CN102855329A - Multilingual-fusion word writing process description word resource container and construction and use thereof - Google Patents

Abstract

The invention belongs to the technical field of electronic word writing teaching equipment, and particularly relates to a multilingual-fusion word writing process description word resource container system and resource construction and use thereof. The multilingual-fusion word writing process description word resource container system comprises a container body module, a container recording index pointer mapping module, a resource input functional module, a resource output functional module, an input device module, a display device module, a resource application passage module, a resource backup device module, a resource adjusting passage module, a resource practical system module and a resource refreshing passage module. A public word writing process description word resource platform can be provided for developing various intelligent writing teaching systems, and paperless and informationized word writing learning is really achieved. The multilingual-fusion word writing process description word resource container system has a large number of audiences, use period is long, and the system is highly functional and convenient and flexible to maintain.

Description

The character calligraph process prescription word resource container of multi-lingual fusion and structure and use

Technical field

The invention belongs to electronic characters writing and teaching equipment technical field, be specifically related to a kind of character calligraph process prescription word resource container system and resource construction and use of multi-lingual fusion.

Background technology

Having non-single language knowledge, is that modern social development is to modern's basic demand.Along with deepening constantly that Ecological Society construction and infotech are popularized, time and tide wait for no man to utilize touching technique to carry out the method for character calligraph study and the change of teaching aid.Existing character calligraph tutoring system mostly is learning to write by tracing over characters printed in red of single language or Templated online character calligraph training system, the main pen with means for holding it in right position cartoon book WriteMode that adopts is identified, to the character calligraph process do not need too tight characterising parameter express and too much, the meticulous content of courses mutual, thereby corresponding system can only become the auxiliary instrument of religion of the character calligraph study that the audient is few and life cycle is very short.The actual conditions of character calligraph education show, realize with no paper, information-based character calligraph study, must make character calligraph learning system feature richness, multi-lingual compatibility, can realize classroom teaching effect, can the emulation papery write exercise-book, and can serve whole character calligraph study educational stage.Character calligraph process prescription word resource container is the indispensable ingredient of this type systematic, and with respect to the character calligraph training system of multi-lingual compatibility, the character calligraph process prescription word resource container system that researches and develops multi-lingual fusion is of great significance.

Summary of the invention

First purpose of the present invention provides a kind of character calligraph process prescription word resource container system of multi-lingual fusion, forms the character calligraph process prescription word resource common platform of the required multi-lingual fusion of all kinds of character calligraph intelligent tutoring systems of exploitation.

First purpose of the present invention realizes by the following technical solutions:

The character calligraph process prescription word resource container system of this multi-lingual fusion, it comprises that container body module, container recording indexes pointer mapping block, resource input functional module, resource output function module, input equipment module, display device module, resource application channel module, resource backup EM equipment module, resource adjustment channel module, resource utility system module, resource refresh channel module, wherein:

(a) container body module: be stored in record pointer defined memory location for the record content that will come from the resource input functional module according to container recording indexes pointer mapping block, the record content that perhaps will be stored in the record pointer assigned address according to container recording indexes pointer mapping block reads into the resource input functional module, comprises

The record memory module of multi-lingual fusion is used for preserving character calligraph process prescription word record resource;

The container pointer module is for the record pointer data that receive and deposit from container recording indexes pointer mapping block (2);

Resource input channel module be used for to receive the record data that come from resource input functional module (3), and the relevant position in the record memory module of the record pointer that provides by the container pointer module multi-lingual fusion that record data are stored in;

Resource output channel module the record pointer that provides by the container pointer module is provided the record data of the record memory module relevant position of multi-lingual fusion is read into resource output function module (4);

(b) container recording indexes pointer mapping block: the language coding, grade's coding, class number coding of the wall scroll record that will provide from the input equipment module and word order coding within the class period are provided, or the owner record pointer of batch records and batch length, be converted to the address pointer of the record memory module respective memory unit of multi-lingual fusion in the container body module by the index word mapper module, comprise

The language coding module is used for receiving the language coding from input equipment module wall scroll record, and this coding is sent into the index word mapper module;

Grade's coding module is used for receiving the grade's coding from the wall scroll record of input equipment module, and this coding is sent into the index word mapper module;

The class coding module is used for receiving the class number coding from the wall scroll record of input equipment module, and this coding is sent into the index word mapper module;

Word order coding module is used for receiving the word order coding from the wall scroll record of input equipment module, and this coding is sent into the index word mapper module;

Container pointer counting module, be used for receiving owner record pointer and batch records length from the batch records of input equipment module, and the owner record pointer sent into the index word mapper module, start transmit in batches after, this module changes record pointer automatically by given side-play amount;

The index word mapper module, will be from the code of each coding module of wall scroll record, or from the current record pointer that batch records container pointer counting module provides, be transformed to the actual address pointer of the record memory module respective memory unit of multi-lingual fusion in the container body module;

(c) resource input functional module: be used for realizing various relevant resource input functions, the resource input functional module of setting comprises

Resource is added module, realizes the resource from the input equipment module is added content is sent to the container body module after respective handling resource input channel module;

The resource modifying module, realization will be sent to from the resource modifying content of input equipment module the resource input channel module of container body module after respective handling;

The resource refresh module, realization will be sent to from the resource refreshing content that resource refreshes channel module the resource input channel module of container body module after respective handling;

The resource adjusting module, realization will be adjusted content is sent to the container body module after respective handling resource input channel module from the resource that resource is adjusted channel module;

(d) resource output function module: be used for realizing various relevant resource output functions, the resource output function module of setting comprises

Resource backup module, realization will be sent to the resource backup EM equipment module from the data of resource output channel module in the container body module and carry out resource backup after respective handling;

The resource removing module, the resource delete function of realization container is checked for resource deletion effect from the data of resource output channel module in the container body module;

Resource is consulted module, and realization will be sent to from the data of resource output channel module in the container body module resource display device module and carry out the resource demonstration after respective handling;

Resource application module, realization will be sent to from the data of resource output channel module in the container body module resource and use channel module after respective handling, for the system in the resource utility system module;

Resource adjusting module, realization will be sent to from the data of resource output channel module in the container body module resource and adjust channel module after respective handling.

Further, the character calligraph process prescription word logging modle structure that the record memory module of multi-lingual fusion is stored in the described container body module is: leading order of strokes observed in calligraphy data module connects the wrong order of strokes observed in calligraphy data module of handing over, wrong friendship order of strokes observed in calligraphy data module connects wrong from order of strokes observed in calligraphy data module, and is wrong from order of strokes observed in calligraphy data module connection added field data module.

