JP2003281110A - Data processing device, data transmission device, and communication system, data processing method, data transmission method and data communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To select a suitable user interface according to a processing load required for a data processing and to improve the efficiency of an internal processing operation. <P>SOLUTION: A reception side communication part 11 receives data. A reception side load measurement part 12 predicts the processing load required for the data processing to the received data based on the data size or the like of the received data. A reception side data processing optimization part 14 determines the user interface which should be displayed in the data processing to the received data based on the level of the predicted processing load and improves the efficiency of the internal processing operation for the data processing to the received data. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic terminal network environment, such as a mobile phone, which has an embedded terminal device with insufficient H / W performance as a terminal, and a processing time required for data transmission / reception, a memory, a CPU load, The present invention relates to a technique for realizing a better user interface and more efficient internal processing operation in consideration of resource loads such as power consumption.

[0002]

2. Description of the Related Art A service for transmitting and receiving data such as Web contents is provided with an embedded terminal device such as a mobile phone as an end. In a built-in terminal device such as a mobile phone having insufficient memory capacity and CPU performance, the H / W constraint may cause unnaturalness in user interface implementation.

As an example, an operation of tracing back and forth the content display history of the Web will be described. It is assumed that there is a display history of content A → content B → content C. Further, it is assumed that the display analysis of the content A requires 0.3 seconds and the display analysis of the content B requires 3 seconds. When returning the display history from the content C (switching to the display of the content B), the content B is displayed 3 seconds after the user presses the "return" button. Since the time of 3 seconds can be sufficiently felt by the user, the data receiving apparatus often implements a message display such as “file expanding” so that the user can recognize that the display process is being performed. Next, when the display history is returned from the content B (switching to the display of the content A), the content A is displayed after 0.3 seconds has elapsed since the user pressed the "return" button. Since the time of 0.3 seconds is a time that the user does not notice, it is better to display the content A without displaying a message. At this time, if a message such as "Files are being developed" is displayed, the display time is as short as 0.3 seconds, which causes flickering, which is rather unnatural as a user interface implementation.

This problem is caused by the fact that the data receiving device cannot determine how much processing load (processing time in the above example) is required for data processing. As an invention aimed at solving a similar problem, Japanese Patent Laid-Open No. 11-212
536 and JP-A-7-262397. Japanese Unexamined Patent Publication No. 11-212536 devises a method of displaying an image-related tag existing in Web contents, and Japanese Unexamined Patent Publication No. 7-262397 devises a technique specialized in three-dimensional moving images.

[0005]

However, in both Japanese Patent Laid-Open No. 11-212536 and Japanese Patent Laid-Open No. 7-262397, the target data is specialized for image data processing, and therefore, in both cases It cannot be a means for solving general distribution data such as contents.

In view of the above-mentioned problems, the present invention provides a Web
An object of the present invention is to obtain and manage load information related to general data processing such as contents, and to provide a better user interface by using the load information.

[0007]

A data processing apparatus according to the present invention is a data processing apparatus for performing specific data processing and related data processing related to the specific data processing, wherein the specific data processing A specific data processing unit that performs processing, a load measuring unit that predicts a processing load required for the specific data processing prior to the specific data processing by the specific data processing unit, and a processing load predicted by the load measuring unit And a related data processing unit that performs related data processing according to the level of.

The data processing apparatus further includes a user interface section for performing a predetermined output, and the related data processing section performs the related data processing according to the level of the processing load predicted by the load measuring section. The output content of the user interface unit is determined by the following.

The related data processing unit determines to output a message related to the specific data processing to the user interface unit when the processing load predicted by the load measuring unit is above a certain level. Then
When the processing load predicted by the load measuring unit is below a certain level, it is determined not to output the message to the user interface unit.

As the related data processing, the related data processing section determines the system resource used by the specific data processing section for the specific data processing according to the level of the processing load predicted by the load measuring section. Characterize.

The data processing apparatus further includes a load information management unit that manages load information used for processing load prediction by the load measurement unit, and the load measurement unit is managed by the load information management unit. The processing load required for the specific data processing is predicted using the load information.

