CN104850587A

CN104850587A - Method and device for marking Surpac measurement acceptance system data

Info

Publication number: CN104850587A
Application number: CN201510198558.XA
Authority: CN
Inventors: 毕红卫
Original assignee: Uaneng Yimin Coal Power Co Ltd
Current assignee: Uaneng Yimin Coal Power Co Ltd
Priority date: 2015-04-24
Filing date: 2015-04-24
Publication date: 2015-08-19
Anticipated expiration: 2035-04-24
Also published as: CN104850587B

Abstract

The invention discloses a method and a device for labeling Surpac measurement and acceptance system data, wherein the method comprises the following steps: linear data and scattered data in Surpac measurement acceptance system data are obtained; respectively setting a characteristic vector for each type of scattered point data according to the type of the scattered point data, wherein the characteristic vector comprises a marking starting point parameter, a marking height parameter and a marking angle parameter, and the marking angle parameters in the characteristic vector of each type of scattered point data are different from each other; respectively determining the labeling direction of the scattered point data according to the characteristic vectors; and combining the scattered point data and the linear data which determine the labeling direction, and outputting a visual graph labeled with the scattered point data. According to the method, the feature vectors are set for each type of scattered point data, different types of scattered point data can be distinguished according to needs, and therefore ordered marking of the scattered point data can be achieved.

Description

A kind of Surpac measures mask method and the device of Acceptance Test System data

Technical field

The present invention relates to technical field of data processing, particularly, relate to mask method and device that a kind of Surpac measures Acceptance Test System data.

Background technology

Geovia Surpac software be reach a comprehensive integrated geologic prospecting information management that rope Geovia brand releases, ore body resource model is set up, the large-scale three dimensional Digital Mine software of mining production planning and the function such as design, mine surveying and quantities checking computations, scheduling of production establishment.At present, there are nearly 200 outdoor/underground mines, mining design and research institute (institute), Geological Exploration Organization, mining industry consulting firm and university etc. in China at use SURPAC software for improving production, creating benefit and scientific research.Shoudu Iron and Steel Co mining industry, Zijin Mining, Shandong Gold, Yunnan gold, Nanjing meishan iron mine are all domestic typical successful user.

SURPAC software is the crystallization that mining industry expert and computer elite cooperate for many years, has powerful technical advantage.SURPAC software is the shared information platform of geology, mining, measurement and production management; Compatible multiple popular database and data layout; Easy to learn, powerful secondary development function library is provided.Fushun Branch of China Coal Research Institute establishes digitizing opencast survey Acceptance Test System based on this.

Although the former measured database of Geovia Surpac software contains much information, attribute data effect of visualization is poor.Simultaneously because attribute data is more, be easy to cause mark repetition, disorderly problem; Specifically see shown in Fig. 1 and Fig. 2, wherein, Fig. 2 is the pattern visual evoked potentials figure of dotted box portion in Fig. 1.

Summary of the invention

The present invention is poor in order to overcome attribute data effect of visualization in prior art, easily produces the defect of mark repetition or disorder, according to an aspect of the present invention, proposes the mask method that a kind of Surpac measures Acceptance Test System data.

A kind of Surpac that the embodiment of the present invention provides measures the mask method of Acceptance Test System data, comprise: obtain the linear data in Surpac measurement Acceptance Test System data and loose point data, loose point data at least comprises slope and serves as a fill-in certificate, slope truth of a matter certificate and slope, refuse dump truth of a matter certificate; Be respectively each class point data of faling apart according to the classification of loose point data and arrange proper vector, proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter, and the angular dimension parameter that each class is fallen apart in the proper vector of point data is different; The label direction of loose point data is determined respectively according to proper vector; The loose point data and linear data of determining label direction are combined, exports the visualized graphs that mark has loose point data.

In technique scheme, proper vector also comprises: mark color parameter, and mark color parameter to fall apart the color of point data for determining each class.

