WO2003083685A1 - Method and system for electronic commingling of hybrid mail - Google Patents
Method and system for electronic commingling of hybrid mail Download PDFInfo
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- WO2003083685A1 WO2003083685A1 PCT/US2003/005709 US0305709W WO03083685A1 WO 2003083685 A1 WO2003083685 A1 WO 2003083685A1 US 0305709 W US0305709 W US 0305709W WO 03083685 A1 WO03083685 A1 WO 03083685A1
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Classifications
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07B—TICKET-ISSUING APPARATUS; FARE-REGISTERING APPARATUS; FRANKING APPARATUS
- G07B17/00—Franking apparatus
- G07B17/00016—Relations between apparatus, e.g. franking machine at customer or apparatus at post office, in a franking system
- G07B17/00024—Physical or organizational aspects of franking systems
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F40/00—Handling natural language data
- G06F40/10—Text processing
- G06F40/166—Editing, e.g. inserting or deleting
- G06F40/174—Form filling; Merging
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L51/00—User-to-user messaging in packet-switching networks, transmitted according to store-and-forward or real-time protocols, e.g. e-mail
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L51/00—User-to-user messaging in packet-switching networks, transmitted according to store-and-forward or real-time protocols, e.g. e-mail
- H04L51/42—Mailbox-related aspects, e.g. synchronisation of mailboxes
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07B—TICKET-ISSUING APPARATUS; FARE-REGISTERING APPARATUS; FRANKING APPARATUS
- G07B17/00—Franking apparatus
- G07B17/00016—Relations between apparatus, e.g. franking machine at customer or apparatus at post office, in a franking system
- G07B17/00024—Physical or organizational aspects of franking systems
- G07B2017/00072—Hybrid mail, i.e. mail delivered using different physical means along the mail delivery path, e.g. email and envelope
Definitions
- the present invention relates to distributed hybrid mail. More particularly, it relates to electronic commingling of hybrid mail transmitted electronically.
- Hybrid mail has been utilized since about 1970.
- Hybrid mail consists of variable data and fixed information.
- Variable data includes that which varies from letter to letter, such as name and address.
- Fixed information includes, for example, the format and content of the letter.
- Hybrid mail is traditionally produced using a central facility. Most of these central facilities typically utilize a large main frame computer at the central facility to control the processing of producing hybrid mail.
- Hybrid mail can be processed in a number of different ways. In one conventional scheme, such as that described in U.S. Patent No. 5,802,530 to Sansone, a message that is intended to become a part of a batch of hybrid mail for a particular mass mailing is input and processed at a central computer.
- the central computer matches variable data with the fixed information and creates a printable image in an electronic file for each hybrid mail piece.
- the entire printable image for each hybrid mail piece, including all of the fixed and variable information, is distributed in a spoke and hub method from the central computer to print facilities. Each of those finished mail pieces in that batch are printed, then presorted and mailed.
- the image data transmitted from the central computer to the print facilities includes both fixed and variable data. It has been observed that the fixed data that is included in a hybrid mail piece constitutes about seventy percent (70%) of a letter while the variable data constitutes only about thirty percent (30%) of the information. The amount of data that must be transmitted to the print facilities can be quite large. A significant drawback to the above-described system is that the majority of this data is fixed data, and hence the repeated transmission of this fixed data is redundant and therefore wasteful. A second technique for processing hybrid mail is described in U.S. Patent
- No. 5,918,220 also to Sansone.
- this technique it is possible to send a set of parameters, which includes address data and text identifying data or the text itself, to a print facility.
- text identifying data When text identifying data is sent, it is used to select text that is stored locally at the print facility. While this system does provide the ability to eliminate duplicate data, it requires each print facility to store text locally. This creates a problem when a text selection must be changed as the change must be made at each print facility. Additionally, when the text is confidential, the existence of copies at multiple print facilities presents a security risk.
- customers send mail jobs (comprised of a plurality of variable data including addresses to which mail pieces are to be delivered) to one of several gateways where the variable data is sorted, for example by geographic location of the addresses.