The record memory module of described multi-lingual fusion, the pointer structure of record is: the language coding module connects grade's coding module, grade's coding module connection class coding module, the class coding module connects word order coding module within the class period.

Resource construction and the using method of the character calligraph process prescription word resource container system of the multi-lingual fusion that second purpose of the present invention is to provide above-mentioned, it comprises the step of following order:

(a) character calligraph process prescription word record data establishment step: writing process and general stroke-order structure according to literal are worked out the character calligraph process prescription word logging modle data resource code chain that is stored in the container body module (1);

(b) start enters the containment system step: open chassis power supply, ARM9 operation platform system software, touch screen display containment system execute file icon, click this icon with mouse or touch, containment system software in the ARM9 operation FLASH storer, touch-screen is by the input window of position, the interface layout display text writing process describing word memory block index code data module of design, stroke coding data module input window, stroke relation and parts relationship coded data module input window, the wrong stroke order coding data module input window of handing over, wrong action pane from stroke order coding data module input window and added field data module;

(c) wall scroll resource record index code establishment step: the first step is utilized mouse or is touched and click the language coding module in the drop-down menu that language chooser window provides, and selects corresponding language; Second step utilizes mouse or touches clicks grade's coding module in the drop-down menu that grade's chooser window provides, select corresponding grade; The 3rd step was utilized mouse or touched click class coding module in the drop-down menu that class chooser window provides, and selected to levy accordingly number; The 4th step was utilized mouse or touched and clicks literal word order coding module within the class period in the drop-down menu that word order chooser window provides within the class period, selected corresponding literal;

(d) character calligraph process prescription digital data resource input step: the first step is utilized mouse or is touched the system works cursor is positioned stroke coding data module input window, by keyboard input stroke coding data module according to the order of sequence; Second step utilizes mouse or touches the system works cursor is positioned stroke relation and parts relationship coded data module input window, by keyboard according to the order of sequence entering stroke relation and parts relationship coded data module; The 3rd step was utilized mouse or touched the system works cursor is positioned the wrong stroke order coding data module input window of handing over, and inputted according to the order of sequence the wrong stroke order coding data module of handing over by keyboard; It is wrong from stroke order coding data module input window that the 4th step utilized mouse or touch that the system works cursor is positioned, and inputs according to the order of sequence wrong from the stroke order coding data module by keyboard; The 5th step was utilized mouse or touched the system works cursor is positioned added field data module input window, inputted according to the order of sequence the added field data module by keyboard;

(e) character calligraph process prescription digital data resource is added the preservation operation steps: input registration confirmed soft key is clicked in mouse or touch, ARM9 operation coded data module is preserved modular program, with the coded data module contents in four coding input windows by language coding, grade's coding, class number coding and within the class period the index code determined of 4 parameters of word order deposit in the relevant position of record resource storage area of FLASH storer;

(f) resource is consulted step: mouse or touch are clicked resource and are consulted soft key, ARM9 operation resource is consulted modular program, touch-screen enters resource and consults the interface, the language coding at interface, grade's coding, class number coding and within the class period four indexing parameter subwindows of word sequence number show the parameter value of the four current reservations in Parameter storage district, resource is pressed the stroke subset, stroke relation and parts relationship, the wrong order of strokes observed in calligraphy of handing over, wrong from the order of strokes observed in calligraphy and added field totally 8 columns show respectively the resource content of the record memory module of multi-lingual fusion in the typing FLASH record storage, article one, is recorded as the resource record of the current content indexing of indexing parameter subwindow, can carries out forward or reverse retrieval;

(g) resource set-up procedure: mouse or touch are clicked resource and are adjusted soft key, ARM9 operation resource adjusting module program, touch-screen enters resource and adjusts the interface, the adjusted recording indexes code of indexing parameter subwindow input at the interface, mouse or touch are clicked and are adjusted the output soft key, adjusted record record memory module of multi-lingual fusion from the FLASH storer exports resource to and adjusts channel module, removes the shared spatial data of adjusted record; Adjust record in the indexing parameter subwindow input at interface and newly deposit the location index code, mouse or touch are clicked and are adjusted the input soft key, and adjusted the record from resource adjusted the new memory location that channel module writes the record memory module of multi-lingual fusion the FLASH record storage;

(h) step that logs off: system withdraws from soft key with the mouse click, ARM9 with current language coded data module, grade's coded data module, class coded data module and within the class period 4 parameters of word order coded data module deposit the outage reserve area of 4 parameters in the eeprom memory in, program is return plateform system and is moved;

(i) resource applying step: when resource is used, the resource application of softkeys is clicked in mouse or touch, ARM9 operation resource application module program, indexing parameter subwindow input at the interface is employed the recording indexes code, mouse or touch are clicked and are used the output soft key, are employed record record memory module of multi-lingual fusion from the FLASH storer and export resource application channel module to; Resource is used the data resource in the channel module or is followed the tracks of and instruct or follow the tracks of and instruct or other system of confession for the free style character calligraph for the modular character calligraph, containment system is the backstage character calligraph process prescription digital data resource container of resource application system, accepts the operation of application system.

The present invention can provide character calligraph process prescription word resource common platform for developing all kinds of character calligraph intelligent tutoring systems, with no paper, the information-based character calligraph study of real realization, adopt the character calligraph tutoring system of the character calligraph process prescription word resource container of the multi-lingual fusion of the present invention, the audient is wide, life cycle is long, function is strong, and is easy to maintenance flexible.

Description of drawings

Fig. 1 is the containment system modular structure block diagram of the embodiment of the invention.

Fig. 2 is containment system hardware supported structured flowchart of the present invention.

Embodiment

The present invention is further detailed explanation below in conjunction with drawings and Examples.

Referring to Fig. 1, the character calligraph process prescription word resource container system of multi-lingual fusion of the present invention mainly is comprised of container body module 1, container recording indexes pointer mapping block 2, resource input functional module 3,4 four parts of resource output function module.

Container body module 1 is used for depositing resource record, is comprised of record memory module, resource input channel module, resource output channel module and the container pointer module of multi-lingual fusion.The record content of the record memory module of multi-lingual fusion storage is that form can multi-lingual general character calligraph process prescription word; The resource that need to input enters the record memory module of multi-lingual fusion through resource input channel module, specifically deposit in what position of the record memory module of multi-lingual fusion and determined by the current pointer content that the container pointer module receives; In the time of need to exporting resource from container, by the definite position of exporting resource record of current pointer content that the container pointer module receives, selected resource is exported from resource output channel module.

