WO2000067468A1

WO2000067468A1 - Film scanner

Info

Publication number: WO2000067468A1
Application number: PCT/EP2000/003843
Authority: WO
Inventors: Robert Noll
Original assignee: Ntec Iii Gmbh
Priority date: 1999-04-30
Filing date: 2000-04-27
Publication date: 2000-11-09
Also published as: AU4914200A; DE19919929A1

Abstract

The invention relates to a film scanner comprising means for temporarily positioning a segment of a film to be scanned, a light source for illuminating the positioned film segment, and a device for scanning the film. The positioning means are configured such that the positioned segment comprises a multitude of film images, and means are provided for displacing the scanning device over the multitude of images.

Description

Film scanner

The invention relates to a film scanner with means for temporarily positioning a section of a film to be scanned, a light source for illuminating the positioned film section and a device for scanning the film.

Film scanners are usually used for digitizing film material, in particular cinema films, for broadcasting on television or for archiving. While digitization with a resolution of 2 K (corresponds to 2,000 pixels per line) is completely sufficient for broadcasting on television, a much higher resolution is required for the archiving of cinema films. Efforts are therefore made to digitize the film material for archiving purposes with a resolution of at least 4K.

A great advantage of digitized film material is that any number of copies of the same quality of the film material can be made. A resolution of at least 4 K is also required in the production of film copies for the distribution of cinema films.

Currently film scanners with a resolution of 2 K are used and only TV quality is achieved. In the film scanners known from practice, an image of the film is held in a recording frame and a light source shines through it. A scanner with a CCD line (charged coupled device) is attached to the side of the film opposite the light source. The initial Signals of the scanning device are processed and stored in a suitable manner. The film is transported further to the next frame by the specially designed frame and is supported by the toothed rollers that engage in the perforation of the film.

Although a resolution of 4 K could easily be achieved in the conventional devices by means of an appropriately trained CCD line, the known technology has the decisive disadvantage that the digitization of a single image with a resolution of 4 K requires approximately 20 seconds. As a result, the digitization of an entire movie requires several weeks, with the time being extended even further by a higher resolution.

The invention is therefore based on the object of providing a film scanner which operates much faster than the prior art.

This object is achieved by the features of claim 1. The means for temporarily positioning a section of a film to be scanned are designed such that the positioned section comprises a plurality of images of the film. The scanner is slidably disposed over the plurality of images.

Further embodiments of the invention are the subject of the dependent claims. In a preferred embodiment, the scanning device has at least two scanning heads for parallel scanning of the positioned film section.

In a further exemplary embodiment, the positioning means consist of at least two positioning units, each of which holds a film section. The scanning device also has at least two scanning heads, with each positioning unit being assigned at least one scanning head. Both embodiments make use of the idea of scanning the film in several places at the same time.

Further advantages and refinements of the invention are explained in more detail on the basis of the description of two exemplary embodiments and the drawing.

Show in the drawing

1 shows a schematic top view of a film scanner according to a first exemplary embodiment,

2 shows a schematic sectional view along the line II-II of Fig.l and

3 shows a schematic top view of a film scanner according to a second exemplary embodiment.

The film scanner shown in FIG. 1 essentially consists of means 1 for temporarily positioning a section of a film 2 to be scanned, a light source 3 for illuminating the positioned one Film section and a device 4 for scanning the film.

In the exemplary embodiment shown, the positioning means 1 have two transparent plates, in particular glass plates 11a, 11b, between which the film section is positioned flat. The two glass plates 11a, 11b are connected to one another, for example, by a hinge 11c (see FIG. 2), so that the section of the film 2 is positioned flat between the two glass plates in the position shown in FIG. For further transportation, the two glass plates are opened via the hinge 11c. Of course, other positioning means are also conceivable within the scope of the invention.

The length of the positioning means in the direction of the film is dimensioned such that the section of the film positioned between the glass plates 1a, 1b has a large number of images. The length of the film section can be, for example, about 1 or longer.

The scanning device 4 usually has one or more row CCDs or one or more area CCDs or CMOS camera-on-a-chips. Scanners with a resolution of 4 K, 5 K or more are preferably used.

The peculiarity of the scanning device 4 is above all that means 5 are provided in order to move the scanning device 4 over the large number of images of the positioned section. In the exemplary embodiment shown, these displacement means are formed by a linear drive, which gate 5a, a threaded spindle 5b and a carriage 5c. The scanning device 4 is fastened on the carriage 5c, which can be moved in the direction of the double arrow 6 by the motor 5a and the threaded spindle 5b. In this way, the scanner 4 can scan the film section of the film 2 comprising several images.

