Source: http://www.google.com/patents/US20050278614?dq=5787445
Timestamp: 2017-05-28 23:42:55
Document Index: 395449017

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Patent US20050278614 - System and method for efficient production of dynamic documents - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA production system and method for producing a VIPDL output stream from a dynamic document and a recipients list including a data iterator for iterating through the recipients list one record at a time and computing values for each dynamic object in the dynamic document for the record, a document instantiator...http://www.google.com/patents/US20050278614?utm_source=gb-gplus-sharePatent US20050278614 - System and method for efficient production of dynamic documentsAdvanced Patent SearchTry the new Google Patents, with machine-classified Google Scholar results, and Japanese and South Korean patents.Publication numberUS20050278614 A1Publication typeApplicationApplication numberUS 11/205,195Publication dateDec 15, 2005Filing dateAug 17, 2005Priority dateFeb 3, 2000Also published asEP1281116A2, EP1281116A4, US6948115, US7406194, US7757169, US20010047369, US20050278621, WO2001058075A2, WO2001058075A3Publication number11205195, 205195, US 2005/0278614 A1, US 2005/278614 A1, US 20050278614 A1, US 20050278614A1, US 2005278614 A1, US 2005278614A1, US-A1-20050278614, US-A1-2005278614, US2005/0278614A1, US2005/278614A1, US20050278614 A1, US20050278614A1, US2005278614 A1, US2005278614A1InventorsJacob Aizikowitz, Israel Roth, Reuven SherwinOriginal AssigneeXmpie Inc.Export CitationBiBTeX, EndNote, RefManPatent Citations (45), Referenced by (25), Classifications (9), Legal Events (3) External Links: USPTO, USPTO Assignment, EspacenetSystem and method for efficient production of dynamic documents
US 20050278614 A1Abstract
A production system and method for producing a VIPDL output stream from a dynamic document and a recipients list including a data iterator for iterating through the recipients list one record at a time and computing values for each dynamic object in the dynamic document for the record, a document instantiator for creating an instance document for the record, an output generator operating in tandem with the document instantiator for generating code specifying the rendering of the document instance, and a merge component for generating the VIPDL output stream from output of the output generator. Images(4) Claims(2)
1. A production system for producing a VIPDL output stream from a dynamic document and a recipients list comprising: a parts generator for breaking said recipients list into a plurality of parts; a plurality of pipelines for parallel processing of said recipients list; a plurality of definitions dictionaries for receiving reusable object definitions from said plurality of pipelines; and a plurality of booklets sections for receiving layout information from said plurality of pipelines. 2. The system of claim 1, further comprising a merge processor for generating said VIPDL output stream from contents of said plurality of definitions dictionary and said plurality of booklets section.
CROSS REFERENCE TO RELATED APPLICATIONS [0001] This application is a continuation application of U.S. patent application Ser. No. 09/775,501, filed on Feb. 5, 2001 which in turn claims priority from U.S. Provisional Patent Application 60/180,124, filed Feb. 3, 2000 and entitled “A System For Efficient Production Of Dynamic Documents”, which applications are incorporated in their entirety herein by reference.
FIELD OF THE INVENTION [0002] The present invention relates to the production of personalized documents in print, Web, e-mail, and other media types. The invention is a production process introducing efficiencies that are facilitated by use of a media-independent representation of documents. BACKGROUND OF THE INVENTION [0003] Today, it is quite common to personalize documents with, for example, a reader's name or other information specific to one reader or a group of readers. An example is an advertising mass mailing that has been personalized with the addressee's name, offered goods, and special prices on the offered goods, all selected and calculated according to the addressee's past purchasing from the company making the offer. This document personalization exists in both World Wide Web (web) documents and printed documents. [0004] The process of generating the personalized copies of documents includes three major phases: creation, production and rendering. Creation includes planning, design, programming, and authoring. Production is the phase in which target media formats are generated for rendering a specified set of personalized copies. Rendering is the phase in which printing or web-presentment actually occurs. [0005] The production of such documents generates output format specification for rendering personalized instances of the documents in the desired target media (e.g., PostScript for print, available from Adobe Systems Inc., San Jose, Calif., USA). Existing tools are either media-specific (e.g., Darwin for print, available from CreoScitex, Burnaby, British Columbia, Canada), or use rendering instructions that have no explicit specification of variability. SUMMARY OF THE INVENTION [0006] There is provided, in accordance with an embodiment of the present invention, a production system for producing a VIPDL output stream from a dynamic document and a recipients list. The system includes a data iterator for iterating through the recipients list one record at a time and computing values for each dynamic object in the dynamic document for the record, a document instantiator for creating an instance document for the record, an output generator operating in tandem with the document instantiator for generating code specifying the rendering of the document instance, and a merge component for generating the VIPDL output stream from output of the output generator. [0007] Additionally, in accordance with an embodiment of the present invention, the VIPDL output stream may be defined in an object-oriented (rendering) specification language. [0008] Furthermore, in accordance with an embodiment of the present invention, the object-oriented specification language may be VPS. [0009] Moreover, in accordance with an embodiment of the present invention, the object-oriented specification language may be PPML. [0010] Further, in accordance with an embodiment of the present invention, the VIPDL output stream may be defined in HTML. [0011] Still further, in accordance with an embodiment of the present invention, the production system may include a content objects buffer for allowing the data iterator and the document instantiator to operate in a producer consumer manner. [0012] Additionally, in accordance with an embodiment of the present invention, the merge component may include a definitions dictionary including reusable object names and their definitions, a booklets section including layout information for pages of dynamic document instances, and a merge processor for generating the VIPDL output stream from contents of the definitions dictionary and the booklets section. [0013] There is further provided, in accordance with an embodiment of the present invention, a production system for producing a VIPDL output stream from a dynamic document and a recipients list. The production system includes a parts generator for breaking the recipients list into a plurality of parts, a plurality of pipelines for parallel processing of the recipients list, a plurality of definitions dictionaries for receiving reusable object definitions from the plurality of pipelines, a plurality of booklets sections for receiving layout information from the plurality of pipelines, and a merge processor for generating the VIPDL output stream from contents of the plurality of definitions dictionary and the plurality of booklets section. [0014] There is provided, in accordance with an embodiment of the present invention, a method for producing a VIPDL output stream from a dynamic document and a recipients list. The method includes the steps of selecting a next record from the recipients list, generating a document instance from the dynamic document for the selected record from the recipients list, generating entries in a definition dictionary corresponding to reusable objects in the dynamic document, generating a rendering specifications section for the generated document instance, concatenating the rendering specifications section into the VIPDL output stream, repeating the step of selecting, the first step of generating, the second step of generating, the third step of generating, and the step of concatenating until the recipients list has been exhausted, and generating an elements definition section from the information in the definitions dictionary and pre-pending the elements definition section at the head of the VIPDL output stream. [0015] Furthermore, in accordance with an embodiment of the present invention, the step of selecting, the first step of generating, the second step of generating, the third step of generating, the step of concatenating, the step of repeating, and the fourth step of generating may be performed by pipeline processing. [0016] Additionally, in accordance with an embodiment of the present invention, the first step of generating may also include the steps of collapsing all the queries for the set of dynamic content objects into one query and computing the one query. [0017] Still further, in accordance with an embodiment of the present invention, the first step of generating may also include the steps of caching views generated by queries and reusing the cached views. [0018] There is provided, in accordance with an embodiment of the present invention, a method for producing a VIPDL output stream from a dynamic document and a recipients list. The method includes the steps of dividing the recipients list into a plurality of distinct parts, performing parallel processing independently for each of the parts, and merging a plurality of definition dictionaries and a plurality of rendering specifications sections created in the step of performing into one VIPDL output stream corresponding to the entire recipients list. [0019] Additionally, in accordance with an embodiment of the present invention, the step of performing may further include the step of using a gossiping mechanism to reduce redundancy in the plurality of definition dictionaries. [0020] Moreover, in accordance with an embodiment of the present invention, the step of performing may further include the steps of selecting a next record from the recipients list, generating a document instance from the dynamic document for the selected record from the recipients list, generating entries in a definition dictionary corresponding to dynamic content objects in the dynamic document, generating a rendering specifications section for the generated document instance, concatenating the rendering specifications section into the VIPDL output stream, repeating the step of selecting, the first step of generating, the second step of generating, the third step of generating, and the step of concatenating until the recipients list has been exhausted, and generating an elements definition section from the information in the definitions dictionary and pre-pending the elements definition section at the head of the VIPDL output stream. [0021] Additionally, in accordance with an embodiment of the present invention, the first step of generating may also include the steps of collapsing all the queries for the set of the dynamic content objects into one query and computing the one query minimizing joins. [0022] Moreover, in accordance with an embodiment of the present invention, the first step of generating may also include the steps of collapsing all the queries for the set of the dynamic content objects into one query and computing the one query minimizing re-selections. [0023] Furthermore, in accordance with an embodiment of the present invention, the first step of generating may also include the steps of caching views generated by queries and reusing the cached views. [0024] There is provided, in accordance with an embodiment of the present invention, a method for query optimization. The method includes the step of collapsing all the queries for a set of dynamic content objects into one query. [0025] Moreover, in accordance with an embodiment of the present invention, the method may further include the step of computing the one query minimizing joins. [0026] Furthermore, in accordance with an embodiment of the present invention, the method may further include the step of computing the one query minimizing re-selections. [0027] Still further, in accordance with an embodiment of the present invention, the method may further include the steps of caching views generated by queries and reusing the cached views. BRIEF DESCRIPTION OF THE DRAWINGS [0028] The present invention will be understood and appreciated more fully from the following detailed description taken in conjunction with the appended drawings in which: [0029] FIG. 1 is a block diagram illustration of a production system, constructed and operative in accordance with an embodiment of the present invention; [0030] FIG. 2 is block diagram illustration showing details of the production system of FIG. 1, constructed and operative in accordance with an embodiment of the invention; and [0031] FIG. 3 is a schematic block diagram of a production system, constructed and operative in accordance with a further embodiment of the present invention. DETAILED DESCRIPTION OF THE PRESENT INVENTION [0032] Applicants have developed a system and method that produces documents in a variety of media types from a single, media-independent, representation of a dynamic document. Moreover, Applicants use pipeline processing, rules optimization, and concurrent processing to obtain optimizations in processing time and memory requirements. [0033] In order to produce a set of personalized copies of a document, the process must be presented with proper instructions. Regardless of any specific format for encoding these instructions, they must cover the following major elements: design layout, data, and rules. [0034] Design is defined as page designs, also known as layouts. An InDesign (available from Adobe Systems Inc.) document is an example of a page design. Other exemplary representations include QuarkXPress (available from Quark, Inc., Denver, Colo., USA) native formats, XML (extensible Style Language) pages, HTML (HyperText Markup Language) pages, etc. [0035] Data includes sets of data records (e.g., demographic information) and content elements (e.g., pictures, graphics, video clips, and text sections). One set of records—the prime set—is the one against which the specification of the desired recipients (“the recipients list”) is given (e.g., Employees set, with key begin employee_id and a recipients list that is simply a list of employee ids). [0036] Rules are a set of rules that specify what the dynamic objects are, how to calculate their values for a given recipient, and where and how to place these values into a given page layout. [0037] An exemplary representation of instructions that associates the design and data and also presents the rules is described in US patent application “A System And Method For Creating Customized Documents For Cross Media Publishing”, filed on the same day as the present US patent application, and assigned to the common assignee of the present invention. US patent application, “A System And Method For Creating Customized Documents For Cross Media Publishing”, is incorporated herein by reference. It is noted that any suitable identification system may be used; the above-mentioned patent is one example of a suitable system. Hence, the invention here is not limited to this specific representation. Any representation that provides design, data, and rules information in an appropriate manner may be used. The term “dynamic document” hereinbelow is defined to include any such encoding. [0038] As stated above, the production phase generates the formats for the chosen target media. The final rendering may be generated by any rendering medium, including a World Wide Web (web) browser, e-mail package, or a print controller (e.g., a Raster Image Processor (RIP)). [0039] Reference is now made to FIG. 1, a high-level block diagram of a production system constructed and operative in accordance with an embodiment of the present invention. The production system comprises a document producer 16 operative in conjunction with a dynamic document 12 and a recipients list 14, and generates a VIPDL output stream 18. VIPDL output stream 18 is an output stream written in a “variable information page description language” (VIPDL) as described hereinbelow. The VIPDL output stream 18 is input to rendering system 20, wherein a rendering system controller 19 is responsible for the physical creation of the rendered documents 21. [0040] It is an aspect of the invention that the output is produced in a VIPDL. For print production systems exemplary languages are VPS (Variable Print Specification) (available from CreoScitex) and PPML (Personalized Print Markup Language) (available from Print on Demand Initiative, West Henrietta, N.Y., USA). For the web an exemplary language is HTML. Thus in the current invention an appropriate VIPDL is used, targeted to the rendering system, allowing cross-media production from any original design system. Classical print specifications such as PDF (Portable Document Format) (available from Adobe Systems Inc.) or PostScript can be used without affecting the scope of the invention. Naturally, when such formats are used instead of the VIPDL, important information about reusability of objects across the whole job may be lost thus making the rendering process (which is not part of this invention) less efficient. [0041] Furthermore, the use of any specific layout design type in the design specification does not imply the use of that type in the