JPH04365242A - Electronic information circulating system - Google Patents

Abstract

PURPOSE:To automatically transmit electronic information according to the more than two hierarchies of transmission routes and to let the electronic information arrive at a final transmission node within a certain period even when the electronic information is held at the middle transmission node. CONSTITUTION:When the transmission of the electronic information is instructed, according to a list eL of transmission control information (e) containing a transmission node e1 and a copy possibility flag e4 set in a storage device 22, a CPU 21 in a node 20-0 sends the electronic information to the transmission node on a network 10, when the response of arrival is returned from the node, a timer 23 monitors time (t) attached to the list eL, when there is the response of reception confirmation from the transmission node before time-out, the electronic information is sent to the next transmission node, when there is no response of reception confirmation, according to the copy possibility flag e4 in the relevant transmission control information (e), it is processed whether copy is remained in the transmission node or not, and the electronic information is sent to the next transmission node.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic information circulation system for electronically circulating electronic information.

0002

2. Description of the Related Art Conventionally, electronic information transmission methods have been limited to one level, such as direct sending to designated destinations or bulletin board posting, in which senders and receivers of electronic information are directly connected.

[0003] Conventionally, when transmitting electronic information through an organization (business organization), when trying to transmit electronic information according to a tree structure or a loop-type transmission route, one-level transmission is used. Each time, manual operations were required to transmit the next information.

0004

[Problems to be Solved by the Invention] As mentioned above, in the conventional electronic information transmission system in which the sender and receiver of electronic information are directly connected, electronic information is transmitted (circulated) along a transmission route of two or more layers. ), there was a problem in that manual operation was required every time one layer was transmitted.

[0005] Furthermore, in the conventional method described above, if a receiver at a node in the middle of the transmission route suspends transmission to the next node, the transmission of electronic information to the final receiving node may not be completed indefinitely. There was also the problem of not doing so.

The present invention has been made in view of the above circumstances, and its object is to provide an electronic information circulation system that can automatically transmit electronic information according to transmission paths of two or more layers.

Another object of the present invention is to provide an electronic information circulation system that allows the electronic information to arrive at the final transmission node within a certain period of time even if the electronic information is held at a node along the transmission route. It's about doing.

[0008]

[Means for Solving the Problems] The present invention provides a route setting means for presetting transmission route information indicating a transmission route of electronic information to be circulated, and a transmission node on the transmission route indicated by the transmission route information. The present invention is characterized by comprising a transmission means for sequentially electronically transmitting electronic information in accordance with the transmission route information each time reception confirmation of the electronic information is performed.

[0009] Furthermore, in the present invention, if there is no reception confirmation within a predetermined allowable time after the electronic information is transmitted to a transmission node, the electronic information is transmitted through the transmission node to the next transmission node. It is characterized by being designed to transmit.

0010

[Operation] In this invention, when it is desired to electronically circulate electronic information systematically through an organization, for example, a transmission route indicating a transmission route (for example, a tree-structured transmission route) of the electronic information to be circulated is set by the route setting means. Set information in advance. This transmission route information is a list of transmission control information prepared for each circulation target node (transmission node). Each transmission control information includes (information indicating) the transmission node, and if the receipt confirmation (by the recipient) of the electronic information sent to the node is not made within the allowed time, a copy of it will be left at the same node. A copy permission flag is included to indicate whether or not the copy is possible. Further, the above-mentioned allowable time (information indicating) is added to the transmission route information (transmission control information list).

[0011] When the transmitting means is instructed to transmit electronic information, it transmits the electronic information to the transmitting node according to the above-mentioned transmission control information list. When the electronic information arrives at the destination transmission node, time monitoring is performed to see whether the received electronic information has been acknowledged (by the recipient) within the allowable time set in the transmission control information list. if,
If receipt confirmation (response) is made within the permissible time, the electronic information is automatically sent to the next transfer node by the transfer means according to the transfer control information list.

[0012] On the other hand, if the reception is not confirmed even after the permissible time has elapsed, the electronic information is passed through that transmission node and sent to the next transmission node. At this time, the copy permission flag in the transmission control information corresponding to the passing node is referred to,
If copying is possible, the electronic information is copied and left at the transit node. If copying is not possible, the electronic information is deleted from the transit node to maintain confidentiality.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a block diagram showing an embodiment of a network system to which the present invention is applied.

In FIG. 1, 10 is a network such as a LAN, 20-0, 20-1, 20-2, 20-3...20
-n is a computer (hereinafter referred to as a node) such as a personal computer or a workstation that is interconnected by the network 10.

The node 20-0 includes a CPU 21 which forms the center of the node, a storage device 22 in which various programs, data, etc. are stored, a timer 23 used for time monitoring, an input device 24 such as a keyboard, and a display device 25. have. Although the internal configurations of the nodes 20-1 to 20-n are omitted in FIG. 1, it is assumed that they have the same configuration as the node 20-0.

