The difference that the interface 13 different for shielding is brought.Computer 11 is based on interface drive program 111, can pass through standardization SCPI command sets 112 pass on to measuring instrument 12 the various orders to carry out corresponding operation.SCPI command sets 112 include a plurality of SCPI orders, different SCPI orders are for carrying out different operations to measuring instrument 12, and the operation is included to measuring instrument 12 Control, the parameter of measuring instrument 12 is configured, data etc. are read from measuring instrument 12.

SCPI orders are various, and user is controlled to different measuring instruments 12, measurement result is carried out respectively for convenience Computing is planted, computer 11 also includes at least one application program 14.Application program 14 can be based on the He of interface drive program 111 SCPI command sets 112, using programming language tools such as VC, VB, LabVIEW etc., by developer, user oneself or other people Exploitation is completed, and various operations are carried out to measuring instrument 12 for control computer 11 and measurement data is handled etc..For example, Fig. 2 is refer to, shown in Fig. 2 is the display interface for the application program for being applied to the frequency spectrograph disclosed in a kind of prior art 1490.Display interface 1490 has multiple input windows 1491, and user easily can be inputted pair by input window 1491 The various operations of measuring instrument 12, and replace directly sending SCPI orders to measuring instrument 12；Display interface 1490 also has one Individual waveform display window 1492, for being shown the measurement data that computer 11 is obtained from measuring instrument 12 in the form of figure line Come.

Due to the diversity of measuring instrument 12, specification, parameter or function of each measuring instrument 12 etc. are not quite similar.It is right Generally required in different measuring instruments 12 and develop different application programs 14.Fig. 3 is refer to, for example, a model DP1308A power supply 121 correspond to application program 141；One model DSA1030A frequency spectrograph 122 correspond to application program 142.In addition, even if same kind of measuring instrument 12 is different due to its model, version, its specification, parameter or work(are caused Energy etc. may be different, therefore are also required to develop different application programs 14 sometimes.

In addition, for some special application scenarios, it is necessary to which multiple identical or different measuring instrument 12 cooperates To realize a certain measurement task, therefore, multiple measuring instruments 123 may correspond to an application program 143, the application program The plurality of measuring instrument 123 is needed during 143 operation while measurement task could be completed by working.

Again in addition, can also develop multiple application programs 144 for a measuring instrument 124 is used to realize different work(respectively Energy；For some measuring instruments 125, such as different measuring instrument of same type but model, it is possible to have one is applied journey Sequence 145 can compatible multiple measuring instruments 125 situation, now the application program 145 can individually with each measuring instrument 125 cooperatings.For example, application program 145 is while compatible model DSA1030A frequency spectrograph 125 and DSA1000A frequency spectrum Instrument 125 '.

Fig. 4 is refer to, computer 11 includes CPU114, internal memory 115, hard disk 116 and bus 117.CPU114, internal memory 115, Hard disk 116 is connected with bus 117 respectively, and completes communication by bus 117.Application program 14 is a kind of executable program, Generally it is stored in when not being run in hard disk 116.When being called and running, the operating system that user passes through computer 11 Input is opened after the instruction of the application program 14, and the application program 14 is loaded among internal memory 115, just can be held by CPU114 OK.

Please reference picture 1 and Fig. 5 together, when application program 14 is performed, computer 11 under the control of application program 14 sequentially Perform following steps：

Step S1, instrument finding step；

Although according to foregoing, measuring instrument 12 is connected by an interface 13 with computer 11, and this connection is Measuring instrument 12 is got up with the grafting of interface 13, also measuring instrument 12 not configured, for example interface is configured, to obtain The address of measuring instrument 12, now computer 11 can not be with the foundation communication of measuring instrument 12.Therefore, instrument finding step is mainly complete The configuration of paired measuring instrument 12, to obtain the original address of a correspondence measuring instrument 12.Even if it should be pointed out that obtaining The original address, but this connection is only the connection in physics rank, that is to say, that computer 11 can utilize the original Beginning, address communicated with the measuring instrument 12.And according to described above, due to application program 14 and measuring instrument 12 exist it is many Various corresponding relation is planted, instrument finding step is completed and is also not meant to that application program 14 can control 11 pairs of computer should Measuring instrument 12 is operated and controlled, in addition it is also necessary to the essential information of connected measuring instrument 12 is further recognized, to sentence Whether connected measuring instrument 12 of breaking is matched with application program 14, or which platform is surveyed in many measuring instruments 12 connected Measuring appratus 12 matches with application program 14.

Step S2, instrument Connection Step；

Step S2 mainly completes measuring instrument 12 and is connected with the logic of computer 11, and measuring instrument is set up on application 12 with the communication channel of computer 11.That is, it needs to complete the identification of INSTRUMENT MODEL, with ensure the instrument be application program 14 pair The measuring instrument 12 answered, that is, judge whether follow-up instrument application step can control the measuring instrument 12.

The step S2 work specifically made is：The original address is received, is sent out using the original address to measuring instrument 12 Lose one's life order, inquire about instrument essential information, the instrument essential information that measuring instrument 12 is returned is parsed, according to the instrument base This information parses trade name, INSTRUMENT MODEL, instrument sequence number, instrument version number etc., and trade name, instrument are parsed according to this Type number, instrument sequence number, instrument version number etc. judge whether the measuring instrument 12 is the corresponding measuring instrument of application program 14 12。

Step S3, instrument application step；

Step S3 work includes：First, communicated, led to measuring instrument 12 using the original address control computer 11 Letter content includes receiving the measurement data of measuring instrument 12, sends SCPI orders to carry out measuring instrument 12 to measuring instrument 12 Control etc.；The 2nd, one display interface is provided, Fig. 2 is refer to, is, for example, the display interface of the application program of the frequency spectrograph, passes through Waveform display window 1492 shows the measurement data received in forms such as curves, by modes such as input windows 1491 Receive the instruction of user's input and be converted into corresponding SCPI orders and send to measuring instrument 12.

Fig. 6 is refer to, application program 14, which includes one, is used for the instrument searching modul that control computer 11 realizes step S1 147th, step S2 instrument link block 148 is realized for control computer 11 and one is realized for control computer 11 for one Step S3 instrument application module 149.

A kind of software that can be used for communicating between checking computer and measuring instrument that National Instruments (NI) company releases (Measurement ＆ Automation Explorer, MAX) can also obtain measuring instrument primitively by step S1 Location, but software is merely creating the original address, not follow-up step S2 and step S3.