The load measuring section predicts a processing time required for the specific data processing as a processing load required for the specific data processing.

The load measuring section predicts a memory size required for the specific data processing as a processing load required for the specific data processing.

The load measuring section determines C required for the specific data processing as a processing load required for the specific data processing.
It is characterized by predicting a PU load.

The load measuring unit predicts the power required for the specific data processing as the processing load required for the specific data processing.

As the specific data processing, the specific data processing section performs data processing on composite data composed of a plurality of data, and the load measuring section performs data processing on each data forming the composite data. Is predicted, and the processing loads predicted for the respective data are summed to obtain the processing load required for the data processing of the composite data.

The data processing device receives the transmission data transmitted from a predetermined data transmission device, and the specific data processing unit performs the data processing on the transmission data as the specific data processing, and the load measurement. The unit predicts a processing load required for data processing on the transmission data by the specific data processing unit.

A data transmitting apparatus according to the present invention is a data transmitting apparatus for transmitting transmission data to a predetermined data receiving apparatus, wherein the data receiving apparatus receives the transmission data before transmitting the transmission data. A load measurement unit that predicts a processing load of the data reception device when performing data processing on the transmission data, and a processing load notification indicating the processing load of the data reception device predicted by the load measurement unit, It has a communication part which transmits to the said data receiving device with data.

The load measuring section predicts a processing time required for data processing on the transmission data as a processing load of the data receiving device.

The load measuring section predicts a memory size required for data processing of the transmission data as a processing load of the data receiving device.

The load measuring unit predicts a CPU load required for data processing of the transmission data as a processing load of the data receiving device.

The load measuring section predicts, as a processing load of the data receiving device, an electric power required for data processing on the transmission data.

The data transmission device transmits, as the transmission data, composite data composed of a plurality of data, and the load measuring section determines a processing load required for data processing for each data composing the composite data. It is characterized in that the processing load of each data is predicted and totaled to obtain the processing load of the data receiving device.

A data communication system according to the present invention is a data communication system having a data transmitting device for transmitting transmission data and a data receiving device for receiving the transmission data from the data transmitting device. A transmission-side load measuring unit that predicts a processing load of the data receiving device when the data receiving device that has received the transmission data performs data processing on the transmission data before transmitting the transmission data; A transmission side communication unit that transmits a processing load notification indicating the processing load of the data receiving device predicted by the measuring unit to the data receiving device together with the transmission data, and the data receiving device is A receiver communication unit that receives the transmission data and the processing load notification transmitted from a transmitter, and the receiver communication Related to the load reading unit that reads the processing load indicated by the processing load notification received by the transmission data processing unit that performs data processing on the transmission data, and the data processing on the transmission data by the transmission data processing unit. It has a related data processing part which performs related data processing, and the related data processing part performs related data processing according to the level of the processing load read by the load reading part.

The data receiving device further includes a user interface section for performing a predetermined output, and the related data processing section performs the related data processing according to the level of the processing load read by the load reading section. The output content of the user interface unit is determined by the following.

The related data processing unit causes the user interface unit to output a message related to data processing for the transmission data when the processing load read by the load reading unit is above a certain level. And determining that the message should not be output to the user interface unit when the processing load read by the load reading unit is below a certain level.

As the related data processing, the related data processing unit determines a system resource used by the transmission data processing unit for data processing on the transmission data according to the level of the processing load read by the load reading unit. It is characterized by

The data receiving apparatus further includes a receiving side load measuring section for measuring a processing load required for the transmission data processing section to process the transmission data, and the data transmitting apparatus further includes the transmission data. Prior to the transmission, the transmission side load measurement unit is selected when either the transmission side load measurement unit of the data transmission device or the reception side load measurement unit of the data reception device is selected, and the transmission side load measurement unit is selected. The processing load of the data receiving device, and when the receiving load measuring unit is selected, the receiving load measuring unit is instructed to predict the processing load of the data receiving device. And a load prediction instruction unit.