Now, in the system shown in FIG. 1, electronic information can be systematically circulated electronically through, for example, an organization. Now, assuming that the node 20-0 becomes a transmission node of electronic information, the storage device 22 of the node 20-0
A transmission control information list eL indicating the transmission route of the electronic information to be circulated is generated within. This transmission control information list eL has a tree structure of two or more layers indicating a transmission route with the electronic information transmission node as the root, and each node is set corresponding to the information transmission destination node (transmission node). It is composed of transmission control information e. In addition, the transmission control information list eL includes a permissible time (receipt confirmation permissible time) t for waiting for reception confirmation (by the receiver) of the arrived electronic information before sending the electronic information to the next transmission node. be done.

Each transmission control information e is a node (transmission node) to which information is transmitted (circulated) e1 (information indicating), e1
The time (reception time) e2 when the electronic information was received at the transmission node indicated by , the reception confirmation flag e3 indicating whether or not the reception confirmation (viewing) of the electronic information received at the same node was performed, and the electronic information It has each setting field of a copy permission flag e4 for instructing whether or not to leave a copy of the electronic information in the node when reception confirmation is not made within the reception confirmation allowable time t after reception.

Next, electronic information circulation in the system of FIG. 1 will be explained with reference to the flowchart of FIG. Note that FIG. 2 is a flowchart showing the procedure of electronic information transmission processing.

First, a user of the node 20-0 sends certain electronic information to some of the other nodes 20-1 to 20-n (each user thereof) according to the organization (business organization). It is assumed that an attempt was made to circulate the information.

[0020] In this case, the user (electronic information sender) of the node 20-0 uses the input device 24 to
An operation for creating a transfer control information list eL indicating a route, that is, an operation for specifying each transfer node e1, a copy permission flag e4 for each e1, a transfer order (transmission route), and a reception confirmation allowable time t is performed.

[0021] As a result, CPU2 in node 20-0
1 creates a list of transmission control information e (transmission control information list) eL as shown in FIG. At this time, the reception confirmation flag e3 in each transmission control information e is initialized to OFF.

Now, in this state, when the sender of electronic information operates the input device 24 to issue an instruction to send electronic information, the CPU 21 in the node 20-0 executes the instructions (
For example, the electronic information (stored in the storage device 22) is sent to a transmission node, for example, the node 20-1, via the network 10 according to the transmission control information list eL on the storage device 22 (step S1).

[0023] The transmission node 20-1 is connected to the node 20-0 (
When the electronic information sent from the electronic information transmitting node 20-0 arrives (receiving the electronic information), the arrival (reception) response is returned to the electronic information transmitting node 20-0. node 2
When 0-0 receives the arrival response from the transmission node 20-1, it sets the time at that time as the reception time e2 in a predetermined field of the transmission control information e in the transmission control information list eL corresponding to the node 20-1. (Step S2). At the same time, the node 20-0 sets (information about) the reception confirmation allowable time t attached to the transmission control information list eL in the timer 23, and starts the timer 23 (step S3).
.

[0024] On the other hand, when the user of the transmission node 20-1 (the recipient who is the destination of the electronic information) confirms (views) the electronic information sent from the node 20-0, a reception confirmation response indicating that is sent. is notified from the transmission node 20-1 to the node 20-0.

Now, when the electronic information transmitting node 20-0 starts the timer 23, it monitors whether or not a reception confirmation response is notified from the transmitting node (here, the node 20-1) before the timer 23 times out. (Step S4, S
5).

If the electronic information is sent from the transfer node 20-1 before the timer 23 times out, that is, before the allowable reception confirmation time t elapses from the time when the electronic information arrives at the transfer node 20-1 (reception time e2), Originating node 20-0
When the node 20-0 is notified of the reception confirmation, the node 20-0 first sets the reception confirmation flag e3 in the transmission control information e corresponding to the transmission node 20-1 to ON (step S6).
.

[0027]Then, the node 20-0 examines the transmission control information list eL and determines whether transmission of electronic information to all specified transmission nodes has been completed (step S7).
, if not completed, the process returns to step S1 and transmits the electronic information to the next transmission node specified in the transmission control information list eL.

On the other hand, before the timer 23 times out, that is, from the time e2 when the electronic information arrives at the transmission node 20-1 until the permissible reception confirmation time t elapses, the transmission node 20-1 The recipient of the same node 20 left the electronic information without checking (viewing) it.
If the reception confirmation notification is not sent from -1 to the electronic information transmission node 20-0, the node 20-0 first turns on the copy permission flag e4 in the transmission control information e corresponding to the transmission node 20-1. Check whether it has been set (step S8).

If the copy permission flag e4 is on, the electronic information transmission node 20-0 transfers the information to the transmission node 20-1.
A copy of the previously sent electronic information is sent to the same node 20-
1 (step S9), and if the next transmission node still exists (step S7), the process returns to step S1 to transmit electronic information to the next transmission node.

Further, if the copy permission flag e4 is off, the electronic information transmission node 20-0 transmits the information to the transmission node 20-0.
For 1, please send the electronic information you sent earlier (to maintain confidentiality)
Processing is performed to prevent it from remaining in the same node 20-1 (Figure 2
(omitted in the flowchart), if the next transmission node still exists (step S7), the process returns to step S1 and the electronic information is transmitted to the next transmission node.

