JP3602326B2 - Digital content editing method and apparatus, and recording medium recording digital content editing program - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method and an apparatus for editing digitized data or a group of data on a computer.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, when editing work on digitized data or data group (hereinafter referred to as digital content) on a computer, for example, editing work such as modeling in computer graphics is performed on a plurality of computers via a network. First, the content data in the server is downloaded to the client via the network, the editing operation is performed on the client, and the content data obtained as a result is sent back to the server again via the network.
[0003]
[Problems to be solved by the invention]
However, in the above method, there is a problem that a load is generated on the network when the data amount of the content data is large.
An object of the present invention is to provide a digital content editing method and apparatus capable of executing digital content editing work on a plurality of computers without imposing a load on a network.
[0004]
In order to achieve the above object, the present invention provides a digital content editing method for editing digital content in collaboration with a client connected via a network, wherein at least initial data of the digital content is stored. In response to a request from the client, information necessary for starting digital content editing is sent to the client, and editing operation information obtained by converting the editing operation for the digital content sent from the client into data is sequentially accumulated as a history. Sends the editing operation information to the client. In response to the editing operation information sent from the client, the editing operation information is stored as storage information at predetermined intervals, and after the predetermined period has elapsed, the editing operation information stored as the storage information is sequentially stored according to a predetermined selection rule. Selected, The selected editing operation information is sequentially accumulated as a history, and a process of transmitting the editing operation information to the client is performed.
[0005]
The present invention also relates to a digital content editing apparatus for editing digital content by collaborating with a client connected via a network, comprising at least initial data of the digital content and an editing operation on the digital content. A storage unit for accumulating editing operation information obtained by converting data into a request, a request processing unit for transmitting information necessary for starting digital content editing to the client in response to a request from the client, and an editing operation information from the client. An operation information processing unit that sequentially accumulates the history in the storage unit and sends the editing operation information to the client When the client sends an edit to the history of the edit operation information as the edit operation information, the operation information processing unit determines whether or not the edit to the history is appropriate. Notify the client and perform processing not to send the editing operation information to the client It is characterized by the following.
[0006]
The present invention also relates to a digital content editing apparatus for editing digital content by collaborating with a client connected via a network, comprising at least initial data of the digital content and an editing operation on the digital content. A storage unit for accumulating editing operation information obtained by converting data into a request, a request processing unit for transmitting information necessary for starting digital content editing to the client in response to a request from the client, and an editing operation information from the client. An operation information processing unit that sequentially accumulates the history in the storage unit and sends the editing operation information to the client; An operation information storage unit that stores editing operation information sent from the client every predetermined period as storage information in the storage unit; A selection unit for sequentially selecting the editing operation information stored as the storage information according to a selection rule after the predetermined period has elapsed; The operation information processing unit performs a process of sequentially accumulating the editing operation information selected by the selecting unit as a history in the storage unit, and transmitting the editing operation information to the client. It is characterized by the following.
[0007]
Further, the present invention is characterized in that the operation information storage unit determines the predetermined period based on the number of clients to access. In addition, according to the present invention, when the editing operation information to which transmission time information is added is transmitted from the client, the selection unit sequentially stores the editing operation information stored as the accumulation information in accordance with a selection rule based on the transmission time. It is characterized by selecting. Further, according to the present invention, when the client sends editing operation information to which client name information is added, the selection unit sequentially selects the editing operation information stored as the storage information according to a selection rule based on the client name. It is characterized by doing.
[0008]
Further, the invention is characterized in that the selection unit changes a selection rule based on the client name at predetermined time intervals. Further, in the present invention, the selection rule based on the client name is such that the selection order of selection is determined in the order of the time when the client starts connection. In the present invention, the selection order based on the client name information is determined in the order of the amount of processing by the client.
[0009]
The present invention also relates to a digital content editing apparatus that edits digital content in cooperation with a server connected via a network, and includes information and digital information required for starting digital content editing. A storage unit for accumulating editing operation information obtained by converting an editing operation for content into data, an initialization unit for acquiring information necessary for starting the digital content editing from a server, and storing the information in the storage unit; An operation processing unit that converts an editing operation on the content into data and sends it to the server as editing operation information; and an operation information acquisition unit that stores the editing operation information sent from the server as necessary. The operation processing unit performs a process of sequentially storing the editing operation information sent from the server as a history, and when editing is performed on the history of the editing operation information stored in the storage unit, Send edit information for the history to the server as edit operation information It is characterized by the following. Also, the present invention is characterized in that the operation processing unit determines whether or not the editing of the history is appropriate, and sends the editing information on the history as operation editing information to the server only when it is appropriate.
