CN105068737A - Use method for multi-scale rock slice image management system - Google Patents

Abstract

The invention discloses a use method for a multi-scale rock slice image management system. The method comprises the following main steps: A. the system is started; B. a scanning module is used for taking photos; C. data is input and stored; D. a geological slice network is shared; E. a visitor enters a network interface; F. other visitors enter the network interface; and G. the system is exited. According to the use method for the multi-scale rock slice image management system, people can establish various database access pages in the internet by utilizing the rise of a network technology and a database technology, people remotely access to a database center through a network, and the database center provides a conditionalized window body for the visitors to access to required information more visually and concisely.

Description

The using method of multi-scale rock sectioning image management system

Technical field

The present invention relates to a kind of using method of software, be specifically related to a kind of using method realizing network access, drive microscopy work management software.

Background technology

It is carry out under the microscope that traditional rock section (geology thin slice) is observed, people amplify the phenomenon in rock section by microscope, and this phenomenon is recorded in paper using and notes, people can regulate microscope multiple to realize the concentrated observation to certain phenomenon.But the method has inconvenience: one, working environment is limited, observes and often be unable to do without microscope, if will observe other phenomenons, then must reuse microscope; Its two, be not easy to other people observe, even if user takes pictures to phenomenon, but also just conjure up the whole thing through seeing a part of it, be unfavorable for the assurance of other scholars to this phenomenon and entirety, and due to phenomenon under mirror often small, even if other scholars again find this phenomenon under mirror, also abnormal difficult; Its three, be not easy to share, be not easy to the resources such as the acquired section picture of the long-range use of other scholars and annotation.The display of super large picture, orientation problem is the most important thing is in the middle of this, the size of scanning rock section picture at least should 100M mono-, reduce ten times of files also very large, mark again after can not directly a whole pictures having been loaded in the limited network bandwidth, drag the functions such as display.Therefore this realizes the multi-level Zoom display mode that it is similar to Baidu, google map.

Summary of the invention

(1) technical matters that will solve

The using method of the multi-scale rock sectioning image management system that the present invention proposes, thin slice carried out under high power digital display micro mirror subarea-scanning and splice and file, user can call thin slice photo at any time, and the highest multiple rank can observe it under magnifier, reach and depart from the requirement that microscope also can observe whole thin slice; Observer, when observing, is described the current ken and marks, these text descriptions and mark together with viewing area coordinate meeting and stored in database, in order to calling in the future; Set up thin slice network center, allow everyone teleengineering support thin slice, and obtain forefathers to the mark of key area and text description, prevent scientific research overlapping investment, this database also can provide the resource sharing of other geologic datas.

(2) technical scheme

The using method of multi-scale rock sectioning image management system, its concrete steps are as follows:

A. start multi-scale rock sectioning image management system, digital microscope, and connect normal both confirming;

B. use " panoramic scanning " module, to rock section, namely thin slice, carries out subregion and takes pictures, and automatically carry out picture splicing;

C. picture is automatically stored to server file system, and triggers picture processing module;

D. geology thin slice network is shared is that web visitor enters system by password, clicks certain 1 pictures, uses enlarging function to carry out multi-level amplification, drags picture and checks full picture;

E. web visitor can click picture any position, automatic appearance annotation pane, computing machine automatic marking goes out the relative XY coordinate of this position belonging on picture, and " phenomenon " is provided, " description content " two text boxes carry out typing for visitors, when typing is complete, click the phenomenon description that " preservation " completes this position, the description of other position phenomenons repeats this step;

F. another one visitor enters this system by password, when clicking the picture of E step inediting, all annotation information bars are enumerated in left side, and on picture, show mark point, click 1 information or click mark point, then coordinate is automatically moved to annotation Pictures location corresponding to this information and automatically loads the picture section in this region, and user corresponding annotation information can carry out Phenomena Observation again, can continue to modify operation in narrative text frame simultaneously;

G. visitor can search by screening function and function of search the approximate pictorial information wanting to check;

H. click " exiting " button, logging off users, logs off.

Further, click 1 pictures described in step D, uses enlarging function to carry out multi-level amplification, drags picture and checks full picture; While reaching amplification, pulling the functional realiey of figure, ensure access fluency and display effect; Its principle and mode of operation as follows:

