JP3863202B2 - Image data transmission system and image data transmission method - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an image data transmission system and an image data transmission system, and in particular, an image data transmission system and an image for transmitting image data read from an image recording medium such as a memory card via a transmission line such as a telephone line. It relates to a data transmission method.
[0002]
[Prior art]
Conventionally, for example, in an imaging device such as a digital electronic still camera, an image signal representing a captured image is converted into digital image data and recorded on an image recording medium such as a memory card. An image data transmission system for transmitting image data recorded on these image recording media using a communication line such as a telephone line is, for example, an image processing system such as Japanese Patent Application No. 2-124067 or Japanese Patent Application No. 2-235556. It has been proposed as an image signal transmission system.
[0003]
For example, in the former image processing system, an image file device that reads image data from an image recording medium and a terminal device that receives image data from this device are connected via a transmission line such as a telephone line, and transmission from the terminal device is performed. In accordance with a mode instruction, desired image data is read from an image recording medium by an image file device and transmitted through a transmission path. In this case, the image file device is provided with a compression circuit for compressing the image data at a high compression rate or a low compression rate, and when the search mode is designated from the reception side device, each read out from the image recording medium. The image data is compressed at a high compression rate and a plurality of image data is transmitted in a short time. The terminal device decompresses the compressed image data, further reproduces and displays them on the display device, and searches for and selects a desired image from a plurality of images. When the search of the desired image data is completed in the search mode, a search signal for the image data is supplied from the terminal device to the image file device, and an instruction for the normal mode is sent. As a result, the image file device reads only the retrieved image data from the image recording medium, and transmits the image data to the terminal device with compression or non-compression at a low compression rate with high reproducibility.
[0004]
As described above, in the search mode, the image data is compressed and encoded at a high compression rate and transmitted, thereby shortening the transmission time, efficiently performing the search at a high speed, and saving the communication cost. However, at the time of reproduction, image data is transmitted in low compression or non-compression with low distortion and high reproducibility. In this case, parameters such as a compression rate in the search mode and the normal mode are sent from the reception side apparatus to the transmission side apparatus, and parameters that can be decoded by the reception side apparatus are set.
[0005]
Therefore, in the latter image signal transmission method, parameters such as various compression rates in each transmission mode designated from the terminal device, particularly compression parameters in the search mode, are stored in advance in the transmission side device and received. This saves the transmission time of parameter transmission at the time of image transmission request from the side device.
[0006]
[Problems to be solved by the invention]
However, in the above-described conventional technology, since the content of the image data in the transmission side device is not known at the reception side device, all the image data must be transmitted first, which is inefficient because of the transmission time. It was. For this reason, as described above, at the time of retrieval, all image data has to be compressed at a high compression rate and sent to the receiving apparatus as image data for retrieval. However, if the receiving side device does not have a function of decompressing the compressed data, there is a problem that it is difficult to adopt the above transmission method. In recent years, a recording method in which the image data is compressed and recorded by an image pickup apparatus in consideration of streamlining the amount of data stored in the image recording medium has been used. In this case, the image data is also compressed. However, there is a problem that reproduction is difficult when the receiving side does not have a decompression function.
