This part is the 8th part of GB/T 6159, and the revision adopts ISO 6196-8:1998. This part defines the terms used in the internal application of the field of microfilm technology, and is applicable to microfilm technology and related fields. The entries in this part are arranged according to the concept system. GB/T 6159.8-2003 Microfilm Vocabulary Part 8: Application GB/T6159.8-2003 Standard download decompression password: www.bzxz.net
This part is the 8th part of GB/T 6159, and the revision adopts ISO 6196-8:1998. This part defines the terms used in the internal application of the field of microfilm technology, and is applicable to microfilm technology and related fields. The entries in this part are arranged according to the concept system.

IS 01.040. 37:37.080
National Standard of the People's Republic of China
GB/T 6159.8-—2003
Micrographics
Part 8: Application
Micrugraphirs—Wocabulary-
Part 8:Usc
(1S0)616-8.1998,M01)3
2003-05-14 issued
People's Republic of China
National Quality Supervision, Inspection and Quarantine Exhibition
2003-12-01 implementation
GT615 Microfilm Technology Part 3.3 The components of the design are as follows: Part 1, general termswwW.bzxz.Net
Part 2: Image quality
Part 3: Film processing
Part 4: Materials and packaging
Part 5: Flow rate, readability inspection and testing
Part 6: Preparation for microfilming
Part 7: Microfilming technology Part 8: Microfilming technology Part 9: Microfilming technology Part 10: Microfilming technology Part 11: Microfilming technology Part 12: Microfilming technology Part 13: Microfilming technology Part 14: Microfilming technology Part 15: Microfilming technology Part 16: Microfilming technology Part 17: Microfilming technology Part 18: Microfilming technology Part 19: Microfilming technology Part 20: Microfilming technology Part 21: Microfilming technology Part 22: Microfilming technology Part 23: Microfilming technology Part 24: Microfilming technology Part 25: Microfilming technology Part 26: Microfilming technology Part 27: Microfilming technology Part 28: Microfilming technology Part 29: Microfilming technology Part 30: Microfilming technology Part 31 Part: Computer abbreviated film effects
Part 1 should be
Part 2:
This part is in accordance with Part 8 of B/T15
GH/T E159.8—2C03
Part 1: Application English version! The main parts of this part are as follows: The main parts of this part are as follows: The "standard" and the current pool references are respectively regarded as the first chapter and the second list of this part, and the relevant explanatory terminology is written into the introduction!
This part has no informative content.
The common terms used in this part, such as "collection", "terminology" and "complete meaning", etc., adopt [3: "1523 ? 14 Technical terms introduced. This part is produced by the National Imaging Technology Standardization Technical Committee (SLTS/T), and is the seventh construction committee of the National Imaging Technology Standardization Technical Committee. The third author is: Zhang Cheng, Fei Xie, GR/T6159.8—2003
The provisions of this part are arranged according to the concept system, the introduction
book system, the corresponding terms and the text. The provisions of the technical part also have drawings and notes. The terminology used in the test is: definition or grouping of non-standard terms. The text shall be followed by the corresponding article number (in brackets). If the technology appears in other parts of the series, the part to which the technology belongs shall be represented by "center". For any litigation involving the use of the article, the terminology in the six parts (in square brackets) shall be used for reference or supplementary explanation: When the terminology is specified in the text, the terminology in square brackets shall be used for supplementary explanation. 1. Glossary of microfilm technology Part 8: Application This part defines the terminology that should be used by users in the field of microfilm technology. This part applies to the maintenance of microfilm technology and its related fields, 2 normative references
GB/T6159.8—2033
The soft version of the planned actual product is the use of the blood of the system in the first part of this part, the following product note period of application, all the intended changes are not included in the content of the discussion) or the restored version is not suitable for the rate part, but the kitchen is based on this part of the agreement reached by the parties to determine whether the latest version of this document can be used: All referenced works that are not in the period of the year, the new version applies to this part: GBT2559 Zero Customer Area Name Code 413551:17)1i9,1—23 General Terminology 1595-1;199,M
G/T S1U, 4-2OC
GB/T159.5EOCC
GH/T #159. 6≥1:3
Materials and packaging (6415.MO
Quality and inspection of images (50)6156-5:1987) Equipment (150656-6199,M(1)
This term 3190
8/T15237