- the gateway then partitions the mail job among one or more Mail Production Facilities (MPFs), which are geographically diverse, and sends a corresponding portion of the variable data to one or more MPFs.
- MPFs Mail Production Facilities
- an MPF receives variable data from a gateway
- the MPF requests fixed data from a central System Management Facility (SMF) that serves all of the MPFs, and the SMF transmits the fixed data to the MPF.
- SMF System Management Facility
- the MPF merges the variable data with the fixed data and uses the merged data to form a print file, which contains images of each page to be printed.
- the print file is then printed to create the mail piece.
- the variable data is preferably buffered in the MPF for a period of time and is then discarded by the MPF. In this manner, security and ease of update for fixed data is maintained while avoiding the wastefulness associated with repeated transmission of fixed data.
- the new system described above represents a significant advance in hybrid mail processing.
- the system does not particularly address another aspect of hybrid mail that is of importance to senders of such mail, namely, achieving the lowest possible postage rate for a given sender's mail jobs.
- discounts in postage rates can be achieved by presorting mail pieces into bundles in accordance with one or more parameters such as the zip code's first three digits, the full zip code, the so-called zip+4 code, and the carrier route.
- all mail pieces in a given bundle may have the same zip code or zip+4 code.
- the number of mail pieces in the bundle must exceed a certain threshold.
- a drawback of this system is the requirement of transporting the printed mail pieces to the shared facility, not to mention the need for complex machinery to physically commingle mail pieces that may be of various sizes and configurations.
- the present invention addresses the aforementioned needs by providing a system and method for electronically commingling hybrid mail jobs.
- a method comprises steps of: receiving at a hybrid mail facility a plurality of mail jobs from a plurality of senders, each mail job comprising variable data corresponding to a plurality of mail pieces to be produced; generating an electronic data file for each mail job based on the variable data thereof, such that there are a plurality of said electronic data files; and composing a commingled print file from the plurality of electronic data files, the commingled print file containing images to be printed for each of the plurality of mail jobs, the images including variable data and fixed data.
- a separate print file for each mail job is created using the variable data.
- the print file contains printable page images, including variable and/or fixed data, for each page in each mail piece (excluding pre-printed inserts).
- a journal file is created.
- the journal file includes an entry for each mail piece in the mail job. The entry includes the address information and the location in the print file of the page images for the mail piece. Because the print file is created separately for each job, there is no chance that variable data from one customer will be combined with fixed data for another customer. This feature greatly enhances security and accuracy.
- the print and journal files are commingled. That is, the print files from separate jobs are combined, using the journal files as an index, such that a single print file including mail pieces from separate mail jobs (customers) is created.
- presorting is performed before or after the print files are commingled.
- the step of presorting includes assigning a container code to each mail piece, the container code indicating which of a plurality of mail containers the mail piece is to be placed in after the mail piece is finished.
- the journal files are commingled to produce a commingled journal file, the commingled journal file is presorted, and then a commingled print file is composed based on the presorted commingled journal file.
- the result is a single presorted print file composed of multiple mail jobs.
- Performing the presort on the commingled jobs as a whole allows greater cost savings to be realized.
- Prior to the present invention mail jobs were run separately and manually commingled after all jobs were completed. This manual process was time consuming and therefore expensive. By electronically commingling the mail jobs, significant cost reductions may be realized.
- a unique identifier is assigned to each image in a mail piece such that each printed page in the finished mail piece includes the identifier.
- the identifier on each page is read before inserting the page into an envelope to ensure that the page is inserted into the correct envelope.
- Further preferred embodiments of the present invention provide for commingling of mail jobs that cannot be processed by the printer and/or inserting equipment at the same time.
- Standard high speed printers used in the hybrid mail industry are only capable of printing on a single type of paper at one time.
