Abstract:
A method for transmitting message of a document in a multiport facsimile, in which the messages to be transmitted are registered in a memory unit in file unit together with a specific message-registration table; and all the registered messages having the same destination are re-registered in a specific transmission-result table for subsequent transmission to the destination in one dial-up.

Description:
BACKGROUND OF THE INVENTION 
     The present invention relates to a method for transmitting a message of a document in a multiport facsimile having more than one communication channel as well as memory unit transmitting features, and more particularly to a method for collecting and storing input messages in their registration order and transmitting messages having a same destination on a single call. 
     In a multiport facsimile, to be sent are generally stored in a memory unit after they are placed and scanned by the scanner. The messages are dispatched on one-to-one basis to a destination that has been registered whenever possible. However, a drawback in such multiport facsimile is that, when there are a plurality of messages to be dispatched, messages have to be dispatched on a one-to-one basis to the same destination and not simultaneously in one call. 
     SUMMARY OF THE INVENTION 
     It is therefore an object of the present invention to store messages to be dispatched to multiple destinations in a memory unit by a message transmission method that can dispatch, in one call, messages having the same destination but not supplemented with relay or mailbox features. 
     According to an aspect of the present invention, a method for transmitting a message of a document in a multiport facsimile, in which the messages to be transmitted are registered in a memory units in file unit together with a specific message-registration table and the registered messages having the same destination are re-registered in a specific transmission-result, table according to the destination and transmitted to the same destination in one dial-up. 
     According to another aspect of the present invention, a method for increasing communication efficiency in a multiport facsimile having a plurality of line interface units LIU&#39;s for controlling a plurality of communication channels and transmitting messages after storing, in a memory unit, messages of a plurality of documents, the method including the steps of: 
     (a) checking for a number of the transmissible LIU&#39;s, and initializing the index counter allocated in the memory unit and indicative of a message-registration table index registered along with said message; 
     (b) checking for, after executing step (a), a message to be transmitted from the message-registration table indicated by the index counter; 
     (c) after executing step (b), when there is no message to be transmitted in the message-registration table index indicated by the index counter, increasing the index counter by 1, comparing the increased value to a maximum-index value, and if the two values are the same, finishing the process, and if they are not the same, returning to step (b); 
     (d) after executing step (b), when there is a message to be transmitted in the message-registration table index indicated by the index counter, loading a relative-number and a file-number from the indicated message-registration table, saving them to a transmission-result table which has been allocated and defined in a given area of the memory unit, assigning the value of said index counter to the variable K which also has been allocated and defined in a given area of the memory unit, and increasing the variable K by 1; 
     (e) after executing step (d), checking for a message to be transmitted in the message-registration table index indicated by the variable K; 
     (f) after executing step (e), when there is no message to be transmitted in the message-registration table index in step (e), increasing the variable K by 1, comparing the increased index counter value to the maximum-index value, and returning to step (e) if the compared values are not the same; 
     (g) after executing step (e), when there is a message to be transmitted in the message-registration table index indicated by the variable K, checking for a matching relative-number of a transmission-result table within the message-registration table, and when there is a match, registering the file-number to transmission-file-number field of the transmission-result table, returning to step (f), and when there is no match, directly returning to step (f); and 
     (h) after executing step (f), when the value of the variable K is the same as the maximum-index value, the main controller decreases by 1 an LIU counter which is allocated and defined in the memory unit, and then the main controller checks whether the decreased value is 0 or not, and if the value is 0, terminates the execution, or returns to step (b) if the value is not 0. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     For a better understanding of the invention and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying diagrammatic drawings, in which: 
     FIG. 1 is a system block diagram according to the invention; 
     FIGS. 2A and 2B is a flow diagram according to the invention; 
     FIGS. 3A and 3B is a memory unit map diagram according to the invention; 
     FIG. 4 and FIG. 5 are embodiments of the present invention. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Referring to FIG. 1, a main controller 18 controls a plurality of features required for message transmission and reception. A scanner 10 sends to the main controller 18 after it scans input message under control of the main controller 18. A memory unit 12 stores and retrieves data under control of the main controller 18. A line interface 14 interfaces data input/output to a plurality of multiple communication lines under control of the main controller 18. A printer 16 prints data output from the main controller under control of main the controller 18. 
     Referring to FIG. 2, in step (a), the main controller 18 checks a number of communication-possible LIU (Line Interface Unit) and initializes the index counter representing a message-registration table index. In step (b), the main controller 18 checks a message-registration table for messages to be dispatched by inspecting the index counter after execution of the step (a). In step (c), after executing the step (b), if there is no message to be dispatched message-registration table in the index indicated by the index counter, the main controller 18 increments the index counter by 1 and then checks whether a value of the incremented index counter is the same as a maximum index value, and if the values are the same, stopping the flow, and if not, returning to step (b). In the step (d), if there is a message to be dispatched; the main controller 18 loads and saves a relative-number and a file-number of the message-registration table to a transmit-result record table, and assigns the value of the index counter to a variable K and increases the variable K by 1. In step (e), after completing step (d), the main controller 18 checks whether there is a message to be dispatched within the content of the message-registration table pointed by the variable K. In step (f), after completing step (e), the main controller 18 increases the variable K by 1 and then checks whether the incremented index counter is the same as the maximum index value; upon completion of step (e), if there is no message to be dispatched in the message-registration table, and if the values are not the same, returning to step (e). In step (g), after completing step (e), if there is a message to be dispatched in the message-registration table index that matches the variable K, the main controller 18 checks whether there is a relative number matching with a value in a relative number column of a dispatch-result record table in the message-registration table, and if there is a matching relative number, proceeding to step (f) after recording a file number in a sending-file number column of the dispatch-result record table, and if there is no matching relative number, proceeding directly to step (f). In step (h), after completing step (e), if the variable K is the same as the maximum-index value, the main controller 18 decreases the call-possible LIU-Counter value by 1 and checks for value zero, and if it is zero, then concludes the flow, else, returns the flow to the step (b). 