(1) original image is processed: compressed according to level of zoom by original image, and be the integral multiple of 256*256 square by the completion of every one-level picture; For the picture of ultrahigh resolution, can local loading or Local Contraction, ensure under limited memory conditions, realize the compression process to high-resolution pictures;

(2) picture section: according to fixed measure ratio, sectioning is carried out to every one-level picture, and by unified Naming conventions, section is managed;

(3) displacement during dragging picture: the corresponding relation setting up mouse drag sense of displacement, shift length and photo current displacement;

(4) current page viewing area is obtained: comprise the section that the region after initial display and dragging displacement comprises, and the section that Dynamic Acquisition not yet loads, to realize the incrementally updating of picture;

(5) splice in a browser and show section: realizing dynamic load to cut into slices, in correct position display, to realize the correct display of specific region;

(6) mark: according to the position of the coordinate of current mouse and picture display, calculate the mark point position that mark time point corresponds to convergent-divergent figure at different levels, so that ensure on the different classification pictures of display can correct position location.

(3) beneficial effect

The using method of the multi-scale rock sectioning image management system that the present invention proposes, compared with prior art, it has following beneficial effect: thin slice is carried out subarea-scanning and splices and file by the present invention under high power digital display micro mirror, user can call thin slice photo at any time, and the highest multiple rank can observe it under magnifier, reach and depart from the requirement that microscope also can observe whole thin slice; Observer, when observing, is described the current ken and marks, these text descriptions and mark together with viewing area coordinate meeting and stored in database, in order to calling in the future; Set up thin slice network center, allow everyone teleengineering support thin slice, and obtain forefathers to the mark of key area and text description, prevent scientific research overlapping investment, this database also can provide the resource sharing of other geologic datas.

Accompanying drawing explanation

Fig. 1 is overall flow schematic diagram of the present invention.

Embodiment

As shown in Figure 1, the using method of multi-scale rock sectioning image management system, its concrete steps are as follows:

A. start multi-scale rock sectioning image management system, digital microscope, and connect normal both confirming;

B. use " panoramic scanning " module, to rock section, namely thin slice, carries out subregion and takes pictures, and automatically carry out picture splicing;

C. picture is automatically stored to server file system, and triggers picture processing module;

D. geology thin slice network is shared is that web visitor enters system by password, clicks certain 1 pictures, uses enlarging function to carry out multi-level amplification, drags picture and checks full picture;

E. web visitor can click picture any position, automatic appearance annotation pane, computing machine automatic marking goes out the relative XY coordinate of this position belonging on picture, and " phenomenon " is provided, " description content " two text boxes carry out typing for visitors, when typing is complete, click the phenomenon description that " preservation " completes this position, the description of other position phenomenons repeats this step;

F. another one visitor enters this system by password, when clicking the picture of E step inediting, all annotation information bars are enumerated in left side, and on picture, show mark point, click 1 information or click mark point, then coordinate is automatically moved to annotation Pictures location corresponding to this information and automatically loads the picture section in this region, and user corresponding annotation information can carry out Phenomena Observation again, can continue to modify operation in narrative text frame simultaneously;

G. visitor can search by screening function and function of search the approximate pictorial information wanting to check;

H. click " exiting " button, logging off users, logs off.

Wherein, click 1 pictures described in step D, uses enlarging function to carry out multi-level amplification, drags picture and checks full picture; While reaching amplification, pulling the functional realiey of figure, ensure access fluency and display effect; Its principle and mode of operation as follows:

(1) original image is processed: compressed according to level of zoom by original image, and be the integral multiple of 256*256 square by the completion of every one-level picture; For the picture of ultrahigh resolution, can local loading or Local Contraction, ensure under limited memory conditions, realize the compression process to high-resolution pictures;

(2) picture section: according to fixed measure ratio, sectioning is carried out to every one-level picture, and by unified Naming conventions, section is managed;

(3) displacement during dragging picture: the corresponding relation setting up mouse drag sense of displacement, shift length and photo current displacement;

(4) current page viewing area is obtained: comprise the section that the region after initial display and dragging displacement comprises, and the section that Dynamic Acquisition not yet loads, to realize the incrementally updating of picture;

(5) splice in a browser and show section: realizing dynamic load to cut into slices, in correct position display, to realize the correct display of specific region;

(6) mark: according to the position of the coordinate of current mouse and picture display, calculate the mark point position that mark time point corresponds to convergent-divergent figure at different levels, so that ensure on the different classification pictures of display can correct position location.