[0010]
In addition, the present invention is a computer-readable recording medium recording a digital content editing program for editing digital content by collaborating with a client connected via a network, wherein at least the initial content of the digital content is recorded. Data is stored, and information necessary for starting digital content editing is transmitted to the client in response to a request from the client, and editing operation information obtained by converting the editing operation for the digital content sent from the client into data is sequentially used as a history. While accumulating, send the editing operation information to the client, In a case where the editing operation information sent from the client is processed, the editing operation information is stored as accumulated information every predetermined period, and after the predetermined period elapses, the editing operation information stored as the accumulated information is stored according to a predetermined selection rule. A process of sequentially selecting, sequentially accumulating the selected editing operation information as a history, and transmitting the editing operation information to a client. Is a recording medium on which a digital content editing program for causing a computer to execute the program is recorded.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings.
[0015]
(Example 1)
FIG. 1 shows an example of an embodiment of the present invention, in which a single server connected via a network and a plurality of clients A, B, C... It is shown. The server and each client hold initial data of digital content, editing operation information, and content data (edited) at that time.
[0016]
Here, the editing operation by the client and the editing operation information and content data obtained by converting the editing operation into data will be described. Here, it is assumed that the editing operation is started from a state where there is no digital content as initial data. For example, the editing operation by the client
・ Draw a circle with a radius of 10 at the position (100, 100)
・ Change the color of the circle to red
・ Move the position of the circle to (150,50)
・ Draw a line from (20, 20) to (130, 80)
・ Change the color of the line to blue
Let's say that it was done in that order. FIG. 6 shows an example of editing operation information obtained by converting these editing operations into data. Note that the editing operation information accumulated in that order is referred to as “edit operation information history”. Further, the content data at the time when the above-mentioned editing operation is completed is as shown in FIG. 7 as an example. As described above, the content data describes the final state of the generated graphic or the like. Note that the initial data is the initial content data for starting the editing operation.
[0017]
FIG. 2 is a control flowchart of the server, and FIG. 3 is a control flowchart of the client.
[0018]
In the above configuration, when one client who wants to participate in the editing work issues a data request to the server (step S21), the server checks whether or not there is an operation history of another client at that time (step S11) (step S11). Step S12) If there is no operation history, only the initial data of the content is transferred (Step S13). If there is already an operation history, all the information, that is, the initial data of digital content, the editing operation information and the current time are edited. Transferring the content data (Step S14) (In order to reduce the data amount, only the initial data and the editing operation information or only the content data at that time may be transferred. That is, the initial data and the editing operation information may be transferred. Is compared with the data amount of the content data, and the data amount Little more may be transferred as the information that is required for the digital content editing start the.)
[0019]
On the other hand, the client receiving the information holds the information (steps S22 and S23). Note that the information received here is information necessary for starting digital content editing. When an editing operation is performed on the content data on this client (operation input) (step S24), the content data on the client is changed (step S25) and saved (step S26). To create editing operation information, which is transferred to the server (step S27).
[0020]
When the server receives the operation information from one client (step S15), the server changes the content data on the server (step S16) and transfers this operation information to all clients (step S17).
[0021]
Furthermore, the client that has received the operation information determines whether the operation information matches the immediately preceding operation input (step S29). For example, the content data is changed and stored (steps S30 and S31).
[0022]
Next, FIGS. 8 and 9 show device configurations of a server and a client that operate according to the above control flow. It is to be noted that the clients A, B, C,... Shown in FIG.
FIG. 8 is a diagram showing a device configuration of a digital content editing device serving as a server. In the following, the digital content editing device serving as a server is simply referred to as a “server”.
The server 1 is roughly divided into a processing unit 10 for realizing a server function and a storage unit 20 for storing various data.