A data processing method according to the present invention is a data processing method for performing specific data processing and related data processing related to the specific data processing, the specific data processing performing the specific data processing. Steps,
Prior to the specific data processing by the specific data processing step, a load measuring step of predicting a processing load required for the specific data processing, and a related data processing according to the level of the processing load predicted by the load measuring step are performed. And a related data processing step to be performed.

A data transmission method according to the present invention is a data transmission method for transmitting transmission data to a predetermined data receiving device, wherein the data receiving device receives the transmission data prior to the transmission of the transmission data. When the data processing for the transmission data is performed, a load measurement step of predicting a processing load of the data receiving device, and a processing load notification indicating the processing load of the data receiving device predicted by the load measuring step, It has a communication step of transmitting to the data receiving device together with the data.

A data communication method according to the present invention is a data communication method including a data transmission process for transmitting transmission data and a data reception process for receiving the transmission data, wherein the data transmission process is the transmission process. Prior to data transmission, a transmission-side load measurement step for predicting a processing load of the data reception processing when performing data processing on the transmission data, and a processing load of the data reception processing predicted by the load measurement step are shown. Processing load notification,
A transmission side communication step of transmitting to the data reception process together with the transmission data, wherein the data reception process receives the transmission data and the processing load notification transmitted by the data transmission process. Step, a load reading step of reading the processing load indicated in the processing load notification received by the receiving side communication step, a transmission data processing step of performing data processing on the transmission data, and the transmission data processing step of A related data processing step of performing related data processing related to data processing for transmission data, wherein the related data processing step performs related data processing according to the level of the processing load read by the load reading step. Is characterized by.

[0032]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. FIG. 1 is a block diagram showing an example of the functional configuration of the data receiving apparatus according to the present embodiment. In FIG. 1, reference numeral 10 denotes a data receiving device capable of receiving distribution data from a data distribution device (not shown) and displaying it to the user. The data receiving device is, for example, a mobile phone, and the distribution data is, for example, Web content. Reference numeral 11 is a reception side communication unit that receives distribution data. Reference numeral 12 is a receiving-side load measuring unit capable of predicting and measuring how much processing load is applied to the processing of the received data. Thirteen
Is a receiving-side load management unit that can manage load information related to processing of received data. A receiving side data processing optimizing unit 14 grasps processing load information of data to be processed, changes a user interface according to the load status, and improves efficiency of internal processing of the data receiving apparatus according to the load status. Is. Reference numeral 15 is a reception side data processing unit that actually performs data processing on the received data. Reference numeral 16 is a receiving-side user interface unit that provides a user interface according to the determination of the receiving-side data processing optimizing unit 14. The data receiving device is the data processing device according to the present invention, the receiving side load managing unit is the load information managing unit, the receiving side load measuring unit is the load measuring unit, and the receiving side data processing optimizing unit is the related data processing unit. The receiving side data processing unit corresponds to the specific data processing unit, and the receiving side user interface unit corresponds to the user interface unit. In addition, processing such as user interface change and internal processing efficiency performed by the receiving-side data processing optimizing unit 14 corresponds to related data processing.

An example of predicting / measuring the processing load of the received data in the receiving-side load measuring unit 12 and the receiving-side load managing unit 13 will be described with reference to FIGS. 4 and 5. In the present embodiment, the receiving-side load measuring unit 12 first determines whether or not the data to be processed from now has been processed once (S12). If the data has already been processed, the load side load management unit 13 accesses the data table 19 of FIG. 5 (S13). The data table stores actual data information and previously measured processing load information, and the processing load column can be accessed to grasp the processing load information. Then, based on the processing load information acquired in S13, the receiving side data processing optimizing unit 14 determines the content of the optimal processing (S1).
4). The receiving-side data processing optimizing unit 14 manages the processing content according to the processing load level, determines the processing content corresponding to the obtained processing load level, and executes the processing. Specifically, what kind of screen is displayed on the receiving side user interface unit 16 is determined. For example, if the processing load is above a certain level, a certain message,
For example, it is decided to display a message "File being developed". Further, as the content of the optimum processing, the system resources used for data processing in the receiving side data processing unit 15 are determined. For example, the receiving side data processing unit 1
The memory used for data processing in 5 is allocated. After that, the receiving side data processing unit 15 executes the actual data processing (S15). If it is determined in S14 that the receiving side data processing optimizing section 14 has decided to display a predetermined message, for example, a message "file being developed", at this time, the receiving side user interface section 16
Displays a message. Furthermore, the receiving side load measuring unit 12
Monitors the data processing status of the reception-side data processing unit 15 and measures the processing load actually required. Then, after the data processing is executed, the reception side load measuring unit 12 writes the obtained processing load actual value into the processing load actual table 18 and the data table 19 in the reception side load managing unit 13 (S1).
6).

