JP2005323198A - Leakage countermeasure image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for forming a leakage countermeasure image which can be used for general images at low costs as measures to TEMPEST capable of stealing images or the like from radio waves leaked from a computer and makes it difficult for a stealer to steal images while suppressing deterioration of computer user's visibility. <P>SOLUTION: The apparatus includes a receiving part for receiving original image information expressing an original image to which leakage countermeasure is to be applied and a smoothing part for calculating leakage countermeasure image information expressing leakage countermeasure image prevented from stealing by TEMPEST by smoothing the original image. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to countermeasures against leaked radio waves that are wiretapped by TEMPEST.

  By eavesdropping technology such as TEMPEST, it is possible to reproduce screen information from a remote location by intercepting electromagnetic waves emitted unintentionally when a user is using a computer, etc. It is said that it can detect faint signals emitted from keyboard connection cables, network cables, USB connectors, etc. even from a distance of 10 meters.

  As a countermeasure against such an eavesdropping technique, a method of blocking an electric wave is conceivable. However, it has been found from the research of the present inventor that the VCCI standard for suppressing the interfering electric wave is not sufficient as an countermeasure against the eavesdropping.

  In addition, as disclosed in Patent Document 1, a method of sufficiently shielding an electronic device that handles important information, a cable attached to the electronic device, and the like so as to isolate it from an area where radio waves do not reach is used.

  However, since it is possible to eavesdrop through power supply lines and water pipes made of conductive materials, and to conduct eavesdropping by analyzing power consumption, countermeasures against such leaks are possible. This is not realistic except when it is installed in a facility that has been provided in advance. For example, it is difficult to apply when electronic voting is used in a special polling place.

Therefore, by focusing on the fact that a signal having a high frequency component in the horizontal direction of the top 30% is used as an effective signal by TEMPEST, and using a TEMPEST countermeasure font in which such a signal generation portion is removed. Therefore, it is difficult to distinguish between noise and signal at the time of eavesdropping, and low-cost eavesdropping measures are taken.
FIG. 1 shows a TEMPEST countermeasure font image indicating a TEMPEST countermeasure font, and FIG. 2 shows an eavesdropping image of a TEMPEST font image obtained by eavesdropping the TEMPEST countermeasure font image using TEMPEST.

  However, recently, due to the improvement in performance of TEMPEST, even characters represented by such fonts can be reproduced to the extent that they can be identified.

Furthermore, if such a technique is used for an image representing something other than some characters, there may be a case where the content represented cannot be properly transmitted.
JP-A-6-209180

  By the way, in order to prevent eavesdropping on screen information, even if the signal can be distinguished from noise, it is considered sufficient if the screen information reproduced based on the signal is not visible. In other words, in eavesdropping, a signal deteriorated when propagating through the air or conductor is received. An image that can provide screen information that greatly reduces the visibility based on the deteriorated signal and that provides sufficient visibility based on a signal that does not deteriorate during use is desirable as the leakage countermeasure image.

  Furthermore, in order to obtain this leakage countermeasure image, for example, if a net-like noise is added to an image such as a map, the visibility of a signal deteriorated during propagation is greatly reduced. It cannot be determined whether the net appearing in the image is originally appearing in the image or added as noise for the purpose of countermeasures against eavesdropping. This can cause serious misunderstandings by users. In other words, it is important to generate a leakage countermeasure image that does not cause a sense of incompatibility compared to an image that has not been taken as a countermeasure against leakage without noticeable changes to the image.

  Therefore, the present invention is not only generally available as a TEMPEST countermeasure at low cost, but also applicable to images in general, and a leakage countermeasure image that can prevent eavesdropping of an image from leaking radio waves while suppressing a decrease in visibility. The main problem is to provide an apparatus for generating the.

  That is, according to the present invention, a reception unit that receives original image information representing an original image that is an image to be subjected to leakage countermeasures, and leakage countermeasure image information that represents a leakage countermeasure image that is countermeasured against wiretapping by TEMPEST by smoothing the original image. And a smoothing unit for calculating the value.