Further, the processing unit 10 includes an overall control unit 11, a request processing unit 12, and an operation information processing unit 13. Here, the supervising unit 11 analyzes the contents of the information and the request sent from the client, and activates the request processing unit 12 or the operation information processing unit 13 to perform the processing. The request processing unit 12 performs a process of transmitting information necessary for starting digital content editing to the client in response to a request from the client. Further, the operation information processing unit 13 sequentially stores the editing operation information from the client as a history in the storage unit 20 and sends the editing operation information to the client.
[0023]
Here, the relationship between each processing unit and the control flow of FIG. 2 will be described.
The supervising unit 11 makes a determination in step S11 and step S15. If it is determined in step S11 that the condition is satisfied, the request processing unit 12 is activated, and the request is processed. If the condition is satisfied in the determination in step S15, the operation information processing unit 13 is activated to process the editing operation information sent from the client. The control unit 11 constantly monitors the request from the client (step S11) and the editing operation information (step S15) sent from the client, and activates the request processing unit 12 and the operation information processing unit 13 when the conditions are satisfied. Will be.
The operation of the request processing unit 12 is steps S12 to S14. Then, the operation of the operation information processing unit 13 becomes steps S16 and S17.
Even if the processing unit 10 is realized by dedicated hardware, its function is realized by being provided as a program and executed by a CPU (Central Processing Unit) (not shown) in the processing unit 10. May be performed.
The storage unit 20 stores initial data 21, a history 22 of editing operation information, and content data 23. Note that the storage unit 20 is configured by a storage device such as a RAM (Random Access Memory) or a hard disk.
[0024]
FIG. 9 is a diagram showing a device configuration of a digital content editing device serving as a client. In the following, the digital content editing device serving as a client is simply referred to as a “client”.
The client 2 is roughly composed of a processing unit 30 for realizing a client function and a storage unit 40 for storing various data.
The processing unit 30 includes an overall control unit 31, an initialization unit 32, an operation processing unit 33, and an operation information acquisition unit 34. Here, the supervising unit 31 analyzes input contents by the user of the apparatus and information transmitted from the server, and performs any of the initialization unit 32, the operation processing unit 33, and the operation information acquisition unit 34 in order to perform the processing. Or start. The initialization unit 32 performs a process of acquiring information necessary for starting digital content editing from the server and storing the information in the storage unit 40. The operation processing unit 33 performs a process of converting an editing operation on digital content into data and transmitting the data to the server as editing operation information. The operation information acquisition unit 34 performs a process of storing the editing operation information sent from the server in the storage unit 40 as necessary.
[0025]
Here, the relationship between each processing unit and the control flow of FIG. 3 will be described.
The supervision unit 31 activates the initialization unit 32 when participating in editing of digital content. Further, the judgment of step S24 and step S28 is performed. If it is determined in step S24 that the condition is satisfied, the operation processing unit 33 is activated to perform processing for the input. If the condition is satisfied in the determination in step S28, the operation information acquisition unit 34 is activated to process the editing operation information sent from the server. The control unit 31 constantly monitors the operation input of the user (step S24) and the transfer of the editing operation information from the server (step S28), and activates the operation processing unit 33 or the operation information acquisition unit 34 when the condition is satisfied. Will do. The operation of the initialization unit 32 is steps S21 to S23 in FIG. Then, the operation of the operation processing unit 33 is performed in steps S25 to S27. The operation of the operation information acquisition unit 34 is steps S29 to S31.
Even if the processing unit 30 is realized by dedicated hardware, its function is realized by being provided as a program and executed by a CPU (Central Processing Unit) (not shown) in the processing unit 30. May be performed.
The storage unit 40 stores initial data 41, a history 42 of editing operation information, and content data 43. Note that the storage unit 20 is configured by a storage device such as a RAM (Random Access Memory) or a hard disk.
[0026]
Although not shown in FIGS. 8 and 9, devices required for network communication are included in the server 1 or the client 2 or connected to the server 1 or the client 2. A display device such as a CRT (Cathode Ray Tube) or a liquid crystal display device, and an input device such as a mouse and a keyboard are connected to the server 1 and the client 2 as necessary.
[0027]
Next, a description will be given of an editing image of digital content by a joint work between a server and a client connected via a network, with reference to FIGS. 1, 4, and 5. FIG.
