JPS6146142B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides, for example, so-called CT (Computerized
The present invention relates to an image display device that is optimal as a CT image display device in a CT image display system (Tomography) system.

CT image information in a CT system is given as a value such as a relative X-ray absorption coefficient value called a CT number, and with this CT number, for example, data from about -1000 to about +1000 as shown in Figure 1 is given. Contains a wide range of data consisting of levels (in the figure, A indicates water, B indicates soft tissue, C indicates fat, and D indicates bone). That is, this CT image information has gradation over a very wide range. Therefore, when displaying this CT image information as an image, there is a limit to the gradation that can actually be displayed or detected, so arbitrarily select an appropriate center gradation (CT number).
It becomes necessary to set the width (referred to as the "window width") of the gradation (CT number) centered on this center gradation (referred to as the "window level") and display the range. In this case, the gradation information in the set range does not necessarily match the gradation that can be displayed or detected. in spite of,
If you try to display this as it is, part of the ability to display or detect it will be wasted, or only a part of the set range will actually be able to be displayed or detected. Therefore, when displaying, it is considered preferable to display the gradation information to be displayed with a certain gradation suitable for the display or detection ability, regardless of the set range.

The present invention has been made based on the above circumstances, and is capable of displaying and detecting image data having an arbitrarily set gradation range among image information having a wide range of display gradations. It is an object of the present invention to provide an image display device that can make full use of its capabilities and perform extremely efficient and effective display.

That is, the feature of the present invention is that image data in a set range is converted into display data having a predetermined gradation regardless of the set range, and display is performed using this display data. .

Embodiments of the present invention will be described below with reference to the drawings. In FIG. 2, image information having a wide range of display gradation, such as CT image information, is input to an image information input terminal 1. 2 and 3 are a window level setter (hereinafter referred to as "WL setter") and a window width setter (hereinafter referred to as "WW setter"), which generate signals corresponding to arbitrary grayscale levels and grayscale widths as desired. (referred to as "vessel"). Then, the WL setting device 2 sets the gradation level that is the center of the range to be displayed, and the WW setting device 3 sets the width of the gradation to be displayed. The window level and window width set by the WL setter 2 and WW setter 3 are given to the window calculator 4, and the window calculator 4 calculates the upper and lower limits of the gradation range to be displayed. A correction coefficient generator 5 converts image data falling within the range to be displayed determined by the WW setting device 3 to a preset fixed gradation level for display regardless of the size of the range to be displayed, that is, the window width. A correction coefficient is generated for converting the display data into display data having the same characteristics. In this case, the correction coefficient is calculated by dividing a certain constant by the window width set in the WW setting device 3, taking into account that there are many sizes of the range to be displayed. do. When the image data calculator 6 displays, the image data a.
As shown in b, the image information obtained by the window calculator 4 that is above the upper limit of the gradation range to be displayed is set to the highest gradation (for example, white) level, and the image information that is below the lower limit is set to the lowest level. In order to obtain a gradation (for example, black) level, the lower limit value of the gradation range to be displayed obtained from the window calculator 4 is subtracted from the input image information and output to the multiplier 7. A multiplier 7 multiplies the correction coefficient from the correction coefficient generator 5 by the image data (the input image information minus the lower limit value of the range to be displayed) from the image data calculator 6. As a result of this multiplication, for example, the input image information D ₀ , {(input image information) − (lower limit of display range)} D ₁ , [{(input image information) − (lower limit of display range)} ×Correction coefficient] As shown in the relationship between the gradation of D ₂ , if the lower bits of D ₂ are set in a specific range and this is used as display data Dp, the image data in the range to be displayed always has a constant gradation. It will be converted into display data having . Further, the D/A converter 8 converts the specific lower bits of the output of the multiplier 7, that is, the display data Dp, into an analog signal. This output analog signal is synchronized with the output of the synchronizing signal generator 10 by the mixer amplifier 9 to form a video signal, and is input to the cathode ray tube 11 together with the output synchronizing signal of the synchronizing signal generator 10 for display.

By doing so, when displaying image information in an arbitrarily set display range, that is, image data at an arbitrary window level and window width, it is possible to display the image data in relation to the size of the window width. Display data is obtained by processing using a correction coefficient, and the display can always have constant gradation regardless of the window width. Therefore, a display can be performed that fully utilizes the display capability of the display means and the detection capability of the observer, and an extremely efficient and effective display image can be obtained.

It should be noted that the present invention is not limited to the embodiments described above and shown in the drawings, but can be implemented with various modifications without changing the gist thereof. For example, in the above embodiment, only image display in a CT system has been described, but the same method as above can be applied when displaying image information having a wide range of display gradation.

As described above, according to the present invention, when displaying image data in an arbitrarily set gradation range among image information having a wide range of display gradation, display and detection capabilities are fully utilized. , it is possible to provide an image display device that can perform extremely efficient and effective display.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing the relationship between CT number and each tissue, Fig. 2 is a block diagram showing the configuration of an embodiment of the present invention, and Fig. 3 a and b are each a diagram showing the relationship between CT number and each tissue.
Figures 4a and 4b are diagrams for explaining the relationship between different display ranges (window level and window width) and display states for CT numbers, respectively.
FIG. 6 is a diagram for explaining operations for different setting ranges in the same embodiment. 1... Image information input terminal, 2... Window level setter (WL setter), 3... Window width setter (WW setter), 4... Window calculator, 5... Correction coefficient generator, 6 ...Image data calculator, 7... Multiplier, 8... D/A converter, 9...
...Mixer amplifier, 10...Synchronization signal generator, 11
...Cathode ray tube.

Claims (1)

[Claims] 1. An input terminal into which image information having a wide range of gradations is input, a window level setter for setting the center gradation of the gradation range to be displayed among the image information, and the gradation to be displayed. a window width setter that sets the width of the range; a window calculator that calculates the upper and lower limits of the range of gradations to be displayed based on the settings of the window level setter and window width setter; a data calculator that processes the image information according to the upper and lower limits of the range of gradations to be displayed obtained by the device; and a display based on the width setting value of the range of gradations to be displayed by the window width setting device. A correction coefficient generator generates a correction coefficient to make the display gradation constant at the time of display, and a correction coefficient obtained by this correction coefficient generator is used to perform calculations on the output of the data calculator to determine the planned gradation. a correction computing unit that obtains display data with a characteristic, a video circuit that converts the display data obtained by the correction computing unit into a display video signal, and an image display that displays an image using the display video signal obtained by the video circuit. An image display device comprising: