JP2001285817A - Picture data transfer system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow the side of a receiver to select whether to perform picture quality control in accordance with the attribute of a display device without the registration of the attribute information on the display device of the receiver to a transmitter in transferring of picture data. SOLUTION: In the transmitter 10A, a feature detection means 112 extracts the feature of picture data and a control arithmetic means 113 prepares a control parameter list showing the contents of picture quality control. A control parameter list attaching means 114 attaches a control parameter list to the picture data and transmits them. In the receiver 20A, a user judging means 213 selects whether to perform picture quality control in accordance with the attribute of a display means 211. In the case of performing picture control, a receiving-side picture quality control mans 212 performs picture quality control based on the parameter list, and outputs picture quality-controlled display picture data to the display means 211.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image data transfer system for transferring image data via a transmission path.

[0002]

2. Description of the Related Art A system for transmitting character information and image information from a terminal to another terminal via a network serving as a transmission path has become an indispensable infrastructure in modern society.
In electronic mail using an intranet or the Internet, character information and image information can be freely transmitted and received using a terminal such as a personal computer. Also, displays used for terminals include CRTs and liquid crystal panels, which are used depending on the price and space.

It is said that a display using a liquid crystal panel (LCD) is inferior in characteristics such as luminance and contrast as compared with a display using a CRT. In order to compensate for such display device characteristics, conventional methods of detecting image data features such as the average value and peak value of all pixels from an image and enhancing contrast or changing luminance by signal processing are conventionally used. More studies have been made (for example, see JP-B-63-37661).

When image quality control by such signal processing is applied to a system for transferring image data via a transmission path, the transmitting side holds attribute information of the display device on the receiving side in advance, and according to the information, There is a method of performing image quality correction and transmitting image data (for example, see Japanese Patent Application Laid-Open No. H10-1172).
No. 90).

[0005]

However, in the above-described conventional method, the image quality cannot be improved on the transmitting device side for the receiving device in which the attribute information of the display device is not registered in advance. Therefore, when transferring image data by e-mail or the like to a plurality of recipients via a network in the above-described conventional technology, there is a problem that it is necessary to register attribute information of a display device of each receiving device in advance. there were.

SUMMARY OF THE INVENTION The present invention has been made in view of such a conventional problem, and does not require the attribute information of the receiving device to be registered in advance with the transmitting device. Can be corrected by signal processing.
It is another object of the present invention to realize an image data transfer system in which a signal processing load on a receiving side is small.

[0007]

According to a first aspect of the present invention, there is provided a transmitting apparatus having a function of transmitting image data, a receiving apparatus having a function of receiving image data, and connecting the transmitting apparatus and the receiving apparatus. An image data transfer system comprising a transmission path, wherein the transmitting device detects image data generating means for generating transmission image data, and detects and quantifies characteristics of the image data generated by the image data generating means. A feature detection unit that outputs a feature parameter; a control calculation unit that creates a control parameter list for performing image quality control on the image data from the feature parameter created by the feature detection unit; and a control calculation unit that creates the control parameter list. Control parameter list attaching means for transmitting transfer data obtained by adding the control parameter list to the image data to the transmission path, Shin apparatus includes a control parameter list separating means for separating the transfer data input from the transmission path to the received image data and the reception control parameter list,
A user determining unit that determines whether or not to perform image quality control based on the reception control parameter list obtained by the control parameter list separating unit by a user operation, and outputs a determination result as an image quality control enable signal; When the image quality control enable signal output from the determination means indicates that image quality control is performed, the image quality control is performed based on the reception control parameter list, display image data is output, and the image quality control is not performed. Is characterized by comprising: a receiving-side image quality control unit that outputs display image data without performing image quality control; and a display unit that displays display image data output from the receiving-side image quality control unit. .