  In such a case, since the original image is smoothed, the change applied to the image does not stand out, and a leakage countermeasure image that is less uncomfortable than the original image can be obtained by the leakage countermeasure. At this time, since it is possible to express a significant change in the visual attributes such as the outline of a character existing in the original image by, for example, dots having light and shade, an eavesdropping image in which dot information such as light and shade cannot be accurately reproduced due to signal degradation or the like In this case, the unclearness of the portion increases, and wiretapping by TEMPEST can be made difficult. In addition, since dot information of a certain image portion and surrounding image portions are mixed, conversion by smoothing does not make the image portion a one-to-one image against leakage, and is difficult to decipher by pattern recognition or the like. In addition, since the displayed image is smoothed not for the output electromagnetic wave, it is easy to perform management and adjustment to prevent deterioration of the visibility of the original image when generating the leakage countermeasure image.

  The smoothing unit represents a visual attribute such as lightness or saturation of each dot included in the original image based on a distribution pattern that is a distribution pattern that attenuates according to a distance from the center such as a Gaussian distribution. Diffusion unit that calculates diffusion image information obtained by performing diffusion processing to diffuse dot information that is information to surrounding dots, and pseudo gradation display methods such as density pattern method, dither method, error diffusion method, etc. And a pseudo gradation unit for calculating leakage countermeasure image information representing a leakage countermeasure image obtained by performing a pseudo gradation process for converting dot information of each dot included in the diffusion image. It is preferable that it is what is characterized by these.

  In such a case, not only smoothing is further performed by the pseudo gradation processing, but also, for example, dot information indicating color shading does not change continuously in the leakage countermeasure image, and the shading, color tone, etc. In an eavesdropping image in which dot information cannot be accurately reproduced, for example, rectangular noise appears and the space between characters in the original image is filled to reduce the visibility of character outlines, etc., making it difficult to eavesdrop by TEMPEST. be able to.

  Further, the reception unit further receives a distribution parameter that is a parameter for determining the distribution pattern, and the diffusion unit is configured to determine the distribution pattern according to the distribution parameter. If there is a change in the visual attribute such as the outline of the character, the visibility of the anti-snooping image and the reproducibility of the image obtained by eavesdropping are determined according to the complexity of the original image. Considering this, it is possible to perform optimum diffusion processing.

  Further, the reception unit further receives a pseudo gradation display method parameter which is a parameter for determining the pseudo gradation display method, and the pseudo gradation unit is configured to perform the pseudo gradation display method parameter according to the pseudo gradation display method parameter. If it is characterized in that the pseudo-gradation display method is defined, the visibility of the eavesdropping image and the image obtained by eavesdropping according to the complexity of the original image, etc. Optimum diffusion processing can be performed in consideration of reproducibility.

  If the diffusion unit is characterized in that diffusion is performed based on a Gaussian distribution, it is easy to handle because a range for diffusion can be easily determined using a small number of parameters.

  If the pseudo-gradation unit performs the pseudo-gradation process using the dither method, pseudo-gradation can be performed by specifying dither patterns of various shapes and sizes. Since it can be processed, it can take countermeasures against eavesdropping in various images and environments, and it has excellent versatility.

  If such pseudo-gradation processing is simply performed, color reduction processing may be performed. In this case, the diffusion unit stores diffusion image information using more gradations than the original image uses. It is only necessary that the pseudo gradation process is performed and the pseudo gradation process is performed so that the pseudo gradation process is performed, and the leakage countermeasure image using fewer gradations than the diffusion image is used.

  Furthermore, the diffusion unit includes a preprocessing unit that preprocesses the original image before performing the diffusion process, and the preprocessing unit includes a predetermined high frequency in the horizontal direction included in the original image. Any device having a function of removing a high-frequency generation image portion that is a portion that generates a signal having a component is preferable.

  The diffusion unit includes a preprocessing unit that preprocesses an original image before performing the diffusion processing,

  If the pre-processing unit has a function of changing dot information so that the brightness band of dots included in the original image falls within a predetermined range, for example, black on a white background In the image, by setting the white background to gray, it is possible to prevent only white or black from filling a specific area, and to enable diffusion processing and pseudo-gradation processing.

  Such a leakage countermeasure image generating apparatus is most effective when the image represented by the original image information includes characters.

  The diffusion unit includes a preprocessing unit that preprocesses an original image before performing the diffusion process, and the preprocessing unit includes a function of enlarging or reducing the original image. If it is characterized by

  According to the present invention configured as described above, it is possible to take measures against image tapping by TEMPEST. Further, since leakage of electromagnetic waves does not result in leakage of images, it is not necessary to take special measures for facilities and the like, and it can be used at specially installed polling places where electronic voting is performed. Furthermore, the present invention can be applied not only to characters but also to images, and an image that does not feel uncomfortable compared to the initial image can be generated by measures against leakage, so that the user is not mistaken.