Container recording indexes pointer mapping block 2 is used to form the pointer that needs the operating resource record, comprises wall scroll resource record operating pointer generation module, bulk resources record process container pointer counting module and index word mapper module.Wall scroll resource record operating pointer generation module comprises language, grade, class number and word order coding module within the class period, the record retrieval information that the input equipment module 5 that is comprised of keyboard, mouse, touch-screen, gesture equipment and speech sound device etc. provides the user is delivered to container recording indexes pointer mapping block 2, when wall scroll record resource operation, provide language, grade, class number and the word order of wall scroll record resource to encode, when the batch records resource operation, provide owner record in container pointer data and record length parameter.Record resource operation for wall scroll, encoding from the language of input equipment module 5 enters the language coding module; Grade's coding enters a grade coding module; Class number coding enters the class coding module; Word order coding enters word order coding module.For the batch records resource operation, enter container pointer counting module from owner record pointer and the batch records length parameter of input equipment module 5.Deliver to the index word mapper module by the parameter that the coding module such as language, grade, class number, word order and container pointer counting module provide.Wall scroll when operation record, the index word mapper module with language, grade, levy number, the coding parameter such as word order is transformed to the actual pointer information of operation note in container; During the batch records operation, the index word mapper module is with the actual pointer information of operation note in container headed by the coding parameter conversion such as the language of owner record, grade, class number, word order, container pointer counting module is adjusted its output content automatically in the batch operation process, until the batch operation amount meets length parameter.The index word mapper module offers container pointer module in the container body with wall scroll resource record operating pointer or bulk resources record operating pointer, as being operated the physical location pointer of resource record in container.

Resource input functional module 3 is used for transmitting the resource record that need to deposit in to container body module 1, the special input functional modules such as the resource input channel module connection resource of container body module 1 refreshes, interpolation, modification and adjustment, resource input functional module 3 receives with the content that transmits and is character calligraph process prescription word recorded information.Resource is added module and the resource modifying module provides character calligraph process prescription word information by the input equipment module 5 that comprises the input equipments such as keyboard, mouse, touch, gesture, speech sound device, and the position indicator pointer of character calligraph process prescription word information in container is the current wall scroll resource record operating pointer information of container pointer module in the container body module 1; When existence is distrusted container body module 1 content, need to utilize resource backup that record memory module in the container body module 1 is refreshed, refresh source resource in comprising the host computer system storage, mobile memory, network memories etc. are in interior resource backup EM equipment module 8, the backup content that resource backup EM equipment module 8 provides is sent into resource and is refreshed channel module 11, resource refreshes channel module 11 and send the resource refresh module with refreshing information, and operating pointer derives from the container pointer mapping output in bulk resources when output record of container recording indexes pointer mapping block 2.When grade appears in word because the teaching material version updating makes exercise, text, during word order change within the class period, do not need again typing resource record content, as long as and carry out the internal resource adjustment, the input message of resource adjusting module is adjusted channel module by resource in the resource input functional module 3 provides, the resource adjusting module will be delivered to resource input channel module in the container body module 1 from controlled recorded information that resource is adjusted channel module 9, container body module 1 will be adjusted the recorded information of coming and deposit in the new memory location of being determined by the container pointer module, the deposit method of adjusting record can adopt the methods such as cladding process and insertion, adjusts the input pointer and presses the generation of wall scroll resource record operating pointer.

Resource output function module 4 is used for receiving the recorded information from container body module 1 resource output channel module, and the resource information of resource output channel module is from the record memory module.Resource output function module 4 by resource backup, delete, consult, use and the dedicated functions module such as adjustment forms, each dedicated functions module carries out delivering to the succeeding target module after corresponding function is processed to recorded information.For preventing that container body module 1 interior resource from causing the destruction Of resources because of reasons such as hardware, software, external disturbance and disasters or lose, container body module 1 interior resource is by the bulk resources record way of output, be transported to the resource backup EM equipment module 8 that comprises host computer storer, mobile memory, online storage device by the resource backup module and back up, operating pointer derives from the container pointer mapping in bulk resources when output record of container recording indexes pointer mapping block 2; Resource is consulted module and recorded information is exported to the corresponding display demonstration of display device module 6 confessions that comprises LCD display, light-emitting diode display, the output information of container recording indexes pointer mapping block 2 when operating pointer derives from wall scroll resource record or the output of bulk resources record; The resource application module exports recorded information to resource and uses channel module 7, be applied to comprise the resource utility system module 10 of the tracking of template type character calligraph and guidance, the tracking of free style character calligraph and guidance, character calligraph cluster, character calligraph classification etc., the output information of container recording indexes pointer mapping block 2 when operating pointer derives from wall scroll resource record or the output of bulk resources record; The resource record that the resource adjusting module will be adjusted is sent into resource and is adjusted channel module 9, the output information of container recording indexes pointer mapping block 2 when operating pointer derives from the output of wall scroll resource record; The resource removing module is finished the deletion of resource record in the container body module 1, the output information of container recording indexes pointer mapping block 2 when operating pointer derives from wall scroll resource record or the output of bulk resources record.

Record is the target of container, container of the present invention loads be recorded as form can multi-lingual general character calligraph process prescription word, and its order of strokes observed in calligraphy field not only needs to express stroke order and the relation of corresponding character calligraph, the more important thing is to have multi-lingual general structure.Multi-lingual general stroke-order structure is by pressing design such as the below:

The literal of any language, its writing process all has the order of strokes observed in calligraphy of its regulation.Observe from the time-space relationship angle, the common law of each language stroke structure word process is: current stroke writing and the two-dimensional geometry position relationship of writing all strokes formation regulations.As character calligraph process teaching parameter, the order of strokes observed in calligraphy should reflect this dynamic two-dimensional geometry position relationship objective, exactly.

The order of strokes observed in calligraphy of different language character calligraph processes is summarized as the leading order of strokes observed in calligraphy, the wrong order of strokes observed in calligraphy, wrong from order of strokes observed in calligraphy three major types of handing over, and the general stroke-order structure of each language character calligraph is defined as: (the leading order of strokes observed in calligraphy) (the wrong order of strokes observed in calligraphy of handing over) (wrong from the order of strokes observed in calligraphy).