According to a second aspect of the present invention, there is provided a transmitting apparatus having a function of transmitting image data, a receiving apparatus having a function of receiving image data, and image data comprising a transmission line connecting the transmitting apparatus and the receiving apparatus. A transmission system, wherein the transmitting device detects image data generated by the image data generating unit, and outputs a quantified characteristic parameter. Detection means, and control calculation means for creating a control parameter list for performing image quality control on the image data from the feature parameters created by the feature detection means,
Control parameter list attaching means for transmitting transfer data obtained by adding the control parameter list created by the control arithmetic means to the image data to the transmission path, wherein the receiving apparatus receives the control parameter list input from the transmission path. A control parameter list separating unit that separates transfer data into reception image data and a reception control parameter list, a display unit that displays display image data, and a display device that constitutes the display unit, wherein the attribute is set as an attribute. And a display attribute obtaining unit for outputting attribute information by identifying the display attribute obtaining unit. The display attribute obtaining unit outputs whether or not to perform image quality control based on the reception control parameter list obtained by the control parameter list separating unit. Automatically determined by referring to attribute information,
Image quality control determining means for outputting the determination result as an image quality control enable signal; and when the image quality control enable signal output from the image quality control determining means indicates that image quality control is to be performed, image quality control is performed based on the reception control parameter list. Output display image data to perform, output image data without performing image quality control when indicating that image quality control is not performed, receiving side image quality control means to give to the display means,
It is characterized by having.

According to a third aspect of the present invention, there is provided a transmitting apparatus having a function of transmitting image data, a receiving apparatus having a function of receiving image data, and image data comprising a transmission path connecting the transmitting apparatus and the receiving apparatus. A transmission system, wherein the transmitting device detects image data generated by the image data generating unit, and outputs a quantified characteristic parameter. A control unit for performing a plurality of control calculations for performing a plurality of different image quality controls on the image data from the feature parameter created by the detection unit and the feature detection unit, and outputting each control calculation result as a various control parameter list Calculating means for transferring the transfer data obtained by adding the image data to the various control parameter list created by the various control calculating means; Multi-control parameter list attaching means for sending to the receiving device, the receiving device, multi-control parameter list separating means for separating the transfer data input from the transmission line into received image data and a multi-reception control parameter list, While selecting an arbitrary reception control parameter list from the various reception control parameter lists obtained by the various control parameter list separation unit, it is determined by a user operation whether image quality control is performed or image quality control is not performed. A user selection unit that outputs whether image quality control is performed or not as an image quality control enable signal, and outputs the selected image quality control as selection information; and an image quality control parameter indicated by the selection information output from the user selection unit. Extract from control parameter list and output as reception control parameter list And controlling the image quality control based on the reception control parameter list to output display image data, wherein the image quality control enable signal output from the user parameter selection means and the image quality control enable signal output from the user selection means. A receiving-side image quality control unit that outputs display image data without performing image quality control when control is not performed; and a display unit that displays display image data output from the receiving-side image quality control unit. It is characterized by the following.

According to a fourth aspect of the present invention, there is provided a transmitting apparatus having a function of transmitting image data, a receiving apparatus having a function of receiving image data, and image data comprising a transmission path connecting the transmitting apparatus and the receiving apparatus. A transmission system, wherein the transmitting device detects image data generated by the image data generating unit, and outputs a quantified characteristic parameter. A control unit for performing a plurality of control calculations for performing a plurality of different image quality controls on the image data from the feature parameter created by the detection unit and the feature detection unit, and outputting each control calculation result as a various control parameter list Calculating means for transferring the transfer data obtained by adding the image data to the various control parameter list created by the various control calculating means; Multi-control parameter list attaching means for sending to the receiving device, the receiving device, multi-control parameter list separating means for separating the transfer data input from the transmission line into received image data and a multi-reception control parameter list, Display means for displaying display image data, display attribute acquisition means for identifying the attribute and outputting attribute information when the type of the display device constituting the display means is the attribute, and separating the multi-control parameter list. Means to select an arbitrary reception control parameter list from among the various kinds of reception control parameter lists obtained by the means, and to determine whether to perform image quality control or not to perform image quality control, to output attribute information from the display attribute acquisition means. The image quality control is automatically determined by referring to, and the result of the determination is output as an image quality control enable signal. Image quality control selecting means for outputting the image quality control parameters indicated by the selection information output from the image quality control selecting means, from among the various control parameter lists, and outputting as a reception control parameter list. If the image quality control enable signal output from the image quality control selecting unit indicates that image quality control is to be performed, image quality control is performed based on the reception control parameter list, display image data is output, and image quality control is not performed. In this case, the receiving side image quality control means for outputting the display image data without performing the image quality control is provided.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An image data transfer system according to each embodiment of the present invention will be described with reference to the drawings. (Embodiment 1) FIG. 1 is a block diagram showing a configuration of an image data transfer system according to Embodiment 1 of the present invention. This image data transfer system 1A includes a transmitting device 10A, a receiving device 20A, and a transmission path 30. The transmitting device 10A is a personal computer (a personal computer, a PC) or a server coupled to the transmission path 30. The transmission device 10A includes an image data generation unit 111, a feature detection unit 1
12, control arithmetic means 113, and control parameter list attaching means 114.