On the other hand, when the data is to be processed for the first time, the load measuring section 12 on the receiving side first determines the type of the received data (HTML / JPEG / GIF etc.) (S1).
7). In the determination, the file extension of the requested data may be used, the MIME type may be used, or the signature of the beginning of the received data may be used for the determination. Next, the reception side load measurement unit 12 determines the size of the reception data (S18). Next, the reception side load management unit 13
5 accesses the processing load performance table 18 of FIG. 5 to acquire the processing load average value information for each type, and predicts the processing load information of new data based on the average value, type information, and size information ( S19). For example, when the data to be processed is in the HTML format and the total processing size is 30000, the processing load prediction value indicating that the total load is 300 is calculated from the information about the HTML in the processing load result table 18. Can be obtained. Then, based on the processing load information acquired in S19, the receiving side data processing optimizing unit 14 determines the content of the optimal processing (S20). As the contents of the optimum processing,
As in the case described above, the receiving side user interface unit 16
Then, a screen to be displayed is determined, and system resources used for data processing in the reception side data processing unit 15 are determined. After that, the receiving side data processing unit 15 executes the actual data processing (S21). Here, as in the case described above, the receiving side user interface unit 16 displays the message in a predetermined case. Further, the receiving-side load measuring unit 12 monitors the data processing status of the receiving-side data processing unit 15 and measures the actual processing load. Then, after the data processing is executed, the reception side load measurement unit 12 writes the obtained processing load actual value in the processing load actual table 18 and the data table 19 in the reception side load management unit 13 (S22).

Regarding the scale of the value of the processing load and how to obtain it, the following examples can be given. First, regarding the processing load related to the processing time, the system time immediately before the actual data processing is started and immediately after the data processing is finished can be measured in milliseconds, and the difference can be used as the processing load. The unit such as second / minute may be changed according to the length of the processing time.

Further, the processing load on the memory may be obtained by calculating the sum of memory areas secured in the process of data processing in byte units,
When the amount of memory consumed by the system can be managed, the processing load can be the difference in bytes of the system memory size immediately before the actual data processing starts and immediately after the data processing ends. . The unit such as kilobytes / megabytes may be changed according to the consumed memory size.

Further, the processing load on the CPU can be obtained by totaling how many times the main command having an important meaning in the data processing process is called.

As for the processing load related to power consumption, the internal battery power immediately before the actual data processing is started and immediately after the data processing is finished can be measured and the difference can be used as the processing load.

Regarding the processing load on the composite structure data, the processing load of each data can be measured and the sum of them can be obtained to obtain the total processing load.

As described above, the data receiving apparatus predicts the processing load required for the data processing prior to the data processing on the received data, and selects an appropriate user interface based on the predicted value of the processing load. It is possible to avoid such a situation that becomes unnatural.

Embodiment 2. FIG. 2 is a block diagram showing an example of the functional configuration of the data receiving device and the data distribution device according to the present embodiment. In FIG. 2, 10 is a data receiving device, which is the same as that shown in FIG. 1 except that the receiving side load measuring unit 12 is removed and the receiving side load reading unit 17 is added. Reference numeral 20 denotes a data distribution device that distributes data. Reference numeral 21 denotes a distribution-side load measuring unit capable of predicting / measuring the processing load on the data receiving device for the data to be distributed. 22 is a distribution side load measuring unit 2 together with distribution data
It is a distribution side communication unit that transmits the processing load information measured in 1. Reference numeral 17 denotes a receiving-side load reading unit that allows the data receiving device side to recognize the processing load information transmitted from the distribution-side communication unit 22. The data distribution device corresponds to the data transmission device according to the present invention, the distribution-side load measuring unit corresponds to the load measuring unit, and the distribution-side communication unit corresponds to the communication unit. A combination of the data receiving device 10 and the data distribution device 20 corresponds to the data communication system according to the present invention.