The leading order of strokes observed in calligraphy be article one stroke from literal to the writing process of the last item stroke, the stroke sequential write that is consisted of by regulation stroke and stroke relation, custom component and parts relationship.If literal contains K bar stroke, will be write literal according to the calculability of the locus of the stroke that links to each other in twos and be customized to N parts, the stroke number that each parts comprises respectively is k ₁, k ₂, k _N, the writing process coding structure of the leading order of strokes observed in calligraphy is expressed as: (custom component 1) (parts relationship 1) (custom component 2) (parts relationship 2) (parts relationship N-1) (custom component N).{ 1,2, structure N}) is: (stroke subset 1) (stroke concerns subset 1) (stroke subset 2) (stroke concerns subset 2), (stroke concerned subset k to custom component I(I ∈ _I-1) (stroke subset k _I).The stroke subset is the stroke set that is made of the stroke that can develop mutually, and stroke concerns that subset is the stroke set of relationship that is made of the stroke relation that can develop mutually.

The wrong order of strokes observed in calligraphy of handing over is that the current cross friendship stroke that writes out stroke with the first two and write out in the past the mistake that stroke produces concerns sequence.If current what write out is J bar stroke, then the longest possible wrong order of strokes observed in calligraphy writing process coding structure of handing over is expressed as: (stroke J, stroke J-2) (stroke J, stroke J-3) (stroke J, stroke 0).For the literal that contains K bar stroke, when K 〉=3, then the longest possible wrong order of strokes observed in calligraphy writing process coding structure of handing over is expressed as: (stroke 3, stroke 1) (stroke 4, stroke 2) (stroke 4, stroke 1) (stroke 5, stroke 3) (stroke 5, stroke 2) (stroke 5, stroke 1) (stroke K, stroke K-2) (stroke K, stroke K-3) (stroke K, stroke 1).The right element can be indirectly in the diadactic structure, if mistake friendship namely can not occur then can not list.Mistake hands over the length of the order of strokes observed in calligraphy to predict, the wrong order of strokes observed in calligraphy and parts, the parts relationship handed over has nothing to do.Stroke J is the sequence code that J bar stroke is write, and the rest may be inferred by analogy for it.

Wrong is currently to write out stroke and the first two and write out in the past the sequence that stroke has departed from correct stroke relation from the order of strokes observed in calligraphy.If current what write out is J bar stroke, then possible maximum mistake is expressed as from order of strokes observed in calligraphy writing process coding structure: (stroke J, stroke J-2, two concern that 1, two concerns 2) (stroke J, stroke J-3, two concern that 1, two concerns 2) (stroke J, stroke 0, two concern that 1, two concerns 2).For the literal that contains K bar stroke, when K 〉=3, then the longest possible mistake is expressed as from order of strokes observed in calligraphy writing process coding structure: (stroke 3, stroke 1, two concern that 1, two concerns 2) (stroke 4, stroke 2, two concern that 1, two concerns 2) (stroke 4, stroke 1, two concern that 1, two concerns 2) (stroke 5,3, two of strokes concern that 1, two concerns 2,) (stroke 5,2, two of strokes concern 1, two concern 2) (stroke 5, stroke 1, two concern that 1, two concerns 2) (stroke K, stroke K-2, two concern that 1, two concerns 2,) (two concern 1 for stroke K, stroke K-3, two concern 2) (stroke K, stroke 1, two concern that 1, two concerns 2).Every a pair of mistake the right element in the relationship expression structure can be indirectly, if namely can not occur wrong from could not list, two draw concern only list might produce mistake from relation, impossiblely then can not list.Wrong from the order of strokes observed in calligraphy length and wrongly predict from listing of relation, wrongly have nothing to do from the order of strokes observed in calligraphy and parts, parts relationship.

If literal contains K bar stroke, customizable is N parts, and the stroke number that each parts comprises respectively is k ₁, k ₂, k _N, practicality and the storage organization of character calligraph process coding are: (stroke subset 1, stroke subset 2,, stroke subset K) (stroke concerns subset 11, and stroke concerns subset 12,, stroke subset relation 1k ₁-1, parts relationship 1, stroke concern subset 21, and stroke concerns subset 22,, stroke subset relation 2k ₂-1, parts relationship 2,, stroke concerns subset N1, stroke concerns subset N2, and, stroke subset relation Nk _N-1, parts relationship N) (the wrong order of strokes observed in calligraphy sequence of handing over) (wrong from order of strokes observed in calligraphy sequence).Wherein " parts relationship N " takes the end authentication code of the order of strokes observed in calligraphy as the leading factor.

The complete structure of the character calligraph process prescription word record that form is can be multi-lingual general is: (the leading order of strokes observed in calligraphy) (the wrong order of strokes observed in calligraphy of handing over) (wrong from the order of strokes observed in calligraphy) (added field).The content of added field generally comprises the literal ISN, writing quality is analyzed template parameter, phonetic code and original person's handwriting coordinate etc.Order of strokes observed in calligraphy data link the resource record that consists of with added field and are stored in order in the resource record storer.

Referring to Fig. 2, support that the hardware configuration of container of the present invention is as follows:

The hardware systems of containment system is take embedded processors ARM 9 as core devices, and the device that connects ARM9 comprises FLASH storer, SDRAM storer, eeprom memory, 1#USB interface, 2#USB interface, 3#USB interface, 4#USB interface, LCD interface, LED interface, com interface and RJ45 interface; Plateform system software, containment system software and record resource are deposited in the FLASH storer; The SDRAM storer is containment system software work cell memory; Eeprom memory is containment system BIOS storer; The display device such as LCD display, light-emitting diode display, the input equipments such as resistive touch film, keyboard, mouse, gesture device, speech sound device are system and user's interactive component; A/D converter converts the touch simulation signal of writing that the resistive touch film provides to represent person's handwriting point two-dimensional coordinate digital signal; The LCD interface is the information interaction passage modular circuit of ARM9 and LCD; The LED interface is the information interaction passage modular circuit of ARM9 and LED; USB interface is the information interaction modular circuit of the input blocks such as ARM9 and keyboard, mouse, gesture device, speech sound device; Com interface is the information interaction modular circuit of ARM9 and outside serial equipment, such as can be used for connecting the host computer system; RJ45 is the modular circuit of native system and internet interactive information, network memory to the backup of record storage with refresh by this modular circuit transmission of information; The power source special power supply; Special-purpose cabinet encapsulation.The LCD resistive touch screen is embedded in the panel of cabinet, click for system's demonstration, user writing and order, touch-screen is sent user's touch operation information into ARM9 by A/D converter and LCD interface, and the information exchange that ARM9 will need to show is crossed the LCD interface and sent into the touch-screen assigned position and show; Keyboard carries out information interaction by 1#USB interface and ARM9; MouseAcross crosses the 2#USB interface and ARM9 carries out information interaction, and the gesture device carries out information interaction by 3#USB interface and ARM9; Speech sound device carries out information interaction by 4#USB interface and ARM9.