[0007]
The present invention solves such a problem of the conventional technology, and can search image data on the transmission side in a short time even when there is no reception side device decompression function, and further effectively transmit the image data. An object of the present invention is to provide an image data transmission system and an image data transmission system capable of performing the above.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, an image data transmission system according to the present invention includes an image recording medium on which a plurality of image data is recorded, a transmission-side device that reads and transmits desired image data from the image recording medium, and a transmission-side device. In the image data transmission system including the receiving device that receives the image data via a predetermined transmission path, thumbnail data representing a reduced image of each image data is recorded on the image recording medium by a predetermined recording method. It is determined whether or not the transmission side device has a data reading means for reading out the respective thumbnail data from the image recording medium when the communication path is set with the reception side device, and whether or not the transmission destination reception side device has a decompression function for decompressing the data. Determining means for determining whether to compress the transmission data; and if the determining means determines that the receiving apparatus has a decompression function, Compression means for compressing thumbnail data read from the medium and transmission means for transmitting compressed data or non-compressed data from the compression means are provided, respectively, and are transmitted from the transmission side device to the reception side device after setting the communication path. Receiving means for receiving thumbnail data, reproducing means for reproducing thumbnail data received by the receiving means, selecting means for selecting a desired image from the reproduced thumbnail images, and transmitting means for transmitting a selection signal, respectively The transmission-side device reads image data corresponding to the thumbnail image selected based on the selection signal from the reception-side device from the image recording medium by the data reading unit, and reads it according to the determination result of the determination unit. Set whether to compress the output image data and send each image data with compression or non-compression And butterflies.
[0009]
In this case, the transmission-side apparatus may include setting means for setting the image size or compression rate of thumbnail data to be transmitted according to the transmission speed of the transmission path. The transmission-side apparatus includes a combining unit that combines a plurality of thumbnail data read from the image recording medium as respective screen data, and the setting unit determines the size or compression rate of the screen data combined by the combining unit as a transmission path. It is advantageous to set and transmit according to the transmission speed.
[0010]
Further, each image data is recorded on the image recording medium as a compressed file in which each image data is compressed in a predetermined compression format, and each thumbnail data is stored in a predetermined header area for recording a table for setting the compression format of the compressed file. It should be recorded in the format. In this case, the transmission-side apparatus includes expansion means for expanding the compressed data, and the image data read from the image recording medium according to the determination result of whether or not the reception-side apparatus has the expansion function by the determination means. It is advantageous to transmit image data in a compressed or non-compressed manner by setting whether to transmit in a compressed form or to decompress and transmit.
[0011]
On the other hand, in an image data transmission method in which a plurality of image data recorded on an image recording medium is read out by a transmission side device and the image data is transmitted to a reception side device via a predetermined transmission path, the transmission side device and the reception device Set the communication procedure with the side device, and prepare the thumbnail data representing the reduced image of each image data recorded on the image recording medium at the transmission side device. It is determined whether or not the receiving device has an expansion function, and the thumbnail data read from the image recording medium is compressed when the reception side device has the expansion function according to the determination result, and the compressed thumbnail data or Uncompressed thumbnail data is transmitted to the receiving side device, the receiving side device plays back the thumbnail data received from the sending side device, and the desired thumbnail image is reproduced. An image is selected, an instruction signal representing the selected thumbnail image is transmitted to the transmission side apparatus, and desired image data selected based on the instruction signal from the reception side apparatus is transmitted from the image recording medium by the transmission side apparatus. It is characterized by reading and sequentially transmitting to the receiving side device.
[0012]
In this case, it is preferable to include a step of setting the size or compression rate of thumbnail data to be transmitted according to the transmission speed of the transmission path in the transmission side device. It is also advantageous to include a step of synthesizing a plurality of thumbnail data as respective screen data in the transmission side apparatus.
[0013]
On the other hand, the image data transmitting apparatus of the present invention sets a communication path with the counterpart apparatus in the image data transmitting apparatus that transmits desired image data read from the image recording medium to the counterpart apparatus via a predetermined transmission path. Whether to compress the transmission data by determining whether the data reading means for reading out each thumbnail data representing the reduced image of the recorded image from the image recording medium and whether the counterpart device has a decompression function for decompressing the data A determination unit that determines whether or not, a compression unit that compresses thumbnail data read from the image recording medium when the determination unit determines that the receiving device has a decompression function, and compressed data from the compression unit, or And transmitting means for transmitting image data corresponding to the thumbnail image selected by the counterpart device. It is characterized in that it is set whether or not to compress the image data read out from the recording medium at the stage and read out according to the determination result of the determining means, and each image data is transmitted with compression or non-compression. To do.
