Patent Publication Number: US-2003233476-A1

Title: Transmitter device message prioritization

Description:
FIELD OF THE INVENTION  
       [0001] The present invention relates generally to peripheral devices, and more particularly to prioritizing data to be sent by a transmitter device.  
       BACKGROUND OF THE INVENTION  
       [0002] Many peripherals to computer networks include a scanner component. One example of such a peripheral is an “All-in-one”, also known as a multifunction peripheral (MFP) in that it has the capability to perform the multiple functions of scanning hardcopy documents, copying, and printing. Another example is a digital network copier that scans in documents from an automatic document feeder, does high volume copying, and has the capabilities of binding, collating, folding, stacking, stapling, stitching, edge-trimming, paginating, and printing on substrates of varied composition. Each of these peripherals, when in communication with an interconnecting network, can also be described as being a digital transmitter device. A digital transmitter device is an appliance that has an input device (e.g. a keyboard), a display, and a scanner. The digital transmitter device need not have a printer. A digital camera is a type of digital transmitter device, but in comparison to the foregoing, it is not as useful for handling documents and typically lacks the resolution and ability to rapidly and repetitively transfer information after scanning to a repository.  
       [0003] In an exemplary digital transmitting operation, a hardcopy of a document or other physical object can be presented to the scanner portion of a digital transmitter device. After scanning, the digital transmitter device transforms the scanned image into a digital representation that is then saved in a data format, such as in a bit map data format or in a Portable Document Format (PDF). Electronic messaging can be used to send an electronic mail (e-mail) from the digital transmitter device with an attachment of the digitized representation in the data format. The e-mail message can be sent to recipients over an interconnecting network, where the recipients have an e-mail address that a user manually enters at the digital transmitter device or that a user specifies using a predefined defined list of recipient e-mail addresses that can be stored in a memory of the digital transmitter device.  
       [0004] After documents have been scanned into a digital transmitter device, the transformation of the scanned images on each scanned document into a digital representation format can be time consuming. This transformation process is also known as document composing. In a corporate or office environment where a digital transmitter device is heavily used, each user places a set of documents in the scanning mechanism to be scanned and then composed. If the number of scanned documents exceeds the capacity of the digital transmitter device to compose the scanned documents, a queue of scanned documents can build up as a bottle neck to the throughput of the digital transmitter device. Some users may have more urgent e-mail message to be sent then other users whose e-mail message is not time sensitive. It would be beneficial to enable the prioritization of e-mail message from a digital transmitter device according to the user&#39;s needs. Consequently, there is a need for improved methods, systems, and programs that can provide such a capability.  
       SUMMARY OF THE INVENTION  
       [0005] The above-stated needs and/or others are met, for example, by methods, systems, and programs for composing an image at a transmitter device from a scanned image. The scanned image is in a job in queue. The job has an e-mail address, a priority code not less than that of any other job in the queue, and a relative position higher than that of any other job in the queue that has the same priority code. An e-mail message that includes the composed image is transmitted from the transmitter device to the e-mail address.  
       [0006] These and other features of the present invention will become more fully apparent from the following description and appended claims, or may be learned by the practice of the invention as set forth hereinafter. 
     
    
    
     DESCRIPTION OF THE DRAWINGS  
     [0007] A more complete understanding of the various methods, systems, and programs of the present invention may be had by reference to the following detailed description when taken in conjunction with the accompanying drawings wherein the same reference numbers are used throughout the drawings to reference like components and features, and wherein:  
     [0008]FIG. 1 is a block diagram, according to an embodiment of the present invention, depicting a computing and communication environment having digital transmitter devices in a system environment suitable for providing local access to the digital transmitter devices.  
     [0009]FIG. 2 illustrates various digital transmitter devices that provide local access for input thereto according to an embodiment of the present invention.  
     [0010]FIG. 3 is a block diagram, according to an embodiment of the present invention, illustrating a digital transmitter device in communication through a wired or wireless link to an interconnecting network to which a server is also in communication.  
     [0011]FIG. 4 illustrates an example of menu pages that might be displayed on a touch sensitive menu screen of a digital transmitter device and transition sequences among the menu pages, according to an embodiment of the present invention.  
     [0012]FIG. 5 illustrates an example, according to an embodiment of the present invention, of a prioritization table for prioritizing e-mail message to be sent from a digital transmitter device.  