Next, the operations of the data receiving apparatus and the data distributing apparatus according to this embodiment will be described with reference to FIG. First, the distribution-side load measuring unit 21 measures how much load it takes to process data to be distributed from now on the data receiving device side. In measurement, a model of a typical data receiving device is determined in advance, and for load information that causes a large difference depending on the model of the receiving device such as processing time, the receiving device can correct it to derive processing load information. Keep it. Alternatively, the model of the data receiving device that has made the request may be recognized on the data delivery device side, and the data delivery device side may perform measurement according to the receiving device model in advance. The measured processing load information is
It is sent to the data receiving device together with the delivery data by the delivery side communication unit 22. On the data receiving device side, the receiving side communication unit 11 receives the processing load information with the distribution data, the receiving side load reading unit 17 reads the processing load information, and if necessary, corrects it to obtain the data processing load information. The receiving side data processing optimization unit 14 manages the processing content according to the load level, and based on the data processing load information obtained by the above procedure, determines the corresponding processing content and executes the processing. .

The scale and method of obtaining the processing load value are the same as those shown in the first embodiment.

Embodiment 3. FIG. 3 is a block diagram showing an example of the functional configuration of the data receiving device and the data distribution device according to the present embodiment. In FIG. 3, reference numeral 23 denotes a distribution side load switching unit capable of determining whether the distribution side or the reception side measures the processing load. In addition,
The distribution-side load switching unit corresponds to the load prediction instruction unit.

Next, the operations of the data receiving apparatus and the data distributing apparatus according to this embodiment will be described. First, the distribution-side load switching unit 23 determines whether to measure the load of the data to be distributed from the data distribution device side or the data reception device side. This determination is made based on the data processing status of the data distribution device. That is, if the current data processing load of the data distribution device is less than or equal to a predetermined threshold, the data distribution device measures the processing load, and if it exceeds the threshold, the data receiving device is left to measure the processing load. To do. The operation when the processing load is measured by the data distribution device is the same as that shown in the second embodiment. Further, the operation when the processing load is measured by the data receiving device is the same as that shown in the first embodiment.

The scale of the processing load value and how to obtain it are the same as those shown in the first embodiment.

In the above-described first to third embodiments, the data processing device, the data transmitting device and the data communication system according to the present invention have been described. However, the data processing method and the data transmitting method according to the present invention have the same processing procedure. And a data communication method is also feasible.

Here, the features of the data receiving apparatus and the data distributing apparatus shown in the first to third embodiments will be restated below.

The data receiving apparatus shown in the first embodiment is
(A) a receiving-side load measuring unit that actually measures or predicts the load required for processing received data on the receiving device side; and (b) a receiving-side load management unit that manages measured or predicted load information on the receiving device side, c) The receiving side data processing optimizing unit that can use the load information to be managed during the processing of the received data to provide a user interface according to the data processing and to improve the efficiency of the internal processing of the receiving device. It is characterized by having and.

The data receiving apparatus shown in the first embodiment is
It is characterized in that the load information is managed and the processing is optimized by using the time required for the processing.

The data receiving apparatus shown in the first embodiment is
It is characterized by managing load information and optimizing the processing by using a memory required for the processing.

The data receiving apparatus shown in the first embodiment is
It is characterized in that load information is managed by using the CPU load required for processing and the processing is optimized.

The data receiving apparatus shown in the first embodiment is
It is characterized in that the load information is managed by using the power required for the processing and the processing is optimized.

The data receiving apparatus shown in the first embodiment is
Even if the distribution data structure has a composite structure in which some data are combined, it is possible to measure and manage the load required to process the received data, and to optimize the process using the load information. .