[0028]
For example, as shown in FIG. 1, when an operation a1 is performed on the initial data of the content in the client A, the operation information a1 is sent to the server, and the client B that obtains the operation information from the server prepares the operation a1. An operation b1 is performed and sent to the server. In this way, the editing operation of the content data via the network is performed.
[0029]
As shown in FIG. 4, when the editing operation a2 on the content data performed by the client A is sent to the server as operation information, the editing operation is performed on the content data in the server, and Is changed. At this time, the operation information a2 is sent to all the clients connected to the server in order to prompt the change (update). However, the client A that has performed the editing operation is ignored and the other clients are ignored. The editing operation is executed only in B, C,.... In this way, the editing operations performed on the network can be easily synchronized.
[0030]
FIG. 5 shows how editing is performed on the history of editing operation information. According to the method of the present invention, not only the load on the network can be reduced but also editing such as cut and paste of the editing operation and rearrangement of the operation order can be performed by flowing the editing operation information corresponding to the editing operation on the network. is there.
[0031]
As shown by reference numeral a in FIG. 5, in the client A, one of the operation information histories (operation b1) is deleted, inserted into an arbitrary position, the order of the operations is changed, or the same operation is combined. The editing operation itself can be performed, for example, by deleting an undesired operation (operation c2) of another client as shown by reference numeral b in FIG.
By editing the editing operation, the history of the operation information held by the client can be reduced, but a different result will be obtained unless the commutability of the operation is properly considered. For example, as a history of operation information,
1: draw a line
2: Paint the line green
3: Draw a circle
Is the case where the history of the editing operation information is 2 → 1 → 3. In this case, there is no longer any target for painting the color of the editing operation information 2. Therefore, the operation information processing unit 13 of the server 1 determines whether or not the editing of the history is appropriate when the client sends the editing of the history of the editing operation information as the editing operation information. That fact is notified to the client, and processing for not sending the sent editing operation information to other clients is performed.
Alternatively, the writing operation processing unit 33 of the client 2 may determine whether or not editing of the history is appropriate, and may send the editing of the history to the server 1 as operation editing information only when appropriate.
[0032]
Also, by utilizing this, a different result can be used as editing of an intended operation. That is, an artistic figure or the like may be created by editing the history of the editing operation information.
[0033]
As described above, the editing operation for the content data on the client is individually described, and the editing operation information is used as the editing operation information. And editing work can be performed without imposing a heavy load on the network.
[0034]
When a plurality of clients access digital content in a server and perform editing operations on the content data, only information on editing operations performed by each client is sent to the network. The client holds a history of digital content initial state data and editing operation information for the data. As a result, the editing operation for the content data using the network can be performed without reading all the data constituting the digital content, and a responsive operation feeling can be realized.
[0035]
At this time, the content data change due to the editing operation from the client is sent back to the server as operation information, but the editing operation information by the client is sent not only to the server but also to other clients, so that synchronization is not achieved. must not. Therefore, if there is any change in the content data in the server, the server sends operation information to all the clients to urge the content data to be changed. Then, each client holds the change as a history of the editing operation and changes the content data. This makes it possible to easily synchronize the editing operation on the content data.
[0036]
In addition, since the editing operation on the content data is held as an individual operation history, it is possible for each client to perform cut-and-paste and combination of the editing operation on the content data, rearrange the operation order, and the like. That is, since the operation history itself can be edited, it is possible to freely change the editing operation on the undesired content data performed by another client.
[0037]
(Example 2)
If there is a difference in network quality between each client and server, a difference occurs in the transfer speed. As described above, if there is a difference in the transfer speed between the clients, the server performs the editing work of the digital content preferentially for the client having the higher transfer speed. For example, assume that three clients A, B, and C are accessing the server. It is assumed that the transfer time of one information (for example, the average data amount of the editing operation information) at a certain point in time is 50, 100, and 10, respectively. In this case, while the client B is transferring one piece of information, the client A can send two pieces of information (2 = 100/50), and the client C can send ten pieces of information (10 = 100/10). Therefore, if the server processes the editing operation information in the order in which the server arrives at the server, the processing of the editing operation information of the server becomes unfair between the clients. Therefore, in the present embodiment, a server that adds a new process to the processing unit 10 of the server 1 in FIG. 8 and solves a problem caused by a difference in transfer speed will be described.
