JP2000125276A - Image data transmitter, image data receiver and image data transmitting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain more subscribers by urging viewers' desire for improvement for an image quality by transmitting the low image components of original image data without performing encryption for general viewers and transmitting low resolution data and data obtained by enciphering the high image components of the original image to the subscribers. SOLUTION: The low image components of original image data are transmitted as low resolution image data without performing encryption to general viewers, and low resolution data and data obtained by enciphering the high image component of an original image are transmitted to subscribers. The subscribers has an encryption decoder 23. Low image components separated by a signal separator 21 are reproduced into low resolution image data by a low resolution image reproducing device 22 and are sent to an adder 25. On the other hand, high image components obtained by the decoder 23 are reproduced into image high component data by an image high component reproducing device 24 and are sent to the adder 25. The adder 25 composites the low resolution image data and the image high component data and restores the original high resolution image data.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for transmitting image data, and more particularly, to a system for transmitting image data on the earth photographed (observed) by an artificial satellite and receiving it on the ground.

[0002]

2. Description of the Related Art When image data photographed (observed) by an artificial satellite is received on the ground, the observation data may be encrypted for the purpose of charging the reception. In this case, conventionally, the artificial satellite encrypts the entirety of the captured original image data and transmits the encrypted data to the ground as transmission data. Therefore, on the ground, when the transmission data is received by the receiving device having the decryption device, the original observation image can be restored, but when the transmission data is received by the receiving device without the decryption device, Is difficult to restore the original observation image.

[0003] However, for the purpose of pay distribution of image data, even a receiving device having no decryption device,
It is easier to secure users if the image quality is inferior but an image having the minimum quality in the practical range can be received.

[0004] This concept is similar to that of the skyport system (scramble) of pay television broadcasting. Television is a technique for decomposing a moving image into still image frames and scanning and transmitting the still image frames. Television method scramble is "line rotation"
And "line permutation",
The order of the scanning lines is changed. When the scrambled image is received by a general receiver, the image quality of the original image is barely imaginable.

[0005] In the scramble broadcasting of television, scramble is applied so as not to endure normal viewing. Viewers often look at the scrambled image and decide whether or not to make a subscription for paid reception. Accordingly, Japanese Patent Laid-Open No. 63-2
In Japanese Patent No. 45190 (hereinafter referred to as “prior art 1”), by transmitting a non-scrambled image only for a short period of time at a fixed interval, ordinary viewers can easily understand what is being broadcast and pay a fee. It discloses the technical idea of trying to motivate a receiving contract.

As another prior art related to the present invention, Japanese Patent Laid-Open Publication No. Hei 7-231440 (hereinafter referred to as “prior art 2”) discloses that a viewer who receives a scrambled broadcast receives a scrambled broadcast using a dedicated decoder. In a pay-per-view fee billing system for canceling and viewing, a "view fee billing system" is disclosed, in which billing is efficiently performed for each program viewed.

[0007]

The image data observed by the artificial satellite is an independent image one by one. Therefore, if a method of scrambling for a short period at regular intervals is adopted as in the method disclosed in the above-mentioned prior art 1, a complete two-dimensional image can be received by the receiving device every fixed period. , Not suitable for paid reception systems.

SUMMARY OF THE INVENTION An object of the present invention is to provide an image data transmitting apparatus and an image data transmitting apparatus which can promote the securing of viewers by securing the minimum practical image quality and promoting the viewers' desire to improve the quality of images. A receiving device is provided.

[0009] The prior art 2 described above only discloses a technical idea that allows billing to be performed efficiently for each program viewed and has a different purpose from the present invention. It only discloses the idea.

[0010]

The present invention proposes the following means in order to solve the above problems.

That is, according to the present invention, low-resolution image data generating means for generating low-resolution image data from original image data, subtraction means for obtaining a difference between the original image data and the low-resolution image data, Encryption means for encrypting the difference and outputting the encrypted data; and synthesizing means for synthesizing the low-resolution image data and the encrypted data and outputting the synthesized data. An image data transmitting apparatus characterized by transmitting data as transmission data is obtained.

Further, according to the present invention, there is provided an image data receiving apparatus for receiving the transmission data transmitted from the image data transmitting apparatus as reception data, wherein the reception data includes the low resolution image data. Separating means for separating the data into encrypted data; decrypting means for decrypting the encrypted data to output decrypted data; and combining the low-resolution image data with the decrypted data. And a synthesizing unit for reproducing the original image data.

Further, according to the present invention, there is provided an image data transmission method characterized in that only the high-frequency image component of the original image data is encrypted and transmitted.

Further, according to the present invention, the low-frequency image component of the original image data is transmitted without encryption to general free receivers as low-resolution image data, and the low-resolution image data is transmitted to pay receivers. An image data transmission method characterized by transmitting data and data obtained by encrypting a high-frequency image component of the original image data is obtained.

[0015]

The function can be reproduced as individual images, but the general free receiver can receive only low-resolution images. As a result, motivation for pay reception can be stimulated. In addition, the image high-frequency component is encrypted, only the pay receiver can decrypt the code, and the original image can be completely reproduced. By embedding the key information of the individual user in the transmission data, it is also possible to exclude unauthorized recipients. It is also possible to change the coefficient of the two-dimensional filter and scan the image resolution in accordance with the transition of the pay subscription. In addition, the resolution of the image that can be received by the general free receiver is set to a practical minimum level such as an evaluation version of commercially available software.

[0016]

Embodiments of the present invention will be described below with reference to the drawings.

Referring to FIG. 1, an image data transmitting apparatus according to one embodiment of the present invention will be described.