- Standard inserting equipment is limited in that only a limited number of envelope configurations and a limited number of different inserts can be handled by the insertion equipment at any one time. Therefore, when separate mail jobs are commingled, it may not be possible for the printer and/or the insertion equipment to handle all of the different print paper, inserts and envelopes required. This is accounted for by assigning classes to jobs. The class defines all of the paper, insertion, and envelopes requirements for a job.
- the electronically commingled print and journal files are formed, they are broken down into divided files by class.
- classes for jobs are such that more than one class may be handled by the printer and insertion equipment at the same time, those jobs are placed in the same divided files.
- the printer and insertion equipment are configured for the first divided files, the divided files are printed and processed by the insertion equipment, the insertion machine is then reconfigured and subsequent divided files are processed until all mail pieces in the original commingled file have been completed.
- the mail pieces from each of the divided files are directed toward containers such as letter trays in such a manner that the separate classes of print jobs are automatically commingled.
- mail pieces from a first print job are directed toward trays such that spaces are left in the trays for mail pieces from subsequent mail jobs in different classes. The result is that a single tray may include mail pieces from different classes.
- a system for processing hybrid mail comprises a network of processing facilities operable to receive first variable data from a first customer and merge the first variable data with fixed data to form a first print file containing first images to be printed, to receive second variable data from a second customer and merge the second variable data with fixed data to form a second print file containing second images to be printed, to combine the first and second print files into a single commingled print file containing the first and second images, and to print the commingled print file to produce pages for insertion into finished mail pieces, whereby electronic commingling of customers' mail jobs occurs only after the images are created.
- the system includes a plurality of gateways each operable to receive sets of variable data from one or more customers.
- the system also includes a first processor that splits each set into a plurality of split variable data sets in accordance with at least one criterion for distribution of the variable data (e.g., geographical location for which the mail pieces are destined), and distribute the split variable data sets to a plurality of mail processing facilities based on the distribution criterion.
- the system further includes a plurality of mail processing facilities each including a second processor, a printer, and an inserter.
- the second processor composes a separate print file for each split variable data set received, combines the separate print files into a commingled print file, inserts a mail piece identifier into at least one image of each mail piece in the print file, divides the print file into a plurality of divided print files based on a class associated with each set of images, and transmits the divided print files to the printer for printing.
- FIG. 1 is a block diagram of a distributed hybrid mail system in accordance with one preferred embodiment of the invention
- FIG. 2 is a diagrammatic representation of a mail processing facility
- FIG. 3 depicts processes performed at a gateway
- FIG. 4 depicts processes performed at a mail processing facility
- FIG. 5 is a data flow diagram illustrating composition and file generation
- FIG. 6 is a data flow diagram illustrating electronic commingling
- FIG. 7 is a data flow diagram illustrating class division.
- a distributed hybrid mail system 10 includes a plurality of mail production facilities (MPFs) 1, at least one system management facility (SMF) 3, and a plurality of customer gateways 9.
- the customer gateways 9 provide an entry point through which customer computers 8 may send variable data to the system 10.
- the gateways 9 may be physically located at the customer site or elsewhere, including the location where the SMF 3 or any MPF 1 is situated.
- each customer is assigned a unique gateway 9, although it is possible for customers 8 to share a gateway, such as the gateway 9 shared by customers A and B. Communications between the various facilities of the system 10 may accomplished using conventional communications technology and are preferably secure.
- the SMF 3, which acts as the central point for coordinating mail jobs preferably comprises a processor and mass storage devices such as hard disks or RAID
- each MPF 1 preferably comprises a processor 100 and associated mass storage device, a printer 102 connected to the processor to receive images to be printed, and an inserter 104, which performs the tasks associated with placing the material output by the printer and associated inserts into envelopes. Tasks that are advantageously performed by the gateways 9, SMF 3, and MPFs 1 are discussed below.
- an incoming mail job from a customer computer 8 is received at that customer's assigned gateway 9.
- the incoming mail job includes an identification of the customer, an identification of the application program (described in detail below) associated with the mail job, and the variable data for that mail job.