[0038]
First, FIG. 10 shows an apparatus configuration of the present embodiment. The difference from FIG. 8 is that the operation information storage unit 14 stores the editing operation information sent from the client every predetermined period in the storage unit 20 as the storage information 24, and after the predetermined period elapses, the storage information 24 according to a predetermined selection rule. And a selecting unit 15 for sequentially selecting the editing operation information stored as. 8, the same reference numerals are given to the portions corresponding to the respective portions in FIG. 8, and the description thereof will be omitted. Hereinafter, the operation of the server will be described with reference to FIG. 11 focusing on the differences from the first embodiment.
[0039]
First, the operation information storage unit 14 determines a period for storing the editing operation information sent from the client, and starts a timer (not shown in FIG. 10) (step S31). The method of determining this period will be described in detail separately.
Upon receiving the editing operation information from the client, the control unit 11 activates the operation information storage unit 14 and delivers the editing operation information. The operation information storage unit 14 sequentially stores the editing operation information in the storage unit 20 as the storage information 24 during the period determined in step S31 (step S32).
[0040]
When the timer reaches the period determined in step 31, the selection unit 15 is activated. Then, the selection unit 15 selects the editing operation information stored as the storage information 24 according to a predetermined selection rule (step S33). This selection rule will be described in detail separately.
The editing operation information selected in step S33 is passed to the operation information processing unit 13. Then, the operation information processing unit 13 performs the processing described in steps S16 and S17 of FIG. 2 on the delivered editing operation information. It is assumed that the selected editing operation information is deleted from the accumulated information 24 as soon as the processing is completed.
The selecting unit 12 determines whether there is still unprocessed editing operation information in the accumulated information 24 (Step S35). If there is an unprocessed one, the process returns to step S33 for selecting the editing operation information to be processed next; otherwise, the process proceeds to step S31 to perform the accumulation process in the next period.
Although not shown in FIG. 11, the supervising unit 11 constantly monitors a data request (step S11 in FIG. 2) from the client. The unit 12 is started.
The server 1 operates as described above.
[0041]
Next, a method for determining the period determined in step S31 will be described. There are roughly three methods for determining this period, and these will be sequentially described.
[First period determination method]
Use a fixed period. That is, it is always a predetermined period. In this case, the process of determining the accumulation period in step S31 is omitted.
[0042]
[Second period determination method]
Determine the period based on the network transfer speed to the client. Here, when acquiring the editing operation information sent from the client, the control unit 11 stores information on the transfer speed for each client according to the size (number of bytes) of the information and the time (seconds) required for acquisition. 20. Then, the operation information storage unit 14 determines the period with reference to the transfer speed. If a plurality of pieces of editing operation information are sent from the client, the storage unit 20 may store the average value of the transfer speed obtained from the information. The transfer rate measuring method described above is an example, and the present invention is not limited to this. It is assumed that the client sends the server 1 by adding the client name information to the editing operation information. This allows the server 1 to identify each client. Here, the “client name information” is the name of a digital content editing device serving as a client, the name of a user using the device, or both.
As a specific example of the period determination based on the transfer speed, a period in which at least one piece of information (for example, an average data amount of editing operation information) can be acquired based on the slowest transfer speed among the transfer speeds of the clients. . For example, if the slowest transfer rate is α [bit / s] and the information amount of one information is β [bit], the transfer rate is set to β / α [s] or more. This is because if the time is further delayed, the editing operation information sent from the client cannot be accumulated within the determined period.
[0043]
[Third period determination method]
Determine the period based on the number of clients accessing. That is, if the number of clients is large, the period is lengthened. This is because, if the number of clients is large, the number of editing operation information transferred to the server is considered to increase almost in proportion, and the transfer of a statistically uniform distribution can be obtained by making the period relatively long. Because it becomes. For this purpose, the control unit 11 also monitors the number of clients accessing the server, and the operation information storage unit 14 determines the period with reference to this number.
[0044]
Note that any of the above three methods for determining a period may be used. Further, the second and third period determination methods may be combined.
[0045]
Next, the selection rule in step S33 will be described in detail. As the selection rule, there are a selection rule based on the transmission time of the editing operation information from the client and a selection rule based on the client name. Hereinafter, each will be described.