The image data generating means 111 captures a moving image captured by a video movie or a still image captured by a CCD camera, compresses the data as necessary, and converts the data into image data of a predetermined format including horizontal and vertical resolutions. And output it. The feature detecting unit 112 detects a feature of the image data output from the image data generating unit 111 and outputs a feature parameter. The control operation unit 113 creates a control parameter list for performing image quality control on image data from the characteristic parameters. The control parameter list attaching means 114 adds a control parameter list to the image data, and sends the added data to the transmission path 30 as transfer data.

The receiving device 20A is a personal computer connected to the transmission line 30. This receiving device 20
A indicates display means 211, reception-side image quality control means 212, user determination means 213, control parameter list separation means 2
14. Control parameter list separating means 21
Reference numeral 4 is for separating transfer data input from the transmission path 30 into reception image data and a reception control parameter list. The user determination means 213 determines whether or not to execute image quality control based on the reception parameter list by a user operation, and outputs an image quality control enable signal. When the image quality control enable signal indicates that image quality control is to be performed, the reception side image quality control unit 212 performs image quality control based on the reception control parameter list. The display image data is provided to the display means 211 without performing the processing. The display unit 211 displays display image data, and includes a CRT, a liquid crystal panel, an EL panel, or a presentation device such as a DMD externally connected to a PC.

The operation of the image data transfer system 1A according to the present embodiment configured as described above will be described. First, in the transmission device 10A, the image data generation unit 111
Outputs image data to be transferred to the receiving device 20A.
Next, the feature detecting means 112 detects the feature of the image data,
Output feature parameters. The characteristic parameters here are, for example, the peak value and the average value of the pixel values per frame. There is no particular limitation on the feature parameters, since various other parameters can be considered according to the image quality control algorithm. This feature parameter is also output while changing according to the change in the image data.

The control operation means 113 performs an operation of image quality control in accordance with the characteristic parameters, and outputs the result as a control parameter list. Image quality control in the present embodiment means changing the contrast and brightness of an image. Since various other algorithms are conceivable for image quality control, there is no particular limitation. For videos,
The parameters of the image quality control change over time, and these are output as a control parameter list. The control parameter list attaching means 114 attaches a control parameter to the image data and outputs it as transfer data. The transfer data is transferred to the receiving device 20A via the transmission path 30. Here, the data structure of the transfer data and the protocol of the transmission path are not particularly limited.

In the receiving device 20A, the control parameter list separating means 214 separates the transfer data into the received image data and the received control parameter list. When the image data transferred from the transmission device 10A is displayed on the display device 211, the user determination unit 213 determines whether or not the image quality control calculated by the transmission device 10A is necessary based on the user's determination result. Output a signal. If the image quality control enable signal indicates that image quality control is to be performed, the reception-side image quality control unit 212 performs image quality control based on the reception control parameter list, and otherwise does not perform image quality control. The image quality control here embodies the image quality control assumed by the control operation unit 113. Even when performing image quality control on received image data,
Even when not performed, the result is output to the display unit 211 as display image data.

(Embodiment 2) Next, an image data transfer system according to Embodiment 2 of the present invention will be described with reference to FIG. FIG. 2 is a configuration diagram of an image data transfer system 1B according to the present embodiment. The same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description is omitted.

Image data transfer system 1 of the present embodiment
B includes a transmitting device 10A, a receiving device 20B, and a transmission path 30. The transmitting apparatus 10A includes an image data generating unit 111 and a feature detecting unit 11 in the same manner as shown in FIG.
2. It has a control calculation means 113 and a control parameter list attachment means 114.