3 Terms and definitions
Application
The processes and technologies required for the issuance and use of microforms (01), including controlled reading (3.3), reprinting (3.2), verification (3.5), etc. 3.2
copy printing
microfilm (01) process of making microfilm or hard copy (01), 3.2. 1
contact printing
copying the image layer of the master film (01) on the film (04): the photosensitive layer is directly replaced by the regulation (3.2) thereof. 3. 2. 2
pewjection printing
color printing
make the image of the film (01) projected on the filter material (3.2) method: 3.2. 3
continuous printing
master film (01) and copy film (04) or quantity paper continuous step contact system (3.2.1) or photosensitive system (3.2.2) 3.2.4
step control slepprintirg
master film (01) and copy cavity film (4) or copying energy path immediate or rapid. Only when stationary exposure collision sharing system (3.2.1) or photosensitive system (3.2.2> method
film to film total system fiche-lo-ficheprinting1
GR/T 6159.8—2003
printing foil micro-flat film (04) with the same size photosensitive film (04) (3.2) 3.2. 6
Flat film to roll film free printing microfilm (04) to roll photosensitive film (04) (3.213.2.7
Ring copy Iapprintin
Use film ring device (06) Retrograde internal copy (3.2)3.3 Reading
Press the image (to the screen: prnjectimn(antrscreen uses optical methods to form a large image on the surface of the ticket 01) 3. 3. 2
ntrpojecthan
general projection
fast image (C1) is formed on a half-lit screen (06), and the light does not pass through the screen to the viewer; projection (3.3.1) (W transmission 1), Figure 1 back projection
front projection
also image (011 shape or not avoid the screen (06), with the light of the screen to the viewer's projection (3.3.1) see doctor? F, Figure 2 front projection
flare
does not form an image (C1) and reduces the contrast (05 light, 3. 3. 5
External stray light exlernallare
Stray light caused by obstacles (3, 3.4)
Internal stray light internalfar'e
Stray light reflected by the receiver, lens (06) or mirror (3.3.4). 3. 4
Enlarged image enlnrgement
Slower than microfilm to make a larger point to the image peak
Example: more film (01). Film paper, offset printing plate. 3.4.1
Electrolytic method
GB/T659.8—2003
And the method of electrolyzing the quick material to cool by using the photosensitive layer (such as the recording layer) and the oxygen layer (such as the recording layer): 3. 4. 2
Electrostatic method
The method of forming a static latent image (C1) by using a kind of non-irregular material (such as weathered material) or organic material soft light neutral, and then opening the book to electrophoretically project the color of the film
3.5 Inspection
Sequential inspection]
Use the first finger of the microfilm (01) and move it to directly find the desired microscopic image) 3.5.2
direct search case direct retrieval
there is a method of making a microfilm (01) on which the microfilm (04) is directly arranged in order and the microfilm (04) is opened. The microfilm (01) is a dish on which a micro-color image (01) is placed. The image count is retrieved from the microfilm and the image is aggregated. The image count is calculated based on the number of microfilm images. Note: The image count of the microfilm 01 is retrieved from the microfilm and the image is analyzed. The image count is retrieved from the microfilm and the image is aggregated. The image is aggregated from the microfilm and the image is aggregated. The image is aggregated from the microfilm and the image is aggregated. The image is aggregated from the microfilm and the image is aggregated. 1
Figure 3 sequential numbering search home
GBT6159.B—2003
yan mark flash search image flashtargetrelhical storage microfilm (04) on the 4 ten days marked department mark, with the north guard section a microfilm image 01) sequence retrieval method. In: "When sending microfilm, use this image content to rate the home column area (Figure 4 target flash inspection review
planner inspection case ndnaweterretrieval
request planner (06) control search microfilm (04) on the shrink age color shock (0) of the square (then Figure = 2565cm
(Ge Suo use) encoding coding(forretleeal257
Figure 5 planner inspection case
Lizhou winter method to give the editing effect product (01) under the microfilm image 01) compilation Sichuan" inspection case of the advantages, 3. E. 1
interval coding linecoding
use the image (31) (01) and the micro film (C4) to make the effective distance between the lines of the line coding: 3.6 active
let, report the unit, H time-these lines participate in the printing, the tube is to read the position of the strip of g seat has a constant line detection case (3.5) see Figure 6).
Figure 6 interval embedded code detection case
binary phase optical codingblnarphoto-opticalroding close to the image (C1 front phase (01) or shrink micro film (0) Image: Binary recording of strips (3, 6.5) or light spots (3.6.3.1) (3.6) method.