In technique scheme, proper vector also comprises: logic display parameter; Logic display parameter are divided into display state parameter and hidden state parameter; When logic display parameter are for display state parameter, visualized graphs shows such loose point data; When logic display parameter are hidden state parameter, visualized graphs does not show such loose point data.

In technique scheme, fall apart after point data arranges proper vector step being respectively each class according to the classification of loose point data, also comprise: determine that every class is fallen apart the mark density of point data respectively according to proper vector; When marking density and being greater than predetermined threshold value, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

In technique scheme, the method also comprises: visualized graphs is converted to the discernible measurement point data file of CAD.

The present invention is poor in order to overcome attribute data effect of visualization in prior art, easily produces the defect of mark repetition or disorder, according to an aspect of the present invention, proposes the annotation equipment that a kind of Surpac measures Acceptance Test System data.

A kind of Surpac that the embodiment of the present invention provides measures the annotation equipment of Acceptance Test System data, comprising:

Acquisition module, measures linear data in Acceptance Test System data and loose point data for obtaining Surpac, and loose point data at least comprises slope and serves as a fill-in according to, slope truth of a matter certificate and slope, refuse dump truth of a matter certificate;

Module is set, for being respectively each class point data of faling apart according to the classification of loose point data, proper vector is set, proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter, and the angular dimension parameter that each class is fallen apart in the proper vector of point data is different;

Direction determination module, for determining the label direction of loose point data respectively according to proper vector;

Processing module, for the loose point data and linear data of determining label direction being combined, exports the visualized graphs that mark has loose point data.

In technique scheme, this device also comprises:

Density determination module, for determining that according to proper vector every class is fallen apart the mark density of point data respectively;

Initialization module, for when marking density and being greater than predetermined threshold value, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

In technique scheme, this device also comprises:

Format converting module, for being converted to the discernible measurement point data file of CAD by visualized graphs.

A kind of Surpac that the embodiment of the present invention provides measures mask method and the device of Acceptance Test System data, by point data of faling apart for each class, proper vector is set, thus can determine that every class is fallen apart the label direction of point data respectively, the different mark of visualized graphs exported falls apart point data, and different classes of loose point data can be distinguished as required, thus the disorderly problem of Surpac measurement point graphic attribute data visualization mark can be solved.Different classes of loose point data can be distinguished further by arranging mark color parameter.By arranging logic display parameter, thus each class can be realized to fall apart the independence mark of point data, also can show the loose point data of each class when loose point data is too much respectively, thus also greatly can alleviate mark and repeat or the phenomenon of disorder.To be fallen apart point data by hidden parts, the display density of loose point data in visualized graphs can be controlled, thus loose point data can be avoided to greatest extent to mark the problem repeated.

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

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

Accompanying drawing explanation

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

Fig. 1 is the mereological graph of Surpac data visualization of the prior art mark;

Fig. 2 is the partial enlarged drawing of Surpac data visualization of the prior art mark;

Fig. 3 is the process flow diagram that in the embodiment of the present invention, Surpac measures the mask method of Acceptance Test System data;

Fig. 4 is the process flow diagram that in embodiment one, Surpac measures the mask method of Acceptance Test System data;

Fig. 5 is the mark figure of the first visualized graphs in embodiment one;

Fig. 6 is the mark figure of the second visualized graphs in embodiment one;

Fig. 7 is the mark figure of the third visualized graphs in embodiment one;

Fig. 8 is the first structural drawing that in the embodiment of the present invention, Surpac measures the annotation equipment of Acceptance Test System data;

Fig. 9 is the second structural drawing that in the embodiment of the present invention, Surpac measures the annotation equipment of Acceptance Test System data.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail, but is to be understood that protection scope of the present invention not by the restriction of embodiment.

According to the embodiment of the present invention, provide the mask method that a kind of Surpac measures Acceptance Test System data, Fig. 3 is the idiographic flow of this mask method.The method specifically comprises:

Step 101: obtain the linear data in Surpac measurement Acceptance Test System data and loose point data, loose point data at least comprises slope and serves as a fill-in certificate, slope truth of a matter certificate and slope, refuse dump truth of a matter certificate.