     [0013]FIG. 6 is a flow diagram, according to an embodiment of the present invention, depicting a method for use in a computing and communication environment having a digital transmitter device in a system as in FIG. 1, for example, in accordance with certain exemplary embodiments of the present invention. 
    
    
     DETAILED DESCRIPTION  
     [0014] The methods, systems, and programs described herein, according to various embodiments of the present invention, relate to the transmission of message data in an electronic mail (e-mail message) from a transmitter device to one or more e-mail address(es). When an e-mail message is sent from a digital transmitter device, message data attached to the e-mail message can include an image that has been composed or digitized from images of documents that were captured by the digital transmitter device using a scanning mechanism. The composition or digitizing process for the message data can be time consuming, depending upon various factors, such as the number of documents captured using the scanning mechanism. In the course of the operation of a digital transmitter device or a MFP, it is possible that a number of users will wish to scan in a stack of documents to be transmitted via e-mail to another digital transmitter device. This situation is typical in corporate environments where many users are often waiting to use a digital transmitter device. In order to satisfy the relative time sensitive needs of each user, each user is assigned a user ID. Each user ID is associated with an account having a certain amount of priority credit available to the user. The priority credit is an amount available to each user to prioritize an e-mail message the user wants to send over the priorities of other users.  
     [0015] When a user scans in a set of documents to a digital transmitter device to be sent in an e-mail message, the user also keys in his or her user ID and a priority code that is to be associated with the job of e-mailing the scanned documents. The digital transmitter device, or other network device, assesses a cost against the user&#39;s priority credit based upon the user&#39;s specified priority code for the e-mail message. The higher priority code that the user specifies, the higher the assessment against the user&#39;s priority credit.  
     [0016] In order to determined whether or not a user has sufficient priority credits remaining to send the scanned documents by e-mail with the priority code specified by the user, an inquiry is made to a location at which the users priority credit is stored, such as at a network device (e.g. a server) in communication with the digital transmitter device, or at the digital transmitter device itself. The inquiry can use the User ID as the code for accessing the storage location to obtain the balance of the user&#39;s priority credits. The storage location will preferably contain a priority credit account for each user ID on a particular network or for a particular digital transmitter device. Alternatively, the priority credit account file can contain the user ID and a respective priority credit balance for a plurality of digital transmitter devices that are in communication with a common interconnected network.  
     [0017] The result of the inquiry is the return of the balance of the user&#39;s priority credit to the digital transmitter device. The digital transmitter device then makes a computation of the cost of the priority code specified by the user for the scanned document e-mail job and determines whether or not there is sufficient balance remaining. If there is an insufficient balance left in the user&#39;s priority credit account, then the digital transmitter device will display a diagnostic indicating an insufficient balance for the specified priority code. The user then may input a lower priority code. This procedure can continue until a priority code has been input by the user for which there is a sufficient balance in the user&#39;s priority credit account. Upon acceptance, the balance of the user&#39;s priority credit account is updated to reflect a deduction for the specified priority code.  
     [0018] A routine to replenish the user&#39;s priority credit periodically, or upon another specific event, can also be implemented. For example, such replenishment can be based on the frequency that the user specifies high priority e-mail message transmissions at digital transmitter devices. As an alternative, the assessment process can be arranged such that no assessment is made of the user&#39;s priority credits in certain circumstances. For example, no assessment can be made when the user specifies one of the lower priority codes or when the user uses a digital transmitter device at a period of low usage, such as when there are no documents being composed or waiting to be composed.  
     [0019] The location of each user&#39;s priority credit data on a network can be quite diverse. For example, a digital transmitter device may function independently with each user&#39;s User ID and priority credit balance being maintained by the digital transmitter device. As such, the digital transmitter device would perform the calculations for each user to determine if a sufficient balance remains in the respective priority credit account to send an e-mail message with the priority code specified by the user. In this case, a query need not be made to another network device, such as a server, with which the digital transmitter device is in communication through an interconnected network. Exemplary System for Configuration of a Digital transmitter device  
     [0020]FIG. 1 illustrates an example of a system environment  100  suitable for implementing an embodiment of the present invention. The system environment  100  contemplates a plurality of digital transmitter devices  102 - 1  through  102 -N,  104 - 1  through  104 -N, and  106 - 1  through  106 -N. Each digital transmitter device  102 -i,  104 -i, and  106 -i is in communication with an interconnected network  108 . Interconnected network  108  is in communication with one or more server(s)  110 . Each server  110  can be an e-mail server that serves one or more e-mail addresses to which any digital transmitter device  102 -i,  104 -i, and  106 -i can send e-mail message.  