output specification. For example, it is possible to use a layout of type InDesign and yet render the document instances on the web in HTML. Likewise, a web design tool may be used to create the documents and yet they may be rendered directly as printed pages in a document, without ever having been displayed on the web. [0042] In the creation of the HTML output specification, the VIPDL output stream 18 generated may actually comprise a group of HTML pages. Each such page represents one instance of the document, rather than the VIPDL output stream 18 consisting of a single stream, as it would for a print document. [0043] In a further embodiment of the present invention, several HTML pages may together represent an instance. In such a case there will be links from one page of the instance to the others. [0044] A simple and straightforward process for producing personalized instances of a dynamic document 12 is to do the following repeatedly: select, compute, create, generate, and append until recipients list 14 is empty. These actions are defined as follows: select the next record from recipients list 14, use the rules of dynamic document 12 to compute the values for each dynamic object for the recipient represented by the selected record, create a document instance for this record, generate the code that specifies the rendering of this document instance (e.g., PostScript, PPML, HTML, etc.), and append this code to VIPDL output stream 18. [0050] The problem with this process is that it is inefficient in several key areas. The simple, step by step execution of the select and compute phases may result in a significant number of redundant operations, which leads to unnecessarily slow processing. Furthermore, the explicit creation of a digital representation for each document instance is not necessary. In addition, generating print specification code based on each document instance independently does not leverage the similarity across the different instances. Use of this similarity could allow savings by not regenerating code for elements that have already been processed. This may lead to further savings in communicating the specification to a renderer (e.g., a print controller) or in processing the code by the renderer. Furthermore, it does not include concurrent processing that would take advantage of the independence between instances. [0051] Systems that allow significant preprocessing prior to production may gain production efficiencies, though typically only for batch mode production and only for a pre-selected media type. However, such systems generally loose either flexibility or ease-of-use, for example, due to very primitive and rigid levels for specification of design, rules, or even data. [0052] Thus, an aspect of the present invention is that dynamic document representations that leave full flexibility for changing any one of the components (design, data, or rules) at any time and go immediately to production (i.e., without lengthy preprocessing steps) are preferred. Most representations of dynamic documents 12, for example that described in US patent application “A System And Method For Creating Customized Documents For Cross Media Publishing”, do not induce dependencies between the processing needed for one instance and another. [0053] It is in the areas of rules computation, instance generation, explicit reusability, and concurrency that the method and system described hereinbelow provide innovation. [0054] Reference is now made to FIG. 2, a schematic block diagram showing details of the production system of FIG. 1, including the building blocks of document producer 16, constructed and operative in accordance with an embodiment of the invention. Document producer 16 comprises a pipeline 21 and a merge component 30. Pipeline 21 comprises a data iterator 22, a content objects buffer 24, a document instantiator 26, and an output generator 28. Merge component 30 comprises a booklets section 32 and a definitions dictionary 34 that are input to merge processor 36. Booklets section 32 comprises at least one booklet, which comprises at least one page. Each page includes instructions regarding the placement of dynamic objects on the page. Definitions dictionary 34 comprises at least one definition of a reusable object wherein a definition comprises the reusable object name and its description. The description comprises the code (either in some recognized PDL (Print Description Language) format, such as PostScript, or in an image format, such as GIF) specifying the object appearance. Merge controller 36 generates VIPDL code that comprises a definitions section and booklets section 32, which is sent to VIPDL output stream 18 and then to rendering system 20. [0055] Data iterator 22 performs the select and compute steps described hereinabove. Data Iterator 22 puts its output into content objects buffer 24 from whence document instantiator 26 retrieves it as input. Document instantiator 26 works in tandem with output generator 28 in performing the create and generate steps. Hereinbelow when referring to the joint performance of these steps, these two components will be referred to as instantiator-generator 26-28. Document instantiator 26 creates only as much of the instance as is needed by output generator 28. Merge processor 36 does the append step. [0056] Document producer 16 as described herein allows optimizations in computations that are part of the processing done by data iterator 22, pipeline processing involving the subsystems above, and the use of concurrent pipelines. Pipeline Processing [0057] The production method of the present invention uses the architecture of the producer process and the properties of the representation of dynamic document 12 to employ a three-stage pipeline process. The first stage is performed by data iterator 22, the second stage is performed by instantiator-generator 26-28, and the third stage is performed by merge component 30. [0058] Content objects buffer 24 allows data iterator 22 to work in a “producer/consumer” relationship with document instantiator-generator 26-28. Data iterator 22 performs the data processing task that is induced by selecting the next record from recipients list 14 and computes the set of page layouts and content objects needed for this instance. The result of the computation is forwarded to document instantiator 26 via content objects buffer 24. Data iterator 22 continues computing layouts and content objects for document instances for as long as recipients list 14 has not been exhausted and the buffer storage is not full (or some other “watermark” like condition is satisfied). [0059] Instantiator-generator 26-28 retrieve the next collection of layouts and content objects from the content objects buffer 24, employ the layout engine that is appropriate for the layouts in the collection for automatically creating the specific instance, and while doing so generate the needed parts of the rendering specification. In the most generic sense, the rendering specification consists of two parts: a definitions section, which has definitions of all reusable objects in the rendering job, and booklets section 32, which has the specifications for the rendering of all specified instances. [0060] Merge processor 36 may either create a single definitions section and then a single booklets section 32 or it can interleave definitions sections followed by booklets sections 32 for booklets all of whose objects already have appeared in a definitions section. [0061] From an implementation-efficiency point of view it is preferable to use definitions dictionary 34 for representing the items that should appear in the definition sections. Only at the final stage when the full VIPDL output stream 18 is emitted, is definitions dictionary 34 translated to the definitions section. It is noted that a particular implementation may choose to use the definitions section directly and skip the phase of definitions dictionary 34 altogether. [0062] Booklets section 32, which specifies the pages of the document instance, uses references to reusable objects defined in definitions dictionary 34 (possibly by processes that handled the generation of previous instances) and immediate (i.e., literal) code for items that are unique for the document instance represented by this booklet. Instantiator-generator 26-28 continue generating entries in definitions dictionary 34 and booklets in booklets section 32 as long as content objects buffer 24 is not empty (or, again, some watermark like property holds) and as long as the storage buffer for booklets section 32 and definitions dictionary 34 is not full (again, watermark). [0063] The third step of the pipeline is performed by merge process 36, which is also pipelined by buffer and information availability. This is a straightforward process that generates VIPDL output stream 18. It merges the definitions contained in definitions dictionary 34 and generates the definitions section at the head of VIPDL output stream 18. It then appends the stream of the merged booklets section 32. Again, if the rendering specification needs the definitions and booklets to be intermixed, the method of the present invention will allow for it. [0064] The merge process may get rid of redundant definitions of reusable objects or break the stream into smaller sets that can be better processed by the printing system. Parallel Pipelines [0065] A further embodiment of the present invention is the ability to concurrently launch several pipelines. This ability to generate instances separately is due to instance independence as discussed hereinabove. Reference is now made to FIG. 3, a schematic block diagram of a production system constructed and operative in accordance with an embodiment of the present invention. The production system comprises a parts generator 44, a multiplicity of parts 42, a multiplicity of pipelines 21, a multiplicity of definitions dictionaries 34, a multiplicity of booklets sections 32, and a merge processor 36A operative in conjunction with dynamic document 12, recipients list 14, VIPDL output stream 18, and rendering system 20. [0066] Given recipients list 14, it is possible to break it into a collection of separate sets herein referred to as parts 42, where each part 42 preserves the order of items in the original list and each part 42 is identified so that order among the parts may be preserved. As an example, consider a recipients list 14 of cardinality 100,000. It is possible to break it into 10 parts of 10,000 items each, where the first part 42 consists of the first 10,000 items of the original list, the second part 42 consists of items 10,001 through 20,000 of the original list, and, in general, the nth part 42, for 1≦n≦10, consists of items (n−1)*10,000+1Λ(n−1)*10,000+10,000. Creating order-preserving parts 42 is only necessary if order was a property of the original list. For example, if the records in the recipients list 14 appeared in, for example, zip code order, then it would be important that order within parts 42 and among parts 42 be preserved. [0067] The system uses a parts generator 44 that breaks recipients list 14 into appropriate parts 42 and launches an individual pipeline 21 for each part 42. Parts generator 44 indicates to the merge process via arrow 46 the number of parts 42 and their relative order. [0068] Each pipeline 21 operates autonomously, in parallel with all other pipelines 21. Each pipeline 21 generates its own booklets section 32 and definitions dictionary 34, where these are properly identified by the order information generated by the parts generator 44. Merge processor 36A is not part of any a single pipeline 21 but, rather, processes the merging of all the booklets section 32—definitions dictionary 34 pairs into one coherent VIPDL output stream 18. [0069] A unique problem created by breaking the list into parts 42 and launching several pipelines 21 in parallel is the use of elements defined in the definitions dictionary 34 of one pipeline 21 by booklets section 32 of another pipeline 21. Two