- a process referred to in the art as hygiene 201 preferably is performed on the variable data.
- hygiene process a process referred to in the art as hygiene 201 preferably is performed on the variable data.
- the address information undergoes CASS (Coding Accuracy Support System) certification under available standards. Special discounts are available from the U.S. Postal Service for mail pieces that are coded with certain information including the five digit zip code, zip+4 code, the delivery point code and the carrier routing code. In order to take advantage of this discount, however, this information must be CASS certified for accuracy periodically, currently at least once every 6 months (that is, the zip code and other information for each street address in a mail job must have been CASS certified at least once in the preceding six months). In the CASS certification process, the street address information for a mail piece is compared against a database provided by the USPS.
- CASS Coding Accuracy Support System
- the correct five digit zip code, zip+4 code, the delivery point code and the carrier routing code for the street address are determined and the variable data from the customer is updated with the co ⁇ ect information as necessary.
- the CASS certification is preferably performed for each street address in the mail job. For non- U.S. Postal Service mail, other standards or certification processes may be performed to "scrub" the mail job. The step of performing hygiene 201 may be omitted, but there is likely to be reduced quality.
- address correction 203 is performed in preferred embodiments.
- address correction in the U.S. is accomplished using the FAST FORWARD database provided by the USPS.
- FAST FORWARD database provided by the USPS.
- a number of other methods for correcting addresses are known and may be used.
- non-U.S. addresses may be corrected using known methods.
- Address correction is also preferably performed for each name in the mail job. Performing address correction for each name as it is received represents a dramatic improvement over known systems and helps to ensure the accuracy of the mail job.
- each mail piece of each job is assigned to one of a plurality of different classes based on the resources required to print the pages of the mail piece and insert the pages into an envelope. For example, some mail pieces may require one type of envelope while other mail pieces may require a different type of envelope; likewise, the paper on which the mail pieces are to be printed may be different for the various pieces, and different pre-printed inserts may be required for the various pieces.
- Each class defines the set of resources required to produce the mail pieces of that class.
- the incoming mail job then undergoes a splitting process 205 in which it is split into smaller mail jobs that are sent to individual, geographically distributed MPFs.
- the variable data is therefore broken down into smaller mail jobs according to the geographic destinations of the mail pieces such that the jobs can be sent to various MPFs closest to the respective destinations, which serves to reduce mail delivery time.
- the mail job may be redirected to another MPF 1 that has the requisite processing capabilities to handle the job.
- the SMF 3 preferably keeps track of the processing capabilities and work load of each MPF 1 in order to make this decision.
- the split variable data is received at one of the MPFs 1. There the data undergoes a number of processes, including composition/file generation as indicated at 207.
- the processor 100 at an MPF receives variable data, it first determines the fixed data associated with the mail job.
- the fixed data is associated with an application program that inserts or merges variable data for each mail piece with the fixed data to create printable page images for each mail piece in the mail job.
- the processor 100 requests the appropriate application program and associated fixed data from the SMF 3 (illustrated in FIG. 1).
- the SMF 3 provides central storage for application programs and associated fixed data in the preferred embodiment.
- Maintaining the application programs at the SMF 3 is preferable to maintaining application programs at the individual MPFs 1 for at least two reasons. First, this simplifies the implementation of changes in an application program, as it is not necessary to update each copy of the application program and associated fixed data at multiple remote MPFs 1; second, the security of the fixed data and the application program is enhanced as multiple copies of the application program and fixed data are not stored at the various MPFs. Nevertheless, it is possible to maintain the application program(s) and fixed data at the MPF 1.
- the application program is created in advance when a customer first arranges to have mail jobs processed by the system 10.
- the same application program may be used for many jobs, such as when a credit card company sends out monthly bills which are prepared each month using the same application program with a different set of variable data.
- the application program in the processor 100 merges the fixed data 301 with variable data 303 and creates an image of each page to be printed for each mail piece in the mail job, and stores each image consecutively in a print file 311.