Resource construction and the using method of containment system of the present invention are as follows:

The containment system software in the FLASH storer is deposited in operation, the record of keyboard and mouse action input is by the 1#USB interface, the 2#USB interface enters ARM9, enter the SDRAM storer by ARM9 again, and show in the respective window of LCD touch-screen, by mouse or touch the user send confirm operation information after, ARM9 is to the character calligraph process prescription digital data content in the SDRAM storer, structure legalizes and normalization analysis, both be identified errorless after, by ARM9 the character calligraph process prescription digital data of typing is packed in the record storage relevant position of FLASH storer.The record deposit position of record storage is pressed language coding, grade's coding, class number coding and 4 parameter references of word order within the class period.Groundwork step and the content of carrying out the resource management of containment system record by man-machine interaction parts such as keyboard, mouse, touch and LCD display are:

Character calligraph process prescription word record data establishment step: writing process and general stroke-order structure according to literal are worked out the character calligraph process prescription word logging modle data resource code chain that is stored in the container body module (1);

Start enters the containment system step: open chassis power supply, ARM9 operation platform system software, touch screen display containment system execute file icon, click this icon with mouse or touch, containment system software in the ARM9 operation FLASH storer, touch-screen shows input window, stroke coding input window, stroke relation and the parts relationship coding input window of record resource memory block text point index code, wrong stroke order coding input window, the wrong action pane from stroke order coding input window and added field handed over by the interface layout of design.

Wall scroll resource record index code establishment step: the first step is utilized mouse or the drop-down menu mid point selection kind that provides at language chooser window is provided; Second step utilizes mouse or touches and click grade in the drop-down menu that grade's chooser window provides; The 3rd step was utilized mouse or the drop-down menu mid point curricula-variable that provides at class chooser window number is provided; The 4th step was utilized mouse or touched the drop-down menu mid point selection word number of ordering within the class period that word order chooser window provides within the class period.

Character calligraph process prescription digital data resource input step: the first step is utilized mouse or is touched the system works cursor is positioned the stroke coding input window, by keyboard input stroke coding according to the order of sequence; Second step utilizes mouse or touches the system works cursor is positioned stroke relation and component coding input window, by keyboard according to the order of sequence entering stroke relation and parts relationship coding; The 3rd step was utilized mouse or touched the system works cursor is positioned the wrong stroke order coding input window of handing over, and inputted according to the order of sequence the wrong stroke order coding of handing over by keyboard; It is wrong from the stroke order coding input window that the 4th step utilized mouse or touch that the system works cursor is positioned, and inputs according to the order of sequence wrong from stroke order coding by keyboard; The 5th step was pressed correlation method input added field.

Character calligraph process prescription digital data resource is added the preservation operation steps: input registration confirmed soft key is clicked in mouse or touch, ARM9 operation coding is preserved modular program, with the encoded content in four coding input windows by language coding, grade's coding, class number coding and within the class period the index code determined of 4 parameters of word order deposit in the relevant position of record resource storage area of FLASH storer.

Resource is consulted step: mouse or touch are clicked resource and are consulted soft key, ARM9 operation resource is consulted modular program, touch-screen enters resource and consults the interface, the language coding at interface, grade's coding, numbers four indexing parameter subwindows of class number coding and literal ordering within the class period show the value of the four current reservations in Parameter storage district, resource is pressed the stroke subset, stroke relation and parts relationship, the wrong order of strokes observed in calligraphy of handing over, wrong from the order of strokes observed in calligraphy and added field totally 8 columns show respectively the resource content of typing FLASH record storage, article one, is recorded as the resource record of the current content indexing of indexing parameter subwindow, can carries out forward or reverse retrieval.

The resource set-up procedure: mouse or touch are clicked resource and are adjusted soft key, ARM9 operation resource adjusting module program, touch-screen enters resource and adjusts the interface, the adjusted recording indexes code of indexing parameter subwindow input at the interface, mouse or touch are clicked and are adjusted the output soft key, adjusted record exports resource to from the FLASH storer and adjusts impact damper, removes the shared spatial data of adjusted record; Adjust record in the indexing parameter subwindow input at interface and newly deposit the location index code, the input soft key is adjusted in mouse or touch click, and adjusted the record from resource adjustment impact damper writes memory location new the FLASH record storage.

Step logs off: system withdraws from soft key with the mouse click, ARM9 deposits numbers 4 parameters of current language coding, grade's coding, class number coding and literal ordering within the class period in the outage reserve area of 4 parameters in the eeprom memory, and program is return the plateform system operation.

Resource applying step: when resource is used, the resource application of softkeys is clicked in mouse or touch, ARM9 operation resource application module program, indexing parameter subwindow input at the interface is employed the recording indexes code, mouse or touch are clicked and are used the output soft key, are employed record record memory module of multi-lingual fusion from the FLASH storer and export resource application channel module to; Resource is used the data resource in the channel module or is followed the tracks of and instruct or follow the tracks of and instruct or other system of confession for the free style character calligraph for the modular character calligraph, containment system is the backstage character calligraph process prescription digital data resource container of resource application system, accepts the operation of application system.

The multi-lingual fusion characteristics that the present invention has embodies by the three aspects: content, is the character calligraph process prescription digital data resource container structure that realizes multi-lingual fusion that has as shown in Figure 1 on the one hand; Two aspects are that language coding, grade's coding, class number coding and word order coding produce container body module 1 needed record container pointer through container recording indexes pointer mapping block 2; Three aspects: is with the leading order of strokes observed in calligraphy, the wrong order of strokes observed in calligraphy, wrong from order of strokes observed in calligraphy ordering structure composition character calligraph process prescription word in accordance with regulations of handing over.