The linear data that Surpac measures in Acceptance Test System data is specially two-dimensional line file data or three-dimensional line file data, and this linear data is for storing on-the-spot terrain data etc.Loose point data is specially the set of the label parameters of mark point.

Step 102: be respectively each class point data of faling apart according to the classification of loose point data and proper vector is set, proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter, and the angular dimension parameter that each class is fallen apart in the proper vector of point data is different.

In the embodiment of the present invention, this proper vector to be fallen apart the display mode of point data specifically for arranging each class.Wherein, loose point data specifically can be divided into slope to serve as a fill-in certificate and slope truth of a matter certificate (slope, the refuse dump truth of a matter is according to thinking the one belonging to slope truth of a matter certificate), also can classify according to other modes.

Proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter.This mark origin parameters is for determining the mark starting point of loose point data, and angular dimension parameter is for determining the label direction of loose point data, and mark height parameter is for determining the height of the mark font of loose point data.

Wherein, this angular dimension parameter can determine two dimension angular direction, also can determine three-dimensional perspective direction.In the embodiment of the present invention, the angular dimension parameter that each class is fallen apart in the proper vector of point data is different.Be divided into slope to serve as a fill-in data instance at the bottom of certificate and slope with loose point data, in the two-dimensional direction, if the angular dimension parameter that certificate is served as a fill-in on slope is 0, the angular dimension parameter of slope truth of a matter certificate is-45 °.The loose point data of each class can be distinguished easily by arranging different angular dimension parameters.

Step 103: the label direction determining loose point data according to proper vector respectively.

Step 104: the loose point data and linear data of determining label direction are combined, exports the visualized graphs that mark has loose point data.

A kind of Surpac that the embodiment of the present invention provides measures the mask method of Acceptance Test System data, by point data of faling apart for each class, proper vector is set, thus can determine that every class is fallen apart the label direction of point data respectively, the different mark of visualized graphs exported falls apart point data, and different classes of loose point data can be distinguished as required, thus the disorderly problem of Surpac measurement point graphic attribute data visualization mark can be solved.

Preferably, proper vector also comprises: mark color parameter, and mark color parameter to fall apart the color of point data for determining each class.Different classes of loose point data can be distinguished further by arranging mark color parameter.

Preferably, this proper vector also comprises: logic display parameter; Logic display parameter are divided into display state parameter and hidden state parameter.Concrete,

When logic display parameter are for display state parameter, visualized graphs shows such loose point data;

When logic display parameter are hidden state parameter, visualized graphs does not show such loose point data.

Still be divided into slope to serve as a fill-in data instance at the bottom of certificate and slope with loose point data in the embodiment of the present invention, when certificate is served as a fill-in on slope and truth of a matter certificate in slope is display state parameter, then in visualized graphs, show all loose point data; When slope is served as a fill-in according to for display state parameter and the slope truth of a matter are according to when be hidden state parameter, only showing a slope in visualized graphs serves as a fill-in certificate; When slope is served as a fill-in according to for hidden state parameter and the slope truth of a matter are according to during for display state parameter, only display slope truth of a matter certificate in visualized graphs.

By arranging logic display parameter, thus each class can be realized to fall apart the independence mark of point data, also can show the loose point data of each class when loose point data is too much respectively, thus also greatly can alleviate mark and repeat or the phenomenon of disorder.

Preferably, after above-mentioned steps 102, the mask method that the embodiment of the present invention provides also comprises steps A 1-A2:

Steps A 1, to determine that according to proper vector every class is fallen apart the mark density of point data respectively;

Steps A 2, when mark density be greater than predetermined threshold value time, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

In embodiments of the present invention, to be fallen apart point data by hidden parts, the display density of loose point data in visualized graphs can be controlled, thus loose point data can be avoided to greatest extent to mark the problem repeated.