     [0021] Digital transmitter devices  102 -i,  104 -i, and  106 -i generally include peripheral devices and stand-alone devices. Peripheral devices include devices such as printers, scanners, copiers, and fax machines, or multifunction peripheral (MFP) devices that combine two or more peripheral devices into a single device. Stand-alone devices include certain peripheral devices that often function while uncoupled or isolated from other devices. Digital transmitter devices  102 -i,  104 -i, and  106 -i therefore include copiers, scanners and fax machines such as those shown in FIG. 2, discussed below.  
     [0022] Digital transmitter devices  102 -i,  104 -i, and  106 -i are generally distinguishable from devices such as laptop PCs (personal computers) and pocket PCs by their limited purpose and limited user interface or input/output capabilities. For example, a typical user interface for a digital transmitter device  102  includes a front menu panel with limited screen space and a limited number of buttons. In addition, a digital transmitter device  102 -i,  104 -i, and  106 -i is typically oriented toward performing one general task such as scanning. By contrast, devices such as laptop and pocket PCs often provide multiple and varied means of input/output such as a full screen display, a QWERTY keyboard, a trackball mouse, speakers, microphones, PCMCIA (Personal Computer Memory Card International Association) slots, portable media drives and the like. These devices are capable of performing multiple functions through executing various software applications such as word processing applications, spreadsheet applications, financial applications, network browsers and network messaging applications.  
     [0023] Interconnecting network  108  is representative of one or more communication links, either wired or wireless, that are capable of carrying data between server  110  and other network resources in communication with interconnecting network  108 . In certain exemplary implementations, interconnecting network  108  includes a local area network (LAN), a wide area network (WAN), an intranet, the Internet, or other similar network.  
     [0024] Local access to each digital transmitter device can be provided through an input device, such as a touch sensitive menu screen, at each digital transmitter device  102 -i,  104 -i, and  106 -i. A user accesses the input device via a user interface for the purpose of entering commands, a User ID, one or more e-mail addresses, message text, and a priority code for each e-mail message the user wishes to send. Alternatively, a default email address or a list of selectable e-mail addresses can also be stored at each digital transmitter device  102 -i,  104 -i, and  106 -i. Preferably, each digital transmitter device  102 -i,  104 -i, and  106 -i will have an imaging or scanning mechanism to receive images of an object. A document composer component in each digital transmitter device  102 -i,  104 -i, and  106 -i then can digitize the images of the scanned object. The composed documents can then be sent in a file attached to an e-mail message that is addressed to the input, default, or selected e-mail address from digital transmitter device  102 -i,  104 -i, and  106 -i through interconnected network  108  to one or more e-mail servers for the respective one or more e-mail addresses input or specified by the user.  
     [0025]FIG. 2 shows a variety of digital transmitter devices  102 - 1  through  102 - 9  that can be in communication with interconnected network  108 . Digital transmitter device  102 - 2  is intended to represent both a digital camera and a type of portable hand held scanner to capture and digitize images. The camera and the portable hand held scanner capture images is a fashion that can be mobile relative to the object from which the image is to be captured. Each of the camera and the portable hand held scanner can have a document composer component to digitize images captured thereby. Also shown are various multifunction peripherals (MFPs)  102 - 3  through  102 - 5 ,  102 - 7 , and  102 - 9 . FIG. 2 also depicts a facsimile machine  102 - 6 , a desk top scanner  102 - 8 , and a high volume copier  102 - 1  which includes some or all of the capabilities of printing on substrates of varied composition, binding, collating, folding, stacking, stapling, stitching, edge-trimming, and paginating.  