[0014]
[Action]
According to the image data transmission system and the image data transmission method of the present invention, when a communication path is set between the transmission side device and the reception side device, the transmission side device displays thumbnails representing reduced images of the respective images from the image recording medium. Read data. At this time, the transmission side apparatus determines whether or not the reception side apparatus has a data expansion function. Next, when the receiving apparatus has a decompression function, the read thumbnail data is compressed at a predetermined compression rate and transmitted to the receiving apparatus. The receiving side device having the decompression function decompresses the compressed thumbnail data, reproduces the original thumbnail data, and displays it on a display device or the like. The receiving device that does not include the decompression function receives the uncompressed thumbnail data, reproduces it, and displays it on a display device or the like. Next, a desired image is selected from the thumbnail data displayed on the receiving side device. A selection signal representing the selected instruction is transmitted from the receiving device to the transmitting device. As a result, the transmission side apparatus reads out the image data representing the received image from the image recording medium and transmits it to the reception side apparatus via the transmission path. As a result, image data of a desired image is received from the transmission side on the reception side.
[0015]
【Example】
Next, an embodiment of an image data transmission system and an image data transmission system according to the present invention will be described in detail with reference to the accompanying drawings. 1 and 2 show an embodiment of an image data transmission system to which the image data transmission method according to the present invention is applied. The image data transmission system according to the present embodiment includes an image recording medium 10 on which a plurality of image data is recorded, a transmission-side device 20 that reads and transmits image data from the image recording medium 10, and a predetermined transmission path 30 for the image data. A receiving-side device 40 that receives and reproduces the received information.
[0016]
As the image recording medium 10 of the present embodiment, for example, a memory card including a semiconductor memory in which image data captured by a digital electronic still camera or the like is recorded is advantageously applied. In this case, the electronic still camera captures the subject image from a CCD of hundreds of thousands to hundreds of thousands of pixels.( Charge The image is picked up by an image pickup device such as a coupled device), the image signal is converted into digital image data, and further recorded on the memory card 10 as an image file compressed by a predetermined compression encoding method. As a compression encoding method, for example, JPEG (Joint Photographiccoding In the Experts Group) format, each digital data is quantized, converted by two-dimensional orthogonal transform such as discrete cosine transform (DCT), and further encoded by Huffman coding, etc. Has been.
[0017]
Thereby, for example, as shown in FIG. 3, each image data is scanned with the start of the compressed data start code SOI, the application segment APP1, the quantization table DQT, the Huffman coding table DHT, the frame header SOF, and the scan. It is recorded on the image recording medium 10 as a compressed data file 50 including a header SOS, entropy encoded data that is actual compressed data, and an entropy encoded data end code EOI.
[0018]
In particular, in this embodiment, the application segment APP1 is a TIFF that can apply image data to various types of image files.( Tagged In the description of (Image File Format) formateachImage data tagAnd eachA thumbnail image representing a reduced image of the image is recorded. Specifically, the application segment APP1 includes an APP1 marker 100 that indicates the start of the segment and the length of the area, an Exif identification code 110 that indicates an expansion code, and attached information 120. The attached information 120 includes an 8-byte TIFF header 200, a first directory (0th IFD and Value) 210 indicating a tag of actual data, and a second indicating a tag of thumbnail data.directory(1st IFD and Value) 220. Next to the second directory 220, thumbnail image data 230 representing a reduced image is recorded without being compressed.