The resource of the record memory module of multi-lingual fusion in the container body module 1 storage is that form can multi-lingual general character calligraph process prescription word, the core field of describing word is the order of strokes observed in calligraphy, and multi-lingual syncretizing mechanism is to realize that multi-lingual writing process describing word Resources Sharing Mechanism is as sign.Below be the example of realizing merging from three class order of strokes observed in calligraphy resource sharings by leading, wrong friendship, mistake with the Chinese phonetic alphabet, English letter and three kinds of languages of simplified Hanzi:

Stroke, stroke relation, custom component relation carry out ordinal number and length is gone forward one by one in conjunction with coding, and namely the number by stroke carries out the ordinal number coding to stroke; If it is L that maximum ordinal number most significant digit adds the value of 1 low level full 0, L is first relation object coding, Δ ₁Be relation object coding code value increment, then L+ α ₁Δ ₁Be relation object universal coding, α ₁∈ { 0,1,2, }; If class coding code bit length is the M position, with Δ ₂Expression stroke layering position relationship is distinguished the step-length of going forward one by one of encoding, and concerns that code length is M+ α ₂Δ ₂, α ₂∈ { 1,2, }, α ₂Get the corresponding position relationship of 1 expression literal by single-layer positions relation coding, the rest may be inferred by analogy for it.Parts do not need special coding for customization among the present invention.

According to the space calculability in the character calligraph process, literal is customized to N parts.Character calligraph process coding structure based on N parts is comprised of four parts, and first is the 1st stroke coding sequence of subsets to the N custom component; Second portion is the 1st to N custom component stroke relation coding sequence of subsets, last relation code of each sequence of subsets is the parts relationship code, the parts relationship code of N subset sequence is met the analysis of this yard end writing process for concerning EOS identity code, system; Third part is the wrong order of strokes observed in calligraphy sequence of handing over, and this sequence has predictability; The 4th part is wrong from order of strokes observed in calligraphy sequence, and the length of each element has predictability in this sequence.Language, grade, class number and within the class period four codings of word order consist of the character calligraph process and be coded in deposit position retrieval code in the code database container.

The default language of the codified of native system setting is Chinese phonetic alphabet, English alphabet and continent simplified Hanzi, and the stroke coding of three kinds of languages is shown in table 1, table 2, table 3, table 4, table 5.

Table 1 small letter Chinese phonetic alphabet stroke coding

Table 2 capitalization Chinese phonetic alphabet stroke coding

Table 3 small letter English letter stroke coding

Table 4 capitalization English letter stroke coding

Table 5 continent simplified Hanzi stroke kind, shape and coding

Three kinds of language mid-continental simplified Hanzi stroke most species, i.e. L=60.Native system is got Δ ₁=10, α ₁=0, concern classification code with 60～69 as stroke, codified 10 large class process stroke relations; Make α ₁=1, with 70～79 as process parts relationship classification code, codified 10 large class process parts relationships.Δ is got in large class coding code bit length M=2 ₂=2, α ₂{ 1,2}, namely the character calligraph process can be by one deck or two layers of position relationship coding, when getting α for ∈ ₂=1 o'clock, process was by single-layer positions relation coding, and code length is 2+2; When getting α ₂=2 o'clock, process did not need 2 figure places to express by double-deck position relationship coding if the second layer concerns number, and desirable length is 1, and corresponding code length is 2+2+1=5.

Multi-lingual shared procedure stroke relation coding sees Table 6.Every large class is not established second layer relation with the ground floor relation of " 00 " coding, and all the other all establish trisection two ATM layer relationsATMs, and with 1 coded representation, namely the code total length is 5, and during actual the use, one deck, two ATM layer relationsATMs coding all can independently use.

The multi-lingual shared character calligraph process stroke of table 6 concerns consolidated statement

Multi-lingual shared character calligraph process parts relationship coding sees Table 7.One ATM layer relationsATM coded representation is current to be write out parts and will write out the position relationship that parts should form; Two ATM layer relationsATM coded representations are current write out parts will with continuously after what parts of writing have the position relationship that ATM layer relationsATM coding marks, with 1 coded representation, maximum part count reach 9.Each character calligraph procedure structure is different, the process parts that customize are also different, and the concrete parts of concrete literal have its corresponding continuously rear write parts number, therefore, two layers of parts relationship coding continuously after the write parts number represent with X, during actual coding according to the concrete condition assignment.Can only wholely use two ATM layer relationsATMs coding when practical.

The multi-lingual shared character calligraph process parts relationship coding schedule of table 7

Table 6, table 7 are multi-lingual shared process stroke and process parts relationship coding, if the unique relationship that certain language exists shared relationship to describe, can be replenished coding at remaining code space, can enable " 80 ", " 90 ", " 100 " etc. such as large class field, the process stroke concerns that the generic field can enable " 67 ", " 68 " etc., and process parts relationship generic field can be enabled " 73 ", " 74 " etc.

The language of the default language simplified Hanzi of native system, English and Chinese phonetic alphabet coding is respectively 01,06 and 07,02 ~ 05 and is used for adding other Chinese characters languages codings, such as unsimplified Hanzi, Korea Spro's word etc., 08 and later code be used for other western language languages codings.The grade coding of simplified Hanzi, class number coding and within the class period word order coding determine according to the compulsory education curricular standard experiment textbook primary school Chinese teaching material structure of people education publishing house, grade is encoded to 01 ~ 12, odd number is the last term of academic year, the next term of even bit academic year; English and Chinese phonetic alphabet grade coding, class number coding and within the class period the word order self-editing structure of encoding determine.

Example 1. " wood " is the 2nd new word of wanting writing exercise of a first volume the 2nd class, the respective index code is 01010202, " wood " wordbook of this index position storage of the character calligraph process of FLASH storer coding container write the process coding and coding structure as shown in table 8.

Table 8 01010202

Table 8 shows, the whole word of this word is parts, i.e. a N=1; Each stroke subset and procedure relation subset are 1 element; First and the 3rd relation relates to two ATM layer relationsATMs, and second pass is the ground floor relation; The end mark code that native system adopts is " 0000 "; 3 wrong sequential elements of handing over may appear in prediction; Prediction can not produce wrong from sequential element.

Example 2. " as " be the 3rd word of wanting writing exercise of a volume two the 21st class, the respective index code is 01022103, this index position storage of the character calligraph process of FLASH storer coding container " as " wordbook write the process coding and coding structure as shown in table 9.

Table 9 01022103

Table 9 shows, this word is customized to 4 parts and forms, i.e. N=4; The 1st parts are comprised of 2 strokes, and these parts become about full width to concern with 2 continuously rear write parts; The 2nd parts are comprised of 2 strokes, and the process stroke between 2 strokes concerns that subset contains 2 elements, and these parts write out parts with the next one and become the full width upper and lower relation; The 3rd parts are comprised of 7 strokes, contain 6 process stroke relations, wherein 5 subsets are the single element subset, and be ground floor process stroke relation coding, 1 subset is 2 element subsets, 2 elements are second layer process stroke relation coding, these parts with after write 1 parts and become main upper left corner semi-surrounding to concern; The 4th parts are comprised of 2 strokes, and stroke concerns that subset contains 2 elements, and are second layer process stroke relation coding; Prediction can produce 10 wrong sequential elements of handing over; Prediction can produce 5 mistakes from sequential element.