The illustrated image data transmitting apparatus is mounted on an artificial satellite orbiting the earth 10. The image data transmitting device mounted on the artificial satellite includes a camera 11, an image memory 12, and a two-dimensional FFT as a low-frequency component extracting means.
(Fast Fourier Transform) or a two-dimensional low-pass filter 13, a subtractor 14, an encryptor 15, and an adder 16
And a data output terminal 17.

The camera 11 constantly photographs the earth's surface. The image captured by the camera 11 is stored in the image memory 12 for each appropriate image size. The contents of the image memory 12 are replaced with the next new data when the following processing is completed.

The contents of the image memory 12 are used as original image data. Two-dimensional F
Pass through FT or two-dimensional low-pass filter 13. 2D FF
In the case of T, a low band coefficient is selected. The low-pass image data output from the two-dimensional FFT or the two-dimensional low-pass filter 13 has a low resolution, and a fine portion cannot be identified. That is, the low-frequency image data, and transmits unencrypted generally free recipients for a low-resolution image data D _L.

The subtractor 14 calculates an image high-frequency component which is a difference between the original image data and the low-resolution image data D _L. The image high frequency component is encrypted by the encryptor 15. The encryption key in the encryptor 15 is a common key K _C common to the system,
A receiver individual key _KRI , which is a key for each receiver of the receiver. The data encrypted by the encryptor 15 is supplied to the adder 16 as encrypted high-frequency image data _DCH . The adder 16 adds (combines) the low-resolution image data _DL and the encrypted high-frequency image data _DCH, and outputs the added (combined) data from the data output terminal 17 as transmission data.
This transmission data is transmitted to the ground via a transmitter (not shown).

Note that key information of an individual user may be embedded in the transmission data. In addition, according to the transition of the pay subscription, the two-dimensional FFT or the two-dimensional
May be changed.

Referring to FIG. 2, an image data receiving apparatus installed on the ground will be described.

The illustrated image data receiving apparatus includes a data input terminal 20, a signal separator 21, and a low-resolution image reproducer 22.
, A decryptor 23, an image high-frequency component reproducer 24, an adder 25, and a display 26.

Data received by a terrestrial receiver (not shown) is input from a data input terminal 20. Signal separator 21
Separates the low-resolution image data D _L and the encrypted high-frequency image data D _CH from the received data. Here, the general free receiver can use only the low-resolution image data D _L.

On the other hand, the pay receiver is the decryptor 2
I have three. This decryption requires the same key as the key on the satellite. If the keys match, the decryptor 23 can obtain the image high-frequency component.

The low-frequency image component separated by the signal separator 21 is reproduced into low-resolution image data by a low-resolution image reproducer 22 and sent to an adder 25.

On the other hand, the image high-frequency component representing the fine part of the image obtained by decrypting the code by the decryption device 23 is reproduced by the image high-frequency component reproduction device 24 into image high-frequency component data. The signal is sent to the adder 25. Adder 25
Synthesizes low-resolution image data and high-frequency image component data to restore the original high-resolution image data. The restored high-resolution image data can be viewed on the display 26 or the like.

[0029]

As described above, according to the present invention,
The low-frequency image component of the original image data is transmitted without encryption as low-resolution image data for general free recipients, and the low-resolution image data and the high-frequency image component of the original image data are encrypted for paid recipients. Since the converted data is transmitted, it is possible to secure the minimum number of viewers by securing the minimum practical image quality and inspiring the viewer to improve the quality of the image.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of an image data transmission device according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of an image data receiving apparatus according to the present invention that receives transmission data from the image data transmitting apparatus of FIG. 1;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Camera 12 Image memory 13 Two-dimensional FFT or two-dimensional low-pass filter 14 Subtractor 15 Encrypter 16 Adder 17 Data output terminal 20 Data input terminal 21 Signal separator 22 Low-resolution image reproducer 23 Decryptor 24 Image height Range component regenerator 25 Adder 26 Display

Claims (8)

[Claims] 1. low-resolution image data generating means for generating low-resolution image data from original image data; subtracting means for obtaining a difference between the original image data and the low-resolution image data; An encryption unit that outputs encrypted data; and a combining unit that combines the low-resolution image data and the encrypted data, and outputs the combined data.
An image data transmitting apparatus, wherein the synthesized data is transmitted as transmission data. 2. The image data transmitting apparatus according to claim 1, wherein said low resolution image data generating means is a low frequency component extracting means for extracting a low frequency component of said original image data. 3. The image data transmitting apparatus according to claim 2, wherein said low-frequency component extracting means is a two-dimensional FFT. 4. The image data transmitting apparatus according to claim 2, wherein said low-pass component extracting means is a two-dimensional low-pass filter. 5. The image data transmitting apparatus according to claim 1, wherein a common key common to the system and a receiver individual key that is a key for each receiver of the receiver are used as encryption keys of the encryption unit. . 6. An image data receiving apparatus for receiving the transmission data transmitted from the image data transmission apparatus according to claim 1 as reception data, wherein the reception data is the low-resolution image data and the low-resolution image data. Separating means for separating the data into encrypted data, decrypting the encrypted data, and outputting the decrypted data; synthesizing the low-resolution image data and the decrypted data; And a synthesizing means for reproducing the original image data. 7. An image data transmission method, wherein only high-frequency image components of original image data are encrypted and transmitted. 8. Transmitting the low-frequency image component of the original image data as low-resolution image data without encryption to a general free receiver, and transmitting the low-resolution image data and the original image data to a pay receiver. And transmitting data obtained by encrypting the high-frequency image component.