Preferably, the method also comprises: visualized graphs is converted to the discernible measurement point data file of CAD.By visualized graphs being converted to the discernible file of CAD, thus can edit further visualized graphs by the drawing function of CAD further.

The Surpac that being described above the embodiment of the present invention provides measures the process flow diagram of the mask method of Acceptance Test System data, introduces the flow process of the method below by an embodiment in detail.

Embodiment one

In embodiment one, loose point data is divided into slope to serve as a fill-in certificate and slope truth of a matter certificate.Specifically shown in Figure 4, the method specifically comprises:

Step 401: obtain the linear data in Surpac measurement Acceptance Test System data and loose point data.

Step 402: be respectively each class point data of faling apart according to the classification of loose point data and proper vector is set.

In embodiment one, the proper vector that certificate and slope truth of a matter certificate are served as a fill-in in slope is set respectively.This proper vector specifically comprises mark origin parameters, mark height parameter, angular dimension parameter and logic display parameter.Wherein, logic display parameter represent with Y or N, and Y representative display state parameter, N represent hidden state parameter.

Step 403: determine that the mark density of certificate and slope truth of a matter certificate is served as a fill-in on slope respectively according to proper vector, and judge whether mark density is greater than predetermined threshold value.

Step 404: when marking density and being greater than predetermined threshold value, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

Concrete, the minimum spacing between loose point data can be set, when a loose point data is for display state parameter, with the mark starting point of this loose point data be the center of circle, other loose point data in the minimum spacing circle that is radius are all initialized as hidden state parameter.Certainly, the regular loose point data of part of falling of additive method also can be adopted to be set to hidden state parameter, not to be described further herein.

Step 405: the label direction determining loose point data according to proper vector respectively.

In embodiment one, if the angular dimension parameter that certificate is served as a fill-in on slope is 0, the angular dimension parameter of slope truth of a matter certificate is-45 °.

Step 406: the loose point data and linear data of determining label direction are combined, exports the visualized graphs that mark has loose point data.

Concrete, when certificate is served as a fill-in on slope and truth of a matter certificate in slope is display state parameter, then in visualized graphs, show all loose point data, specifically shown in Figure 5; When slope is served as a fill-in according to for display state parameter and the slope truth of a matter are according to when be hidden state parameter, only showing a slope in visualized graphs serves as a fill-in certificate, specifically shown in Figure 6; When slope is served as a fill-in according to for hidden state parameter and the slope truth of a matter are according to during for display state parameter, only display slope truth of a matter certificate in visualized graphs, specifically shown in Figure 7.

More than describe the flow process that Surpac measures the mask method of Acceptance Test System data in detail, the method also can be realized by corresponding device, introduces the 26S Proteasome Structure and Function of this device below in detail.

According to the embodiment of the present invention, provide the annotation equipment that a kind of Surpac measures Acceptance Test System data.Shown in Figure 8, this device specifically comprises:

Acquisition module 801, measures linear data in Acceptance Test System data and loose point data for obtaining Surpac, and loose point data at least comprises slope and serves as a fill-in according to, slope truth of a matter certificate and slope, refuse dump truth of a matter certificate;

Module 802 is set, for being respectively each class point data of faling apart according to the classification of loose point data, proper vector is set, proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter, and the angular dimension parameter that each class is fallen apart in the proper vector of point data is different;

Direction determination module 803, for determining the label direction of loose point data respectively according to proper vector;

Processing module 804, for the loose point data and linear data of determining label direction being combined, exports the visualized graphs that mark has loose point data.

Preferably, proper vector also comprises: mark color parameter, and mark color parameter to fall apart the color of point data for determining each class.

Preferably, proper vector also comprises: logic display parameter; Logic display parameter are divided into display state parameter and hidden state parameter;

When logic display parameter are for display state parameter, visualized graphs shows such loose point data; When logic display parameter are hidden state parameter, visualized graphs does not show such loose point data.