Agilent (Agilent) company is also proposed a kind of soft available for what is communicated between checking computer and measuring instrument Part (Agilent Connection Expert), the software can also be produced original address by step S1 and S2 and obtain instrument Device essential information, but the software is also merely creating the original address and instrument essential information, also not subsequent step S3.

It can be seen from introduction above, as being continuously increased for the species of measuring instrument 12 and model, and various applications need That asks is continuously increased, application program 14 it is continuous by substantial amounts of exploitation, quantity is dramatically increased.This causes following problem：Measurement The model slight change of instrument 12 this may result in needing development and application program 14 again, and in development and application program 14 still Need to develop instrument searching modul 147, instrument link block 148 and instrument application module 149 again so that application program 14 Exploitation and maintenance process are complicated, and cost is higher.

The content of the invention

In order to solve the problem of prior art application development and maintenance process are complicated, cost is higher, the present invention is provided It is a kind of to make application development and maintenance process simplification, the measurement resource control system of cost reduction.

Meanwhile, the present invention also provides the measurement resource control method that the measurement resource control system is used.

One kind measurement resource control system, for the first resource for controlling that there is first resource essential information and with second The Secondary resource of resource essential information, the system includes：One measurement the Resources list generating means, for according to described first Resource, produces a first resource list corresponding with the first resource；One first resource alternative pack, for from institute State in first resource list, one first resource of selection is used as stand-by first resource；One dynamic Secondary resource list generating unit Part, is included and the stand-by first resource phase for according to the stand-by first resource and described Secondary resource, producing one The dynamic Secondary resource list of the Secondary resource of matching.

In an embodiment of the invention, measurement the Resources list generating means, is additionally operable to according to described second Resource, produces a Secondary resource list corresponding with the Secondary resource, wherein, the stand-by Secondary resource list is institute State at least a portion of Secondary resource list.

In an embodiment of the invention, the dynamic Secondary resource list generating section includes：One matching letter Obtaining widget is ceased, for producing a match information according to the first resource essential information of the stand-by first resource；One Individual Secondary resource searching part, for searching the match with the stand-by first resource second money according to the match information Source.One dynamic listing generating unit, the Secondary resource for matching according to finding produces the dynamic second The Resources list.

In an embodiment of the invention, the match information obtaining widget includes：One serial name obtaining widget, Generic series name for producing the stand-by first resource according to the first resource essential information of the stand-by first resource；One Individual model name obtaining widget, for producing stand-by first money according to the first resource essential information of the stand-by first resource The affiliated model name in source.

In an embodiment of the invention, the Secondary resource searching part includes：One generic resource lookup portion Part, matched with all first resources second is searched for a common name in the Secondary resource essential information Resource；One serial name searches part, for being searched and the stand-by first resource generic series according to generic series name The Secondary resource of matching；One model name searches part, for being searched and stand-by first money according to the affiliated model name The Secondary resource of the affiliated model matching in source.

In an embodiment of the invention, the first resource is instrument resource, and the Secondary resource is using money Source.

One kind measurement resource control method, for the first resource for controlling that there is first resource essential information and with second The Secondary resource of resource essential information, methods described includes：One measurement the Resources list produces step, for according to described first Resource, produces a first resource list corresponding with the first resource；One first resource selects step, for from institute State in first resource list, one first resource of selection is used as stand-by first resource；One Secondary resource list produces step, uses According to the stand-by first resource and described Secondary resource, producing one includes what is matched with the stand-by first resource The second porcelain source list of dynamic of Secondary resource.

In an embodiment of the invention, described instrument resource rate-determining steps include：One instrument resource is searched Step, produces the original address of the measuring instrument；One instrument resource Connection Step, according to the original address to institute State measuring instrument and send order, obtain the instrument essential information of the measuring instrument, institute is produced according to the instrument essential information State identifier.

In an embodiment of the invention, described measurement the Resources list produces step, is additionally operable to according to described second Resource, produces a Secondary resource list corresponding with the Secondary resource, wherein, the stand-by Secondary resource list is institute State at least a portion of Secondary resource list.

In an embodiment of the invention, the Secondary resource list generating section includes：One match information is obtained Step is taken, for producing a match information according to the first resource essential information of the stand-by first resource；One Two resource retrieval steps, for searching the Secondary resource matched with the stand-by first resource according to the match information.One Individual dynamic listing generation step, the Secondary resource for matching according to finding produces the dynamic Secondary resource row Table.

In an embodiment of the invention, the match information obtaining widget includes：One serial name obtaining step, Generic series name for producing the stand-by first resource according to the first resource essential information of the stand-by first resource；One Individual model name obtaining step, for producing stand-by first money according to the first resource essential information of the stand-by first resource The affiliated model name in source.

In an embodiment of the invention, the Secondary resource searching part includes：One generic resource searches step Suddenly, matched with all first resources second is searched for a common name in the Secondary resource essential information Resource；One serial name finding step, for being searched and the stand-by first resource generic series according to generic series name The Secondary resource of matching；One model name finding step, for being searched and stand-by first money according to the affiliated model name The Secondary resource of the affiliated model matching in source.

In an embodiment of the invention, the first resource is instrument resource, and the Secondary resource is using money Source.

The measurement resource control system and measurement resource control method of the present invention at least has the advantages that：

1. because the measurement resource control system and measurement resource control method of the present invention can provide survey for application program The original address of measuring appratus, it is no longer necessary to which each application program oneself goes to produce original address, therefore the exploitation of original program During can save instrument searching modul, the exploitation of instrument link block so that application development, safeguard it is relatively simple, Cost is relatively low.

2. when the substantial amounts of measuring instrument and application program, user have selected stand-by measuring instrument or it is stand-by should After program, measurement resource control system of the invention and measurement resource control method by be automatically found matching application program and Measuring instrument, eliminates the interference of unmatched option so that measuring instrument and matching for application program is very convenient.

Brief description of the drawings

Fig. 1 is a kind of modular structure schematic diagram of traditional measuring system.

Fig. 2 is a kind of display interface schematic diagram of existing application program.

Fig. 3 is the schematic diagram of measuring instrument and application matches relation.

Fig. 4 is a kind of modular structure schematic diagram of traditional computer.

Fig. 5 is that a kind of traditional application program operation is performed step flow chart.

Fig. 6 is the software module structure schematic diagram of application program shown in Fig. 5.

Fig. 7 is that present invention measurement resource control system first embodiment is shown applied to the modular structure of a measuring system It is intended to.