  Hereinafter, embodiments of the present invention will be described.

  FIG. 5 is a configuration diagram showing a hardware configuration of the leakage countermeasure image generating apparatus 1 in this embodiment. As shown in FIG. 1, the leakage countermeasure image generating apparatus 1 is a general-purpose computer, for example, a CPU 101, an internal memory 102, an external storage device 103 such as an HDD, a communication interface 104 such as a modem for connecting to a communication network, A display 105, an input means 106 such as a mouse and a keyboard, and the like are provided.

  In this embodiment, as shown in FIG. 6, a predetermined program is installed in the computer, and the CPU 101 and peripheral devices work together based on the program, so that the reception unit 2, the diffusion unit 4, the pseudo floor It functions as the adjusting unit 5 or the like.

  Each part will be described in detail below.

  The leakage countermeasure image generating apparatus 1 is intended for an image including characters, and displays an image on which leakage countermeasures have been performed by smoothing an image represented by characters on a monitor. 2 and a smoothing unit 3.

  The reception unit 2 includes original image information representing an original image that is an image to which leakage countermeasures are applied, a distribution parameter that is a parameter used by the diffusion unit 4, and a pseudo gradation display method parameter that is a parameter used by the pseudo gradation unit 5. Are accepted.

  The original image information may be raster data such as bitmap or JPEG, or vector data. The distribution parameter and the pseudo gradation display method parameter are data in a format according to the specifications of the diffusion unit 4 and the pseudo gradation unit 5, respectively.

  The smoothing unit 3 includes a diffusion unit 4 and a pseudo gradation unit 5, and smoothes the original image and calculates a leakage countermeasure image.

  Smoothing means, for example, that an image having an arrangement of dots having substantially the same information concentrated in a predetermined area is distributed to the surrounding area, or the substantially same information is distributed to the surrounding area. By converting the information set into a plurality of different information sets by utilizing the effect that the adjacent color information appears to be mixed and the like, This is to uniformly distribute the information held by the dots.

  The diffusing unit 4 determines the distribution pattern according to a distribution parameter, and, based on the distribution pattern, dot information that is information representing visual attributes such as brightness or saturation of each dot included in the original image, The diffusion image information obtained by performing diffusion processing for diffusing to surrounding dots is calculated.

  The diffusion unit 4 includes a preprocessing unit (not shown) that performs preprocessing and a data conversion unit (not shown) that converts an original image represented by vector data into raster data.

  The distribution pattern is determined to be a distribution pattern that attenuates according to the distance from the center so that the visibility of the diffusion image obtained by diffusing the original image is not significantly reduced. It can be determined by using parameters. In this embodiment, the distribution pattern is a Gaussian distribution represented by a Gaussian function, and the variance (σ2) which is a parameter of the Gaussian function is included as a distribution parameter. However, the spreading unit 4 may select an algorithm provided in advance by the spreading unit 4 based on the distribution parameter, or separately store codes and data required for distributed processing in a DLL or the like, and the DLL as a distribution parameter. Various distribution patterns may be used by using names or the like.

  The diffusion process is a process of generating a diffusion image which is a new image by distributing dot information of dots included in the original image according to the distribution pattern. In this leakage countermeasure image generating apparatus 1, in order to determine dot information of dots included in the diffusion image, diffusion processing is performed by referring to dot information of dots included in the original image according to the following formula.

  In the above equation, (xa, yb) represents the position of the dot to be calculated, and (xi, yj) represents the coordinates of the peripheral dot to be referred to. σ2 represents dispersion, and the larger the value, the stronger the diffusion and the blurred image. p (x, y) represents dot information, which is color information of (red, green, blue) in this embodiment.

  Further, the left side of Expression (1) indicates the dot information of the diffusion image generated, and the diffusion image is generated in the raster data format.

  When such diffusion processing is performed, dot information that does not exist in the dots included in the original image appears. However, since the number of colors that can be practically used is finite, a diffusion image is generated using the most similar available dot information. In the leakage countermeasure image generating apparatus 1, diffusion image information using more gradations than that used by the original image is calculated.

  The preprocessing unit preprocesses the original image before performing the diffusion process.

  In addition, the pre-processing unit removes a signal having a high frequency component in the horizontal direction of a predetermined band or more and a high frequency component removal unit (not shown), and dot information so that the brightness band of the dots included in the original image falls within a predetermined range. And a band limiting unit (not shown) for changing

  The high frequency component removal unit has a function of removing a high frequency generation image portion that is a portion that generates a signal having a predetermined high frequency component in the horizontal direction, included in the original image.