The receiving device 20B has a display means 211, a receiving-side image quality control means 212, and a control parameter list separating means 214 as in FIG.
3, a display attribute acquisition unit 221 and an image quality control determination unit 222 are provided.

The display attribute acquiring means 221 is provided for the display means 21.
1 and outputs attribute information. The image quality control determining unit 222 automatically determines whether to perform image quality control based on the reception parameter list obtained by the control parameter list separating unit 214 with reference to the attribute information of the display attribute obtaining unit 221. And an image quality control enable signal. Receiving-side image quality control means 21
2, when the image quality control enable signal indicates that the image quality control is to be performed, the image quality control is performed based on the reception control parameter list, and when the image quality control is not performed, the display image is displayed without performing the image quality control. Display means 2 as it is
11 is output.

The operation of the image data transfer system 1B according to the present embodiment configured as described above will be described. First, the operation of the transmitting device 10A is the same as that of the transmitting device of the first embodiment, and thus the description is omitted. Next, transmission line 3
0, the transfer data input to the receiving device 20B is
It is provided to the control parameter list separating means 214 and is separated into the received image data and the received control parameter list. On the other hand, the display attribute acquiring unit 221 is
The status (type) is obtained and output as attribute information. The information acquired in the present embodiment is displayed on the CRT
This is information indicating the type of display device, such as a liquid crystal panel or a liquid crystal panel. Such attribute information can be known from a device driver incorporated in the receiving device 20B. There is no particular limitation on the information to be acquired, since various other information can be considered according to the image quality control algorithm.

The image quality control determining means 222 automatically determines whether or not to perform image quality control with reference to the attribute information, and outputs an image quality control enable signal. Here, if the attribute information is a liquid crystal panel, image quality control is performed, and if the attribute information is CRT, image quality control is not performed. If the image quality control enable signal indicates that image quality control is to be performed, the reception-side image quality control unit 212 performs image quality control based on the reception control parameter list, and otherwise does not perform image quality control. The image quality control here embodies the image quality control assumed by the control operation unit 113. Regardless of whether image quality control is performed on received image data or not, display image data is output to the display unit 211, and the transmitted image is displayed.

(Embodiment 3) Next, an image data transfer system according to Embodiment 3 of the present invention will be described with reference to FIG. FIG. 3 is a configuration diagram of an image data transfer system 1C according to the present embodiment. The same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description is omitted.

Image data transfer system 1 of the present embodiment
C includes a transmission device 10C, a reception device 20C, and a transmission path 30. The transmitting device 10C includes an image data generating unit 111 and a feature detecting unit 112 similar to those shown in FIG.
And a multi-variable control computing unit 131 is provided in place of the control computing unit 113, and a multi-variable control parameter list attaching unit 132 is provided in place of the control parameter list attaching unit 114.

The various control operation means 131 performs a plurality of image quality control operations different from the characteristic parameters, and outputs each control operation result as a various control parameter list. The various control parameter list attaching means 132 includes:
A variety of control parameter lists are added to the image data and transmitted to the transmission path 30 as transfer data.

The receiving device 20C has a display means 211, a receiving-side image quality control means 212, a user selection means 231, a control parameter list selection means 232, and a multi-control parameter list separation means 233.

Various control parameter list separating means 233
Is to separate the transfer data input from the transmission line 30 into the received image data and the various reception control parameter list. The user selection unit 231 selects one of the various reception control parameter lists, determines whether to perform image quality control or not to perform image quality control by a user operation, and determines whether or not image quality control is to be performed. This is output as a control enable signal, and the selected image quality control is output as selection information. The control parameter list selection means 232 extracts the image quality control parameters indicated by the selection information from the various control parameter lists and outputs them as a reception control parameter list. The reception-side image quality control unit 212 performs image quality control based on the reception control parameter list when the image quality control enable signal indicates that image quality control is to be performed, and performs image quality control when the image quality control is not performed. Display image data without performing display
1 is output.