Example 3 " h " is the 17th Chinese phonetic alphabet lowercase of wanting writing exercise of one grade the 1st class, the respective index code is 06010117, " h " wordbook of this index position storage of the character calligraph process of FLASH storer coding container write the process coding and coding structure as shown in table 10.

Table 10 06010117

Table 10 shows, this Chinese phonetic alphabet is customized to 1 parts, i.e. N=1; These parts are comprised of 2 strokes, and the process stroke concerns that subset contains 2 elements, and first element is ground floor process stroke relation, and second element is second layer process stroke relation; Prediction can not produce the wrong sequential element of handing over; Prediction can not produce wrong from sequential element.

Referring to Fig. 2, in conjunction with the hardware configuration of the present embodiment the modularized hardware principle of work of the character calligraph process prescription word resource container system of the multi-lingual fusion of the present invention is further described.The character calligraph process prescription word resource container system hardware of the multi-lingual fusion of the present invention is by embedded processors ARM 9, the FLASH storer, the SDRAM storer, eeprom memory, LCD, the resistive touch film, the A/D conversion, the LCD interface, the LED interface, com interface, the RJ45 interface, USB interface, keyboard, mouse, the gesture device, the modular circuit such as speech sound device and power supply and parts form, the system hardware main frame that modular circuit forms is installed in the cabinet, the LCD touch-screen that is overlapped by LCD display and resistive touch film exposes by the cabinet window, for man-machine interactive operation, keyboard connects the 1#USB interface of main frame on cabinet, and mouse connects the 2#USB interface of main frame on cabinet.The ARM9 operation is loaded on system program in the FLASH storer after system's energising, program is so that ARM9 passes through the human-computer interaction interface of LCD interface driver LCD touch screen display system, the character calligraph order of strokes observed in calligraphy data resource containment system icon of multi-lingual fusion is shown as one of interface icon, touch or click this icon with mouse, system enters the character calligraph order of strokes observed in calligraphy data resource Input Software operation of FLASH storer, this software makes ARM9 receive the character calligraph order of strokes observed in calligraphy data message that keyboard provides by the 1#USB interface, receive the clicking operation information that mouse provides, language by the 2#USB interface, grade, the class number, the coding parameter information such as word order are clicked at corresponding subwindow by mouse.It is temporary that the reservation data of need not cutting off the power supply that produce in the software running process are delivered to the SDRAM storer by ARM9, the stray parameter that needs outage to keep is delivered to eeprom memory by ARM9 and is preserved, the coding ARM9 of user's typing delivers in the FLASH storer and stores in the code database vessel space, and the memory location is by the language of user by the input of keyboard, mouse action, grade, class number, the index codes that form of four codings such as word order are definite within the class period.Main frame can be by com interface and serial equipment interactive information in addition, can pass through RJ45 interface and internet device interactive information, can by reserving USB interface and movable storage device interactive information, the code database container contents of FLASH storer can be carried to thus the system or equipment that needs to use this database; Language, grade, class number, within the class period four codings such as word order and character calligraph order of strokes observed in calligraphy data message namely record content also can be by gesture device or speech sound device input.

Claims (4)

1. the character calligraph process prescription word resource container system of a multi-lingual fusion, it is characterized in that: it comprises that container body module (1), container recording indexes pointer mapping block (2), resource input functional module (3), resource output function module (4), input equipment module (5), display device module (6), resource application channel module (7), resource backup EM equipment module (8), resource adjustment channel module (9), resource utility system module (10), resource refresh channel module (11), wherein:

(a) container body module (1): be stored in record pointer defined memory location for the record content that will come from resource input functional module (3) according to container recording indexes pointer mapping block (2), the record content that perhaps will be stored in the record pointer assigned address according to container recording indexes pointer mapping block (2) reads into resource input functional module (3), comprises

The record memory module of multi-lingual fusion is used for preserving character calligraph process prescription word record resource;

The container pointer module is for the record pointer data that receive and deposit from container recording indexes pointer mapping block (2);

Resource input channel module be used for to receive the record data that come from resource input functional module (3), and the relevant position in the record memory module of the record pointer that provides by the container pointer module multi-lingual fusion that record data are stored in;

Resource output channel module the record pointer that provides by the container pointer module is provided the record data of the record memory module relevant position of multi-lingual fusion is read into resource output function module (4);

(b) container recording indexes pointer mapping block (2): the language coding, grade's coding, class number coding of the wall scroll record that will provide from input equipment module (5) and word order coding within the class period are provided, or the owner record pointer of batch records and batch length, be converted to the address pointer of the record memory module respective memory unit of multi-lingual fusion in the container body module (1) by the index word mapper module, comprise

The language coding module is used for receiving the language coding from the wall scroll record of input equipment module (5), and this coding is sent into the index word mapper module;

Grade's coding module is used for receiving the grade's coding from the wall scroll record of input equipment module (5), and this coding is sent into the index word mapper module;

The class coding module is used for receiving the class number coding from the wall scroll record of input equipment module (5), and this coding is sent into the index word mapper module;

Word order coding module is used for receiving the word order coding from the wall scroll record of input equipment module (5), and this coding is sent into the index word mapper module;

Container pointer counting module, be used for receiving owner record pointer and batch records length from the batch records of input equipment module (5), and the owner record pointer sent into the index word mapper module, start transmit in batches after, this module changes record pointer automatically by given side-play amount;

The index word mapper module, will be from the code of each coding module of wall scroll record, or from the current record pointer that batch records container pointer counting module provides, be transformed to the actual address pointer of the record memory module respective memory unit of multi-lingual fusion in the container body module (1);

(c) resource input functional module (3): be used for realizing various relevant resource input functions, the resource input functional module of setting comprises

Resource is added module, and realization will be added content is sent to container body module (1) after respective handling resource input channel module from the resource of input equipment module (5);

The resource modifying module, realization will be sent to from the resource modifying content of input equipment module (5) the resource input channel module of container body module (1) after respective handling;

The resource refresh module, realization will be sent to from the resource refreshing content that resource refreshes channel module (11) the resource input channel module of container body module (1) after respective handling;

The resource adjusting module, realization will be adjusted content is sent to container body module (1) after respective handling resource input channel module from the resource that resource is adjusted channel module (9);

(d) resource output function module (4): be used for realizing various relevant resource output functions, the resource output function module of setting comprises

Resource backup module, realization will be sent to resource backup EM equipment module (8) from the data of resource output channel module in the container body module (1) and carry out resource backup after respective handling;

The resource removing module, the resource delete function of realization container is checked for resource deletion effect from the data of resource output channel module in the container body module (1);

Resource is consulted module, and realization will be sent to from the data of resource output channel module in the container body module (1) resource display device module (6) and carry out the resource demonstration after respective handling;

The resource application module, realization will be sent to resource and use channel module (7) after respective handling from the data of resource output channel module in the container body module (1), for the system in the resource utility system module (10);

The resource adjusting module, realization will be sent to resource and adjust channel module (9) after respective handling from the data of resource output channel module in the container body module (1).