Preferably, shown in Figure 9, this device also comprises:

Density determination module 805, for determining that according to proper vector every class is fallen apart the mark density of point data respectively;

Initialization module 806, for when marking density and being greater than predetermined threshold value, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

Preferably, shown in Figure 9, this device also comprises: format converting module 807, for visualized graphs being converted to the discernible measurement point data file of CAD.

The present invention can have multiple multi-form embodiment; above for Fig. 3-Fig. 9 by reference to the accompanying drawings to technical scheme of the present invention explanation for example; this does not also mean that the instantiation that the present invention applies can only be confined in specific flow process or example structure; those of ordinary skill in the art should understand; specific embodiments provided above is some examples in multiple its preferred usage, and the embodiment of any embodiment the claims in the present invention all should within technical solution of the present invention scope required for protection.

Last it is noted that the foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, although with reference to previous embodiment to invention has been detailed description, for a person skilled in the art, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. Surpac measures a mask method for Acceptance Test System data, it is characterized in that, comprising:

Obtain the linear data in Surpac measurement Acceptance Test System data and loose point data, described loose point data at least comprises slope and serves as a fill-in certificate, slope truth of a matter certificate and slope, refuse dump truth of a matter certificate;

Be respectively each class point data of faling apart according to the classification of described loose point data and proper vector is set, described proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter, and the angular dimension parameter that each class is fallen apart in the proper vector of point data is different;

The label direction of described loose point data is determined respectively according to described proper vector;

The described loose point data and described linear data of determining label direction are combined, exports the visualized graphs that mark has loose point data.

2. method according to claim 1, is characterized in that, described proper vector also comprises: mark color parameter, and described mark color parameter to fall apart the color of point data for determining each class.

3. method according to claim 1, is characterized in that, described proper vector also comprises: logic display parameter; Described logic display parameter are divided into display state parameter and hidden state parameter;

When described logic display parameter are for display state parameter, described visualized graphs shows such loose point data;

When described logic display parameter are hidden state parameter, described visualized graphs does not show such loose point data.

4. method according to claim 3, is characterized in that, is respectively each class and falls apart after point data arranges proper vector step, also comprise in the described classification according to described loose point data:

Determine that every class is fallen apart the mark density of point data respectively according to described proper vector;

When described mark density is greater than predetermined threshold value, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

5., according to the arbitrary described method of claim 1-4, it is characterized in that, also comprise:

Described visualized graphs is converted to the discernible measurement point data file of CAD.

6. Surpac measures an annotation equipment for Acceptance Test System data, it is characterized in that, comprising:

Acquisition module, measures linear data in Acceptance Test System data and loose point data for obtaining Surpac, and described loose point data at least comprises slope and serves as a fill-in according to, slope truth of a matter certificate and slope, refuse dump truth of a matter certificate;

Module is set, for being respectively each class point data of faling apart according to the classification of described loose point data, proper vector is set, described proper vector comprises mark origin parameters, mark height parameter, angular dimension parameter, and the angular dimension parameter that each class is fallen apart in the proper vector of point data is different;

Direction determination module, for determining the label direction of described loose point data respectively according to described proper vector;

Processing module, for the described loose point data and described linear data of determining label direction being combined, exports the visualized graphs that mark has loose point data.

7. device according to claim 6, is characterized in that, described proper vector also comprises: mark color parameter, and described mark color parameter to fall apart the color of point data for determining each class.

8. device according to claim 6, is characterized in that, described proper vector also comprises: logic display parameter; Described logic display parameter are divided into display state parameter and hidden state parameter;

9. device according to claim 8, is characterized in that, also comprises:

Density determination module, for determining that according to described proper vector every class is fallen apart the mark density of point data respectively;

Initialization module, for when described mark density is greater than predetermined threshold value, the logic display parameter of point data of the part in such loose point data being fallen apart are initialized as hidden state parameter.

10., according to the arbitrary described device of claim 6-9, it is characterized in that, also comprise:

Format converting module, for being converted to the discernible measurement point data file of CAD by described visualized graphs.