     [0026] The user of digital transmitter device  102 -i,  104 -i, and  106 -i as seen in FIG. 1 can transmit message data to interconnected network  108  by a wired or wireless link. A wireless link can be through an Infrared (IR) data connection or other wireless data connections such as the Blue Tooth protocol. The wireless link may be made through radio frequency (RF) or infra-red (IR) data ports. By way of example, digital transmitter device  102 -i,  104 -i, and  106 -i can include the capabilities of a cordless handset telephone, a cellular telephone, a personal digital assistant (PDA), a pager, a watch and the like, any of which is also capable of transmitting data in a wireless manner. A wired link can be performed through a USB data connection, a serial port connection, a parallel port connection or via other known data transmission standards and modes. The wired link may be implemented through standard RS232 cable, Universal Serial Bus (USB) cable, or Fire Wire™ connection data ports. As such, digital transmitter device  102 -i,  104 -i, and  106 -i can transmit by one or both of a wireless or wired link. Exemplary System for a Digital Transmitter Device in Communication with a Server  
     [0027] The system  100  of FIG. 3 includes digital transmitter device  102  as a peripheral device coupled by a wired or wireless link to interconnecting network  108  and to server  110  through interconnected network  108 . As such, FIG. 3 illustrates an embodiment of the system  100  of FIG. 1 in greater detail. In accordance with still other aspects of the present invention, digital transmitter device  102  may be included within a multiple function peripheral (MFP) device  319 . As its name implies, the MFP device  319  is configured to provide multiple functions. In this example, the functions provided by the MFP device  319  include those provided by digital transmitter device  102  and a printer device  313 . Consequently, the user of digital transmitter device  102  may also print out a hardcopy of any applicable portions of data stored or otherwise acquired by digital transmitter device  102 .  
     [0028] In general, digital transmitter device  102  uses a controller  300  to execute a program to compose documents from images that are captured by scanning documents or other objects using a scanning mechanism  305 . The program to compose documents can be stored in a memory  306  or in scanning mechanism  305 . Controller  300  also executes a program so as to transform data to a driver format suitable for printing with integral printer device  313 , such as a mark up language format (e.g. SMGL, HTML, or XML), or such as a job language format (e.g. PCL or postscript). Printer device  313  can have the capability of converting data and then outputting it onto an appropriate print media, such as paper, transparencies or glossy photo paper.  
     [0029] Digital transmitter  102  includes one or more CPUs  302 , each of which is operatively coupled to memory  306 , and a user interface that includes an input device. Preferably, the input device will be locally accessible at digital transmitter device  102 . By way of example, the input device can be a touch sensitive menu screen  310 . Digital transmitter device  102  also includes at least one communication port for interfacing with interconnecting network  108  through either a wired or wireless link.  
     [0030] When included in MFP device  319 , CPU(s)  302  would also be operatively coupled to printer device  313 , for example. CPU(s)  302  is representative of any hardware, firmware and/or software that is configured to perform certain functions associated with the operation of digital transmitter device  102 . Hence, as those skilled in the art will recognize, CPU(s)  302  may include dedicated logic and/or one or more processors configured in accord with software instructions, for example.  
     [0031] Memory  306  is representative of any type of data storage mechanism that can be accessed by at least CPU(s)  302 . Memory  306  may therefore include, for example, some form of random access memory (RAM), some form of read only memory (ROM), and/or other like solid-state data storage mechanism. Memory  306  may include a magnetic and/or optical data storage mechanism. Scanning mechanism  305  is representative of any optical scanner technology that may be employed to produce scanned object data upon scanning an object. Such scanning technologies are well known. The resulting scanned object data is provided to CPU  302  and/or stored in memory  306 .  
     [0032] Controller  300  of digital transmitter device  102  typically includes data processing unit or CPU  302 , a volatile memory  304  (i.e., RAM), and a non-volatile memory  306  (e.g., ROM, Flash). Digital transmitter device  102  also includes a device engine  308 . The touch sensitive menu screen  310  acts as a local user interface for digital transmitter device  102  by displaying menu pages and accepting user input based on selectable menu items displayed on the menu pages. The touch sensitive menu screen  310  can be used to display a menu page that asks for and receives the input of an e-mail address to which to image data that is scanned with scanning mechanism  305  is to be transmitted in an e-mail message via interconnected network  108 .  
     [0033] Controller  300  processes data and manages device functions by controlling device engine  308  and by responding to input from touch sensitive menu screen  310 . Device driver software in a device driver  312  can be stored in memory  306  and executed on CPU(s)  302 . Memory  306  also includes a server module  314  configured to serve menu documents to the touch sensitive menu screen  310 . The server module  314  is a local server in the sense that it is present within the same digital transmitter device  102  to which it serves menu documents.  
     [0034] Controller  300  includes a Priority Table  316  that is stored in memory  306 . Priority Table  316  keeps a balance for each user identification code (User ID). The balance reflects available priority credits to the User ID. Each time that a user specifies a priority code in sending an e-mail message, the user&#39;s balance is reduced as a function of the priority code specified by the user. Digital transmitter device  102  can be set up to initialize, replenish, or otherwise increment the balance of one or more priority credits corresponding to one or more User IDs. Alternatively, server  110  can perform this function.  