- the stream of collective image data which is referred to herein as a print file, is also sometimes referred to as a print data stream.
- Image data is utilized in the preferred embodiment for several reasons, including the fact that high speed printers readily and most rapidly handle image data.
- the process by which the images are created which is sometimes referred to in the art as composition, is indicated by element 207 in FIG. 4.
- Customer data may be received in a variety of formats. Examples of two possible formats are shown below in Table 1 :
- the fixed data 301 for each mail piece in a mail job may be the same or may be different. If portions of the fixed data are different, customer codes in the variable data define which portions of the fixed data are to be included in a particular mail piece. In Table 1, the Page Code in Format 1 and the Key Code in
- processor 100 running the application program also creates an IDF file 307 and a journal file 309. These files will be described in detail below.
- journal file 309 the application program translates the variable data for the mail job from the customer's format to a standard format and stores this standardized information in the journal file.
- the journal file includes a separate record for each mail piece in the mail job.
- journal file 309 includes a pointer or an address of the starting location in the print file 311 of each mail piece as well as the number of pages in each mail piece. In this manner, the journal file 309 acts as an index into the print file such that the individual pages of data that comprise a mail piece can be accessed. It should be noted that the journal file 309 is not static; rather, it is updated and added to by subsequent processes as described further below. Table 2 is an example of a journal file:
- the first 15 fields represent the journal file created by the application program and include preferred, but optional, fields. The remaining fields are added during subsequent processing.
- VectorOffset and Pagelmpr fields correspond to the starting address and pages information.
- the other file created by the application program is the IDF file 307.
- the IDF file 307 is used to control the insertion machinery and track each page of each mail piece.
- each printed page of each mail piece includes a unique identifier such as a bar code and/or alphanumeric symbol embedded thereon that identifies the particular page and mail piece.
- the 307 includes a separate sequential record for each page of each mail piece.
- the record lists the unique identifier for each mail page.
- the inserter reads the identifier for that page and compares it to the identifier in the co ⁇ esponding record of the IDF file 307. If the identifier from the printed page does not match the identifier in the IDF file 307, an error is declared and the mail piece is rejected.
- the IDF file 307 also includes a definition of which inserts are associated with that mail piece.
- inserts are used to refer to pieces that are prepared in advance of the printing of the mail job and are inserted into the same envelope as the pages printed during the mail job.
- a finished mail piece such as a credit card bill typically includes one or more pages printed during the mail job, such as the pages that have the individual account holder's address and charge transactions (variable data) printed on them along with other information such as the credit card issuer's address, logo, and payment terms (fixed data).
- the finished mail piece also includes a number of inserts such as a preprinted sales offer (e.g., an offer to join a discount shopping club) and a preprinted return envelope (referred to in the art as a customer reply envelope or CRE) in which the account holder's check and a portion of the statement are to be submitted to the card issuer for payment on the account.
- a preprinted sales offer e.g., an offer to join a discount shopping club
- CRE customer reply envelope
- FIG. 6 illustrates the electronic commingling process step 209. Sets 401 of files output by the application program (the print file 311, the journal file 309, and the IDF file
- the electronic commingling process combines the output files (print file 311, journal file 309, and IDF file 307) from several mail jobs 401 from one or more customers into a combined IDF file 403, a combined journal file 405, and a combined print file 407.
- presorting is a well-known process by which mail pieces are sorted (usually geographically, such as by zip code) to containers such as letter trays in order to achieve the lowest possible total postal charges. As is well known in the art, presorting is not simply arranging the mail pieces in zip code order. Rather, presorting is a complex process in which, among other things, decisions as to how to group mail pieces together must be made. Because a commingled journal file 405 is created from the accumulated journal files from the individual jobs, the ability to achieve greater postal rate reductions in the presorting process is increased relative to separate presorts being performed for each of the separate jobs.
- each mail piece is also assigned to a destination container such as a letter tray as discussed above.