Fig. 8 is the structural representation of the computer that measuring system is used in Fig. 7.

Fig. 9 is the schematic diagram of measuring instrument and application matches relation.

Figure 10 is the software module knot for the application program that present invention measurement resource control system first embodiment is managed Structure schematic diagram.

Step flow chart performed when being the present invention measurement resource control system first embodiment work Figure 11.

Figure 12 is the display interface figure of present invention measurement resource control system first embodiment.

Figure 13 is the surface chart of the gpib interface parameter setting of present invention measurement resource control system first embodiment.

Figure 14 is the surface chart of the RS232 interface parameters setting of present invention measurement resource control system first embodiment

Figure 15 is the display interface figure of the on-line instrument list of present invention measurement resource control system first embodiment.

Figure 16 be the present invention measurement resource control system first embodiment in dynamic application list produce step it is specific Flow chart of steps.

Figure 17 is the display interface figure of the dynamic application list of present invention measurement resource control system first embodiment.

Figure 18 is that the application program of present invention measurement resource control system first embodiment deposits the schematic diagram of file.

Figure 19 is the later interface signal of the startup application program of the invention for measuring resource control system first embodiment Figure.

Figure 20 is the module diagram that present invention measurement resource control system first embodiment realizes Figure 11 process steps.

Figure 21 is that dynamic application list produces the module diagram for loseing M123 in Figure 20.

Step flow chart performed when being the present invention measurement resource control system second embodiment work Figure 22.

Figure 23 is the display interface figure of the list of application of present invention measurement resource control system second embodiment.

Figure 24 is one application of user's selection in the list of application of the invention for measuring resource control system second embodiment The display interface figure of program.

Figure 25 is the display interface of the dynamic on-line instrument list of present invention measurement resource control system second embodiment Figure.

Figure 26 is user's selection in the dynamic on-line instrument list of the invention for measuring resource control system second embodiment The display interface figure of one measuring instrument.

Figure 27 is the module diagram that present invention measurement resource control system second embodiment realizes Figure 22 process steps.

Step flow chart performed when being present invention measurement resource control system the 3rd embodiment work Figure 28.

Figure 29 is the list of application of the present invention measurement embodiment of resource control system the 3rd and showing for on-line instrument list Show surface chart.

Figure 30 is the user of the present invention measurement embodiment of resource control system the 3rd in fig. 26 in on-line instrument list Select the display interface figure of a measuring instrument.

Figure 31 is that the user of the present invention measurement embodiment of resource control system the 3rd is selected in list of application in fig. 26 The display interface figure of one application program.

Figure 32 is the display interface figure of the dynamic application list of the present invention measurement embodiment of resource control system the 3rd.

Figure 33 is the display interface of the dynamic on-line instrument list of the present invention measurement embodiment of resource control system the 3rd Figure.

Figure 34 is the display interface figure of one application program of selection in dynamic application list of the user in Figure 29.

Figure 35 is the display interface figure of one measuring instrument of selection in the dynamic on-line instrument list of user in fig. 30.

Figure 36 is the module diagram that the present invention measurement embodiment of resource control system the 3rd realizes Figure 28 process steps.

Embodiment

The first embodiment of present invention measurement resource control system is described below.

Fig. 7 is refer to, measurement resource control system 4 is applied in a measuring system 2.Measuring system 2 includes multiple survey Amount resource 20 and the measurement resource control system 4 for managing and controlling the plurality of measurement resource 20.The plurality of measurement resource 20 Including multiple measuring instruments 22 and multiple application resources, in the present embodiment, the application resource is application program 24.

Measuring instrument 22 is the equipment with data acquisition function, can be measuring instrument, e.g. oscillograph, general-purpose Table, frequency spectrograph, signal source or measurement board, or even can also be sensor etc..Resource control system 4 is measured by counting Calculation machine is realized with measurement resource control system software on computers is run.Computer can be PC, flat board electricity Brain, server are connected to the equipment with data operation and processing function such as client of server.Measuring instrument 22 is led to Cross interface to be connected with measurement resource control system 4, interface can be vxi bus, PXI buses, GPIB, serial ports, parallel port or be LAN mouthfuls.

Fig. 8 is refer to, among present embodiment, the computer 41 that measurement resource control system 4 is used includes CPU414, internal memory 415, memory 416, bus 417, display screen 418 and peripheral hardware 419.CPU414, internal memory 415, memory 416 It is connected respectively with bus 417, display screen 418 is connected by video card 419 with bus 417, peripheral hardware 419 is by various interfaces and always Line 417 is connected, and CPU414, internal memory 415, memory 416, display screen 418 and peripheral hardware 419 complete to communicate by bus 417.Storage Device 416 is made up of hard disk, and flash memory, CD, disk etc. are can also be certainly.Peripheral hardware 419 includes mouse, keyboard etc..

Due to the diversity of measuring instrument 22, specification, parameter or function of each measuring instrument 22 etc. are not quite similar.It is right Generally required in different measuring instruments 22 and develop different application programs 24, i.e., each measuring instrument 22 has its corresponding application Program 24.Fig. 9 is refer to, for example, model DP1308A power supply 221 correspond to application program 241；One model DSA1030A frequency spectrograph 222 correspond to application program 242.In addition, even if same kind of measuring instrument 22 is due to it Model, version are different, cause its specification, parameter or function etc. different, therefore are also required to develop different application journeys sometimes Sequence 24.

In addition, for some special application scenarios, it is necessary to which multiple identical or different measuring instrument 22 cooperates To realize a certain measurement task, therefore, multiple measuring instruments 223 may correspond to an application program 243, the application program The plurality of measuring instrument 223 is needed during 243 operation while measurement task could be completed by working.

Again in addition, can also develop multiple application programs 244 for a measuring instrument 224 is used to realize different work(respectively Energy；For some measuring instruments 225, such as different measuring instrument of same type but model, it is possible to have one is applied journey Sequence 245 can compatible multiple measuring instruments 225 situation, now the application program 245 can individually with each measuring instrument 225 cooperatings.For example, application program 245 is while compatible model DSA1030A frequency spectrograph 225 and DSA1000A frequency spectrum Instrument 225 '.

Application program 24 is a kind of executable program, and the memory 416 of computer 41 is stored in when not being run In.Figure 10 is refer to, application program 24 includes instrument application module 249.Mould is searched because application program 24 no longer includes instrument Block and instrument link block, thus only by perform application program 24 can not control computer 41 obtain measuring instrument 22 original Beginning address, and the resource control system 4 to be measured such as need original address passing to application program 24, i.e., can not be only by fortune Row application program 24 is carried out control computer 41 and communicated with the foundation of measuring instrument 22.Therefore user directly runs application program 24 not The control to measuring instrument 22 can be realized.