[Selection rule based on outgoing time]
The selection rule based on the transmission time means that the editing operation information is selected in the order of earlier transmission time. When making a selection based on the transmission time, the client sends editing operation information to which transmission time information has been added. Then, the selecting unit 15 selects the editing operation information in order from the plurality of pieces of editing operation information stored in the storage information 24 by referring to the transmission time added to the editing operation information. As a result, the processing is performed in the order of the time when the client transmits to the server, and the processing is not performed after transmitting to the server first.
[0046]
[Selection rule based on client name]
There are roughly four types of selection rules based on the client name, which will be described below in order. In order to select the editing operation information based on the client name, the client sends the editing operation information with the client name information added. Then, the selection unit 15 selects the editing operation information in order from the plurality of pieces of editing operation information stored in the storage information 24 by referring to the client name added to the editing operation information.
[First rule]
A selection rule where the selection order of each client is fixed.
For example, priority is fixedly assigned in the order of client A, client B, and client C, and selection is always performed in that order. This processing is effective when there is a difference in the transmission speed between the client and the server and the change in the transmission speed is small.
[0047]
[Second rule]
A rule that changes the selection order of each client every predetermined time.
For example, for three clients,
Selection order of the first predetermined period Client A, B, C order
Selection order for the second predetermined period Client B, C, A order
Selection order for the third predetermined period Client C, A, B order
Change the selection order as shown. As a result, the processing of the editing operation information of each client is equally distributed and performed. Note that this change may be made for each accumulation period performed in step S32 in order to simplify the process of changing the priority.
[Third rule]
The selection order of the selection is determined in order of the time when the client starts the connection. That is, the supervising unit 11 stores each client name and its connection start time in the storage unit 20, and the selection unit 15 refers to this value and makes the selection order higher as the connection start time is shorter.
[Fourth rule]
The selection order is determined in the order of the amount of processing by the client. For this purpose, the management unit 11 stores the amount of processing performed within a certain period of time or in the past for each client, and the selecting unit 15 refers to this value and determines the selection order as the amount of processing increases. Make it higher.
[0048]
Any of the above selection rules based on the client name may be used. When there are a plurality of pieces of editing operation information of each client in the accumulated information 24 and the selection order is the clients A, B, and C, the selection unit 15
A) After selecting all the editing operation information from the client A, select all the editing operation information from the client B, and finally select all the editing operation information from the client B.
May be performed,
B) First editing operation information from client A, first editing operation information from client B, first editing operation information from client C, second editing operation from client A Collection operation information, ...
May be performed.
[0049]
As described above, even if there is a difference in the transfer speed between each client and the server, the server accumulates the editing operation information from the client for a predetermined time, selects the editing operation information to be processed according to the selection rule, and performs the processing. Become. As a result, a client with a higher transfer speed does not preferentially perform digital content editing work processing.
[0050]
(Example 3)
As in the second embodiment, if the processing for constantly storing the editing operation information sent from the client for a predetermined period is performed, the editing efficiency for the digital content is reduced due to the overhead. In particular, when such processing is not required, for example, when there is no difference in the transfer speed between each client and the server, the editing efficiency is simply reduced.
Therefore, in the present embodiment, a server that adds a new process to the processing unit 10 of the server 1 in FIG. 8 to prevent a decrease in editing efficiency will be described.
[0051]
First, FIG. 12 shows an apparatus configuration of the present embodiment. The difference from FIG. 10 is that a storage determining unit 16 for determining whether to perform the storage process of the second embodiment is further provided. In the figure, parts corresponding to the respective parts in FIG. 10 are denoted by the same reference numerals, and description thereof will be omitted. Hereinafter, the operation of the server will be described with reference to FIG. 13 focusing on the differences from the second embodiment.
[0052]
First, the accumulation judging unit 16 judges whether or not the editing operation information from the client is accumulated and processed for a predetermined period (step S41). Note that this determination method will be separately described in detail.
If it is determined that it is necessary to accumulate and process the editing operation information from the client for a predetermined period, the editing information transmitted from the client is processed by the operation information storage unit, the selection unit, and the operation information processing unit (step S31 to S35). This process is the same as steps S31 to S35 in FIG. 11, and a description thereof will be omitted.