The operation of the thus configured image data transfer system 1C of the present embodiment will be described. First, in the transmitting device 10C, the image data generating means 111 outputs the transferred image data to the receiving device 20C. Next, the feature detecting unit 112 detects a feature of the image data and outputs a feature parameter. The characteristic parameters in the present embodiment are, for example, peak values, average values, luminance histograms, hue data of specific objects, and the like of pixel data in one frame. There is no particular limitation on the feature parameters, since various other parameters can be considered according to the image quality control algorithm. This feature parameter is also output while changing according to the change in the image data.

The various control operation means 131 has a plurality of image quality control algorithms, performs an image quality control operation according to the characteristic parameters, and outputs the result as a various control parameter list. In the image quality control of the present embodiment, at least the contrast and the brightness of the image data are changed, the range of the object to be image quality controlled is specified, and the degree of the image effect is combined. Various algorithms can be considered for image quality control. A plurality of image quality control parameters that change over time are output as a multi-control parameter list.

Various control parameter list attaching means 132
Attaches a list of various control parameters to the image data,
Output as transfer data. These transfer data are transferred to the receiving device 20C via the transmission path 30. Here, the data structure of the transfer data and the protocol of the transmission path are not particularly limited.

In the receiving device 20C, the various control parameter list separating means 233 separates the transfer data into the received image data and the various reception control parameter list. When displaying the image data transferred from the transmitting device 10C on the display unit 211, the user selecting unit 231 transmits the image data to the transmitting device 10C.
A result determined by the user as to whether or not the image quality control calculated in C is necessary is output as an image quality control enable signal. In addition, the user selection unit 231 selects an algorithm used for display from a plurality of algorithms when performing image quality control, and outputs the selected algorithm as selection information. The control parameter list selection unit 232 extracts a control parameter list specified by the selection information from the various types of reception parameter lists, and outputs the list as a reception control parameter list.

If the image quality control enable signal indicates that image quality control is to be performed, the image quality control means 212 performs image quality control based on the reception control parameter list, and otherwise does not perform image quality control. The image quality control here embodies one of a plurality of image quality controls assumed by the multi-control arithmetic means 131. The receiving-side image quality control unit 212 displays the display image data regardless of whether image quality control is performed on the received image data or not.
1 to display an image.

Here, two specific examples of image quality control will be described. The image quality control shown here is a signal processing and defines an output signal y for a certain input signal x. In all the examples shown here, the RG of the input signal x and the output signal y
Each value of B is 0 to 255. First, Example 1 of image quality control will be described. In this example, an output signal y is obtained by multiplying the input signal x by a certain gain k. The gain is calculated from the maximum luminance value and the minimum luminance value, which are features of each frame of the image data.

FIG. 5 shows the relationship between the input signal x and the output signal y. Let the maximum luminance value of the input signal be x _max and the minimum luminance value be x _min . The gain k and the output signal y are as follows. _{k = 256 / (x max -x} min) y = k * x + (1-k) * 128 As shown in FIG. 5, the output signal y with respect to the input signal x is the contrast is emphasized. In the example of the image quality control, the data detected by the feature detection unit 112 and transmitted as a parameter list is a gain.

Next, an example 2 of image quality control will be described. In this example, an offset m is added to Example 1 as an increase / decrease amount of luminance. The amount of increase or decrease in luminance is calculated from the average luminance value which is a feature of each frame of the image data.

FIG. 6 shows the relationship between the input signal x and the output signal y. Let the maximum luminance value of the input signal be x _max and the minimum luminance value be x _min . The gain k is set to k = 256 / (x _max -x _min ), and the output signal y is set to y = k * x + (1-k) * 128 + m in consideration of the offset m. As a result, as shown in FIG. 6, the contrast of the output signal y is enhanced with respect to the input signal x. In addition, when the average luminance value of the image data is low, the luminance of the output signal y is lowered, and when the average value is high, the luminance of the output signal is raised. In this example of the image quality control, the data detected by the feature detection unit 112 and transmitted as the parameter list are a gain and a luminance average value.

Such image quality control plays an important role when a product is searched on the Internet and the user determines the type of the product based on its appearance, shape and color, or makes a decision on the purchase of the product. become.

