JPS5934108A - Form analyzing device - Google Patents

Abstract

PURPOSE:To analyze the form of a human body quickly and accurately, by providing a sampling device, which inputs data of an approximate curve of the human body to a storage device, and a form operating device which performs the operation of an average value or the multivariable analysis of data stored in the storage device. CONSTITUTION:Various kinds of human body image photographed on films 6 are projected onto a digitizer 5 successively by a projector 7 and are tracked by a stylus 8 to input data of human body images to a picture processing device 2. Otherwise, human bodies are photographed directly by a television camera to input data to the device 2. A sampling device 9 samples data of human body curves inputted to the device 2 to obtain approximate curves of human bodies and stores them in a storage device 3. Data of the device 3 are operated and analyzed by a form operating device 10. Operation results are stored in the device 3 and are displayed on a picture output device as required.

Description

[Detailed description of the invention] The present invention relates to a body type analysis device.

To explain this with reference to the attached embodiment diagrams, as shown in FIG. 1, the body shape analysis device of the present invention includes an image input device 1
, an image processing device 2 , a data storage device 3 , and an image output device 4 . In the illustrated embodiment, the image input device 1 includes a Digitype 5 and a projector 7 for projecting a film 6 on which a human body image is photographed onto the Digitype 5. By tracking the contour of the human body image 5' with the stylus 8 connected to the Digitype 5,
A human body curve constituting the entire or partial contour of the human body image is input to the image processing device 2.

Note that the image input device 1 of the illustrated embodiment includes a projector 7.
, a Digitype 5, and a stylus 8, but it is also possible to provide an image input device consisting of a television camera in place of or in conjunction with these. If you use a television camera, you will be able to directly photograph the human body and input it.

The image processing device 2 is composed of a microcomputer, etc., and has a sampling device 9 including an information compression program. That is, this sampling device samples the data of the human body curve inputted to the image processing device 2 as described above, obtains the data of the approximate curve of the human body, and calculates this? The data is stored in a data storage device 3 consisting of a floppy disk, disk, drive, etc. By performing such sampling ((), the amount of information to be stored in the data storage device 3 is reduced, making it possible to store a large amount of human body curves in the data storage device, as well as calculations by the body shape calculation device, which will be described later). In other words, body type analysis?It will become easier to do.

The above sampling must be performed to obtain approximate curve data that can reproduce the human body curve input to the image processing device 2 with high precision, for example, as shown in FIGS. 2A and 2B. It will be done. That is, Figures 2A and 2B are views of a female human body seen from the side and front, respectively, and continuous lines A, B, and C in the figures are curved lines showing the contours of the back, front, and side surfaces of the human body, respectively. . These continuous lines A, B, and C correspond to human body curves input to the image processing device 2 (FIG. 1). Further, in FIGS. 2A and 2B, a large number of black dots marked on continuous lines A, B, and C indicate data sampling locations.

As is clear from FIG. 2A, for the contour of the back of the human body, that is, the continuous iA, data must be sampled closely from the tip of the buttocks a to its lower end, but from the lower end to the knee. Until the back side position C, there is very little loss of information regarding the shape of the human body curve even if the amount of data to be sampled is considerably reduced. Regarding the continuous line B, it is necessary to closely sample data from the tip d of the breast to the position f of the groin, especially from the tip d of the breast to the lower end ei. Considerably less sampling is required between position f and knee g. Furthermore, as is clear from FIG. 2B, it is necessary to sample the contours of the side surfaces of the human body very closely, especially around the neck and shoulders (area hl).

The information compression zologram built into the sampling device 9 determines the sampling location as described above.

The data sampled and stored in the data storage device 3 as described above is calculated and analyzed by a body type calculation device 10 provided in the image processing device 2 and consisting of an analysis program. This body type calculating device 10 is configured to calculate the average value of data stored in the data storage device f3, for example. That is, for example, if a total of 4M images of many women in their 20s are projected on the film 6, and these women's images are sequentially projected onto the Digitype 5 using the projector 7 and tracked with the stylus 8, the data of these women's images can be obtained. The data are sequentially stored in the data storage device 3 via the sampling device 9. If the body type calculation device 10 calculates the average value of these data, the calculation result of the body type calculation device 10 is displayed on the image output device 4 as an image 11, that is, a human body curve. In this case, image 11 shows an average human body curve averaged over many women in their 20s. Therefore, for example, if underwear is made in a standard size and shape that matches the curves of the human body, the underwear will be suitable for being worn by many women in their 20s.

Further, it is also possible to configure the body type calculation device 10 to perform multivariate analysis. If we perform this multivariate analysis,
For example, the results shown in FIG. 6 are obtained. That is, FIG. 6 is a multivariate analysis of data regarding many female images stored in the data storage device 3, with particular attention paid to the shape of the abdomen. According to this analysis result, the shapes of the female abdomen stored in the data storage device 3 are classified into seven standard shapes A to G. Therefore, if each shape A to G is displayed on the image output device 4 and seven types of standard shape underwear are made based on this, many women will choose one of these underwear and wear it suitably. can do.

In the embodiment shown in FIG. 1, the performance results of the body shape calculation device 1° are stored in the data storage device 3, and the stored data can be retrieved and displayed on the image output device 4 as needed. It has become.