2. the character calligraph process prescription word resource container system of multi-lingual fusion according to claim 1, it is characterized in that: the character calligraph process prescription word logging modle structure that the record memory module of multi-lingual fusion is stored in the described container body module (1) is: leading order of strokes observed in calligraphy data module connects the wrong order of strokes observed in calligraphy data module of handing over, wrong friendship order of strokes observed in calligraphy data module connects wrong from order of strokes observed in calligraphy data module, and is wrong from order of strokes observed in calligraphy data module connection added field data module.

3. the character calligraph process prescription word resource container system of multi-lingual fusion according to claim 2, it is characterized in that: the record memory module of described multi-lingual fusion, the pointer structure of record is: the language coding module connects grade's coding module, grade's coding module connection class coding module, the class coding module connects word order coding module within the class period.

4. structure and the using method of the character calligraph process prescription word resource container system of a multi-lingual fusion as claimed in claim 1 is characterized in that comprising the step of following order:

(a) character calligraph process prescription word record data establishment step: writing process and general stroke-order structure according to literal are worked out the character calligraph process prescription word logging modle data resource code chain that is stored in the container body module (1);

(b) start enters the containment system step: open chassis power supply, ARM9 operation platform system software, touch screen display containment system execute file icon, click this icon with mouse or touch, containment system software in the ARM9 operation FLASH storer, touch-screen is by the input window of position, the interface layout display text writing process describing word memory block index code data module of design, stroke coding data module input window, stroke relation and parts relationship coded data module input window, the wrong stroke order coding data module input window of handing over, wrong action pane from stroke order coding data module input window and added field data module;

(c) wall scroll resource record index code establishment step: the first step is utilized mouse or is touched and click the language coding module in the drop-down menu that language chooser window provides, and selects corresponding language; Second step utilizes mouse or touches clicks grade's coding module in the drop-down menu that grade's chooser window provides, select corresponding grade; The 3rd step was utilized mouse or touched click class coding module in the drop-down menu that class chooser window provides, and selected to levy accordingly number; The 4th step was utilized mouse or touched and clicks literal word order coding module within the class period in the drop-down menu that word order chooser window provides within the class period, selected corresponding literal;

(d) character calligraph process prescription digital data resource input step: the first step is utilized mouse or is touched the system works cursor is positioned stroke coding data module input window, by keyboard input stroke coding data module according to the order of sequence; Second step utilizes mouse or touches the system works cursor is positioned stroke relation and parts relationship coded data module input window, by keyboard according to the order of sequence entering stroke relation and parts relationship coded data module; The 3rd step was utilized mouse or touched the system works cursor is positioned the wrong stroke order coding data module input window of handing over, and inputted according to the order of sequence the wrong stroke order coding data module of handing over by keyboard; It is wrong from stroke order coding data module input window that the 4th step utilized mouse or touch that the system works cursor is positioned, and inputs according to the order of sequence wrong from the stroke order coding data module by keyboard; The 5th step was utilized mouse or touched the system works cursor is positioned added field data module input window, inputted according to the order of sequence the added field data module by keyboard;

(e) character calligraph process prescription digital data resource is added the preservation operation steps: input registration confirmed soft key is clicked in mouse or touch, ARM9 operation coded data module is preserved modular program, with the coded data module contents in four coding input windows by language coding, grade's coding, class number coding and within the class period the index code determined of 4 parameters of word order deposit in the relevant position of record resource storage area of FLASH storer;

(f) resource is consulted step: mouse or touch are clicked resource and are consulted soft key, ARM9 operation resource is consulted modular program, touch-screen enters resource and consults the interface, the language coding at interface, grade's coding, class number coding and within the class period four indexing parameter subwindows of word sequence number show the parameter value of the four current reservations in Parameter storage district, resource is pressed the stroke subset, stroke relation and parts relationship, the wrong order of strokes observed in calligraphy of handing over, wrong from the order of strokes observed in calligraphy and added field totally 8 columns show respectively the resource content of the record memory module of multi-lingual fusion in the typing FLASH record storage, article one, is recorded as the resource record of the current content indexing of indexing parameter subwindow, can carries out forward or reverse retrieval;

(g) resource set-up procedure: mouse or touch are clicked resource and are adjusted soft key, ARM9 operation resource adjusting module program, touch-screen enters resource and adjusts the interface, the adjusted recording indexes code of indexing parameter subwindow input at the interface, mouse or touch are clicked and are adjusted the output soft key, adjusted record record memory module of multi-lingual fusion from the FLASH storer exports resource to and adjusts channel module, removes the shared spatial data of adjusted record; Adjust record in the indexing parameter subwindow input at interface and newly deposit the location index code, mouse or touch are clicked and are adjusted the input soft key, and adjusted the record from resource adjusted the new memory location that channel module writes the record memory module of multi-lingual fusion the FLASH record storage;

(h) step that logs off: system withdraws from soft key with the mouse click, ARM9 with current language coded data module, grade's coded data module, class coded data module and within the class period 4 parameters of word order coded data module deposit the outage reserve area of 4 parameters in the eeprom memory in, program is return plateform system and is moved;

(i) resource applying step: when resource is used, the resource application of softkeys is clicked in mouse or touch, ARM9 operation resource application module program, indexing parameter subwindow input at the interface is employed the recording indexes code, mouse or touch are clicked and are used the output soft key, are employed record record memory module of multi-lingual fusion from the FLASH storer and export resource application channel module to; Resource is used the data resource in the channel module or is followed the tracks of and instruct or follow the tracks of and instruct or other system of confession for the free style character calligraph for the modular character calligraph, containment system is the backstage character calligraph process prescription digital data resource container of resource application system, accepts the operation of application system.

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