     [0035] Menu documents stored in memory  306  can be interpreted by the server module  314  and are configured to display textual and graphical information as menu pages on the touch sensitive menu screen  310 . The menu documents driving the menu pages can include script code that is associated with graphical keys. The term “script code” is intended herein to mean any one of a variety of different code types. Various kinds of code are contemplated. By way of example, the code can be implemented in embedded script code, in firmware, in a native code such as C++ code, or can be JAVA script. The code can be written in JavaScript code that is interpreted and executed on a Java Virtual Machine (JVM). The code can also be written in other script code languages such as VBScript or Perl.  
     [0036] Selecting a menu item by pressing a graphical key on the touch sensitive menu screen  310  triggers an event which causes a “virtual machine”  318  to interpret and execute the script code associated with the selected graphical key. The virtual machine  318  is a software module stored in memory  306  that executes on CPU(s)  302  to interpret and execute script code. The script code can be associated with selectable menu items (i.e., graphical keys or buttons). One menu item is configured to perform the task of initiating a scan of an image using scanning mechanism  305 . Another menu item is configured to perform the task of receiving input of a User ID, a priority code, and one or more e-mail address(es) to which e-mail message data is to be sent via interconnected network  108 . Still another menu item can be configured to perform the task of initiating a retrieval of an e-mail address that was previously stored in memory  306 . Memory  306  can optionally contain e-mail address information that can be requested to be displayed upon touch sensitive menu screen  310 . When the e-mail address information is retrieved from memory  306 , the user can select a displayed e-mail address to which an e-mail message will be transmitted over interconnected network  108  to another digital transmitter device  104 -i or  106 -i as seen in FIG. 1. Alternatively, the user can directly enter a specific e-mail address into the digital transmitter device  102  using touch sensitive menu screen  310 . Controller  300  executes processes resident in a communicative link interface for transmission over a wired and/or wireless link to interconnected network  108 .  
     [0037] When a user enters a command displayed upon touch sensitive menu screen  310  to start a scanning operation, the user places a set of documents into a sheet feeder device associated with digital transmitter device  102 . The sheet feeder device then physically serves each sheet in the set of documents to scanning mechanism  305 . CPU  302  then generates a bit map or other output that is a digital representation of the scanned documents in a document composition process. The document composition process digitizes the scanned object data so that it can be included in e-mail message data as an attached file. It is preferred that digital transmitter device  102  be able to perform a variety of document composition routines for a plurality of data formats, including Portable Document Format (PDF) formatted data, graphical image file format (GIFF) formatted data, tagged image file format (TIFF) formatted data, Joint Photographic Experts Group (JPEG) formatted data, bit-map formatted data, optical character recognition (OCR) related data, American Standard Code for Information Interchange (ASCII) formatted data, and/or other forms of encoded data, including, e.g., encrypted data, etc.  
     [0038] When the user enters a command displayed upon touch sensitive menu screen  310  to enter or retrieve an e-mail address, digital transmitter device  102  coordinates the input of the e-mail address. Controller  300  then executes a user message compositing routine, preferably stored in memory  306 , that assembles message data. The message data so assembled includes the e-mail address input or otherwise designated by the user, the bit map or other output that is a digital representation of the scanned documents, and can also include any message text entered by the user upon touch sensitive menu screen  310 . The message data is then sent by a wired and/or wireless link to interconnected network  108 . From interconnected network  108  a communication is established with an e-mail server that is also in communication therewith. The e-mail server provides the email address to which the e-mail message from digital transmitter device  102  is to be sent. By way of example server  110  can, but need not, function as the e-mail server of any e-mail message address of digital transmitter devices  102 -i,  104 -i, and  106 -i seen in FIG. 1. A server in communication interconnected network  108 , other than server  110 , can be the e-mail server for e-mail addresses associated with digital transmitter devices  102 -i,  104 -i, and  106 -i.  
     [0039] CPU(s)  302  is configured to perform the operations described above using various executable modules of memory  306 , such as an e-mail address storage/retrieval routine, a communicative link interface routine, and a user message compositing routine, any of which can each be implemented in software or firmware.  