When the sender transmits a face photograph, an object name indicating that most of the angle of view is a person can be used as a parameter. In this case, if the receiver sets the control parameters for the object and selects the object name as a person, the level of the RBG dot signal can be switched to control for giving priority to the reproduction of the skin color and converted. In the case of LCD, the characteristics of the color filter used for it,
Alternatively, even if dot signals having the same luminance value are input due to the phase difference characteristic of the liquid crystal, the color of the image is slightly different. In such a case, it is practically important to use various control parameters.

(Embodiment 4) Next, an image data transfer system according to Embodiment 4 of the present invention will be described with reference to FIG. FIG. 4 is a configuration diagram of the image data transfer system according to the present embodiment. The same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description is omitted.

Image data transfer system 1 of the present embodiment
D includes a transmitting device 10C, a receiving device 20D, and a transmission path 30. The transmission device 10C includes an image data generation unit 111 and a feature detection unit 11 as in the case shown in FIG.
2. It has various control operation means 131 and various control parameter list attaching means 132.

The receiving apparatus 20D includes a display unit 211, a reception-side image quality control unit 212, a display characteristic acquisition unit 221, a control parameter list selection unit 232, a various control parameter list separation unit 233, and an image quality control selection unit 241. .

Various control parameter list separating means 233
Is to separate the transfer data input from the transmission line 30 into the received image data and the various reception control parameter list. The display attribute acquisition unit 221 acquires an attribute of the display unit 211 and outputs attribute information. The image quality control selecting unit 241 automatically selects one of the various reception control parameter lists by referring to the attribute information to determine whether to perform image quality control or not to perform image quality control. The presence or absence of control is output as an image quality control enable signal, and the selected image quality control is output as selection information. The control parameter list selection means 232 extracts the image quality control parameters indicated by the selection information from the various control parameter lists, and outputs a reception control parameter list. The reception-side image quality control unit 212 performs image quality control based on the reception control parameter list when the image quality control enable signal indicates that image quality control is to be performed, and performs image quality control when the image quality control is not performed. The display image data is output to the display unit 211 without performing the processing.

The operation of the thus configured image data transfer system 1D according to the present embodiment will be described. The operation of transmitting apparatus 10C is the same as the operation of transmitting apparatus 10C of the third embodiment, and a description thereof will not be repeated.

In the receiving apparatus 20D, the various control parameter list separating means 233 separates the transfer data into the received image data and the received control parameter list. The display attribute acquisition unit 221 acquires the attribute of the display unit 211 and outputs attribute information. The attribute information here refers to the display unit 21
Reference numeral 1 denotes information indicating the type of display device, such as a CRT or a liquid crystal panel. Various other information can be considered according to the image quality control algorithm. The display image quality selection unit 241 automatically determines whether or not to execute image quality control with reference to the attribute information, and outputs it as an image quality control enable signal. In the present embodiment, image quality control is performed when the attribute information indicates a liquid crystal panel, and image quality control is not performed when the attribute information indicates a CRT. When the attribute information indicates a liquid crystal panel,
One algorithm is automatically selected from a plurality of algorithms calculated by the transmitting device 10C according to the maximum luminance of the pixel data, and is output as selection information. The algorithm selection method is not particularly limited as long as it improves the visual effect of the user.

The control parameter list selection means 232
A parameter list created by the algorithm specified by the selection information is extracted from the various kinds of reception parameter lists and output as a reception control parameter list. If the image quality control enable signal indicates that image quality control is to be performed, the reception-side image quality control unit 212 performs image quality control based on the reception control parameter list, and otherwise does not perform image quality control. The image quality control here embodies one of a plurality of image quality controls assumed by the multi-control arithmetic means 131. Regardless of whether image quality control is performed on received image data or not, display image data is output to the display unit 211 to display an image.

Although the first to fourth embodiments have been described with respect to an example in which a set of a transmitting device and a receiving device are connected to the transmission line 30, a system in which a plurality of transmitting devices and receiving devices are provided. There is no problem. Although specific embodiments and effects have been described in detail only in the third embodiment, with respect to contrast and brightness as control parameters, the same effects can be obtained in the first and second embodiments.

[0047]

As described above, according to the image data transfer system of the present invention, the image quality control can be performed according to the attribute of the receiving device without registering the attribute information of the display device of the receiving device in advance in the transmitting device. You can choose whether to do it or not.