In the exemplary embodiment according to FIG. 1, the displacement means 5 furthermore have a second linear motor 5d, a second threaded spindle 5e and a second slide 5f, the entire displacement means being accommodated in a housing frame 5g. The second carriage 5f carries the light source 3, which can be moved synchronously with the scanning device 4 over the length of the positioned film section.

In principle, however, there is no need for the light source to be moved synchronously with the scanning device 4. It would also be conceivable for the entire positioned film section to be illuminated with a stationary light source.

Luminescent diodes or xenon lamps, for example, can be considered as light sources.

The film scanner further comprises a film supply spool 7 and a film take-up spool 8 as well as a transport device for further transport of the film. The transport device is formed by motor-driven rollers 9, 10. The two coils 7, 8 are also expediently motor-operated. In order to enable access to individual images of the film later, means must be provided which recognize the beginning of the image of each image. While in the prior art, toothed rollers engaging in the perforation of the film ensure a precisely defined further transport of the film from one picture to another, in the exemplary embodiment shown a large number of pictures are to be scanned before the next film section is positioned. The detection of the beginning of each image is therefore realized via the scanner in conjunction with suitable software.

Although the positioning of a film section comprising a plurality of images and a displacement of the scanning device can achieve considerable time savings in digitizing the film, the scanning device 4 has at least two scanning heads 4a, 4'a for parallel scanning of the positioned film section. The second scanning head 4'a is expediently likewise connected to the linear drive on a correspondingly associated slide 5'c. The second scanning head 4'a and the additional carriage 5'c are shown in dashed lines in the exemplary embodiment shown. The parallel scanning only takes half the time. With a corresponding length of the positioned film section, three, four or even more scanning heads are also provided, for example. All scanning heads are expediently displaced via the common linear drive 5.

3 shows a second exemplary embodiment of the film scanner. It differs essentially Chen in that the positioning means are formed by at least two positioning units, in the present case three positioning units la, lb, lc, which each hold a film section and each positioning unit is assigned at least one scanning head 4a, 4b, 4c. Second scanning heads 4'a, 4'b, 4'c are shown with dashed lines. With this film scanner, up to six scanning heads can work in parallel, which shortens the time accordingly. The scanning time can be reduced further by adding additional scanning heads to each positioning unit or by providing additional positioning units.

The scanning device 4 is connected to a device for further processing and storage of the scanning signals. In Fig.l this further processing device is shown only schematically by an arrow 12. Shortening the times for digitizing film material places high demands on the processing facility. Suitable data compression and the storage of the enormous amounts of data that arise in the shortest possible time are particularly important.

Claims

Patent claims:

1. Film scanner, with

Means (1) for temporarily positioning a section of film to be scanned

(2) ,

- a light source (3) for illuminating the positioned film section and

- a device (4) for scanning the film,

characterized in that

the positioning means are designed such that the positioned film section comprises a plurality of images of the film and means (5) are provided for displacing the scanning device (4) over the plurality of images.

Film scanner according to claim 1, characterized in that the scanning device (4) has at least two scanning heads (4a, 4'a; 4a, 4b) for parallel scanning of the positioned film section.

3. Film scanner according to claim 1, characterized in that the positioning means (1) have at least two positioning units (la, lb, lc), each of which holds a film section and the scanning device (4) holds at least two scanning heads (4a, 4b,

4c), with each positioning unit being assigned at least one scanning head.

4. Device according to one of the preceding claims, characterized in that the positioning means (1) have two ^transparent plates (11a, 11b) between which the film section is positioned.

5. Film scanner according to one of the preceding claims, characterized in that a film supply spool (7) and a film take-up spool (8) for the film (2) are also provided.

6. Film scanner according to one of the preceding claims, characterized in that the light source (3) is displaceably arranged together with the scanning device (4).

7. Film scanner according to one of the preceding claims, characterized in that the displacement means (5) are formed by a linear drive (5a, 5b, 5c).

8. Film scanner according to one of the preceding claims, characterized in that the scanning device (4) has a CCD or a CMOS camera-on-a-chip.

9. Film scanner according to one of the preceding claims, characterized by means for recognizing the start of an image.

10. Film scanner according to claim 9, characterized in that the means for recognizing the beginning of an image

Image can be formed by the scanning device (4).