Further, in the illustrated embodiment, a color monitor is used as the image output device 4, and this color monitor is connected to the image processing device 2 via the graphic generator 12, and the human body curve input to the image processing device 2 is The image can be displayed on a color monitor via a generator 12. The graphic generator 12 is also connected to the data storage device 3 via the sampling device 9, and is configured to collect sampling data of human body curves stored in the data storage device 3. The human body curve can be displayed on a color monitor through a graphic generator 12 having a curve interpolation function. This configuration has the advantage that it is possible to visually compare and examine the human body curve input to the image processing device 2 and the approximate curve of the human body reproduced by curve interpolation from the data stored in the data storage device 3. It brings about

In addition, the calculation results of the body type calculation device 10 are stored in the data storage device 3.
The human body surface i inputted to the image processing device 2 is stored in the data storage device 3 via the sampling device 9 on the same color monitor so that it can be displayed on the color monitor when desired. If the approximate curves of the human body reproduced from the stored data can be displayed simultaneously, it will be possible to instantly compare the body shape of a specific person with the standard body shape on a color monitor. . That is, a standard human body curve calculated by the body shape calculation device 10 is displayed on a color monitor, and a human body curve representing the human body image of a specific person is inputted to an image processing device and displayed in a superimposed manner on the color monitor. By doing so, you can instantly compare both human body curves. If such a comparison is made, for example, the specific person mentioned above has a human body curve that approximates the human body curve shown by A in Figure 6, and therefore underwear made to fit that human body curve A is suitable. This makes it extremely easy to determine whether the item can be worn or not.

In the illustrated embodiment, a color monitor is used as the image output device, but instead of this color monitor,
Alternatively, it is also possible to provide an image output device consisting of a video printer, an XY block, etc. in conjunction with this.

As is clear from the above, the uninvented body image analysis device projects various human body images taken on film onto a projector sequentially without digitizing them, tracks the projected human body images with a stylus, and then uses the stylus to track the human body images. By inputting the image into the image processing device, or by directly photographing the human body with a television camera and inputting it into the image processing device, it is now possible to display variously analyzed human body curves on the image output device. ing. For example, if the body shape calculation device of one image processing device is configured to calculate the average value of the data stored in the data storage device, the average human body curve for each type of body type can be displayed on the image output device. . That is, for example, if you want to find out the average value of a 20-year-old woman with size M, 1. Select a corresponding sample from among the large number of Hetaiken data stored in the data storage device, and
-Analyze Yu with a body type calculation device. Thereby, the average human body curve determined by -C is displayed on the image output device.

In addition, if the human body image of each of the above-mentioned women before wearing the shirasha, gargel, etc. is taken and the human body (elephant?) It is possible to display the average human body curve before and after wearing a shirasha, girdle, etc. By comparing these, it is possible to know the average degree of improvement in body shape due to wearing a shirasha, girdle, etc. Also, as mentioned above, For example, an upper body type calculation device performs multivariate analysis to classify the shapes of the shoulders, breasts, abdomen, etc. of a large number of human bodies into several standard shapes, and then calculates the classified valley shape. A human body curve can be displayed on an image output device.

As explained above, the body shape analysis device of the present invention can accurately and quickly analyze the human body shape and display the analysis results as human body curves on the image output device. It is extremely useful when making dummies, etc.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing a body shape analysis device according to an embodiment of the present invention, FIGS. 2A and 2B are diagrams showing data to be sampled by a sampling device on a human body curve input to an image processing device, and FIG. FIG. 3 is a diagram showing the standard shape of the human abdomen obtained as a result of multivariate analysis. 1... Image input device, 2... Image processing device, 3...
- Data storage device, 4... Image output device, 5... Digitype, 6... Film, T... Projector, 8... Stylus, 9... Sampling device, 1
0...Body shape calculation device. Agent Asamura Kōgai 4 people □□□−−−− 71-1111

Claims (1)

[Scope of Claims] (1) An image processing device and an image input device for inputting human body curve data to the image processing device, wherein the image processing device receives the data input to the image processing device. It has a sampling device that samples, obtains data of an approximate curve of the human body, and inputs it into a data storage device, and a body shape calculation device that calculates the average value of the data stored in the data storage device or performs multivariate analysis. A body type analysis device, further comprising: an image output device for displaying calculation results of the body type calculation device. (2. In the body shape analysis device according to claim 1, the image input device includes a Digitype, a grozoecta for projecting onto the Digitype film on which a human body image is photographed, and a A body shape analysis device comprising: a stylus for inputting human body curve data to an image processing device by tracking the outline of a human body image projected on the image processing device. (3) Claim 1 The body shape analysis device according to claim 1, wherein the image input device is a television camera. (4) Any one of claims 1 to 3.
In the body shape analysis device according to item 1, the image output device displays the calculation results of the body shape calculation device, and also displays the human body curve input to the image processing device and the approximate curve of the human body sampled by the sampling device. A body shape analysis device that can display the shape of a person's face. (5) Claims 1 to 4. ! The body shape analysis device according to any one of the items up to Ji, wherein the image output device is a color monitor. (6) Any one of claims 1 to 4
3. The body shape analysis device according to item 1, wherein the image output device is a video printer. (7) The body shape analysis device according to any one of claims 1 to 4, wherein the image output device is an X-Y Zorotsuta.