[0019]
For example, as shown in FIGS. 4 and 5, the thumbnail images are in RGB format and YCC format. In the RGB format, the width 300 and length 302 of the image representing the size of the image are each displayed in a 32-bit integer LONG format, and the number of bits 304 per sample of the image is a 16-bit integer. Displayed in short (SHORT) format. In this case, all of the RGB data is represented by, for example, 8 bits. Next, a display 306 indicating whether or not the image has been reduced is displayed in a short format. In this case, the value “1” indicates uncompressed data. Next, the value "2" represents the RGB format as black and white or another 308 of RGB. The strip offset 310 representing the data storage destination has an address indicated in a long format. The number of samples 312 per pixel is a value “3”, and indicates, for example, an image whose thumbnail image is 1/16. The number of strip lines 314 indicating the number of information lines is set to the same value as the image length. The total number of bytes 316 in the strip is set to 3 times the image width and image length. The resolution 318 in the X direction is displayed in a fractional format, and in this case, has a resolution of “720000/10000”, that is, a resolution of 72 dpi. Similarly, the resolution 320 in the Y direction is represented by “720000/10000”. The resolution unit 322 indicates 2 inches.
[0020]
In the YCC format, 308 of the monochrome RGB among the above represents the value “6”, that is, YCC, and the total number of strip bytes 316 is represented as 1.5 times the image width and the image length. In addition, the YCC format is tagged with a YCbCr ratio of 324, a subsampling ratio of 326, a positioning ratio of 328, and a black and white ratio of 330. In this case, the YCbCr ratio 324 is a value of "299 / 1000,587 / 1000,114 / 1000", for example a ratio of 4: 2: 1, which is a sample with a subsampling ratio of 326 of "2,1". The sub-sampling state is shown, and positioning 324 is added to this, and the ratio 328 to black and white is 0 / 1,255 / 1,128 / 1,255 / 1,128 / 1,255 / 1 respectively. .
[0021]
Returning to FIG. 1, the transmission side device 20 is a data transmission device that is connected to a transmission line 30 such as a telephone line and transmits digital data. In particular, the image data read from the image recording medium 10 as described above is received. An image transmission apparatus for transmission. FIG. 1 shows only the parts necessary for the description of the present embodiment. The monitor apparatus for displaying an image recorded on the memory card is not directly related to the present embodiment. It is omitted. Further, the transmission line 30 may be a wireless line, in which case it can be connected to a wireless transmitter such as a mobile phone. The main feature of the transmission side device 20 of this embodiment is that the thumbnail data recorded as described above is sequentially read out after setting the communication protocol with the receiving device 40 in particular, and this is transmitted as search data. It has a search data transmission function. More specifically, as shown in FIG. 1, the transmission side device 20 includes a data reading unit 400, a data processing unit 402, a data setting unit 404, a compression / decompression unit 406, a data transmission unit 408, A control unit 410.
[0022]
The data reading unit 400 is a data reading circuit that reads each image data from the image recording medium 10 mounted in the slot. In particular, when the call setting with the receiving device 20 is completed, the data reading unit 400 is controlled by the main control unit 410. Below, it has a search processing function that extracts and reads out only thumbnail data from the image file and supplies it to the data processing unit 402. The data processing unit 402 is a processing unit that performs size processing on each of the read thumbnail data for each image according to the size setting from the data setting unit 404, and further converts the plurality of thumbnail images into one screen data. Has a data synthesizing function. In the size processing, further reduced image data is obtained by thinning out thumbnail data, for example.
[0023]
The data setting unit 404 is a setting circuit that sets the size and compression rate of thumbnail images in the data processing unit 402 and compression / decompression unit 406 under the control of the main control unit 410. These set values are determined according to the transmission speed of the transmission line 30, for example. For example, each image size is set to 1/4 to 1/32 of the display screen size according to the transmission speed of the transmission line 30 including the transmission function of the connected receiving device 40 such as 9.6 k to 28.8 kbps, In addition, the compression rate can be set to 0.3 bit / pel to 2 bit / pel.