  In this leakage countermeasure image generating apparatus 1, for example, the band corresponding to the upper 30% of the high frequency components of the waveform representing the horizontal direction of the image of the electromagnetic wave generated when displaying an image representing characters in black on a white background The original image is processed so that no electromagnetic wave is emitted.

  Electromagnetic waves in such a band are generated in a portion where changes in brightness, saturation, etc. included in the dot information are drastic. For example, dot information such as brightness, saturation, etc. is compared by comparing adjacent or adjacent dots. Occurrence of the change can be suppressed by adding noise using average or intermediate dot information of the compared dots to a portion where the change satisfies a predetermined condition, for example, gray color.

  The band limiting unit has a function of changing the dot information so that the brightness band of the dots included in the original image falls within a predetermined range. In the present embodiment, white dots included in the original image are gray.

  The pseudo gradation unit 5 defines a pseudo gradation display method according to the pseudo gradation display method parameter, and is included in the diffusion image based on a pseudo gradation display method such as a density pattern method, a dither method, and an error diffusion method. The leakage countermeasure image information representing the leakage countermeasure image obtained by performing the pseudo gradation processing for converting the dot information of each dot to be calculated is calculated.

  The pseudo gradation display method creates a dot pattern using a predetermined set of dot information, thereby replacing a dot pattern comprised of a set of dot information different from the predetermined dot information included in an image, This is a method for obtaining an image representing information that is substantially the same as the information represented by the image, and is a method that makes it possible to express more abundant gradations with a predetermined gradation. In particular, it is possible to reduce the number of colors used in the original image by substituting with a dot pattern that uses a smaller set of dot information contained in the original image.

  In the leakage countermeasure image generating apparatus 1, the pseudo gradation unit 5 performs pseudo color gradation by performing color reduction, and calculates a leakage countermeasure image using the same gradation as the current image.

  The pseudo gradation display method is used for the purpose of reducing the number of colors used in the conventional image, and the leakage countermeasure image generating apparatus 1 also uses the diffusion image by reducing the color of the leakage countermeasure image. However, by using pseudo-gradation, a dot pattern consisting of one or a plurality of dots included in a diffusion image is converted into one or a plurality of dots having different dot information such as shading. It is only necessary to be able to convert to a dot pattern consisting of dots, and it is not always necessary to perform color reduction.

  In addition, the leakage countermeasure image generating apparatus 1 performs the pseudo gradation processing using the dither method, and uses the size or dither pattern given by the pseudo gradation display method parameters.

  An example of the operation of the leakage countermeasure image generating apparatus 1 according to the present embodiment will be described below with reference to FIG. 6 and the flowchart of FIG.

  First, the reception unit 2 receives original image information, distribution parameters, and pseudo gradation display method parameters (S1).

  The high-frequency component removing unit provided in the pre-processing unit removes the high-frequency generated image part that is included in the original image and generates a signal having a predetermined high-frequency component in the horizontal direction, and the band limiting unit is The original image is preprocessed by setting white dots included in the original image to gray (S2).

  The diffusing unit 4 determines the distribution pattern according to a distribution parameter, and based on the distribution pattern, dot information, which is information representing visual attributes such as brightness or saturation, of each dot included in the original image, A diffusion process for diffusing to surrounding dots is performed (S3), and diffusion image information is calculated.

  The pseudo gradation unit 5 determines a pseudo gradation display method according to the pseudo gradation display method parameter, and performs a pseudo gradation process on the image represented by the diffusion image information based on the pseudo gradation display method (S4). Leakage countermeasure image information is calculated.

  The present invention is not limited to the above embodiment.

  The original image information received by the receiving unit may be not only raster data and vector data but also a font name and a character code. The font is not limited to a bitmap font, and may be an outline font. In this case, the data conversion unit needs to read a font file or the like in order to represent an image, and generate raster data representing an image of a character represented by a character code.

  Gray may be put on the background of the letter.

  Further, instead of omitting the preprocessing (S2) of FIG. 7, a conventional TEMPEST countermeasure font image may be used as the original image. FIG. 2 shows a TEMPEST countermeasure font leakage countermeasure image obtained by an embodiment different from the present embodiment, and FIG. 2 shows a TEMPEST countermeasure countermeasure obtained by eavesdropping the TEMPEST countermeasure font leakage countermeasure image by TEMPEST. An eavesdropping image of the font leakage countermeasure image is shown in FIG.

