EP1301753A1

EP1301753A1 - Method and arrangement for detecting the spatial form of an object

Info

Publication number: EP1301753A1
Application number: EP01957977A
Authority: EP
Inventors: Erfindernennung liegt noch nicht vor Die
Original assignee: Massen Robert Prof Dr; corpuse AG
Current assignee: corpuse AG
Priority date: 2000-07-19
Filing date: 2001-07-17
Publication date: 2003-04-16
Also published as: WO2002006768A1; DE10033828A1; US7209586B2; JP2004504587A; US20030142863A1

Abstract

The invention relates to a method for detecting the spatial form of objects, wherein the object is pressed into a plastically deformable mass (2) which is provided with photogrammetrically evaluable marks (4). Once the object is removed from the marked mass, several photogrammetric recordings are made from various viewpoints(5) and the pictures are photogrammetrically evaluated.The spatial form of the object is calculated by association of the corresponding marks in the pictures. The invention further relates to a corresponding device for carrying out said method and is particularly suited for the detection of the spatial form of objects whose spatial form changes under strain. One example of this with the authorization provider is the measurement of human feet.

Description

Method and arrangement for recording the spatial shape of a

object

The invention relates to a method and an arrangement for detecting the spatial shape of an object, e.g. of a human foot.

The detection of the three-dimensional shape (spatial shape) of bodies and body parts is an important preliminary stage for the production and selection of products, the shape of which must be adapted to the shape of the body or body parts. Examples of such products are shoes, footbeds, prostheses, orthoses or clothing.

It is known to use body parts e.g. to be recorded optically using laser triangulation methods, using strip projection methods or by optically recording a sequence of silhouette outlines. In contrast to these methods, which are relatively complex due to their mechanically and optically precisely constructed and calibrated systems, a very simple solution is known from European patent EP 0 760 622 "Method and arrangement for three-dimensional detection of the spatial shape of bodies or body parts", which is based on the photogrammetric evaluation of images of the body part, which consist of uncalibrated

Shooting positions are created. For this purpose, the body part is covered with an elastic cover, which bears marks that can be evaluated photogrammetrically.

From German patent application No. 100 25 922.7 "Automatic photogrammetric digitization of bodies and objects" is also known, as by a special marking of the background of these marks, ie Placement of area marks, the referencing of the marks (point marks), ie the pairing of the same point marks in the different, overlapping images can be facilitated and automated.

All of these methods digitize the unloaded body. In the case of soft tissue in particular, however, the spatial shape of the loaded body differs very greatly from the spatial shape of the unloaded body.

Numerous products to be adapted to the body such as a footbed, an anatomically adapted seat shape, etc. do not need the spatial coordinates of the unloaded and undeformed body part, but of the body part deformed under load.

For example, when measuring the sole of the foot to produce a suitable insert or an adapted footbed, e.g. traditionally proceeded in such a way that the person places the foot in a plastically deformable mass and an impression is obtained from this formed mass with classic impression processes, which forms the starting point for the production of the insert. This is a cumbersome, lengthy and costly process, which could be significantly improved by automatically digitizing the sole of the foot under load.

The object of the invention is therefore to provide a simple method and a simple arrangement for detecting the spatial shape of an object, which overcome the above-described problems of previous methods and arrangements and are particularly suitable for simple detection of the spatial shape of objects which measure under load Need to become. This object is achieved by a method for detecting the spatial shape of an object, in which a plastically deformable mass is provided which has at least one surface part which is provided with marks which can be evaluated photogrammetrically, the object is pressed onto the surface part in such a way that the mass deforms according to the spatial shape of the object, the object is removed from the deformed mass, several pictures of the deformed mass provided with the marks are taken from different views and the spatial form of the object is determined from the pictures using a photogrammetric method.

The object is further achieved by an arrangement for photogrammetric detection of the spatial shape of an object with a recording system for creating photogrammetric recordings and a system for photogrammetric evaluation of the recordings and for determining the spatial shape, which is characterized in that it also comprises a plastically deformable mass , which has at least one surface part, which is provided with photogrammetrically evaluable marks.

According to the invention, the optical detection of the three-dimensional shape of an impression material loaded and deformed by a body part is achieved in that the deformable impression material is characterized by high-contrast, photogrammetrically evaluable marks. In particular, according to the invention, these markings can consist of inclusions, the color of which differs from the color of the deformable impression material, or of differently colored local colorations of the impression material. By capturing a series of overlapping two-dimensional images (2D images) unknown recording positions of the deformed and marked impression mass can be easily determined from these 2D images using known methods of photogrammetry, the three-dimensional shape (spatial shape) of the impression and thus also the spatial shape of the body part deformed under load.

Advantageous developments of the invention are characterized in the dependent claims.