As described above, the transmission control information list e
When the transmission of electronic information to all transmission nodes specified by L is completed, the CPU in the electronic information transmission node 20-0
21 notifies the sender of the electronic information that the transmission has been completed (step S10). Note that the electronic information sender can display the current status of the transmission control information list eL on the storage device 22 on the display device 25 at any time. This allows the electronic information sender to use the electronic information transmission node (e
1), electronic information transmission status such as the electronic information reception time at each node (e2) and presence or absence of reception confirmation at each node (e3) can be visually confirmed at any time.

In the above embodiment, the instruction as to whether or not to leave a copy is automatically given by the copy permission flag e4.
When a timeout is detected, a request may be made to the electronic information transmitter through the display device 25. In this case,
The copy permission flag e4 becomes unnecessary. Furthermore, instead of unconditionally sending electronic information to the next transmission node when a timeout is detected, the electronic information sender may be asked to instruct whether or not to send the electronic information.

[0033]Also, in the above embodiment, the case where the node 20-0 becomes an electronic information transmission node is explained.
Of course, the other nodes 20-1 to 20-n can also serve as electronic information transmission nodes. In addition, nodes 20-0 to 2
A specific node among 0-n is set as an electronic information transmission server, and this server performs electronic information transmission processing as described in the above embodiment in response to a request from a node used by an electronic information transmission. It is also possible to have a configuration.

Furthermore, in the embodiment described above, one node transmits electronic information to all transmission nodes according to the transmission control information list eL, but the present invention is not limited to this. For example, each transmission node on the transmission route indicated by the transmission control information list eL becomes an information transmission node, and when it receives electronic information from the previous transmission node (or the root node that is the first information transmission node), that transmission node controls the transmission. Electronic information may be transmitted to the next transmission node according to the information list eL. In this method, it is necessary to send the transmission control information list eL along with the electronic information, but since the electronic information is physically circulated, the recipient may write comments etc. in the electronic information and send it to the next transmission node. It's convenient. However, in order to display the transmission control information list eL on the screen at the root node, the last transmission node (lowest layer transmission node) needs to return the transmission control information list eL to the root node.

Furthermore, in the above embodiment, a case has been described in which the transmission control information list eL indicates a transmission route with a tree structure of two or more layers, but the same applies even if a loop-type transmission route or the like is indicated. Applicable.

[0036]

[Effects of the Invention] As detailed above, according to the present invention,
Transmission route information indicating the transmission route of the electronic information to be circulated is set in advance, and each time reception of the electronic information is confirmed at a transmission node on the transmission route indicated by this transmission route information, the transmission route information Since the electronic information is sequentially transmitted electronically according to the structure, it is now possible to automatically transmit electronic information according to a transmission route of two or more layers, and in particular, it is possible to transmit electronic information electronically in an organized and systematic manner. Convenient in some cases.

Further, according to the present invention, if there is no confirmation of receipt within a predetermined allowable time after electronic information is transmitted to a transmission node, the electronic information is transmitted through the transmission node and transferred to the next transmission node. Since the electronic information is configured to be transmitted, even if the electronic information is held at intermediate transmission nodes, the electronic information can always arrive at the final transmission node within a certain period of time.

[Brief explanation of the drawing]

FIG. 1 is a block configuration diagram showing an embodiment of a network system to which an electronic information circulation system of the present invention is applied.

FIG. 2 is a flowchart for explaining the procedure of electronic information transmission processing in the same embodiment.

[Explanation of symbols]

10...Network, 20-0 to 20-n...Node, 2
1...CPU, 22...Storage device, 23...Timer, 24...Input device, 25...Display device, eL...Transmission control information list,
e...Transmission control information.

Claims (5)

[Claims] Claim 1: A route setting means for presetting transmission route information indicating a transmission route of electronic information to be circulated, and a transmission node on the transmission route indicated by the transmission route information set by the route setting means. and a transmission means that sequentially electronically transmits the electronic information according to the set transmission route information each time the reception of the electronic information is confirmed, and automatically transmits the electronic information according to the set transmission route information. An electronic information circulation method characterized in that the information is circulated. [Claim 2] The transmission means is configured to transmit electronic information to the next transmission node by passing through the transmission node if there is no receipt confirmation within a predetermined allowable time after the electronic information is transmitted to the transmission node. 2. The electronic information circulation system according to claim 1, wherein the electronic information is transmitted. 3. The electronic information circulation system according to claim 2, wherein the permissible time is set in advance in the transmission route information. 4. In the transmission route information, a copy permission flag is set in advance for each transmission node to instruct whether or not to leave a copy of the electronic information when it becomes a transit node. 4. The electronic information circulation system according to claim 2, wherein the transmitting means leaves a copy of the electronic information at the corresponding transit node in accordance with the flag. 5. The transmission route information is provided with a field for setting the electronic information transmission status for each transmission node, including the electronic information reception time at that node and the presence or absence of reception confirmation. 5. The electronic information circulation system according to claim 1, wherein the electronic information transmission status can be confirmed by referring to a field.