- the container number preferably matches the label to be assigned to the container, which in turn matches the local postal codes. For example, in the U.S., if the presort determines that the first 23 mail pieces belong together in the same container, and it is a simple 5 digit sort, then the container number is the 5 digit zip code.
- a letter tray typically holds 200 mail pieces. Thus, in the above example, there is only a partial tray. It should be noted that it is possible that more than 200 mail pieces will be assigned to a single tray. In this case, it simply means that there will be additional trays with the same label.
- the presorting process is performed on the commingled journal file 405 so as to re-order the journal file in accordance with the sorting criteria.
- Customer A's mail job may include 36 mail pieces to be sent to zip code "90210" along with many other mail pieces to be sent to other zip codes;
- Customer B's job may include 25 mail pieces to be sent to zip code "90210" along with other pieces to be sent to other locations.
- the entries in the file corresponding to the 36 mail pieces of Customer A and the entries corresponding to the 25 mail pieces of Customer B will be grouped into the same portion of the file that corresponds to zip code "90210.”
- Each zip code represented in the commingled journal file is treated in this same fashion, like zip codes being grouped together.
- each separate journal file 309 for each customer includes page location information (e.g., the start address of the first page in the mail piece and the total number of pages in the mail piece, or the addresses of each individual page in the mail piece) that allows each page image for each mail piece to be retrieved from the co ⁇ esponding separate print file 311.
- page location information e.g., the start address of the first page in the mail piece and the total number of pages in the mail piece, or the addresses of each individual page in the mail piece
- the commingled print file 407 may be created by retrieving the page image location from each entry in the commingled journal file 405, using that page image location to retrieve the corresponding pages from the individual print files 311, and adding those page images to the commingled print file 407.
- the corresponding entry in the commingled journal file 405 is then updated to reflect the location of the page images in the commingled print file 407 (rather than the page location information in the individual print file 311).
- a unique identifier such as a bar code and/or alphanumeric ID code, preferably is inserted into each page image for each mail piece while transferring the page images to the commingled print file.
- the unique identifiers are preferably consecutively numbered.
- each page image of each mail piece in the commingled print file 407 will include a unique page identifier. The uses for the page identifier will be described further below.
- the commingled DDF file 403 is created in a manner similar to that discussed above in connection with the creation of the commingled print file 407. That is, for each record in the individual journal file 309, the corresponding record is retrieved from a respective individual IDF file 307 and copied into the commingled IDF file 403 in the same order as the entries in the commingled journal file 405.
- each record in the IDF file is fixed length, such that no separate index is necessary as the location can be determined with knowledge of the fixed record length. The process continues until all entries in the individual IDF files 307 have been added to the commingled IDF file 403.
- the commingled print file 407 includes images from a plurality of different mail jobs 401 and/or customers.
- FIG. 7 illustrates the class division process.
- the commingled files 403, 405, 407 are divided by class into a plurality of divided files 403', 405', 407'.
- the corresponding files are included in the same divided file 403', 405', 407'. (Of course, it may be the case that all of the jobs in the commingled file are capable of being processed without the need for any class division.)
- the container numbers for the mail pieces are not modified during the class division process 213.
- the output of the printer is fed to the inserter in a usual manner.
- the inserter also receives and reads the IDF file, if the IDF file is used.
- the inserter scans the bar code on each page received from the printer to determine whether the pages are in the order dictated by the divided IDF file.
- the pages pass through the inserter, they are inserted into the mail piece envelopes along with the co ⁇ esponding inserts (as defined in the IDF file) to create finished mail pieces.
- the envelope may include a window to show the address, thereby avoiding the need to address the envelopes and advantageously avoiding the possibility of inco ⁇ ectly addressing the envelopes.
- the finished mail pieces are placed into the containers to which they were assigned during the presort process 211.