Further features and advantages of the invention result from the following description of an exemplary embodiment with reference to the drawings. The drawings show:

1 shows a plastically deformable impression compound used in one embodiment of the invention and provided with marks that can be evaluated photogrammetrically in an impression frame, with which an impression of the sole of the foot is produced under load;

Fig. 2 is a schematic arrangement of cameras whose

Positions are not known and are used to take overlapping 2D images of the impression, which contain the marks and their position with respect to the 2D coordinates of these images; and

FIG. 3 shows, by way of example, a pseudo-3D representation of marks which represent the three-dimensional shape of the footbed resulting from the impression in FIG. 2.

The method according to the invention is used as an example in a typical application, the detection of the sole of the foot under load Production of an anatomically fitting footbed.

Of course, this example is by no means the only possible application of the method according to the invention. For example, the acquisition of a 3D impression of the buttocks for the production of anatomically fitting seat surfaces is another example in which the acquisition of the 3D geometry of a body deformed by stress is important. Many other applications are conceivable.

The terms "object" or "body" are by no means limited to human or animal bodies within the scope of the inventive concept, but also include any physical bodies such as e.g. mechanical models, ancient statues, sculptures or similar three-dimensional shapes.

As shown in Fig. 1, a plastically deformable mass 2 is held in the frame of a mold 1, in which a person puts his foot 3 under load. At least a part 7 of the surface of the mass 2 is provided with marks 4 which can be evaluated photogrammetrically.

The mass 2 consists of a single-colored base material in which a number of marks 4 which can be evaluated photogrammetrically are embedded, the color of which contrasts with the color of the base material in high contrast. These brands can consist, for example, of different colored pencils which are made of the same material as the base material and are embedded in the base material. The pins can be cylindrical, for example. The base material can consist, for example, of conventional deformable materials such as plaster, wax, alginate or elastomers (eg silicones). In a preferred embodiment, a plastically deformable material is selected which is reversibly deformable, and after the deformation caused by the printing of the object and completion of the photogrammetric evaluation of the impression by the action of energy, heat, light or mechanical energy, it returns to its original shape can be brought back. Such materials are known to the person skilled in the art in the prior art. If such a material is used, the mass provided with photogrammetric marks can be reused as often as desired.

According to the invention, the background around these marks can also be identified by differently colored zones for simple photogrammetric evaluation. This results in a marking on two levels, namely from point marks and area marks, the area marks each comprising several point marks, forming a background of the point marks and having a characteristic optical design.

The impression mass 2 deforms due to the load of the foot placed on the surface part 7 of the mass 2. Accordingly, the marks 4 visible from the outside also shift both laterally and in depth.

After the foot 3 has been removed from the mass 2, the remaining impression 6 shown in FIG. 2 is obtained from a series of overlapping recording positions with a recording system which can comprise one camera or, as shown in FIG. 2, several cameras 5, are recorded and a number of 2D images are created in which the marks occupy 4 different XY positions. It is known to the person skilled in the art of photogrammetry and short-range photogrammetry how these images are to be evaluated in order to obtain the 3D coordinates, which is why they are not dealt with in detail here.

In the photogrammetric method, image processing of the images is first carried out, in which the marks corresponding to each other in the images are assigned to one another. On the basis of the brand assignment, the spatial shape of the impression or the spatial shape of the object is then determined using known mathematical methods of photogrammetry. '

If, as shown above, point and area marks are used, the area marks corresponding in each case in the pictures are first assigned to one another on the basis of their characteristic optical design during image processing of the pictures. Then, with the aid of the area mark assignment, the point marks encompassed by the area marks and each corresponding in the recordings are assigned to one another. The spatial shape of the object is then determined on the basis of the point mark assignment using a photogrammetric evaluation method.

In a preferred embodiment, on the side of the mold which holds the plastically deformable mass and which is opposite the photogrammetric recording system, a scale can be attached on which at least two photogrammetric marks are arranged at a known distance from one another. Such a scale can consist, for example, of a rigid straight rod or a plate on which the marks are attached. The scale can of course also be arranged separately next to the shape. The creation of the photogrammetric Recordings are then made in such a way that at least two recordings of the impression bearing the marks are made, from which the scale is also recorded. As a result, the spatial shape of the imprint or the imprinted object can later be calculated in absolute values during the photogrammetric evaluation of the images.

Fig. 3 shows an example of the pseudo-3D representation of the brands that represent the 3D shape of the footbed and thus the automatic production of a footbed e.g. allow with a 3-axis milling machine.

According to the invention, the impression material can also be marked photogrammetrically in such a way that, as described in EP 0 760 622, it is covered by a marked elastic coating before loading, e.g. can consist of a textile material or a plastic material. This coating should preferably adhere to the impression material, so that the deformation of the mass is transferred as precisely as possible to the deformation of the elastic coating. The use of such a coating solves the problem of hygiene which arises when the impression material comes into direct contact with the skin.

As a disposable article, this coating avoids the need for costly disinfection of the impression material after each use.

The method according to the invention can be applied to many other impression applications, only a few of which are listed by way of example: a) the production of anatomically fitting seating surfaces by using a marked plastic flat mass, into which the customer sits and so leaves an impression of the buttocks deformed by stress; b) the production of spectacle frames that fit in the nose area by printing the nasal root area with an impression material marked according to the invention; c) the production of copies of antique objects by making an impression in a plastic material marked according to the invention.