extreme solutions exist: one is called “no sharing”, and the other “lockstep sharing”. [0070] The no sharing solution lets each pipeline 21 work autonomously and create entries in its definitions dictionary 34 for any reusable object that it defines. (It may make references to reusable objects that are not defined in its dictionary, assuming that another pipeline 21 will insert the missing definition into its definitions dictionary 34.) This makes the parallelism perfect but creates many redundant definitions across the definitions dictionaries 34 of different pipelines 21. This increases the memory load, the load on the merge process, and the load on instantiator-generator 26-28 because of the need to generate definitions for items that have already been defined in another pipeline 21. If the merge process does not handle the removal of redundant definitions, then this becomes a load on rendering system controller 17 (FIG. 1). [0071] The lockstep-sharing solution forces the dissemination of any new entry in the definitions dictionary 34 of one pipeline 21 to all other pipelines 21 and the assurance that none uses redundant information. This method is optimal in resolving the inefficiencies above. It does not, however, give the needed freedom to each pipeline 21 to make progress at its own pace, thus potentially slowing the overall system. [0072] The solution provided by the production system of the present invention uses sharing but without the strict lockstep requirements. Taking advantage of the fact that redundancy in different definitions dictionaries 34 does not create correctness problems, the system described herein employs a “gossip”-like algorithm for the dissemination of definitions dictionary 34 information among the concurrent pipelines 21. The term “gossip” for disseminating information in distributed processing was first coined by Liskov and Ladin from MIT. Each pipeline process informs all other pipeline processes of new definitions dictionary 34 entries that it generates, as shown by arrow labeled “gossiping”. It does not, however, wait to see that all pipelines 21 have received and processed each entry, nor does it suspend itself to make sure that it has received the new entries from others prior to making further steps. Once a process receives such a gossip message, it checks whether the gossiped entry has already been defined in its definitions dictionary 34. If it has been, then the process ignores the gossip. If the gossiped definitions dictionary 34 entry has not been previously added to the process' definitions dictionary 34, then it is added. The correctness of this scheme is based on the assumption that names of reusable elements are generated in a way that makes them unique; they do not depend on the generation-time or the ID of the generating process. In other words, any pipeline process will give exactly the same name for a reusable object that represents a specific content object (for example by concatenating the name of the content object variable with the name of the item from content that was selected for this instance). [0073] The gossip method does not guarantee that there will be no redundancies. It improves the chances that the redundancy-count will be low, and thus improves overall performance. Query Optimizations [0074] It is noted that hereinbelow the terms “query” and “view” are used interchangeably. A query allows generating some “virtual” records by combing several database-tables through certain logic, typically joins. In certain situations these tables of virtual records are called views. [0075] A major performance problem of data Iterator 22 could result from the need to use complex queries in order to evaluate the rules for a given instance which will result in the set of layouts or content objects for a given instance. It is quite likely that there will be several dynamic objects per instance, each with its own query (i.e., rule). Yet, these queries may have some common parts among them. Moreover, when evaluating the dynamic objects for consecutive instances, the queries simply repeat. [0076] Data Iterator 22 performs query optimization techniques in generating each instance of a dynamic document. Data Iterator 22 first combines all the dynamic objects into one result record and collapses all the individual queries into one query that produces the full result record. This will result in the full set of content objects for the given instance at once. Two optimization criteria are used in collapsing the set of queries. One is minimizing joins. The other is minimizing the repeated selection of the same record. Minimizing Joins [0077] Consider, for example, that information derived from a recipient record indicates a book-preference. Based on that preference, several records of the “books” view are retrieved. Each one of these books records determines a set of dynamic objects comprising for example book name, cover picture, book description, book author, book price. The values of these dynamic objects are derived simply by projecting (as defined in relational algebra) the books record on these attributes and assigning the values of the attributes to the corresponding content objects. [0078] Now, assume that the books view is the result of some joins on several books-related tables (e.g., price—<id, $>, author—<id, name>, description—<id, text>, cover—<id, image>, etc.). It would be quite beneficial to avoid performing the joins for each dynamic object. Minimizing Re-Selections [0079] Assuming that the optimization method saves the redundant joins, it would still be a waste of time to re-select the set of preferred books for each dynamic object. Thus in collapsing the individual queries an attempt is made to reuse a selected record of a record-set by doing a multiple assignment of all the relevant fields of that record to all relevant dynamic objects. Further Query Optimization [0080] A further optimization is achieved by performing the above techniques across different instances of dynamic document 