Wherein, data content comprises picture, word, requires to do access forms, and beautiful interface is friendly.

Wherein, accessed by network in embedded web page, the security be necessary.

Wherein, when another module can preserve word and picture, you need it automatically stored in database, simultaneously user can be implemented on picture and draws a circle to approve a position, and carries out textual annotation (can build the layer of a layer as delineation and annotation on picture) to this position and these data are saved in a database.These contents if there is viewer, log in this interface, have multistage catalogue: provinces-area-section after preserving, as: selection Sichuan Province--Fan Dian township, Leshan section, a wherein pictures in window.Some blueness links are clicked on right side, as: click " point 2 " then picture enters B2 district, the highlighted display of mark of this district " point 2 ".This system class is like Baidu's map, and click a certain bar and describe, then map amplifies this area.

Embodiment recited above is only be described the preferred embodiment of the present invention, not limits the spirit and scope of the present invention.Under the prerequisite not departing from design concept of the present invention; the various modification that this area ordinary person makes technical scheme of the present invention and improvement; all should drop into protection scope of the present invention, the technology contents of request protection of the present invention, all records in detail in the claims.

Claims (2)

1. the using method of multi-scale rock sectioning image management system, its concrete steps are as follows:

A. start multi-scale rock sectioning image management system, digital microscope, and connect normal both confirming;

B. use " panoramic scanning " module, to rock section, namely thin slice, carries out subregion and takes pictures, and automatically carry out picture splicing;

C. picture is automatically stored to server file system, and triggers picture processing module;

D. geology thin slice network is shared is that web visitor enters system by password, clicks certain 1 pictures, uses enlarging function to carry out multi-level amplification, drags picture and checks full picture;

E. web visitor can click picture any position, automatic appearance annotation pane, computing machine automatic marking goes out the relative XY coordinate of this position belonging on picture, and " phenomenon " is provided, " description content " two text boxes carry out typing for visitors, when typing is complete, click the phenomenon description that " preservation " completes this position, the description of other position phenomenons repeats this step;

F. another one visitor enters this system by password, when clicking the picture of E step inediting, all annotation information bars are enumerated in left side, and on picture, show mark point, click 1 information or click mark point, then coordinate is automatically moved to annotation Pictures location corresponding to this information and automatically loads the picture section in this region, and user corresponding annotation information can carry out Phenomena Observation again, can continue to modify operation in narrative text frame simultaneously;

G. visitor can search by screening function and function of search the approximate pictorial information wanting to check;

H. click " exiting " button, logging off users, logs off.

2. the using method of multi-scale rock sectioning image management system according to claim 1, is characterized in that: click 1 pictures described in step D, uses enlarging function to carry out multi-level amplification, drags picture and checks full picture; While reaching amplification, pulling the functional realiey of figure, ensure access fluency and display effect; Its principle and mode of operation as follows:

(1) original image is processed: compressed according to level of zoom by original image, and be the integral multiple of 256*256 square by the completion of every one-level picture; For the picture of ultrahigh resolution, can local loading or Local Contraction, ensure under limited memory conditions, realize the compression process to high-resolution pictures;

(2) picture section: according to fixed measure ratio, sectioning is carried out to every one-level picture, and by unified Naming conventions, section is managed;

(3) displacement during dragging picture: the corresponding relation setting up mouse drag sense of displacement, shift length and photo current displacement;

(4) current page viewing area is obtained: comprise the section that the region after initial display and dragging displacement comprises, and the section that Dynamic Acquisition not yet loads, to realize the incrementally updating of picture;

(5) splice in a browser and show section: realizing dynamic load to cut into slices, in correct position display, to realize the correct display of specific region;

(6) mark: according to the position of the coordinate of current mouse and picture display, calculate the mark point position that mark time point corresponds to convergent-divergent figure at different levels, so that ensure on the different classification pictures of display can correct position location.