     [0040] In one embodiment of the invention, an e-mail address storage/retrieval routine executing on CPU(s)  302  receives input of an e-mail address from a user at touch sensitive menu screen  310  or retrieves a list of stored e-mail addresses. The list of e-mail addresses are displayed on touch sensitive menu screen  310  in a hierarchical list. The list can be sorted alpha-numerically. The user can either select from among the displayed e-mail addresses or input the characters of a specific e-mail address using a ‘drill-down’ function of the menu, as discussed below with respect to FIG. 4. The drilldown menu format and the displayed list of retrieved e-mail addresses assist the user in locating an e-mail address of interest.  
     [0041]FIG. 3 shows server  110  in communication with interconnected network  108  and having a processor  328 , a volatile memory  330 , and a memory  332 . Memory  332  includes a device driver  320 , a server module  322 , a User Accounts File  324 , and application routines  326  for storage of software. While priority table  316  in digital transmitter device  102  can be used as a repository for all User IDs and a respective balance of priority credit therefore, it is also contemplated that User Accounts File  324  in memory  332  of server  110  can be a repository for all User IDs and a respective balance of priority credit therefore. In this case, server  110  maintains the User ID and the priority credits for each User ID over which sever  116  is intended to have monitoring responsibility. Application routines  326  is a storage location for programs that can be executed by processor  328  on server  110 . One such routine is a routine to maintain the contents of the User Accounts File  324 , discussed below with respect to FIG. 5.  
     [0042] As mentioned above, a user interface device can be used to accept the input of an e-mail address from a user at the digital transmitter device. By way of example, a sequence of menus that can be displayed upon touch sensitive menu screen  310  of digital transmitter device  102  are seen in FIG. 4. The menus depicted in FIG. 4 illustrate a ‘drill-down’ function. A menu screen  402  is displayed upon touch sensitive menu screen  310  of digital transmitter device  102 . Menu screen  402  shows various options to be selected by a user of digital transmitter device  102 . Additionally, menu screen  402  shows that the user has already input the User ID A93B and a Priority Code of 9 using touch sensitive menu screen  310 .  
     [0043] When the user selects option “1” on menu screen  402 , digital transmitter  102  activates scanning mechanism  305  to scan in documents as discussed above. When the user selected option “3”, menu screen  404  is displayed to receive input from the user directly entering each character of a desired e-mail address using virtual buttons displayed upon menu screens  404 - 406 .  
     [0044] After menu screen  402 , menu screen  404  is displayed upon touch sensitive menu screen  310  of digital transmitter device  102 . Menu screen  404  shows a practical example of a user selecting characters for a desired e-mail address. Menu screen  404  is presented by script code executing in CPU(s)  302  that allows the user to see alphabetic and symbolic characters by depressing virtual buttons  1004  to move forward and backward through a displayed hierarchical list of available alphabetic and symbolic characters. Script code executes in CPU(s)  302  to enable a user to select a displayed character by depressing virtual button  1006 . The user can select a sequence of characters by depressing virtual buttons  1004  to thereby move forward and backward through the sequence of characters. Alphabetic and symbolic sequences of characters can be selected by the user on menu screen  404 . By depressing virtual button  1006 , the user can select a particular sequence of characters that is displayed. Menu screen  404  shows that a user has entered a partial e-mail address “SHENRY@URL.C”.  
     [0045] As seen in menu screen  406 , the sequence of characters ‘M-P’ has been selected by the user by depressing virtual button  1006 . The user then selects one character of characters M-P by depressing virtual buttons  1004  to thereby move forward and backward through the characters M-P. Menu screen  406  shows that the characters “O” and “M” where selected from the characters M-P so as to complete the desired e-mail address “SHENRY@URL.COM”. Then, when virtual button  1006  is depressed on menu screen  406 , the user sees a transition to menu screen  408  where a diagnostic can be displayed. In this case, the diagnostic shows that the e-mail message transmission has been scheduled and that User ID has a remaining balance of 429 priority credits after a deduction has been made for sending a priority ‘9’ e-mail message from the digital transmitter device.  
     [0046] As an alternative to the foregoing sequence of menu screens and displays thereon, menu screen  402  can reflect the result of a query to server  110 , as seen in FIG. 3, and then a display of the remaining balance of priority credits for User ID A93B prior to an e-mail message that is to be sent with a priority code of 9.  
     [0047] After menu  408 , a transition is made back to menu screen  402  where the user can enter another command as discussed above. In transmitting the e-mail message, digital transmitter device  102  composes the scanned document(s) and assembles message data to be sent in an e-mail message through interconnecting network  108  to the e-mail address that was selected or otherwise entered by the user, as discussed above. Other virtual buttons displayed on the touch sensitive menu screen  310  are also contemplated in order to provide for the initiation of other or additional functions by the user, such as an item virtual item button  1008  seen in FIG. 4.  