The data distribution apparatus shown in the second embodiment is
(D) Distribution-side load measurement unit that actually measures or predicts the load required for processing received data on the distribution apparatus side, and (e) Distribution-side measured load notification that can notify the reception apparatus of the measured or predicted load information. The data receiving device according to the second embodiment includes a receiving side load reading unit that allows the receiving side to read the load information notified from the distributing side. It is characterized in that the receiving devices form a pair to provide a user interface on the receiving device side according to data processing and to improve the efficiency of internal processing.

The data distribution apparatus shown in the second embodiment is
The load information is managed by using the time required for the processing, and the processing of the data receiving device is optimized.

The data distribution apparatus shown in the second embodiment is
It is characterized in that the memory required for processing is used to manage the load information and the processing of the data receiving device is optimized.

The data distribution apparatus shown in the second embodiment is
The load information is managed by using the CPU load required for processing, and the processing of the data receiving device is optimized.

The data distribution apparatus shown in the second embodiment is
It is characterized in that the load information is managed by using the power required for the processing and the processing of the data receiving device is optimized.

The data distribution apparatus shown in the second embodiment is
Even if the distribution data structure has a composite structure in which some data are combined, it is possible to measure, notify, and manage the load required for processing received data, and optimize the processing of the data receiving device using the load information. It is characterized by doing.

The data distribution apparatus shown in the third embodiment is
(G) It has a distribution-side measurement switching unit that determines whether the load required for processing received data is to be measured on the distribution device side or the reception device side, and the distribution device and the reception device are paired to form load information. It is characterized in that the receiving device side provides a user interface according to the data processing of the device for measuring the, and the efficiency of the internal processing is executed.

The data receiving apparatus and the data distribution apparatus according to the third embodiment are characterized in that the load information is managed by using the time required for the processing and the processing of the data receiving apparatus is optimized.

The data receiving apparatus and the data distribution apparatus according to the third embodiment are characterized by managing load information using a memory required for processing and optimizing the processing of the data receiving apparatus.

The data receiving apparatus and the data distributing apparatus according to the third embodiment are characterized by managing load information by using the CPU load required for processing and optimizing the processing of the data receiving apparatus.

The data receiving apparatus and the data distributing apparatus according to the third embodiment are characterized in that the load information is managed by using the power required for the processing and the processing of the data receiving apparatus is optimized.

The data receiving device and the data distribution device according to the third embodiment measure, notify, and manage the load required for processing received data even if the distribution data structure has a composite structure in which some data are combined. It is possible to determine whether the load of each configuration data is measured on the distribution side or the reception side, and the processing of the data receiving device is optimized using the load information.

[0067]

According to the present invention, since the processing load required for specific data processing is predicted and the related data processing is performed according to the predicted level of the processing load, an appropriate user interface can be provided according to the processing load level. Can be provided,
Further, the efficiency of the internal processing operation can be improved.

Further, according to the present invention, prior to the transmission of the transmission data, the data transmission side predicts the processing load of the data processing in the data receiving device and transmits the predicted processing load to the data receiving device. , The data receiving device,
An appropriate user interface can be provided according to the predicted level of processing load, and the efficiency of internal processing operations can be improved. Further, since it is not necessary for the data receiving device to predict the processing load, the configuration of the data receiving device can be simplified accordingly.

Further, according to the present invention, it is possible to determine whether to predict the processing load on the data transmitting side or the data receiving side according to the situation on the data transmitting side. The processing load can be predicted without affecting the.

[Brief description of drawings]

FIG. 1 is a block diagram showing a functional configuration example of a data receiving device according to a first embodiment.

FIG. 2 is a block diagram showing a functional configuration example of a data receiving device and a data distribution device according to a second embodiment.

FIG. 3 is a block diagram showing a functional configuration example of a data receiving device and a data distribution device according to a third embodiment.

FIG. 4 is a flowchart showing processing in the data receiving device.

FIG. 5 is a diagram showing an example of a processing load result table and a data table.