[0024]
The compression / decompression unit 406 is a circuit that compresses and decompresses the image data from the data processing unit 402 by a predetermined compression encoding method. In particular, the thumbnail data read at the time of setting a speech path is set to a set compression rate. This is a search data compression circuit that compresses accordingly. In this case, if compression processing is not required, the data setting unit 404 instructs the data transmission unit 408 to bypass the compression / decompression unit 406 and decompress the compressed image data. If it must be transmitted, it is decompressed under the control and supplied to the data transmission unit 408. Therefore, in the present embodiment, a JPEG compression / decompression circuit is advantageously applied as described above. For example, a quantization / inverse quantization circuit, an orthogonal transformation / inverse orthogonal transformation circuit, and an encoding / decoding circuit Is a processing device including a circuit such as
[0025]
The data transmission unit 408 is a circuit that interfaces with the transmission line 30, and includes a modem circuit that modulates and demodulates compressed data or non-compressed data into a signal that can be transmitted through the transmission line 30. Advantageously, when the transmission line 30 is an ISDN line, the data is transmitted according to a predetermined protocol of the ISDN line, for example, ITU-TSS (International Telecommunication Union-Telecommunication Standardization Sector: former CCITT) recommendation X.25 protocol, A packet assembling / disassembling circuit for assembling and disassembling as packet data may be included. In particular, the data transmission unit 408 of the present embodiment includes a function of receiving the function of the reception side device 40 to the main control unit 410 in response to the model of the reception side device 30 when setting the communication protocol.
[0026]
The main control unit 410 is a control circuit that controls each of the above-described units. Particularly, in this embodiment, a communication protocol with the receiving side device 40 is set via the data transmission unit 408, and at this time, data is transmitted to the receiving side device 40. It has a discrimination function for discriminating whether or not there is a decompression function and controlling each part. Specifically, when the communication protocol is set, the data reading unit 400 that reads out only thumbnail image data from the image recording medium 10 is controlled. If the receiving device 40 has a decompression function, the control of the data setting unit 404 that causes the compression / decompression unit 406 to set the compression rate of the thumbnail image in accordance with the transmission speed of the transmission path 30, and the respective thumbnail data are set in advance. Control of the compression / decompression unit 406 for compressing at a compression rate of the above and thumbnail transmission control for transmitting this via the data transmission unit 408 are performed. If the receiving device 40 does not have a decompression function, the data setting unit 404 sets the respective sizes of the thumbnail images according to the transmission speed of the transmission path 30, and further uses them as respective screen data for the data processing unit 402. Then, the control is performed for each unit, such as combining the data in step S4, transferring the data to the data transmission unit 408, and transmitting the data to the reception side.
[0027]
On the other hand, the receiving side device 40 shown in FIG. 2 is a communication device that is connected to a transmission line 30 such as a telephone line and receives information transmitted through this, similarly to the transmitting side device 20. This is an image processing device that receives desired image data from the side device 20 and reproduces it or processes it as desired data. FIG. 2 shows only a portion necessary for the description of the present embodiment. For example, a circuit for recording received image data on a memory card or other recording medium and a printing apparatus for printing the same directly Those not related to the present embodiment are not shown.
[0028]
Specifically, as shown in FIG. 2, the receiving side device 40 includes a transmission / reception processing unit 500, preferably a data decompression unit 502, a reproduction processing unit 504, a main control unit 506 for controlling these, a monitor The apparatus 508 and the selection input unit 510 are included, and in this embodiment, the data expansion unit 502 is not included. The transmission / reception processing unit 500 is an interface circuit that interfaces with the transmission line 30 in the same manner as the data transmission unit 408 of the transmission side device 20, for example, a communication processing circuit that processes the communication procedure of the X.25 protocol described above. . In particular, this embodiment includes a device function transmission unit that transmits an instruction signal representing the function of the own device in response to an instruction from the main control unit 506 when setting the communication protocol.