In particular, according to the first aspect of the present invention, the transmitting apparatus can transmit the image data output from the image data generating means with the parameter list for performing the image quality control attached thereto, and transmit the image data by the receiving apparatus. When displaying the data, the user can select whether or not to execute the image quality control according to the attribute of the display unit.

In particular, according to the second aspect of the present invention, the transmitting apparatus can transmit the image data output from the image data generating means with a parameter list for performing image quality control attached thereto. When displaying the data, the necessity of performing image quality control can be automatically determined according to the attribute of the display unit.

In particular, according to the third aspect of the present invention, the transmitting device can transmit parameters based on a plurality of image quality control methods to the image data output from the image data generating means, When displaying data,
The user can select an appropriate image quality control method from a plurality of image quality control methods according to the attribute of the display means.

In particular, according to the fourth aspect of the present invention, the transmitting device can transmit parameters based on a plurality of image quality control methods to the image data output from the image data generating means, When displaying data,
A suitable image quality control method can be automatically determined from a plurality of image quality control methods according to the attribute of the display means.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an image data transfer system according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram of an image data transfer system according to a second embodiment of the present invention.

FIG. 3 is a configuration diagram of an image data transfer system according to a third embodiment of the present invention.

FIG. 4 is a configuration diagram of an image data transfer system according to a fourth embodiment of the present invention.

FIG. 5 is a conversion characteristic diagram (example 1) between an input signal and an output signal in the third embodiment.

FIG. 6 is a conversion characteristic diagram (example 2) between an input signal and an output signal in the third embodiment.

[Explanation of symbols]

 1A, 1B, 1D, 1E Image data transfer system 10A, 10C Transmitting device 20A, 20B, 20C, 20D Receiving device 30 Transmission path 111 Image data generating means 112 Feature detecting means 113 Control calculating means 114 Control parameter list attaching means 131 Various types of control Arithmetic unit 132 Various control parameter list attaching unit 211 Display unit 212 Reception-side image quality control unit 213 User determination unit 214 Control parameter list separation unit 221 Display attribute acquisition unit 222 Image quality control determination unit 231 User selection unit 232 Control parameter list selection unit 233 Control Parameter list separating means 241 Image quality control selecting means

 ────────────────────────────────────────────────── ─── Continued on the front page F term (reference) 5C021 PA17 PA56 PA58 PA76 RA07 RA08 RB03 XA31 XA61 5C026 CA01 CA02 5C063 AA20 AB03 AB07 AB10 AC10 CA23 CA36 DA07 DA13 DB09 5C082 BA20 BB01 CB01 CB05 DA87 MM06 MM10

Claims (4)