12. Views generated by queries that are defined in terms of joins are cached and saved subject to memory constraints. Finally, an attempt is made to reuse the cached views rather than regenerate them from the computed queries. Further Embodiments [0081] One method for gaining access to the HTML “document” produced is to provide a lead HTML page that may serve a classical login function, possibly including the automatic retrieval of the login information of the user. Based on the login information, the specific HTML file that represents the document instance generated for the logged-in user may be presented. [0082] In a further embodiment of the present invention, the HTML pages of the instance document may be generated only upon demand. In other words, once the login information of a particular user has been received, the system of the present invention is invoked for generating the particular document instance for the user. [0083] In a still further embodiment of the present invention the mechanism used for accessing the HTML document instance may be in an e-mail message that has a URL pointing to the specific document instance of the user. Alternatively, the HTML page(s) may be embedded in the e-mail message itself. [0084] It will be appreciated by persons skilled in the art that the present invention is not limited by what has been particularly shown and described herein above. Rather the scope of the invention is defined by the claims that follow: Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4815029 *Sep 23, 1985Mar 21, 1989International Business Machines Corp.In-line dynamic editor for mixed object documentsUS5381523 *Apr 5, 1993Jan 10, 1995Fuji Xerox Co., Ltd.Document processing device using partial layout templatesUS5515490 *Nov 5, 1993May 7, 1996Xerox CorporationMethod and system for temporally formatting data presentation in time-dependent documentsUS5555362 *Jul 26, 1995Sep 10, 1996International Business Machines CorporationMethod and apparatus for a layout of a document imageUS5671403 *Dec 30, 1994Sep 23, 1997International Business Machines CorporationIterative dynamic programming system for query optimization with bounded complexityUS5748805 *Jul 11, 1994May 5, 1998Xerox CorporationMethod and apparatus for supplementing significant portions of a document selected without document image decoding with retrieved informationUS5802518 *Jun 4, 1996Sep 1, 1998Multex Systems, Inc.Information delivery system and methodUS5805784 *Dec 30, 1996Sep 8, 1998Crawford; Christopher C.Computer story generation system and method using network of re-usable substoriesUS5806068 *Dec 13, 1996Sep 8, 1998Shaw; Venson M.Document data processor for an object-oriented knowledge management system containing a personal database in communication with a packet processorUS5844991 *Aug 7, 1995Dec 1, 1998The Regents Of The University Of CaliforniaScript identification from images using cluster-based templatesUS5895476 *Sep 9, 1996Apr 20, 1999Design Intelligence, Inc.Design engine for automatic reformatting for design and mediaUS5924109 *Mar 3, 1997Jul 13, 1999The United States Of America As Represented By The Secretary Of The NavyMethod and apparatus for automatic generation of external interface specificationsUS5937153 *Jul 18, 1997Aug 10, 1999Varis CorporationMethod of utilizing variable data fields with a page description languageUS6006242 *Apr 5, 1996Dec 21, 1999Bankers Systems, Inc.Apparatus and method for dynamically creating a documentUS6134018 *Sep 26, 1997Oct 17, 2000Electronics For Imaging, Inc.Method and apparatus for creating personalized documents that include variable dataUS6137483 *Nov 27, 1996Oct 24, 2000Matsushita Electric Industrial Co., Ltd.Multimedia editing method using templates describing common logic structure, layout, and physical operationUS6209010 *Jul 18, 1997Mar 27, 2001Varis CorporationComputer implemented method for wrapping data to an arbitrary path defined by a page description languageUS6243172 *Apr 14, 1999Jun 5, 2001Varis CorporationMethod and system for merging variable text and images into bitmaps defined by a page description languageUS6332149 *Feb 11, 1997Dec 18, 2001R. R. Donnelley & SonsImposition process and apparatus for variable imaging systemUS6381028 *Apr 26, 1999Apr 30, 2002Tesseron Ltd.Method of utilizing variable data fields with a page description languageUS6487568 *Mar 27, 2001Nov 26, 2002Tesseron, Ltd.Method and system for flowing data to an arbitrary path defined by a page description languageUS6526182 *Nov 5, 1998Feb 25, 2003Ricoh Company, Ltd.Image merging and displaying apparatus and methodUS6599325 *Aug 30, 2002Jul 29, 2003Tesseron, Ltd.Method and system for flowing data to an arbitrary path defined by a page description languageUS6687016 *Mar 1, 2002Feb 3, 2004Tesseron Ltd.Method of utilizing variable data fields with a page description languageUS6771387 *Mar 1, 2002Aug 3, 2004Tesseron, Ltd.Method of utilizing variable data fields with a page description languageUS6910053 *Mar 13, 2000Jun 21, 2005Sap AktiengesellschaftMethod for data maintenance in a network of partially replicated database systemsUS6965920 *Jul 12, 2001Nov 15, 2005Peter Henrik PedersenProfile responsive electronic message management systemUS6999117 *May 16, 2001Feb 14, 2006Fuji Photo Film Co., Ltd.Image pickup device and method for automatically inputting predefined information and processing images thereofUS7039863 *Jul 23, 1999May 2, 2006Adobe Systems IncorporatedComputer generation of documents using layout elements and content elementsUS7106469 *Aug 8, 2001Sep 12, 2006Hewlett-Packard Development Company, L.P.Variable data printing with web based imagingUS7131062 *Dec 9, 1998Oct 31, 2006International Business Machines CorporationSystems, methods and computer program products for associating dynamically generated web page content with web site visitorsUS20010047369 *Feb 5, 2001Nov 29, 2001Jacob AizikowitzSystem and method for efficient production of dynamic documentsUS20020013722 *Apr 23, 2001Jan 31, 2002Kanaga Samantha J.Enhanced