[Explanation of symbols]

10 data receiving device, 11 receiving side communication unit, 12 receiving side load measuring unit, 13 receiving side load management unit, 14 receiving side data processing optimizing unit, 15 receiving side data processing unit, 16
Reception side user interface section, 17 reception side load reading section, 20 data distribution device, 21 distribution side load measuring section,
22 delivery side communication unit, 23 delivery side load switching unit.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Yoichiro Tomari             2-3 2-3 Marunouchi, Chiyoda-ku, Tokyo             Inside Ryo Electric Co., Ltd. F-term (reference) 5B045 BB28 BB42 GG05

Claims (25)

[Claims] 1. A data processing device that performs specific data processing and also performs related data processing related to the specific data processing, the specific data processing unit performing the specific data processing, and the specific data processing. Prior to the specific data processing by the unit, a load measuring unit that predicts a processing load required for the specific data processing, and related data processing that performs related data processing according to the level of the processing load predicted by the load measuring unit. And a data processing device. 2. The data processing device further includes a user interface unit that performs a predetermined output, and the related data processing unit performs, as the related data processing, a level of a processing load predicted by the load measuring unit. The output content of the user interface unit is determined according to
The data processing device according to. 3. The related data processing unit causes the user interface unit to output a message related to the specific data processing when the processing load predicted by the load measuring unit is a certain level or higher. The data according to claim 2, wherein when the processing load predicted by the load measuring unit is below a certain level, it is determined not to output the message to the user interface unit. Processing equipment. 4. The related data processing unit determines, as the related data processing, a system resource used by the specific data processing unit for the specific data processing according to a level of a processing load predicted by the load measuring unit. The data processing device according to claim 1, wherein: 5. The data processing device further includes a load information management unit that manages load information used for processing load prediction by the load measurement unit, and the load measurement unit is configured to operate in the load information management unit. The data processing apparatus according to claim 1, wherein a processing load required for the specific data processing is predicted using the managed load information. 6. The data processing apparatus according to claim 1, wherein the load measuring unit predicts a processing time required for the specific data processing as a processing load required for the specific data processing. 7. The data processing apparatus according to claim 1, wherein the load measuring unit predicts a memory size required for the specific data processing as a processing load required for the specific data processing. 8. The data processing device according to claim 1, wherein the load measuring unit predicts a CPU load required for the specific data processing as a processing load required for the specific data processing. 9. The data processing apparatus according to claim 1, wherein the load measuring unit predicts a power required for the specific data processing as a processing load required for the specific data processing. 10. The specific data processing unit performs, as the specific data processing, data processing on composite data composed of a plurality of data, and the load measuring unit regards each data forming the composite data. The data processing apparatus according to claim 1, wherein a processing load required for data processing is predicted, and the processing loads predicted for the respective data are summed to obtain a processing load required for data processing of the composite data. 11. The data processing device receives transmission data transmitted from a predetermined data transmission device, the specific data processing unit performs data processing on the transmission data as the specific data processing, The data processing device according to claim 1, wherein the load measuring unit predicts a processing load required for data processing on the transmission data by the specific data processing unit. 12. A data transmitting device for transmitting transmission data to a predetermined data receiving device, wherein the data receiving device, which has received the transmission data, processes the transmission data prior to the transmission of the transmission data. A load measuring unit that predicts the processing load of the data receiving device when performing, and a processing load notification indicating the processing load of the data receiving device predicted by the load measuring unit, to the data receiving device together with the transmission data. A data transmission device comprising: a communication unit for transmitting the data to the data transmission device. 13. The data transmitting apparatus according to claim 12, wherein the load measuring unit predicts a processing time required for data processing on the transmission data as a processing load of the data receiving apparatus. 14. The data transmitting apparatus according to claim 12, wherein the load measuring unit predicts a memory size required for data processing of the transmission data as a processing load of the data receiving apparatus. 15. The data transmitting apparatus according to claim 12, wherein the load measuring unit predicts a CPU load required for data processing on the transmission data as a processing load of the data receiving apparatus. 16. The load measuring unit predicts, as a processing load of the data receiving device, a power required for data processing of the transmission data.