[0029]
The data decompression unit 502 is a circuit that decompresses compressed data by a process opposite to the compression process. For example, a JPEG format decompression circuit that decompresses data by Huffman decoding, inverse orthogonal transform, inverse quantization, etc. is advantageously applied. Is done. The playback processing unit 504 is a conversion processing unit that converts received data into data that can be displayed on the monitor device 508. For example, when the monitor device 508 is an NTSC-compatible display device, RGB data or YCC data is a synchronization signal, etc. This is a conversion circuit that converts YCC data to RGB data in the case of RGB compatible display devices.
[0030]
The main control unit 506 is a control circuit that controls each of the above-described units. In particular, the main control unit 506 transmits the performance of its own device when setting the communication protocol via the transmission / reception processing unit 500, and also displays a thumbnail image displayed on the monitor device 508. This is a circuit for performing control processing for transmitting the instruction information of the image selected by the selection input unit 510 via the transmission / reception processing unit 500. The selection input unit 510 is an instruction input unit such as a keyboard that is operated when a desired image is selected from the thumbnail images displayed on the display device 508 after setting the communication path, and is preferably a pointing device such as a mouse or a tablet. It may contain devices.
[0031]
The operation of the image data transmission system configured as described above and the image data transmission method in this embodiment will be described with reference to the flowchart shown in FIG. First, a communication protocol is set between the transmission side device 30 and the reception side device 40 in step S10. In this case, the image recording medium 10 in which image data is recorded in advance is loaded in the transmission side device 30, and a call is made from the transmission side device 20 or from the reception side device 40 to the partner device. On the other hand, when the counterpart device responds, an instruction signal indicating whether or not there is a function of the own device, in particular, an expansion function, is transmitted from the receiving device 40 to the transmitting device 20. In step S12, the transmission speed for transmitting image data and thumbnail data is set. This allows the transmission side device 20 to change the speed according to the capacity of the transmission line including each transmission line interface.
[0032]
Next, proceeding to step S14, the transmission side apparatus 20 sequentially reads out the thumbnail image data recorded on the image recording medium 10. Next, in step S16, it is determined whether or not the receiving side device 40 has the expansion function from the information regarding the function of the receiving side device 40 received by the transmitting side device 20 when setting the communication protocol. If the receiving side device 40 has a decompression function, the process proceeds to step S18, and under the control of the main control unit 410, a thumbnail image to be transmitted from the data setting unit 404 to the compression / decompression unit 406 in accordance with the transmission speed of the transmission path 30. Set the compression rate. In this case, in step S17 surrounded by a broken line, the data processing unit 402 may combine one screen data including a plurality of thumbnail images from the data reading unit 400 and transfer it to the compression / decompression unit 406 as each screen data. Good. Next, in step S20, the thumbnail images from the data processing unit 402 are sequentially compressed by the compression / decompression unit 406.
[0033]
On the other hand, if it is determined in step S16 that the receiving side device 40 does not have a decompression function, the process proceeds to step S24, and the size of the thumbnail image to be transmitted is set to the data processing unit 402 according to the transmission speed of the transmission path 30, respectively. Set. For example, the thumbnail image read from the image recording medium 10 is further reduced by thinning or the like to obtain desired image data. In this case, similarly to step S17, a plurality of thinned thumbnail data may be combined as one screen data.
[0034]
Next, the reduced or compressed thumbnail image data is transmitted from the data transmission unit 408 to the reception side device 40 via the transmission path 30 in step S26. Upon receiving this, if the thumbnail image is compressed, that is, if it has the data decompression unit 502 in its own device, it is decompressed by the data decompression unit 502 and transferred to the reproduction processing unit 504. . Next, proceeding to step S28, the playback processing unit 504 converts the thumbnail image into a signal that can be displayed on the monitor device 506, and displays it on the monitor device 506, respectively.