Note: "binary" means the value (0) is different or distinct. 3.6.3
Record mark nanocode \etreval-narkcnding GB/T6159.8—2003
Record the light spot (3.6.3.1) on the microfilm (04) image (01) picture (01) above or below the binary photographic optical coding (3.6.2) method (see figure).
National search mark coding
3. 6.3.1
blip
imagemark
documentmark
A rectangular mark recorded in the imagemark channel (3.6.3.2) for the convenience of recording and checking the microfilm image (01), which is located above the image (01) on the microfilm roll (104) and in the area reserved for recording the document mark 13.6.3.11. 3.6.3, 3
small blip.small
small document mark
Although the small blip (3.E.3.1) is less than the image (01), it is also visible in 3.6.3. 4
medium light spot blipmdium
image mark Imaeemark.nedlum medium light spot (3.6.3.1), used to mark microfilm image (1) level, plan a book also start. 3. 6. 3. 5
large light spot hlip,large
large image you mark inmngmurk,lurge take people's light spot (3. 6. 3.1), the month to mark the microfilm image (C1) record a high pole, such as the card and start 3. 6. 4
check pattern code checkpatterucndlng black user lazy figure record in the image false (01) frame (01) between the binary photographic optical code (3.6.2) force method (see Figure 8) Figure day list code exhaustion code
GB/T 6159.8—2003
barcoding
Binary image encoding (3.6.2) method (see 0) of recording parallel lines of different widths and ratios on a compact product (C1). :
Barcode encoding
A, T scattering rejection number
(Informative Appendix)
Special ratio of screen
GB/T6159.8—2003
Radiation efficiency (emx) refers to the centroid of the polar coordinate graph that represents the change in the angle between the radiation direction and the disk direction (see Figure A.1). The minimum brightness is the maximum brightness.
Figure A.1 Reception data
A.2 Effective screen area
The right-hand side screen (u:lrfearea) is centered on the line connecting the camera and the lens, and is defined by the effective area through the reflection line on the end, which is the effective screen. The effective area varies with the position of the eye. When the limit position is within the allowed viewing area, as the limit moves away from the screen, the effective screen area becomes larger and is within the effective area at a certain distance (see Figure A, 2). 6159.8—20C3
Major mark flash inspection:
Back projection
Step reverse system ·
Large image mark
Large light spot,
Electrolysis method
Binary photographic optical coding
Enlarged image
Grid effect code coding
Warning line coding
Grid mark reduction code
(for inspection) confirmation code
Counter length search
By chain true system
Electrostatic method-
Continuous suppression ·
Internal stray light
Bilingual support case introduction
3. 6. 3. 5
3.6. 3. 1
Check the lower film against the main film
Copy the flat film against the flat film
Check the delivery number
Check the warehouse record
Bar code
Approve the image (to the screen)
Image system
External stray light
Document mark
Small image mark·
Small light spot·
Color peak mark
Image mark channel·
Color image counting detection.
Stray light
Front image
High detection
Image mark in the middle
Medium light spot
3. 6. 3. 1
3. 6. 3. 3
3. 6. 3. 3 | | tt | lip,nedian
check pattern endint
coding( tor retrleval)
cantaet printing
rottlinas rinting
direel rrtrival
docme mmrk||tt ||rlerlrulylir pruress
elertrnlytie prnces
enlareement
external flare
Tiche-to-fiche printing
fkche-to-roll pnting||tt| |English corresponding word quotations
Nash Largel rirleval
front projcetion
luge cont retrieval
.... 3.6. 5
.. 3.6.3.1
...3.5.3.5
3. 6. 3. 4
.3.5.2
3. 6. 3. 1||tt ||inaematk
Image mark channel
imuge inarh: lerg:
Inggemark.nedhim
inuge mark,small
Internal flare.||tt| |linecodine
loop printing
odomeler retrleral
printing
projection(onto screen)
prjeclion prinlins
rear projection||tt| |relrieyl-mrkwwding
GB/T 6159.32003
....- 3. 6. 3. 1
..+++++ 3. 6. 3. 2
...3.6.3.5|| tt||. 3. 6. 3.4
3. 6. 3. 3
gequentlal numbering retrleval .....-.-.. 3. 5. 4scqucnlial rctrieal
strpprinting
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