The data transmission device according to 1. 17. The data transmission device transmits, as the transmission data, composite data composed of a plurality of data, and the load measuring unit performs processing required for data processing on each data composing the composite data. The data transmission device according to claim 12, wherein the load is predicted, and the processing loads predicted for the respective data are summed to obtain the processing load of the data receiving device. 18. A data communication system, comprising: a data transmission device for transmitting transmission data; and a data reception device for receiving the transmission data from the data transmission device, wherein the data transmission device transmits the transmission data. Prior to the above, a transmission-side load measuring unit that predicts a processing load of the data receiving device when the data receiving device that receives the transmission data performs data processing on the transmission data, and the load prediction unit predicts the processing load of the data receiving device. A processing load notification indicating a processing load of the data reception device, and a transmission side communication unit that transmits to the data reception device together with the transmission data, the data reception device, the data transmission device transmitted from the data transmission device. A reception side communication unit that receives the transmission data and the processing load notification; and the processing side received by the reception side communication unit. A load reading unit that reads the processing load indicated in the load notification, a transmission data processing unit that performs data processing on the transmission data, and a related data processing that is related to data processing on the transmission data by the transmission data processing unit A data processing unit, wherein the related data processing unit performs related data processing according to the level of the processing load read by the load reading unit. 19. The data receiving device further includes a user interface unit that performs a predetermined output, and the related data processing unit includes a level of a processing load read by the load reading unit as the related data processing. 19. The data communication system according to claim 18, wherein the output content of the user interface unit is determined according to 20. The related data processing unit causes the user interface unit to output a message related to data processing for the transmission data when the processing load read by the load reading unit is a certain level or higher. 20. The method according to claim 19, wherein the message is not output to the user interface unit when the processing load read by the load reading unit is below a certain level. Data communication system. 21. The related data processing unit, as the related data processing, uses a system resource used by the transmission data processing unit for data processing of the transmission data according to a level of a processing load read by the load reading unit. The data communication system according to claim 18, wherein the data communication system determines. 22. The data receiving device further includes a reception-side load measuring unit that measures a processing load required by the transmission data processing unit for data processing of the transmission data, and the data transmitting device further includes: Prior to transmitting the transmission data, when either the transmission side load measuring unit of the data transmitting device or the reception side load measuring unit of the data receiving device is selected and the transmission side load measuring unit is selected, the transmission side When the load measuring unit is instructed to predict the processing load of the data receiving device and the receiving load measuring unit is selected, the receiving load measuring unit is allowed to predict the processing load of the data receiving device. The data communication system according to claim 18, further comprising a load prediction instruction unit that gives an instruction. 23. A data processing method for performing specific data processing and related data processing related to the specific data processing, comprising a specific data processing step of performing the specific data processing, and the specific data processing. Prior to the specific data processing by the step, a load measuring step of predicting a processing load required for the specific data processing, and a related data processing of performing related data processing according to the level of the processing load predicted by the load measuring step. A data processing method comprising the steps of: 24. A data transmission method for transmitting transmission data to a predetermined data receiving device, wherein the data receiving device receiving the transmission data performs data processing on the transmission data before transmitting the transmission data. A load measurement step of predicting the processing load of the data receiving device when performing, and a processing load notification indicating the processing load of the data receiving device predicted by the load measuring step, to the data receiving device together with the transmission data. A data transmitting method comprising a communication step of transmitting the data to the user. 25. A data communication method including a data transmission process for transmitting transmission data and a data reception process for receiving the transmission data, wherein the data transmission process is performed before the transmission of the transmission data. The transmission side load measuring step of predicting the processing load of the data receiving processing when performing data processing on the transmission data, and the processing load notification showing the processing load of the data receiving processing predicted by the load measuring step, And a transmission side communication step of transmitting to the data reception process together with data, wherein the data reception process includes a reception side communication step of receiving the transmission data transmitted by the data transmission process and the processing load notification. Negative reading the processing load indicated in the processing load notification received by the receiving side communication step. A load reading step, a transmission data processing step of performing data processing on the transmission data, and a related data processing step of performing related data processing related to data processing on the transmission data by the transmission data processing step, A data communication method, wherein the data processing step performs related data processing according to the level of the processing load read by the load reading step.