[0035]
Next, the process proceeds to step S30, and when a desired image is selected from the respective thumbnail images displayed on the monitor device 508, the selection signal is transmitted to the transmission side device 20 via the transmission line 30. In this case, for example, each thumbnail image is numbered in the order of reception, and the image number is transmitted as a selection signal. Receiving this, the transmission side device 20 sequentially reads out the image data corresponding to the thumbnail image selected according to the selection signal from the image recording medium 10. This image data is transmitted without the processing of the compression / decompression unit 406 as compressed data read from the recording medium 10 when the receiving side device has a decompression function, and when the receiving side does not have the decompression function, The data is decompressed and transmitted by the compression / decompression unit 406.
[0036]
As a result, desired image data is obtained by the receiving-side device 40. The receiving side device 40 records the received image data on an image recording medium or reproduces it by printing or the like for use by itself.
[0037]
As described above, according to the image data transmission system and transmission method of the present embodiment, when image data is transmitted from the transmission-side device 40 to the reception-side device 20, the thumbnail data recorded in advance on the image recording medium 10 is read. Thus, since it is transmitted as search data, the receiving device 20 can immediately grasp the recorded contents of the image recording medium 10. In this case, since the transmission side device 20 determines the function of the partner communication device when setting the communication protocol and transmits the thumbnail data with compression or non-compression, the reception side device 40 includes an expansion function. Even if there is no device, valid search data can be received in a short time. Further, even when the selected image data is transmitted, it can be transmitted as compressed image data or uncompressed image data decompressed by the compression / decompression unit 406. Data can be transmitted.
[0038]
In the above embodiment, the case where compressed image data is recorded on the image recording medium 10 has been described as an example. However, in the present invention, uncompressed data may be used. In this case, the transmission side device 20 may compress the image data at a predetermined compression rate according to the function of the reception side device 40 and the transmission speed of the transmission path, and transmit the compressed image data. In any case, the image recording medium 10 is preferably recorded with thumbnail data representing the reduced images together with the necessary image data. In the above embodiment, the case where the transmission side device 20 and the reception side device 40 are configured as individual devices has been described as an example. For example, the transmission side device may be a player that reads data from an image recording medium. Combining a playback device, a general-purpose processing device such as a personal computer with software for processing and compressing / decompressing the data, and a communication device such as a telephone device including a modulation / demodulation circuit and a transmission / reception circuit that interface with a transmission path. May be. In this case, of course, it is preferable to provide means for discriminating the receiving side function and means for reading the thumbnail data and transmitting the compressed or uncompressed data when setting the communication protocol. Furthermore, in the above embodiment, the case where the thumbnail data and the image data are recorded on the image recording medium 10 in the TIFF format has been described as an example, but in the present invention, the recording method is the transmission side device 20 and In particular, any device can be used as long as it can be reproduced by the receiving device 40.
[0039]
【The invention's effect】
As described above, according to the image data transmission system and the image data transmission method of the present invention, after setting the communication protocol, the thumbnail data indicating the reduced image of each image recorded on the image recording medium is read out to the receiving apparatus. Since it is transmitted, it is possible to easily search for an image on the receiving side device. In this case, the transmission side apparatus determines whether or not the reception side apparatus has an expansion function. If the expansion apparatus has the expansion function, the thumbnail image is further compressed and transmitted, so that the transmission time is further shortened. be able to. Even when there is no decompression function, the transmission time can be shortened in proportion to the reduction rate compared to the case of transmitting raw image data. Therefore, after the communication protocol is set, the recording image on the transmission side can be immediately grasped on the reception side, and an excellent effect that a desired image can be selected in a short time is achieved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of an image data transmission system to which an image data transmission method according to the present invention is applied.
FIG. 2 is a block diagram showing a receiving side device of the image data transmission system in the embodiment of FIG. 1;
FIG. 3 is a format diagram showing an example of an image file recorded on an image recording medium applied in the embodiment of FIG. 1;
4 is a format diagram showing an example of a data entry part of a thumbnail image recorded in the image file of FIG. 3. FIG.
5 is a format diagram illustrating an example of a data entry portion of a thumbnail image recorded in the image file of FIG. 3. FIG.