It is how to complete the management and control to measuring resource 20 that measurement resource control system 4, which is described below,.

Figure 11 is refer to, measurement resource control system 4 performs following steps：

Step S11, instrument resource management process：Set up and be connected with the measuring instrument, produce and the measuring instrument pair The original address and an identifier answered.Wherein, step S11 includes step S111 and step S112：

Step S111, instrument finding step：Produce the original address of the measuring instrument；

Step S111 work includes completing the original searching work of instrument resource, that is, finds and be connected with computer 41 , the measuring instrument 22 for being under open state (also referred to as presence), and obtain an original address.Due to measuring instrument 22 can be connected by different interfaces with computer 41, therefore for different interfaces, and it searches mode and original address Acquisition modes are also not quite similar.

Lookup mode is divided into three classes according to the type of service of interface：The first kind：Automatic to search, plug and play mode is triggered Finding step, such as USB-TMC interfaces；Equations of The Second Kind：Semi-automatic lookup, it is necessary to trigger finding step or configuration trigger condition manually To trigger finding step, such as LAN-VX-11 interfaces；3rd class：Search manually, the side of instrument is connected by inputting configuration data Formula realizes lookup, such as RS232 interfaces.

For automatic lookup, illustrate by taking USB-TMC interfaces as an example, be to be based on Universal Serial Bus Test And Measurement Class Specification (USBTMC) and Universal Serial Bus Test and Measurement Class, Subclass USB488 Specification (USBTMC-USB488).Measuring instrument 22 is connected The back operation system of computer 41 (such as Windows) can for its installation driving (Windows Vista and 7 can be installed automatically, other Version needs manual install).Complete after drive installation, measurement resource control system 4 can be tested the connection computer 41 of measuring appratus 22 Action triggers, measurement resource control system 4 call VISA USB-TMC search function obtain USB-TMC interfaces address letter Breath, the address information is exactly the original address.

For semi-automatic lookup, illustrate by taking LAN interface as an example, be the LAN based on VX-11 agreements and the completion of mDNS agreements The lookup of interface instrument.Because there are two sets of agreements on existing LAN interface upper strata and deposits (VX-11 and mDNS) so searching mode to it There are two sets.

For VX-11 interface instruments, mode of searching is to send to search message to the inside of LAN, is received within a certain period of time The response of the message, the IP of response is considered as measuring instrument to be determined, and the IP of the response constitutes the original address.It refer to figure 12, measuring has " LAN " button 140 on the display interface of resource control system 4, and user should be pressed by clicking on by " LAN " Button 140 triggers step S11.

Pair with mDNS interfaces instrument (meet the agreement and also meet VX-11 agreements), the instruments of mDNS interfaces supporting above-mentioned The lookup mode based on mDNS is also supported on the basis of lookup mode, i.e., is measured when meeting the equipment access network of mDNS agreements Resource control system 4 can receive the connection request report of the equipment, and measurement resource control system 4 obtains the resource by this report Information, the resource information constitutes the original address.Measuring resource control system 4 also includes the online situation checking of a timing resources Function, the measuring instrument 22 can be removed automatically if mDNS equipment disconnects measurement resource control system 4.

For lookup manually, illustrate by taking gpib interface as an example, completed based on IEEE488.1 and IEEE488.2 agreements Search.It refer to Figure 13, user connects instrument by inputting GPIB parameters in window 150, it is original that the parameter of input constitutes this Address 151.

For lookup manually, illustrate by taking RS232 interfaces as an example, be the lookup completed based on the standards of EIA 232.It refer to Figure 14, user connects instrument by inputting RS232 parameters in window 160, and the parameter of input constitutes the original address.

Step S112, instrument Connection Step：Sent and ordered to the measuring instrument according to the original address, obtain described The instrument essential information of measuring instrument, the identifier is produced according to the instrument essential information.

Measurement resource control system 4 connects instrument according to the original address, is communicated with the instrument, the content of communication It is to send SCPI orders, i.e. " * IDN to measuring instrument 22" order.The order is the basic command in SCPI standards, to some Original address sends " * IDN" order and the order can not be responded, that is, think that the original address is abnormal, be then not recognized as surveying Measuring appratus 22 is thus not recorded, otherwise is recorded.In " * IDN" order returned data in can obtain instrument and believe substantially Breath, the instrument essential information has the form that SCPI standards are defined, and corresponding manufacturer can be obtained by parsing the instrument essential information Entitled, INSTRUMENT MODEL, instrument sequence number, instrument version number etc., and it regard at least a portion of the instrument essential information as this The identifier of measuring instrument 22.

For example：Step S11 produce original address be：USB0::0x0400::0x09C4::DSA1A113600019:: INSTR, step S12 are then to original address USB0::0x0400::0x09C4::DSA1A113600019::INSTR is sent：“* IDN", the instrument essential information met with a response：" XXXX, DSA1030A, DSA1A113600019,00.01.03.01.01 ".It is logical Cross and parse the instrument essential information and obtain " manufacturer's information：" XXXX ", " type information：DSA1030A " etc..

Figure 15 is refer to, in the present embodiment, measurement resource control system 4 regard the type information as the measuring instrument 22 identifier 220.For example, the original address in previous example is：USB0::0x0400::0x09C4:: DSA1A113600019::The identifier of INSTR measuring instrument 22 is " DSA1030A ".For another example another measuring instrument Identifier 220 be " DS1204B ".In other embodiments, the identifier can also include the instrument essential information In trade name, instrument sequence number, instrument version number etc., or the original address can also be included.

Step S12, input step：One stand-by measuring instrument is selected from the measuring instrument by the identifier Device, and one stand-by application resource of selection from the application resource；Wherein, step S12 includes step S121~S124：

Step S121, instrument list produce step：According to the identifier, generation one is relative with the identifier The on-line instrument list answered；

Figure 15 is refer to, measurement resource control system 4 produces an on-line instrument list 410 on display interface, online Instrument list 410 includes whole identifiers 220 that step S11 is produced, and a survey why is represented using identifier 220 The advantage of measuring appratus is：Measuring instrument is only represented with original address very not directly perceived, user is difficult which original remembered Beginning, address represented any measuring instrument.Such as identifier " DS1204B ", " DSA1030A " in Figure 15 are intuitively shown very much Go out be connected with computer 41 have which measuring instrument 22.Each identifier 220 uniquely correspond to one The measuring instrument 22 of connection, and each identifier 220 also uniquely correspond to an original address simultaneously.