     [0048]FIG. 5 shows one example of the contents of priority table  316  of memory  306  of digital transmitter device  102 . The table of FIG. 5 shows positions 1 through N and also shows job sequences A through P. Also seen in FIG. 5 is the job being processed in each Job Sequence. As seen in the first column of table of FIG. 5, the job being processed at Job Sequence A has a priority code of 9. Also seen in the first column of table of FIG. 5 is that Job Sequence A has a queue that includes: in position 1 a priority job 10; in position 2 a priority job 1; in position 3 a priority job 3; in position 4 a priority job 2; in position 5 a priority job 8; in position 6 a priority job 9; in position 7 a priority job 7; and in position 8 a priority job 5; etc. Job Sequence B shows that a job having priority 10 is being processed. Job Sequence B also shows that there are two jobs that have number 9 priority codes.  
     [0049] The process for determining which job in any of Job Sequences A through P will be processed is as follows. When the digital transmitter becomes available to compose documents for a set of scanned in documents in a job, the job that will be selected for the next Job Sequence will be that job in the current Job Sequence that has a priority code that is not less than that of any other job in the queue, and that has a relative position higher than that of any other job in the queue that has the same priority code. When a user scans in a set of documents, the position that the user&#39;s job takes in a job sequence column of the table of FIG. 5 is the lowest numbered position. As subsequent sets of documents are scanned in to create new jobs, each new job takes the lowest numbered position (e.g. position number 1) and the previously scanned job is incremented by one position (e.g. position number 2). Thus, the position 1 becomes position 2, the position 2 becomes position 3, and the position 4 becomes position 5, etc. As such, when the digital transmitter device becomes available to compose the documents of scanned in documents, the job that is selected to be composed will be that job that has a priority code that is not less than that of any other job in the queue, and that has a relative position higher than that of any other job in the queue that has the same priority code. When two entries in one Job Sequence column have the same priority, where one job has a higher numbered position than the other, then the job with the highest numbered position will be the job processed by the digital transmitter device. A job in a Job Sequence that has a higher priority code and a lower numbered position will be processed before another job in the same Job Sequences that has a higher numbered position and a lower priority code.  
     [0050] A review of FIG. 5 reveals that jobs having a priority code of 1 are performed last and jobs having a priority code of 10 are performed first. By way of example, Job Sequence D shows a priority code 8 at positions 9, 6, and 1. As such, the job at position 9 will be processed in Job Sequence E since the tie is won by the highest numbered position. Job Sequence H shows the highest priority code to be 5 at position 5. As such, the job at position 5 will be processed in Job Sequence I since it has the highest priority code in Job Sequence H.  
     [0051] Exemplary Embodiment of Digital Transmitter Device Capture and Prioritized E-Mail  
     [0052]FIG. 6 shows a flow diagram, according to an embodiment of the present invention, depicting a method for using a digital transmitter device. With this in mind, CPU(s)  302  can be configured to perform the operations described below. By way of further example, a flow diagram is depicted in FIG. 6 to illustrate certain exemplary functions that can be performed using CPU(s)  302  and the other resources in digital transmitter device  102 . Here, a process  600  is provided.  
     [0053]FIG. 6 illustrates a process  600  performing a routine for prioritizing jobs to be sent via e-mail by a digital transmitter device. The method begins at step  602  which directs a process flow to step  604 . At step  604 , a query is made as to whether the scanning mechanism of the digital transmitter device is ready. If so, the process  600  moves control to step  606  where digital transmitter device  102  displays a prompt on touch sensitive menu screen  310 . In order to display the prompt, it is preferable that the server module  314  of memory  306  in digital transmitter device  102  provides a menu page that is stored in memory  306  to CPU  302  for execution of script code. The script code being executed by CPU  302  effects a function to be performed by digital transmitter device  102 , such as receiving input from a user that is entered upon touch sensitive menu screen  310 , or the initiation of a function by the user depressing a function related virtual button that is displayed on touch sensitive menu screen  310 . The script code will preferably be executed in conjunction with an interpretation of the menu page. Note that in certain implementations, the menu page can be directly interpreted by script code executing on CPU  302  without any prior storage in menu documents in memory  306  or use of server module  314  in digital transmitter device  102 .  