FIG. 6 is a flowchart for explaining an image data transmission method according to the embodiment of FIG. 1;
[Explanation of symbols]
10 Image recording media
20 Sender
30 transmission line
40 Receiver device
400 Data reading section
402 Data processing section
406 Compression / decompression unit
408 Data transmission unit
410 Main control unit
500 Transmission / reception processor
502 Data decompression section
504 Playback processor
506 Main controller
508 display
510 Selection input section

Claims (4)

An image recording medium on which a plurality of image data is recorded, a transmission side device that reads and transmits desired image data from the image recording medium, and a reception side that receives image data from the transmission side device via a predetermined transmission path An image data transmission system comprising: a device;
On the image recording medium, thumbnail data representing a reduced image of each image data is recorded by a predetermined recording method,
Does the transmission side device have a data reading means for reading out the respective thumbnail data from the image recording medium when a communication path is set up with the reception side device, and an expansion function for expanding the data in the transmission destination reception side device? Determining means for determining whether or not to compress the transmission data, and thumbnail data read from the image recording medium when the determining means determines that the receiving side device has an expansion function. Compression means for compressing, decompression means for decompressing compressed data read from the image recording medium, and transmission means for transmitting compressed data or non-compressed data from the compression means, respectively,
Receiving means for receiving the thumbnail data transmitted from the transmitting device after setting the communication path to the receiving device;
Reproduction means for reproducing thumbnail data received by the reception means, selection means for selecting a desired image from the reproduced thumbnail images, and transmission means for transmitting the selection signal are provided, respectively.
The transmitting device reads image data corresponding to the thumbnail image selected based on the selection signal from the receiving device from the recording medium by the data reading device, and according to the determination result of the determining device. Whether the read image data is to be compressed or transmitted in a compressed form or whether to be decompressed and transmitted is transmitted, and each image data is transmitted in a compressed or uncompressed manner, and the image recording Each medium is stored as a compressed file in which each image data is compressed in a predetermined compression format, and each thumbnail data is recorded in a predetermined format in a header area for recording a table for setting the compression format of the compressed file. An image data transmission system characterized by that .   2. The image data transmission system according to claim 1, wherein the transmission side device includes setting means for respectively setting an image size or a compression rate of thumbnail data to be transmitted according to a transmission speed of the transmission path. Image data transmission system.   3. The image data transmission system according to claim 2, wherein the transmission-side apparatus includes a combining unit that combines a plurality of thumbnail data read from the image recording medium as respective screen data, and the setting unit includes the combining unit. An image data transmission system characterized in that the size or compression rate of the screen data synthesized in step 1 is set according to the transmission speed of the transmission path and transmitted. In an image data transmitting apparatus that transmits desired image data read from an image recording medium to a counterpart apparatus via a predetermined transmission path, the apparatus includes:
Data reading means for reading each thumbnail data representing a reduced image of the recorded image from the image recording medium when setting a communication path with the counterpart device;
Determining means for determining whether or not the counterpart device has a decompression function for decompressing data and determining whether or not to compress transmission data;
Compression means for compressing thumbnail data read from the image recording medium when the determination means determines that the receiving device has an expansion function;
Decompression means for decompressing compressed data read from the image recording medium;
Transmitting means for transmitting compressed data from the compression means or uncompressed data,
Further, the apparatus reads image data corresponding to the thumbnail image selected by the counterpart apparatus from the recording medium by the data reading unit, and reads the image data read according to the determination result of the determination unit. Whether or not to compress, transmit in the compressed form, or whether to transmit after decompression is set, each image data is transmitted in a compressed or uncompressed manner, and each image is stored in the image recording medium. The data is stored as a compressed file compressed in a predetermined compression format , and each thumbnail data is recorded in a predetermined format in a header area for recording a table for setting the compression format of the compressed file. Image data transmission method.

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