Step S122, apparatus selection step：A measuring instrument is selected to be used as institute from the on-line instrument list State stand-by measuring instrument；

Figure 15 is refer to, measurement resource control system 4 receives the apparatus selection instruction of user's input, from online instrument An identifier 220 is selected in device list 410.User have selected identifier 220, that is, have selected corresponding measuring instrument Device 22 is used as stand-by measuring instrument.In present embodiment, user is the instrument mark by mouse click on-line instrument list 410 The mode for knowing 220 inputs apparatus selection instruction, have selected the measuring instrument that identifier 2201 is DSA1030A.Certainly, use Family can also input apparatus selection instruction by peripheral hardwares such as keyboards.

Step S123, dynamic application list produce step：Produced according to the stand-by measuring instrument and the application resource One includes the dynamic application list of application resource matched with the stand-by measuring instrument；Figure 16 is refer to, in this implementation In mode, step S123 is specifically included：Match information obtaining step S1231, application resource searching step S1232 and dynamic column Table generation step S1233.

Match information obtaining step S1231：One is produced according to the instrument essential information of the stand-by measuring instrument Match information.Match information obtaining step S1231 includes a series name obtaining step S12311 and a model name obtains step Rapid S12312.Serial name obtaining step S12311：Produced according to the instrument essential information of the stand-by measuring instrument described stand-by The generic series name of measuring instrument.One model name obtaining step：Produced according to the instrument essential information of the stand-by measuring instrument The affiliated model name of the raw stand-by measuring instrument.

In the present embodiment, it is preceding to be described in detail, instrument essential information include trade name, INSTRUMENT MODEL, instrument sequence number, Instrument version number etc., measurement resource control system 4 produces the match information according to the INSTRUMENT MODEL.In present embodiment Include the generic series name and affiliated model name of the stand-by measuring instrument with information.For example, refer to Figure 17, user have selected The measuring instrument that identifier 220 is DAS1030A passes through the stand-by measuring instrument and understands its instrument as stand-by measuring instrument INSTRUMENT MODEL in essential information is " DSA1030A ", and the INSTRUMENT MODEL " DSA1030A " not only illustrates the stand-by measuring instrument INSTRUMENT MODEL is DAS1030A, and understands that the stand-by measuring instrument belongs to DAS1000A series, thus may determine that this is stand-by The generic series of measuring instrument are entitled " DSA1000A ", and affiliated model is entitled " DSA1030A ".It should be pointed out that serial name is obtained Take step S12311 and model name obtaining step S12312 execution sequence mutually to overturn, can also perform parallel simultaneously.

As other embodiment, instrument essential information includes INSTRUMENT MODEL and instrument series number, therefore can pass through INSTRUMENT MODEL in the instrument essential information of stand-by measuring instrument determines affiliated model name, passes through the instrument base of stand-by measuring instrument Instrument series number generic series name in this information.

It refer to Figure 16, application resource searching step S1232：Searched and the stand-by measuring instrument according to the match information The application program that device matches.Application resource searching step S1232 specifically includes generic resource finding step S12321, one An individual serial name finding step S12322 and model name finding step S12323.Generic resource finding step S12321：According to Using the application program that a common name in essential information is searched with all the measuring instrument is matched；Serial name finding step S12322：The application program matched with the stand-by measuring instrument generic series is searched according to generic series name；Model name Finding step S12323：The application journey matched with the stand-by affiliated model of measuring instrument is searched according to the affiliated model name Sequence.

In the present embodiment, application program 24 applies essential information with one, and this includes series using essential information Name, model name and common name.Among the file name of the application program 24 comprising serial name, model name and common name wherein it One.Common name is included among the file name of the application program 24, represents that the application program 24 can match arbitrary measurement Instrument 22.Comprising serial name among the file name of the application program 24, represent that the application program 24 can match same system The measuring instrument 22 of row name, you can to match the measuring instrument 22 of the series all models under one's name.The file of the application program 24 Model name is included among title, the measuring instrument 22 of 24 same model names of matching of the application program is represented.In order to illustrate It is bright, it refer to and multiple application programs 24 are store in Figure 18, the memory 416 of computer 41, each application program 24 is stored in Under the file of the same name with it.It is wherein, entitled that " Instrument_Common_XXXX_SCPI ControlPanel's " should With in the title of program 2401 include common name " Instrument_Common ", therefore represent the application program 2401 can with With any one measuring instrument 22.Included in the title of the application program 2402 of entitled " XXXX_DSA1000A_Tools " and be Row name " DSA1000A ", therefore represent that the application program 2402 can match the measuring instrument 22 for belonging to DSA1000A series. Model name " DSA1030A ", therefore table are included in the title of the application program 2403 of entitled " XXXX_DSA1030A_Tools " It is all DSA1030A measuring instrument 22 to show 2403 matching model names of the application program.

Therefore, generic resource finding step S12321 is by searching answering comprising common name " Instrument_Common " With program, application program 2401 can be found；Serial name finding step S12322, can be with according to generic series name " DSA1000A " Find application program 2402；Model name finding step S12323 model names " DSA1030A " belonging to, can find and apply journey Sequence 2403.

As other embodiment, matched instrument can also be recorded in the filename of application program 24 and believed substantially What is ceased is part or all of.

As other embodiment, matched instrument can also be recorded in the supporting paper of application program 24 basic Information it is part or all of.

As other embodiment, the application program 24 can also be recorded in the registration table of operating system and is matched Instrument essential information it is part or all of.

Dynamic listing generation step S1233：The application program matched according to finding produces the dynamic should Use list.

Figure 17 is refer to, the application program 2401,2402,2403 found according to step S1232 generates dynamic application row Table 240.What the dynamic application list 240 was included is the application program matched with stand-by measuring instrument, to supply user further to select Select.Dynamic application list 240 eliminate with the unmatched application program of selected measuring instrument, make user avoided when selecting by To interference, it is easy to fast and accurately select.

Step S124, using selection step：The stand-by application resource is selected from the dynamic application list；

Figure 17 is refer to, one of the measurement reception user's input of resource control system 4 applies selection instruction, in dynamic An application program is selected in list of application 240, a stand-by application program is used as.This can be mouse point using selection instruction Hit application program 2401.That is, user selection it is entitled " Instrument_Common_XXXX_SCPI Control Panel's " Application program.