     FIG. 3 is a memory unit map 12 required to execute the present invention. Diagram A represents message-registration tables in which message files are registered in their registration order. Diagram B shows the contents of the message-registration tables arranged according to relative-number, representing transmission-result tables which are updated whenever a message is dispatched. 
     FIG. 4 and FIG. 5 are change diagrams according to an embodiment of the invention in which: index is represented by (a), message-registration number is represented by (b), destination number of message (b) is represented by (c), and file number is represented by (d). 
     First, when a document is placed into the facsimile for transmission, the scanner 10 scans the document and the main controller 18 generates a table (described in the diagram A of FIG. 3) and loads the scanned message with the table to the memory unit 12 in file units. From this state, the execution of the present invention begins. For example, it is assumed that line the interface 14 of FIG. 1 has 8 LIU&#39;s and the document is registered in the memory unit 12 as in FIG. 4. In a step 20 of FIG. 2A, the main controller 18 checks whether there call-possible LIU&#39;s and if it is possible, in step 22, a given memory unit area is allocated and a LIU counter (representing a number of transmissible LIU) is incremented by 1. Also in step 24, a given memory unit area is allocated and the LIU counter is incremented by 1. In step 20, if the transmission to a LIU is not possible, the main controller 18 skips step 20 and executes step 24 is directly. In step 26, the main controller 18 compares the value of the LIU counter with a number of LIU&#39;s in the system and if it is the same, the transmissible LIU counter value is read, and then in step 28, the index counter that counts index marked on each file when the document is registered in the memory unit 12, is initialized to search from the initial part of message of the registered document. This index counter is also represented within the memory unit 12. In step 30, the main controller 18 determines whether there is a message to be dispatched by checking whether a first message-registration number in the index file indicated by the index counter is set as FF. If the first message-registration number is set as FF, the main controller 18 estimates that there is no message to be dispatched, and if not, then the main controller 18 estimates that there is a message to be dispatched. 
     When the main controller 18 estimates that there is no message to be dispatched in step 30, the main controller 18 accomplishes step 32, therefore the index counter is incremented by 1. And in step 34, a value of the index counter is compared with maximum-index value. The main controller 18 stops the execution if two values are the same, else the main controller 18 returns from step 34 to step 30 to check whether there are more to be dispatched. 
     In step 36, when there is a message to be dispatched in the message-registration table of index indicated by the index counter in step 30, the relative-number and the file-number from the message-registration table are loaded and then in step 38, they are registered to the transmission-result registration table. 
     The index counter serves as a search-index of the message-registration table (FIG. 3) and the index counter determines one relative-number for one LIU. A variable K is used to find a pre-assigned relative-number. 
     In step 40, the main controller 18 registers the value of the index counter to the variable K. In step 42, the main controller 18 increases the variable K by 1. Before incrementing the variable K, the index counter and the variable K have the same value of 0, and already completed a search for the message-registration table with the index value of 0, so it is necessary to increase the value of the variable K in order to begin a next search at the relative-number having an index value of 1. 
     In step 44, the main controller 18 checks whether there is a message to be transmitted of the message-registration table indexed by the variable K. If there is a message to be transmitted in step 46, the main controller 18 compares the relative-numbers of the content of message-registration table indexed by the variable K with the relative-number selected in step 36. If they have the same value, the file-number is registered to a transmission-result table and proceeds to step 50. However, the main controller 18 accomplishes step 50, if there is no message to be transmitted at step 44 or the relative-numbers obtained in step 36 and that the variable K of step 46 are different. 
     In step 52, the values of the variable K and the maximum-index are compared to determine whether further checking is required. If the value of the variable K is less than that of maximum-index, further search is required, thus execution returns to step 42, and step 42 to step 52 are repeated again. Else, if the value of variable K and the value of maximum-index are identical, the value of the transmissible LIU counter (increased at step 42) is decreased. At step 56, the main controller 18 checks whether the value of the LIU counter is 0. If the value is not 0, the main controller 18 returns the execution to the step 30, therefore the step 30 through 56 are repeated until the value of LIU counter reaches to 0. When the value of the LIU counter reaches 0, the execution terminates. 
     FIG. 5 shows the content of the transmission-result table following the foregoing operation. 
     The present invention has an advantage that, by accommodating multiport and memory-transmission function, can reduce overall communication time by dispatching messages having the same destination in one dial-up, thereby eliminates multiple dial process and initial control protocol to be found on a one-to-one basis communication. 
     While the invention has been particularly shown and described with reference to a preferred embodiment , it will be understood by those skilled in the art that modifications in detail may be made without departing from the spirit and scope of the invention.