On the other hand, when it is determined that there is no need to accumulate and process the editing operation information from the client for a predetermined period, the operation information processing unit is made to process the editing operation information sent from the client in the order of arrival (step S42). The processing in step S42 is the same as the processing in steps S16 and S17 in FIG. 2, and a description thereof will be omitted.
The server 1 operates as described above.
[0053]
Next, the determination method in step S41 will be described in detail. There are two determination methods, each of which is described below.
[First judgment method]
When the difference in the network transfer speed between the clients is equal to or greater than the predetermined value, it is determined that the processing of steps S31 to S35 is to be performed, and otherwise, it is determined that the processing of step S is to be performed. Specifically, a difference in transfer speed between the clients is obtained, and a determination is made based on whether or not the maximum value of the difference is equal to or greater than a predetermined value. This is because when the difference in the transfer speed between the clients is small, the editing operation information from the clients arrives at the server in the order of the transmission times, so that the processing in steps S31 to S35 does not have to be performed.
[0054]
[Second judgment method]
When the transfer speed of the network with the client is equal to or less than the predetermined value, it is determined that the processing of steps S31 to S35 is to be performed, and otherwise, it is determined that the processing of step S42 is to be performed. Specifically, the determination is made based on whether or not the lowest transfer speed among the transfer speeds of the respective clients is equal to or less than a predetermined value. This is because, when the minimum transfer rate is equal to or less than a predetermined value, that is, when the transfer rate is low, there is generally a high possibility that the transfer rate difference between other clients is large.
[0055]
Note that any of the above two determination methods may be used. Here, the method of obtaining the transfer speed of each client has been described in the second embodiment, and a description thereof will be omitted.
[0056]
As described above, the server 1 performs the processing only when the processing of steps S31 to S35 in FIG. 13 is necessary. Therefore, it is possible to prevent the editing efficiency of the digital content from lowering.
[0057]
In addition, a program for realizing the function of the processing unit 10 of the server 1 in FIGS. 8, 10 and 12 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system. Then, a server function of editing the digital content by executing the digital content in cooperation with a client connected via a network may be realized. In addition, a program for realizing the function of the processing unit 30 in FIG. 9 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed, so that the program is executed via a network. A client function for editing digital content by collaborating with a server connected to the server may be realized. The “computer system” includes an OS and hardware such as peripheral devices.
As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to the embodiments, and includes a design and the like without departing from the gist of the present invention.
[0058]
【The invention's effect】
As described above, according to the present invention, an editing operation for digital content can be realized on a plurality of computers without imposing a burden on a network and while reliably synchronizing the editing operation. It is also possible to edit the editing operation itself, that is, to change the editing operation.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an outline of an example of an embodiment of the present invention.
FIG. 2 is a control flowchart of a server.
FIG. 3 is a control flowchart of a client.
FIG. 4 is an explanatory diagram showing how to synchronize editing operations.
FIG. 5 is an explanatory diagram showing how to edit the history of editing operation information.
FIG. 6 is a diagram illustrating an example of editing operation information.
FIG. 7 is a diagram showing an example of content data.
FIG. 8 is a diagram illustrating a configuration example of a server according to the first embodiment.
FIG. 9 is a diagram illustrating a configuration example of a client.
FIG. 10 is a diagram illustrating a configuration example of a server according to a second embodiment;
FIG. 11 is a control flowchart of a server according to the second embodiment.
FIG. 12 is a diagram illustrating a configuration example of a server according to a third embodiment;
FIG. 13 is a control flowchart of a server according to the fourth embodiment.