Step S13, resource matched step：Original address corresponding to the stand-by measuring instrument is sent to described stand-by Application resource.

Refer to Figure 19, measurement resource control system 4 according to the stand-by measuring instrument for choosing and it is stand-by should With program 2401, the original address of stand-by measuring instrument is passed into stand-by application program 2401, makes the stand-by application program 2401 have the communication object determined, are communicated using the original address with stand-by measuring instrument.Hereafter, user just can be normal Stand-by measuring instrument is controlled using the stand-by application program 2401.

Specifically, for the entitled .exe of extension application program 24, measurement resource control system 4 uses Windows bands The command line mode of parameter completes to transmit original address to application program 24 while application program 24 are started；For VI The application program 24 of form, measurement resource control system 4 completes original address transmission using VI dynamic load mode.

Figure 20 is refer to, in order to realize each above-mentioned step, measurement resource control system 4 includes an instrument resource control Part M11, an input block M12 and a resource matched part M13.Instrument resource control unit M11 be used for it is described Measuring instrument sets up connection, produces an original address corresponding with the measuring instrument and an identifier；The input unit Part M 12 is used to select a stand-by measuring instrument from the measuring instrument by the identifier, and from the application A stand-by application resource is selected in resource；The resource matched part M13 is used for the original corresponding to the stand-by measuring instrument Beginning, address was sent to the stand-by application resource.

Instrument resource control unit M11 includes an instrument resource and searches part M111 and an instrument resource connection member M112.The instrument resource searches the original address that part M111 is used to produce the measuring instrument；The instrument resource is connected Part M 112, which is used to be sent to the measuring instrument according to the original address, to be ordered, and obtains the instrument base of the measuring instrument This information, the identifier is produced according to the instrument essential information.

Input block M12 includes instrument list generating section M121, apparatus selection part M122, a dynamic A list of application generating means M123 and application alternative pack M124.Instrument list generating section M 121 is used for according to described Identifier, produces an on-line instrument list corresponding with the identifier；Apparatus selection part M122 is used for from institute State and a measuring instrument is selected in on-line instrument list as the stand-by measuring instrument；Dynamic application list generating section M123 is used to be included and the stand-by measuring instrument phase according to the stand-by measuring instrument and application resource generation one The dynamic application list for the application resource matched somebody with somebody；It is used to from the dynamic application list treat described in selection using alternative pack M124 Use application resource.

Figure 21 is refer to, dynamic application list generating section M123 includes match information obtaining widget M1231, application resource Searching part M 1232 and dynamic listing generating unit M 1233.Match information obtaining widget M1231 is used for according to described stand-by The instrument essential information of measuring instrument produces a match information.Application resource searching part M1232 is used for according to described Match information searches the application program matched with the stand-by measuring instrument.Dynamic listing generating unit M1233 is used for basis The application program matched found produces the dynamic application list.

Match information obtaining widget M1231 includes a series name obtaining widget M12311 and a model name obtaining widget M12312.Serial name obtaining widget M12311 is used for described stand-by according to the generation of the instrument essential information of the stand-by measuring instrument The generic series name of measuring instrument.Model name obtaining widget M12312 is used to substantially be believed according to the instrument of the stand-by measuring instrument Breath produces the affiliated model name of the stand-by measuring instrument.

Application resource searching part M1232 specifically includes a generic resource lookup part M12321, a serial name and looked into Part M12322 and a model name is looked for search part M12323.Generic resource, which searches part M12321, to be used for according to applying base The application program that a common name in this information is searched with all the measuring instrument is matched；Serial name searches part M12322 For searching the application program matched with the stand-by measuring instrument generic series according to generic series name；Model name is searched Part M12323 is used to search the application program matched with the stand-by affiliated model of measuring instrument according to the affiliated model name.

The second embodiment of present invention measurement resource control system is described below.

It refer to Figure 22, the measurement resource control system 5 of second embodiment and the measurement resource control of first embodiment The main distinction of system 4 processed is that execution step is different during work.Wherein, the step of measurement resource control system 5 is performed S21 is identical with step S11, and step S23 is identical with step S13, the step included by step S22 and the step included by step S12 It is rapid different.

Step S21, instrument resource management process：Set up and be connected with the measuring instrument, produce and the measuring instrument pair The original address and an identifier answered.

Identical with the step S11 of the measurement resource control system 4 of first embodiment, step S21 also includes step S211 And S212, it is connected in the same way with measuring instrument 22, produces the original address with each measuring instrument 22, and obtain every Instrument essential information corresponding to one measuring instrument 22, and a corresponding instrument mark is produced according to the instrument essential information Know.

Step S22, input step：The apparatus selection instruction for receiving user's input applies selection instruction with one, institute State apparatus selection instruct for from the identifier select a stand-by measuring instrument, the application selection instruction be used for from A stand-by application program is selected in the application program；Wherein, step S22 includes step S221~S224：

Step S221, list of application produce step：According to the application resource, generation one is relative with the application resource The list of application answered；

Figure 23 is refer to, measurement resource control system 5 produces a list of application 540 on display interface 58, using row Table 540 includes the application name 541 corresponding to whole application programs, for selecting stand-by application program for user.

Step S222, using selection step：One application resource is selected from the list of application as institute State stand-by application resource；

Figure 24 is refer to, one of the measurement reception user's input of resource control system 5 applies selection instruction, from application row An application name 541 is selected in table 540, and then selects the application program corresponding to the application name 541.In this implementation In mode, included in the application name 541 of the application program manufacturer's information in match information, i.e. instrument essential information and Type information, measuring instrument corresponding with the application program is assured that by the manufacturer's information and type information.

Step S223, dynamic instrument list produce step：Produced according to the stand-by application resource and the measuring instrument One includes the dynamic on-line instrument list of measuring instrument matched with the stand-by application resource；

It refer to Figure 25, the matching letter that the application name 541 that measurement resource control system 5 is selected according to user is included Cease and the measuring instruments of all connections retrieved, find the measuring instrument matched with the application name 541, and by these The identifier 521 for the measuring instrument matched somebody with somebody shows that these identifiers 521 constitute a dynamic on-line instrument list 520.

Step S224, apparatus selection part：The stand-by measuring instrument is selected from the dynamic on-line instrument list.

Figure 26 is refer to, measurement resource control system 5 receives the apparatus selection instruction of user's input, existed from dynamic An identifier 521 is selected in line instrument list 520, and then have selected the work of the measuring instrument corresponding to the identifier 521 For stand-by measuring instrument.