[Claims] A transmitting device having a function of transmitting image data;
An image data transfer system comprising a receiving device having a function of receiving image data, and a transmission line connecting the transmitting device and the receiving device, wherein the transmitting device includes: an image data generating unit configured to generate transmitted image data; A feature detection unit that detects a feature of the image data generated by the image data generation unit and outputs a quantified feature parameter; and controls image quality to the image data from the feature parameter created by the feature detection unit. Control calculation means for creating a control parameter list for performing the control parameter list, and a control parameter list attachment means for transmitting transfer data obtained by adding the control parameter list created by the control calculation means to the image data to the transmission path, The receiving device, the transfer data input from the transmission path, received image data and reception control parameter And a control parameter list separating unit for separating the image quality control based on the reception control parameter list obtained by the control parameter list separating unit. User determination means for outputting as an enable signal; and if the image quality control enable signal output from the user determination means indicates that image quality control is to be performed, image quality control is performed based on the reception control parameter list to output display image data. A receiving-side image quality control unit that outputs display image data without performing image quality control when image quality control is not performed; and a display unit that displays display image data output from the receiving-side image quality control unit. An image data transfer system comprising: 2. A transmitting device having a function of transmitting image data,
An image data transfer system comprising a receiving device having a function of receiving image data, and a transmission line connecting the transmitting device and the receiving device, wherein the transmitting device includes: an image data generating unit configured to generate transmitted image data; A feature detection unit that detects a feature of the image data generated by the image data generation unit and outputs a quantified feature parameter; and controls image quality to the image data from the feature parameter created by the feature detection unit. Control calculation means for creating a control parameter list for performing the control parameter list, and a control parameter list attachment means for transmitting transfer data obtained by adding the control parameter list created by the control calculation means to the image data to the transmission path, The receiving device, the transfer data input from the transmission path, received image data and reception control parameter A control parameter list separating unit that separates the display device into a list, a display unit that displays display image data, and a display that outputs the attribute information by identifying the attribute when the type of a display device configuring the display unit is an attribute. Attribute acquisition means, and automatically determines whether to perform image quality control based on the reception control parameter list obtained by the control parameter list separation means with reference to the attribute information output by the display attribute acquisition means. An image quality control determining means for outputting a result of the determination as an image quality control enable signal; and an image quality control based on the reception control parameter list when the image quality control enable signal output from the image quality control determining means indicates execution of image quality control. The display image data is output by performing the control, and if the image quality control is not performed, the display image data is output without performing the image quality control. And a receiving-side image quality control means for outputting the image data to the display means. 3. A transmission device having a function of transmitting image data,
An image data transfer system comprising a receiving device having a function of receiving image data, and a transmission line connecting the transmitting device and the receiving device, wherein the transmitting device includes: an image data generating unit configured to generate transmitted image data; A feature detection unit that detects a feature of the image data generated by the image data generation unit and outputs a quantified feature parameter; and a plurality of different image data from the feature parameter created by the feature detection unit. Control control means for executing control calculations to perform the image quality control, and outputting the respective control calculation results as a variety of control parameter lists; and storing the image data in a control parameter list created by the control control means. Multi-control parameter list attaching means for sending the added transfer data to the transmission path,
A receiving device, wherein the receiving device obtains the transfer data input from the transmission path into a receiving image data and a receiving control parameter list. An arbitrary reception control parameter list is selected from a variety of reception control parameter lists, and whether to perform image quality control or not to perform image quality control is determined by a user operation, and image quality control enable / disable is determined whether or not image quality control is performed. User selection means for outputting as a signal and outputting the selected image quality control as selection information; extracting image quality control parameters indicated by the selection information output from the user selection means from the various control parameter list; Control parameter list selecting means for outputting as a list; If the image quality control enable signal output from the means indicates that image quality control is to be performed, display image data is output by performing image quality control based on the reception control parameter list, and if image quality control is not performed, An image data transfer system comprising: a receiving-side image quality control unit that outputs display image data without performing image quality control; and a display unit that displays display image data output from the receiving-side image quality control unit. 4. A transmission device having a function of transmitting image data,
An image data transfer system comprising a receiving device having a function of receiving image data, and a transmission line connecting the transmitting device and the receiving device, wherein the transmitting device includes: an image data generating unit configured to generate transmitted image data; A feature detection unit that detects a feature of the image data generated by the image data generation unit and outputs a quantified feature parameter; and a plurality of different image data from the feature parameter created by the feature detection unit. Control control means for executing control calculations to perform the image quality control, and outputting the respective control calculation results as a variety of control parameter lists; and storing the image data in a control parameter list created by the control control means. Multi-control parameter list attaching means for sending the added transfer data to the transmission path,
The receiving device, a multi-control parameter list separating means for separating the transfer data input from the transmission line into received image data and a multi-reception control parameter list, a display means for displaying display image data, When the type of the display device constituting the display unit is an attribute, a display attribute acquisition unit that identifies the attribute and outputs attribute information; and a multi-reception control parameter list obtained by the multi-control parameter list separation unit. An arbitrary reception control parameter list is selected from among them, and whether to perform image quality control or not to perform image quality control is automatically determined with reference to the attribute information output by the display attribute acquisition unit, and the determination result is obtained. Image quality control enable signal, and the selected image quality control is output as selection information. Control parameter list selecting means for extracting the image quality control parameter indicated by the selection information output from the selecting means from the various control parameter list and outputting it as a reception control parameter list; and image quality control output from the image quality control selecting means. When the enable signal indicates that image quality control is to be performed, image quality control is performed based on the reception control parameter list, and display image data is output. When the enable signal indicates that image quality control is not performed, display is performed without performing image quality control. An image data transfer system comprising: a receiving-side image quality control unit that outputs image data.