[Explanation of symbols]
1 server 2 client
10 Processing Department 11 Supervision Department
12 Request processing unit 13 Operation information processing unit
20 storage unit 21 initial data
22 History of editing operation information 23 Content data
30 Processing Department 31 Supervision Department
32 Initialization unit 33 Operation processing unit
34 Operation information acquisition unit
40 storage unit 41 initial data
42 History of editing operation information 43 Content data

Claims (12)

A digital content editing method for editing digital content by collaborating with a client connected via a network,
Memorize at least the initial data of the digital content,
By a request from the client, information necessary for starting digital content editing is sent to the client,
With sequentially storing editing operation information data of the editing operation for the digital content to be sent from the client as a history, Ri send a the editing operation information to the client,
For the editing operation information sent from the client, the editing operation information is stored as storage information every predetermined period,
After the lapse of the predetermined period, sequentially select the editing operation information stored as the storage information according to a predetermined selection rule,
A digital content editing method characterized by sequentially accumulating the selected editing operation information as a history and transmitting the editing operation information to a client . A digital content editing device for editing digital content by collaborating with a client connected via a network,
A storage unit that stores at least initial data of digital content and editing operation information obtained by converting an editing operation on the digital content into data;
A request processing unit that sends information necessary for starting digital content editing to the client in response to a request from the client;
An operation information processing unit for sequentially accumulating editing operation information from the client as a history in the storage unit, and transmitting the editing operation information to the client ;
The operation information processing unit determines whether or not the edit to the history is appropriate when the client sends the edit to the history of the edit operation information as the edit operation information. The digital content editing apparatus performs a process of notifying the client and sending the editing operation information to the client . A digital content editing device for editing digital content by collaborating with a client connected via a network,
A storage unit that stores at least initial data of digital content and editing operation information obtained by converting an editing operation on the digital content into data;
A request processing unit that sends information necessary for starting digital content editing to the client in response to a request from the client;
An operation information processing unit that sequentially accumulates editing operation information from the client as a history in the storage unit and sends the editing operation information to the client;
An operation information storage unit that stores editing operation information sent from the client every predetermined period as storage information in the storage unit;
A selection unit for sequentially selecting the editing operation information stored as the storage information according to a selection rule after the predetermined period has elapsed;
With
The digital information processing device according to claim 1, wherein the operation information processing unit sequentially stores the editing operation information selected by the selecting unit as a history in the storage unit and sends the editing operation information to a client. Content editing device. 4. The digital content editing apparatus according to claim 3, wherein the operation information storage unit determines the predetermined period based on the number of accessing clients. When the editing operation information to which transmission time information is added is transmitted from the client, the selection unit sequentially selects the editing operation information stored as the storage information according to a selection rule based on the transmission time. The digital content editing device according to claim 3 . When editing operation information to which client name information is added is sent from the client, the selection unit sequentially selects the editing operation information stored as the storage information according to a selection rule based on the client name. The digital content editing device according to claim 3 . The digital content editing apparatus according to claim 6 , wherein the selection unit changes a selection rule based on the client name at predetermined time intervals. 7. The digital content editing apparatus according to claim 6, wherein the selection rule based on the client name is such that the selection order of selection is determined in the order of the time when the client starts connection. 7. The digital content editing apparatus according to claim 6 , wherein the selection order based on the client name information is determined in the order of the amount of processing by the client. A digital content editing device for editing digital content in cooperation with a server connected via a network,
A storage unit for storing editing operation information obtained by digitizing information necessary for starting digital content editing and editing operations on digital content;
An initialization unit that obtains information necessary for starting the digital content editing from a server, and stores the information in the storage unit.
An operation processing unit that converts an editing operation for digital content into data and sends the data as editing operation information to a server;
An operation information acquisition unit that stores the editing operation information sent from the server as necessary,
The operation processing unit performs a process of sequentially storing the editing operation information sent from the server as a history, and when editing is performed on the history of the editing operation information stored in the storage unit, the history A digital content editing device for sending editing information to a server as editing operation information . 11. The digital content editing apparatus according to claim 10 , wherein the operation processing unit determines whether or not editing of the history is appropriate, and sends editing information for the history to the server as operation editing information only when appropriate. apparatus. A computer-readable recording medium recording a digital content editing program for editing digital content by collaborating with a client connected via a network,
Memorize at least the initial data of the digital content,
By a request from the client, information necessary for starting digital content editing is sent to the client,
While sequentially accumulating, as a history, editing operation information obtained by converting an editing operation for digital content sent from the client into data, sending the editing operation information to the client,
In a case where the editing operation information sent from the client is processed, the editing operation information is stored as storage information every predetermined period,
After the lapse of the predetermined period, sequentially select the editing operation information stored as the storage information according to a predetermined selection rule,
A recording medium storing a digital content editing program for causing a computer to perform a process of sequentially accumulating the selected editing operation information as a history and transmitting the editing operation information to a client .

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