  Various other modifications are possible without departing from the spirit of the present invention.

TEMPEST countermeasure font image including a conventional TEMPEST countermeasure font. 14 is a TEMPEST countermeasure font leakage countermeasure image obtained by performing leakage countermeasure processing on a TEMPEST countermeasure font image according to another embodiment of the present invention. Eavesdropping image of TEMPEST countermeasure font image obtained by eavesdropping TEMPEST countermeasure font image by TEMPEST. Eavesdropping image of TEMPEST countermeasure font leakage countermeasure image obtained by eavesdropping TEMPEST countermeasure font leakage countermeasure image by TEMPEST. The hardware block diagram of the leak countermeasure image generation apparatus in embodiment of this invention. The functional block diagram which shows the structure of the function of the leak countermeasure image generation apparatus in the embodiment. 6 is a flowchart showing an example of an operation for generating a leakage countermeasure image in the embodiment.

Explanation of symbols

1 ... Leakage countermeasure image generation apparatus 1
2 ... Reception unit 3 ... Smoothing unit 4 ... Diffusion unit 5 ... Pseudo gradation unit

Claims (11)

An accepting unit that accepts original image information representing an original image that is an image to which leakage countermeasures are applied;
An anti-leakage image generating apparatus comprising: a smoothing unit that calculates anti-leakage image information representing an anti-leakage image that takes measures against wiretapping by TEMPEST by smoothing the original image. The smoothing unit represents a visual attribute such as brightness or saturation of each dot included in the original image based on a distribution pattern that is a distribution pattern that attenuates according to a distance from the center such as a Gaussian distribution. A diffusion unit that calculates diffusion image information representing a diffusion image obtained by performing diffusion processing for diffusing dot information that is information to the surrounding dots;
Based on a pseudo gradation display method such as a density pattern method, a dither method, an error diffusion method, etc., a leakage countermeasure image obtained by performing a pseudo gradation process for converting dot information of each dot included in the diffusion image is obtained. The leakage countermeasure image generating apparatus according to claim 1, further comprising a pseudo gradation unit that calculates leakage countermeasure image information to be expressed. The receiving unit further receives a distribution parameter that is a parameter for determining the distribution pattern;
3. The leakage countermeasure image generating apparatus according to claim 2, wherein the diffusion unit determines the distribution pattern according to the distribution parameter. The receiving unit further receives a pseudo gradation display method parameter which is a parameter for determining the pseudo gradation display method;
4. The leakage countermeasure image generating apparatus according to claim 2, wherein the pseudo gradation unit determines the pseudo gradation display method according to the pseudo gradation display method parameter. 5. The leakage countermeasure image generation apparatus according to claim 2, wherein the diffusion unit performs diffusion based on a Gaussian distribution. 6. The leakage countermeasure image generating apparatus according to claim 2, wherein the pseudo gradation unit performs pseudo gradation processing using a dither method. The pseudo gradation unit performs pseudo gradation by performing color reduction, and calculates a leakage countermeasure image using fewer gradations than a diffusion image uses. 7. The leakage countermeasure image generating apparatus described. The diffusion unit includes a preprocessing unit that preprocesses an original image before performing the diffusion processing,
The said pre-processing part is provided with the function which removes the high frequency generation | occurrence | production image part which is a part which produces | generates the signal which has a predetermined | prescribed high frequency component in a horizontal direction contained in an original image. Item 8. The leakage countermeasure image generation device according to any one of Items 2 to 7. The diffusion unit includes a preprocessing unit that preprocesses an original image before performing the diffusion processing,
The said pre-processing part is provided with the function to change dot information so that the brightness | luminance band of the dot contained in an original image may be settled in a predetermined range, The said any one of the Claims 2 thru | or 8 characterized by the above-mentioned. Leakage countermeasure image generation device. 10. The leakage countermeasure image generating apparatus according to claim 2, wherein the image represented by the original image information includes characters. In accordance with a distribution pattern that attenuates according to the distance from the center, such as a Gaussian distribution, dot information that is information representing visual attributes such as brightness or saturation of each dot included in an original image that is an image to which leakage countermeasures are applied Then, after using the diffusing means, which is a means for diffusing to the surrounding dots, a leakage countermeasure image corresponding to the original image is obtained by using a pseudo gradation display method such as a node pattern method, a dither method, and an error diffusion method. A leakage countermeasure image generation method characterized by the above.