Step S23, resource matched step：Original address corresponding to the stand-by measuring instrument is sent to described stand-by Application resource.

The original address for the measuring instrument corresponding to identifier 521 that measurement resource control system 5 selects user is passed Pass user the application program of selection.Application program is had the communication object determined, use the original address and measuring instrument Communication.Hereafter, user just normally can carry out measuring equipment using the application program.

Figure 27 is refer to, in order to realize each above-mentioned step, measurement resource control system 4 includes an instrument resource control Part M21, an input block M22 and a resource matched part M23.Instrument resource control unit M21 be used for it is described Measuring instrument sets up connection, produces an original address corresponding with the measuring instrument and an identifier；The input unit Part M22 is used to select a stand-by measuring instrument from the measuring instrument by the identifier, and from the application A stand-by application resource is selected in resource；The resource matched part M23 is used for the original corresponding to the stand-by measuring instrument Beginning, address was sent to the stand-by application resource.

Input block M22 includes a list of application generating means M221, application alternative pack M222, a dynamic An instrument list generating section M223 and apparatus selection part M224.One list of application generating means M221, for basis The application resource, produces a list of application corresponding with the application resource；Using alternative pack M222, for from institute State and one application resource is selected in list of application as the stand-by application resource；Dynamic instrument list generating section M223, is included and the stand-by application resource phase for producing one according to the stand-by application resource and the measuring instrument The dynamic on-line instrument list for the measuring instrument matched somebody with somebody；Apparatus selection part M224, for from the dynamic on-line instrument list Select the stand-by measuring instrument.

The 3rd embodiment of present invention measurement resource control system is described below.

It refer to Figure 25, the measurement resource control system 6 of the 3rd embodiment and the measurement resource control of first embodiment The main distinction of system 4 processed is that execution step is different during work.Wherein, the step of measurement resource control system 6 is performed S31 is identical with step S11, and step S33 is identical with step S13, the step included by step S32 and the step included by step S12 It is rapid different.

Step S31, instrument resource management process：Set up and be connected with the measuring instrument, produce and the measuring instrument pair The original address and an identifier answered.

Identical with the step S11 of the measurement resource control system 4 of first embodiment, step S31 is also in the same way Be connected with measuring instrument 22, produce with the original address of each measuring instrument 22, and obtain each measuring instrument 22 pair The instrument essential information answered, and a corresponding identifier is produced according to the instrument essential information.

Step S32, input step：The apparatus selection instruction for receiving user's input applies selection instruction with one, institute State apparatus selection instruct for from the identifier select a stand-by measuring instrument, the application selection instruction be used for from A stand-by application program is selected in the application program；Wherein, step S32 includes step S321~S324：

Step S321, measurement the Resources list produce step：According to the identifier, one and the identifier are produced Corresponding on-line instrument list, and corresponding with the application resource answered for according to the application resource, producing one Use list；

Figure 26 is refer to, measurement resource control system 6 produces an on-line instrument list 620 and one on display interface 68 Individual list of application 640, on-line instrument list 620 includes the identifier corresponding to the measuring instrument 22 all connected 621, list of application 640 then includes the application name 641 of the application program 24 of whole.

Step S322, first resource selection step：One is selected from the on-line instrument list and the list of application Stand-by first resource, the stand-by first resource is one in the stand-by measuring instrument and the stand-by application resource；

Figure 27 is refer to, measurement resource control system 6 receives an instruction of user's input, and user can input an instrument Device selection instruction, selects an identifier 621, and then select corresponding to the identifier 621 from on-line instrument list 620 Measuring instrument；Figure 28 is refer to, one can also be inputted and apply selection instruction, an application is selected from list of application 640 Program name 641, and then select the application program corresponding to the application name 641.

Step S323, dynamic Secondary resource list produce step：If the stand-by first resource is the stand-by application Resource, then include and match with the stand-by application resource according to the stand-by application resource and measuring instrument generation one Measuring instrument dynamic on-line instrument list, the dynamic on-line instrument list is at least one of the on-line instrument list Point；If the stand-by first resource is the stand-by measuring instrument, according to the stand-by measuring instrument and it is described should A dynamic application list for including the application resource matched with the stand-by measuring instrument is produced with resource, the dynamic should It is at least a portion of the list of application with list；

Figure 29 is refer to, if first choice instruction is to apply selection instruction, measurement resource control system 6 is selected according to user The instrument essential information that the application name 641 selected is included is retrieved to the measuring instrument of all connections, is found with that should answer The measuring instrument matched with program name 641, and the identifier 621 of the measuring instrument of these matchings is shown, these instrument marks Know 621 and constitute a dynamic on-line instrument list 660.Figure 30 is refer to, if first choice instruction is apparatus selection instruction, is surveyed The instrument essential information that resource control system 6 then instructs selected identifier 621 according to the apparatus selection is measured, to applying journey Sequence is retrieved, to obtain the application program matched with measuring instrument, and the application name of the application program by these matchings 641 constitute a dynamic application list 670.

Step S324, Secondary resource selection step：If the stand-by first resource is the stand-by application resource, from The stand-by measuring instrument is selected in the dynamic on-line instrument list；If the stand-by first resource is the stand-by measurement Instrument, then select the stand-by application resource from the dynamic application list.

Figure 31 is refer to, if what is produced is dynamic on-line instrument list 660, measurement resource control system 6 receives user The apparatus selection instruction of input, selects an identifier 621, and then select from dynamic on-line instrument list 660 Measuring instrument corresponding to the identifier 621 is used as stand-by measuring instrument.Figure 32 is refer to, if what is produced is that dynamic should With list 670, one of the measurement reception user's input of resource control system 6 applies selection instruction, in dynamic application list An application name 641 is selected in 670, to represent to select the application program corresponding to the application name 641, one is used as Stand-by application program.

Step S33, resource matched step：Original address corresponding to the stand-by measuring instrument is sent to described stand-by Application resource.

The original address for the measuring instrument corresponding to identifier 621 that measurement resource control system 6 selects user is passed Pass user the application program of selection.Application program is had the communication object determined, use the original address and measuring instrument Communication.Hereafter, user just normally can carry out measuring equipment using the application program.

Figure 36 is refer to, in order to realize each above-mentioned step, measurement resource control system 4 includes an instrument resource control Part M31, an input block M32 and a resource matched part M33.Instrument resource control unit M31 be used for it is described Measuring instrument sets up connection, produces an original address corresponding with the measuring instrument and an identifier；The input unit Part M32 is used to select a stand-by measuring instrument from the measuring instrument by the identifier, and from the application A stand-by application resource is selected in resource；The resource matched part M33 is used for the original corresponding to the stand-by measuring instrument Beginning, address was sent to the stand-by application resource.

Input block M32 include a measurement the Resources list generating means M321, first resource alternative pack M322, An one dynamic Secondary resource list generating section M223 and Secondary resource alternative pack M224.

The Resources list generating means M321 is measured, for according to the identifier, producing one and the identifier Corresponding on-line instrument list, and corresponding with the application resource answered for according to the application resource, producing one Use list；

First resource alternative pack M322, is treated for selecting one from the on-line instrument list and the list of application With first resource, the stand-by first resource is one in the stand-by measuring instrument and the stand-by application resource；

Dynamic Secondary resource list generating section M323, if being the stand-by application money for the stand-by first resource Source, then produce one according to the stand-by application resource and the measuring instrument and include what is matched with the stand-by application resource The dynamic on-line instrument list of measuring instrument, the dynamic on-line instrument list is at least one of the on-line instrument list Point；If the stand-by first resource is the stand-by measuring instrument, according to the stand-by measuring instrument and it is described should A dynamic application list for including the application resource matched with the stand-by measuring instrument is produced with resource, the dynamic should It is at least a portion of the list of application with list；

Secondary resource alternative pack M324, if being the stand-by application resource for the stand-by first resource, from The stand-by measuring instrument is selected in the dynamic on-line instrument list；If the stand-by first resource is the stand-by measurement Instrument, then select the stand-by application resource from the dynamic application list.

The measurement resource control system and measurement resource control method of the present invention at least has the advantages that：

1. because the measurement resource control system and measurement resource control method of the present invention can provide survey for application program The original address of measuring appratus, it is no longer necessary to which each application program oneself goes to produce original address, therefore the exploitation of original program During can save instrument searching modul 147, the exploitation of instrument link block 148 so that application development, safeguard more Simply.

2. when the substantial amounts of measuring instrument and application program, user have selected stand-by measuring instrument or it is stand-by should After program, measurement resource control system of the invention and measurement resource control method by be automatically found matching application program and Measuring instrument, eliminates the interference of unmatched option so that measuring instrument and matching for application program is very convenient.

Claims (10)

1. one kind measurement resource control system, for the first resource for controlling that there is first resource essential information and with the second money The Secondary resource of source essential information, it is characterised in that the system includes：

One measurement the Resources list generating means, it is relative with the first resource for according to the first resource, producing one The first resource list answered；The first resource is stand-by application resource, and the Secondary resource is stand-by measuring instrument；

One first resource alternative pack, for from the first resource list, one first resource of selection is used as stand-by the One resource；

One dynamic Secondary resource list generating section, for the first resource essential information according to the stand-by first resource and The Secondary resource essential information of described Secondary resource, produces one and includes the second money matched with the stand-by first resource The dynamic Secondary resource list in source.

2. system according to claim 1, it is characterised in that

Measurement the Resources list generating means, is additionally operable to, according to the Secondary resource, produce one and the Secondary resource phase Corresponding stand-by Secondary resource list, wherein, the stand-by Secondary resource list is at least one of the Secondary resource list Point.

3. system according to claim 1, it is characterised in that the dynamic Secondary resource list generating section includes：

One match information obtaining widget, for producing one according to the first resource essential information of the stand-by first resource Individual match information；

One Secondary resource searching part, for searching match with the stand-by first resource the according to the match information Two resources；

One dynamic listing generating unit, the Secondary resource for matching according to finding produces the dynamic second The Resources list.

4. system according to claim 3, it is characterised in that the match information obtaining widget includes：

One serial name obtaining widget, it is described stand-by for being produced according to the first resource essential information of the stand-by first resource The generic series name of first resource；

One model name obtaining widget, it is described stand-by for being produced according to the first resource essential information of the stand-by first resource The affiliated model name of first resource.

5. system according to claim 4, it is characterised in that the Secondary resource searching part includes：

One generic resource searches part, is searched for a common name in the Secondary resource essential information and whole The Secondary resource of the first resource matching；

One serial name searches part, for being searched and the stand-by first resource generic series according to generic series name The Secondary resource matched somebody with somebody；

One model name searches part, for being searched and the stand-by affiliated model of first resource according to the affiliated model name The Secondary resource matched somebody with somebody.

6. one kind measurement resource control method, for the first resource for controlling that there is first resource essential information and with the second money The Secondary resource of source essential information, it is characterised in that methods described includes：

One measurement the Resources list produces step, relative with the first resource for according to the first resource, producing one The first resource list answered；The first resource is stand-by application resource, and the Secondary resource is stand-by measuring instrument；

One first resource selects step, for from the first resource list, and one first resource of selection is used as stand-by the One resource；

One Secondary resource list produces step, for the first resource essential information according to the stand-by first resource and described Secondary resource Secondary resource essential information, produce a Secondary resource for including matching with the stand-by first resource Dynamic Secondary resource list.

7. method according to claim 6, it is characterised in that

Described measurement the Resources list produces step, is additionally operable to, according to the Secondary resource, produce one and the Secondary resource phase Corresponding stand-by Secondary resource list, wherein, the stand-by Secondary resource list is at least one of the Secondary resource list Point.

8. method according to claim 7, it is characterised in that the Secondary resource list, which produces step, to be included：

One match information obtaining step, for producing one according to the first resource essential information of the stand-by first resource Individual match information；

One Secondary resource searching step, for searching match with the stand-by first resource the according to the match information Two resources；

One dynamic listing generation step, the Secondary resource for matching according to finding produces the dynamic second The Resources list.

9. method according to claim 8, it is characterised in that the match information obtaining step includes：

One serial name obtaining step, it is described stand-by for being produced according to the first resource essential information of the stand-by first resource The generic series name of first resource；

One model name obtaining step, it is described stand-by for being produced according to the first resource essential information of the stand-by first resource The affiliated model name of first resource.

10. method according to claim 9, it is characterised in that the Secondary resource searching step includes：

One generic resource finding step, is searched and whole for a common name in the Secondary resource essential information The Secondary resource of the first resource matching；

One serial name finding step, for being searched and the stand-by first resource generic series according to generic series name The Secondary resource matched somebody with somebody；

One model name finding step, for being searched and the stand-by affiliated model of first resource according to the affiliated model name The Secondary resource matched somebody with somebody.