- the report produced during the presort process 211 is used by mail handling personnel to guide placement in the containers. In this manner, room is left in the trays for mail pieces from other of the divided files. For example, assume that a particular mail tray X holds 50 mail pieces and that 50 mail pieces, numbered 1550-1599, were assigned to that tray during the presorting process. When the first divided file is processed, there may be only twenty mail pieces in the 1550-1599 range produced. By referring to the report, mail handling personnel will place those twenty and only those twenty mail pieces in tray X. When the next divided file is processed, ten more mail pieces may be placed into tray X.
- each mail tray may hold mail pieces from one or all of the divided jobs, and the entire mail piece output from all divided jobs will be commingled.
- Those of skill in the art will recognize that the placement of finished mail pieces in trays may also be automated.
- the MPFs 1 described above could also be located on a worldwide basis. Such MPFs would preferably use international conventions for determining and correcting addresses. Preferably, the MPFs 1 are located fairly close to a post office, to provide for better transportation of finished mail to the post office. In some embodiments, the finished mail pieces of each MPF are taken to the nearest postal facility. In other embodiments, the finished mail pieces are transported to the co ⁇ esponding local post offices. That is, for each MPF, each letter tray is shipped to the appropriate branch post office. This speeds up delivery of the mail pieces. This may also result in a reduction in postal fees.
- commingled print file is formed from the individual print files and then the commingled print file is divided into divided print files in the prefe ⁇ ed embodiments. It is also possible to commingle and divide the journal files first, and then assemble the divided print files directly from the individual print files.
- presorting although it is preferable to presort the journal file and then assemble a print file therefrom, it is possible instead to first form the print file and then presort the print file.
- the system management facility 3 could be provided as a distributed processor.
- the distributed facilities could be geographically separated, preferably networked such as by TCP/IP over a fully meshed frame relay network.
Abstract
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Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
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AU2003216404A AU2003216404A1 (en) | 2002-03-25 | 2003-02-25 | Method and system for electronic commingling of hybrid mail |
MXPA04009317A MXPA04009317A (en) | 2002-03-25 | 2003-02-25 | Method and system for electronic commingling of hybrid mail. |
CA002479741A CA2479741A1 (en) | 2002-03-25 | 2003-02-25 | Method and system for electronic commingling of hybrid mail |
EP03745214A EP1488331A4 (en) | 2002-03-25 | 2003-02-25 | Method and system for electronic commingling of hybrid mail |
JP2003581040A JP2006505835A (en) | 2002-03-25 | 2003-02-25 | Method and system for electronic integration of hybrid mail |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US10/105,614 | 2002-03-25 | ||
US10/105,614 US20020184324A1 (en) | 2000-04-13 | 2002-03-25 | Method and system for electronic commingling of hybrid mail |
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WO2003083685A1 true WO2003083685A1 (en) | 2003-10-09 |
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PCT/US2003/005709 WO2003083685A1 (en) | 2002-03-25 | 2003-02-25 | Method and system for electronic commingling of hybrid mail |
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US (1) | US20020184324A1 (en) |
EP (1) | EP1488331A4 (en) |
JP (1) | JP2006505835A (en) |
CN (1) | CN1643507A (en) |
AU (1) | AU2003216404A1 (en) |
CA (1) | CA2479741A1 (en) |
MX (1) | MXPA04009317A (en) |
WO (1) | WO2003083685A1 (en) |
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JP2008507048A (en) * | 2004-07-15 | 2008-03-06 | ロジャー ティー コスグローブ, | System and apparatus for generating on-demand mailers |
AU2006202430B1 (en) * | 2006-06-08 | 2007-06-07 | Epip Pty Ltd | Consolidation of application documents for electronic submission to a postal network |
Also Published As
Publication number | Publication date |
---|---|
US20020184324A1 (en) | 2002-12-05 |
JP2006505835A (en) | 2006-02-16 |
CA2479741A1 (en) | 2003-10-09 |
MXPA04009317A (en) | 2005-01-25 |
CN1643507A (en) | 2005-07-20 |
EP1488331A1 (en) | 2004-12-22 |
AU2003216404A1 (en) | 2003-10-13 |
EP1488331A4 (en) | 2006-06-28 |
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