document escrow serviceUS20020049702 *Feb 5, 2001Apr 25, 2002Jacob AizikowitzSystem and method for creating customized documents for cross media publishingUS20030033212 *Mar 22, 2002Feb 13, 2003Sandhu Harpal S.System and method for conducting web-based financial transactions in capital marketsUS20030050934 *Aug 30, 2002Mar 13, 2003Gauthier Forrest P.Method and system for flowing data to an arbitrary path defined by a page description languageUS20040002972 *Jun 26, 2002Jan 1, 2004Shyamalan PatherProgramming model for subscription servicesUS20040130752 *Jan 28, 2004Jul 8, 2004Tesseron, Ltd.Method of utilizing variable data fields with a page description languageUS20040141197 *Jan 26, 2004Jul 22, 2004Tesseron, Ltd.Method of utilizing variable data fields with a page description languageUS20040186851 *Mar 21, 2003Sep 23, 2004Nikhil JhinganMethods and systems for email attachment distribution and managementUS20040204989 *Mar 10, 2003Oct 14, 2004Russell DickerMethod for selecting relevant campaign messages for transmission to recipientsUS20050114394 *Nov 21, 2003May 26, 2005Kaipa Sam P.Mapping XML schema components to qualified Java componentsUS20050278621 *Aug 17, 2005Dec 15, 2005Xmpie Inc.System and method for efficient production of dynamic documentsUS20060253537 *May 2, 2006Nov 9, 2006Ragy ThomasMethod and system for providing automated email optimizationUS20070118801 *Nov 21, 2006May 24, 2007Vizzme, Inc.Generation and playback of multimedia presentations* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS7370273 *Jun 30, 2004May 6, 2008International Business Machines CorporationSystem and method for creating dynamic folder hierarchiesUS7406194 *Aug 17, 2005Jul 29, 2008Xmpie (Israel) Ltd.System and method for efficient production of dynamic documentsUS7757169Aug 17, 2005Jul 13, 2010Xmpie (Israel) Ltd.System and method for efficient production of dynamic documentsUS7855799Jan 16, 2007Dec 21, 2010Shah Pradip KPrint workflow automationUS7983792Oct 22, 2008Jul 19, 2011Xerox CorporationMethod and system for the production of variable-dimensional printed substratesUS8117535Mar 7, 2008Feb 14, 2012International Business Machines CorporationSystem and method for creating dynamic folder hierarchiesUS8223377Nov 23, 2010Jul 17, 2012Shah Pradip KPrint workflow automationUS8250587 *Oct 26, 2006Aug 21, 2012Trapeze Networks, Inc.Non-persistent and persistent information setting method and system for inter-process communicationUS8328706Dec 17, 2009Dec 11, 2012Xerox CorporationSystem and method for converting a printed substrateUS8537401Jun 25, 2012Sep 17, 2013Pradip K. ShahPrint workflow automationUS8643874Dec 18, 2009Feb 4, 2014Xerox CorporationMethod and system for generating a workflow to produce a dimensional documentUS8700989 *Feb 23, 2007Apr 15, 2014Samsung Electronics Co., Ltd.Method and apparatus for transmitting XHTML-print document in mobile deviceUS8773428Jun 8, 2011Jul 8, 2014Robert John RollestonSystems and methods for visually previewing variable information 3-D structural documents or packagesUS8966018Jan 6, 2010Feb 24, 2015Trapeze Networks, Inc.Automated network device configuration and network deploymentUS9493024Dec 16, 2008Nov 15, 2016Xerox CorporationSystem and method to derive structure from imageUS20050278621 *Aug 17, 2005Dec 15, 2005Xmpie Inc.System and method for efficient production of dynamic documentsUS20060015482 *Jun 30, 2004Jan 19, 2006International Business Machines CorporationSystem and method for creating dynamic folder hierarchiesUS20070106778 *Oct 26, 2006May 10, 2007Zeldin Paul EInformation and status and statistics messaging method and system for inter-process communicationUS20070245233 *Feb 23, 2007Oct 18, 2007Samsung Electronics Co., Ltd.Method and apparatus for transmitting xhtml-print document in mobile deviceUS20080170254 *Jan 16, 2007Jul 17, 2008Shah Pradip KPrint workflow automationUS20100098319 *Oct 22, 2008Apr 22, 2010Xerox CorporationMethod and system for the production of variable-dimensional printed substratesUS20100149597 *Dec 16, 2008Jun 17, 2010Xerox CorporationSystem and method to derive structure from imageUS20110063677 *Nov 23, 2010Mar 17, 2011Shah Pradip KPrint workflow automationUS20110149337 *Dec 18, 2009Jun 23, 2011Xerox CorporationDimensional document production method and systemUS20110152048 *Dec 17, 2009Jun 23, 2011Xerox CorporationSystem and method for converting a printed substrate* Cited by examinerClassifications U.S. Classification715/243, 715/205, 715/234International ClassificationG06F17/21, G06F17/00Cooperative ClassificationG06F17/212, G06F17/21European ClassificationG06F17/21, G06F17/21F2Legal EventsDateCodeEventDescriptionAug 17, 2005ASAssignmentOwner name: XMPIE INC., DELAWAREFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:AIZIKOWITZ, JACOB;ROTH, ISRAEL;SHERWIN, REUVEN;REEL/FRAME:016898/0341;SIGNING DATES FROM 20010311 TO 20010312Owner name: XMPIE INC., DELAWAREFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:AIZIKOWITZ, JACOB;ROTH, ISRAEL;SHERWIN, REUVEN;SIGNING DATES FROM 20010311 TO 20010312;REEL/FRAME:016898/0341Jun 27, 2006ASAssignmentOwner name: AIZIKOWITZ, JACOB, ISRAELFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:XMPIE INC.;REEL/FRAME:017847/0606Effective date: 20060626Owner name: SHERWIN, REUVEN, ISRAELFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:XMPIE INC.;REEL/FRAME:017847/0606Effective date: 20060626Owner name: XMPIE (ISRAEL) LTD., ISRAELFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:AIZIKOWITZ, JACOB;ROTH, ISRAEL;SHERWIN, REUVEN;REEL/FRAME:017847/0691;SIGNING DATES FROM 20060626 TO 20060627Owner name: ROTH, ISRAEL, ISRAELFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:XMPIE INC.;REEL/FRAME:017847/0606Effective date: 20060626Owner name: XMPIE (ISRAEL) LTD., ISRAELFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:AIZIKOWITZ, JACOB;ROTH, ISRAEL;SHERWIN, REUVEN;SIGNING DATES FROM 20060626 TO 20060627;REEL/FRAME:017847/0691Dec 17, 2013FPAYFee paymentYear of fee payment: 4RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services