The terms "detection of the spatial shape of an object" and "determination of the spatial shape of an object" used in this description and in the claims should also be understood in the sense that the detection of the negative shape of the object, i.e. the impression of an object is meant, since this implicitly also results in the positive form of the object, i.e. the dimensions of the object result. These terms should also refer to the detection of the spatial shape of a part of an object, e.g. of a foot as part of the human body.

Claims

claims

1. A method for detecting the spatial shape of an object (3), in which a plastically deformable mass (2) is provided which has at least one surface part (7) which is provided with marks (4) which can be evaluated photogrammetrically, the object on the surface part (7) is pressed into the mass (2) in such a way that the mass (2) deforms according to the spatial shape of the object (3), the object (3) is removed from the deformed mass (2), several shots of the with Marks (4) provided deformed mass (2) are made from different views and the spatial shape of the object (3) is determined from the recordings using a photogrammetric method.

2. The method as claimed in claim 2, in which, in the photogrammetric method, image processing of the recordings is carried out, in which the marks (4) corresponding in the recordings are assigned to one another, and the spatial shape of the object (3) is determined on the basis of the mark assignment ,

3. The method according to claim 1 or 2, wherein the provision of the plastically deformable mass, which has at least one surface part which is provided with photogrammetrically evaluable marks, is carried out in such a way that a plastically deformable mass is provided, are enclosed in the body whose color differs from the color of the mass and which are visible from the outside in the area of the surface part (7).

4. The method according to claim 1 or 2, in which the provision of the plastically deformable mass, which has at least one surface part which is provided with photogrammetrically evaluable marks, is carried out in such a way that marks with a color are applied to the surface part of the plastically deformable mass be different from the color of the mass.

5. The method according to claim 1 or 2, wherein the provision of the plastically deformable mass, which has at least one surface part which is provided with photogrammetrically evaluable marks, in such a way that an elastic and marked coating on the surface part of the plastically deformable mass is attached.

6. The method according to any one of the preceding claims, wherein the marks consist of point marks and area marks, the area marks each comprising a plurality of point marks, forming a background of the point marks and having a characteristic optical design.

7. The method according to claim 6, in which, during the image processing of the recordings, first the area marks corresponding to each other in the recordings are assigned to one another on the basis of their characteristic optical design, and then with the aid of the area mark assignment the point marks comprised by the area marks and corresponding to each other in the pictures are assigned to one another and the spatial shape of the object is determined using a photogrammetric evaluation method on the basis of the point mark assignment.

8. The method according to any one of the preceding claims, wherein the plastically deformable mass is provided in a mold (1) which serves to hold the mass.

9. The method according to any one of the preceding claims, wherein the object (3) is a body part of a human whose spatial shape is to be measured under load.

10. The method according to claim 9, wherein the object (3) is a foot.

11. The method according to any one of claims 1 to 8, wherein the object is a statue.

12. The method according to any one of the preceding claims, wherein the provided plastically deformable mass is a reversibly deformable mass, which is brought back to its original shape, which it took before the object was pressed, after the pictures have been taken.

13. The method of claim 12, wherein the reversibly deformable mass is returned to its original shape by the action of energy, heat, light or mechanical energy.

14. The method according to any one of the preceding claims, in which a scale is arranged on which at least two photogrammetrically evaluable marks are arranged at a known distance from one another prior to the taking of the recordings next to the surface part of the deformable mass bearing the photogrammetrically evaluable marks.

15. The method according to claim 14, wherein at least two of the recordings of the mass provided with marks are carried out so that the scale is also included.

16. Arrangement for the photogrammetric detection of the spatial shape of an object with a recording system (5) for creating photogrammetric recordings and a system for photogrammetric evaluation of the recordings and for determining the spatial shape of the object, characterized in that the arrangement also has a plastically deformable mass (2nd ) which has at least one surface part (7) which is provided with marks (4) which can be evaluated photogrammetrically.

17. The arrangement as claimed in claim 16, in which bodies differing in color from the mass are provided, which are enclosed in the mass and are visible from the outside.

18. The arrangement as claimed in claim 16, in which color markings are provided as marks on the surface part of the mass in a color which differs from the color of the mass.

19. The arrangement according to claim 16, in which an elastic coating is provided with marks attached to it, which is drawn over the mass in the region of the surface part and adheres to the mass.

20. Arrangement according to one of claims 16 to 19, in which a shape (1) is also provided which holds the mass.

21. Arrangement according to one of claims 16 to 20, wherein the plastically deformable mass is a reversibly deformable mass.

22. The arrangement according to claim 21, wherein the reversibly deformable mass is designed so that it can be returned to its original shape by the action of energy, heat, light or mechanical energy.

23. Arrangement according to one of claims 16 to 22, in which a scale is provided which bears at least two photogrammetrically evaluable marks arranged at a known distance from one another and is arranged next to the surface part of the deformable mass.

24. The arrangement of claims 20 and 23, wherein the scale is connected to the shape that holds the mass.