     [0054] If, at step  604  the scanning mechanism is not ready, then the process flows to step  618 . If the scanning mechanism is ready to scan a first or a subsequent set of documents, then the process control moves to step  606  where the user is prompted to enter various input upon a user interface to the digital transmitter device. By way of example, such a user interface could be touch sensitive menu screen  310  of digital transmitter device  102  as seen in FIG. 3. The user enters, at step  608 , a User ID, one or more e-mail addresses, a priority code, and an optional text message to be sent with the e-mail message. It is determined at step  608  whether or not the user has made input to the user interface. If the user has not made input to the user interface then the process  600  passes control to step  618 . If, however, user has made input using the user interface at step  606 , then the process moves to step  610 .  
     [0055] At step  610 , a network device, such as server  110  seen in FIG. 3, is queried to determine whether or not the input User ID has a high enough balance of priority credits to send the requested e-mail message given the input priority code. By way of example, User Accounts File  324  of memory  322  in server  110 , as seen in FIG. 3, can be queried to obtain the priority credit balance for the respective User ID and thereby determine whether or not there is sufficient balance remaining in the respective User&#39;s account. If the remaining balance is not sufficient given the input priority code, then a diagnostic is displayed to the user on the user interface at step  616  and the process  600  returns control to step  604 . If there is sufficient balance remaining, then process  600  proceeds to step  612  where the scanning mechanism scans in the documents at the scanning mechanism for storage at the digital transmitter device.  
     [0056] Process  600  then passes control to step  614  where the scanned image takes on a representation in a priority table. The representation takes the lowest position in the table with the priority code that was input by the user. An example of this table has been discussed above with respect to FIG. 5. After step  614 , process  600  passes control to step  618  where it is determined whether or not the image composer component of the digital transmitter device is ready to compose another set of scanned in documents for subsequent e-mail message transmission. By way of example, digital transmitter device  102  has in memory  306 , and/or scanning mechanism  305 , algorithms, software, firmware, or other process control means for composing documents, as was discussed above.  
     [0057] At step  614 , it is determined whether or not digital transmitter device  102  is prepared to compose another set of documents from a previously scanned set of documents. Process  600  then proceeds to step  620  where the priority table  316  in memory  306  is queried to determine, for a particular Job Sequence in the priority table  316 , which job is to be composed next. The priority code and relative position of each job in the forthcoming Job Sequence is examined to find the job that has a priority code that is not less than that of any other job in the queue, and that has a relative position higher than that of any other job in the queue that has the same priority code. At step  622 , the image composer component of the digital transmitter device composes the documents using the set of scanned documents for the selected job from step  620 . At step  624 , an e-mail message is assembled and transmitted to the one or more e-mail addresses input by the user at step  606 . Attached to the e-mail message is a file containing the composed document containing the digitized images of the set of scanned documents for the job. After the transmission of the e-mail message to step  620  at step  624 , the process returns to step  618  where another query is made as to whether or not the image composer is ready for another document. If the image composer is determined not to be ready at step  618 , then the process  600  passes control to step  604  for a query as to whether the scanning mechanism is ready to scan another set of documents.  
     [0058] Process  600  repeats the foregoing procedure. The procedural repetition enables documents to be scanned when the scanning mechanism of the digital transmitter device is ready. The repetition also sequences jobs for submission to the image composer component of the digital transmitter device when it is available. When such availability of established, the next job is determined by priority and position, and the corresponding set of scanned in documents are composed for subsequent attachment to an e-mail message and transmission to one or more e-mail addresses input by the user upon the user interface of the digital transmitter device.  
     [0059] The foregoing Detailed Description has set forth an example of transmitting an email message from a digital transmitter device. Embodiments of the present invention contemplate other types of data that can also be addressed and transmitted by a transmitter device to an electronic address, including those now known and those yet to be developed. As such, and in addition to an e-mail message transmission, embodiments of the present invention include a transmission from a digital sender device to an electronic address that includes an address of a network resource on a network and a destination location thereat. By of example, and not by way of limitation, the electronic address can be a file folder address at a server on a network and can also be a Web site address at a server on a network.  
     [0060] Thus, although some preferred embodiments of the various methods, systems, and programs of the present invention have been illustrated in the accompanying Drawings and described in the foregoing Detailed Description, it will be understood that the invention is not limited to the exemplary implementations disclosed, but is capable of numerous rearrangements, modifications and substitutions without departing from the scope of the invention as set forth and defined by the following claims.