CN102855329B - Multilingual-fusion word writing process description word resource container, 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 building 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 of multi-lingual fusion and resource construction thereof and use.

Background technology

Having non-single language knowledge, is the basic demand of modern social development to modern.Along with universal the deepening constantly of Ecological Society construction and infotech, time and tide wait for no man to utilize touching technique to carry out the change of the method for character calligraph study and 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 identification of main employing pen with means for holding it in right position cartoon book WriteMode, do not need too tight characterising parameter to express to character calligraph process and too much, the meticulous content of courses mutual, thus corresponding system can only become the few and auxiliary instrument of religion of the character calligraph that life cycle is very short study of audient.The actual conditions of character calligraph education show, realize the study of with no paper, information-based character calligraph, character calligraph learning system feature richness, multi-lingual compatibility must be made, classroom teaching effect can be realized, papery can be emulated write exercise-book, and whole character calligraph study educational stage can be served.Character calligraph process prescription word resource container is the indispensable ingredient of this type systematic, and relative to the character calligraph training system of multi-lingual compatibility, the character calligraph process prescription word resource container system researching and developing multi-lingual fusion is of great significance.

Summary of the invention

First object of the present invention is to provide 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 multi-lingual fusion of exploitation needed for all kinds of character calligraph intelligent tutoring system.

First object 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 container body module, container recording indexes pointer maps module, 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 refreshing channel module, wherein:

(a) container body module: for the record content coming from resource input functional module being stored in record pointer defined memory location according to container recording indexes pointer maps module, or according to container recording indexes pointer maps module, the record content being stored in record pointer assigned address is read into resource input functional module, comprise

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

Container pointer module, for receiving and depositing the record pointer data from container recording indexes pointer maps module (2);

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

Resource output channel module, for the record pointer that provides by container pointer module by the record data reading of relevant position in the record memory module of multi-lingual fusion to resource output function module (4);

(b) container recording indexes pointer maps module: the language for the wall scroll record will provided from input equipment module is encoded, grade's coding, class number are encoded and word sequence is encoded within the class period, 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 container body module by index word mapper module, comprise

Language coding module, encodes for the language received from input equipment module wall scroll record, and this coding is sent into index word mapper module;

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

Class coding module, for receiving the class number coding from the wall scroll record of input equipment module, and sends this coding into index word mapper module;

Word sequence coding module, encodes for the word sequence received from the wall scroll record of input equipment module, and this coding is sent into index word mapper module;

Container pointer counting module, for receiving owner record pointer from the batch records of input equipment module and batch records length, and owner record pointer is sent into index word mapper module, after starting batch transmission, this module changes record pointer automatically by given side-play amount;

Index word mapper module, by the code of each coding module from 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 container body module;

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

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

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

Resource refresh module, realizes the resource input channel module resource refreshing content refreshing channel module from resource being sent to after respective handling container body module;

Resource adjusting module, realizes the resource input channel module resource Suitable content from resource adjustment channel module being sent to after respective handling container body module;

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

Resource backup module, realizes carrying out resource backup by being sent to resource backup EM equipment module from the data of resource output channel module in container body module after respective handling;

Resource removing module, realizes the resource delete function of container, and the data from resource output channel module in container body module are used for resource and delete effect examination;

Resource consults module, realizes carrying out resource display by being sent to resource display device module from the data of resource output channel module in container body module after respective handling;

Resource application module, realizes after respective handling, being sent to resource application channel module, for the system in resource utility system module by from the data of resource output channel module in container body module;

Resource adjusting module, realizes to be sent to resource adjustment channel module from the data of resource output channel module in container body module after respective handling.

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

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

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

(a) character calligraph process prescription word record data organization step: work out the character calligraph process prescription word logging modle data resource code chain be stored in container body module (1) according to the writing process of word and general stroke-order structure;

B () start enters containment system step: open chassis power supply, ARM9 operation platform system software, touch screen display containment system execute file icon, this icon is clicked with mouse or touch, ARM9 runs the containment system software in FLASH memory, touch-screen is by the input window of interface layout's display position, character calligraph process prescription 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, wrong friendship stroke order coding data module input window, the wrong action pane from stroke order coding data module input window and additional field data module,

(c) wall scroll resource record index code establishment step: the first step clicks language coding module in utilizing mouse or touching the drop-down menu that provides at language chooser window, selects corresponding language; Second step clicks grade's coding module in utilizing mouse or touching the drop-down menu that provides at grade's chooser window, selects corresponding grade; Click class coding module during 3rd step utilizes mouse or touches the drop-down menu that provides at class chooser window, selects corresponding class number; 4th step utilizes in mouse or the touch drop-down menu that word sequence chooser window provides within the class period and clicks word word sequence coding module within the class period, selects corresponding word;

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

E () character calligraph process prescription digital data resource adds preservation operation steps: input registration confirmed soft key is clicked in mouse or touch, ARM9 runs coded data module and preserves modular program, by the coded data module contents in four coding input windows by language coding, grade's coding, class number coding and within the class period in the relevant position of the index code determined of word sequence 4 parameters stored in the record Resource Storage region of FLASH memory;

(f) resource consults step: resource consults soft key is clicked in mouse or touch, ARM9 runs resource consults modular program, touch-screen enters resource consults interface, the language coding at interface, grade's coding, class number coding and within the class period word sequence number four indexing parameter subwindows show the parameter value of the four current reservations in parameter memory block, resource presses stroke subset, stroke relation and parts relationship, the wrong friendship order of strokes observed in calligraphy, wrong from the order of strokes observed in calligraphy and added field totally 8 columns show the resource content of the record memory module of multi-lingual fusion in typing FLASH record storage respectively, Article 1, be recorded as the resource record of indexing parameter subwindow Current Content index, can carry out forward or reverse retrieval,

(g) resource set-up procedure: resource adjustment soft key is clicked in mouse or touch, ARM9 runs resource adjusting module program, touch-screen enters resource adjustment interface, indexing parameter subwindow input at interface is by adjustment recording indexes code, mouse or touch are clicked adjustment and are exported soft key, exported to resource adjustment channel module by adjustment record record memory module of multi-lingual fusion from FLASH memory, remove by the shared spatial data of adjustment record; Location index code newly deposited in indexing parameter subwindow input adjustment record at interface, adjustment input soft key is clicked in mouse or touch, is recorded the new memory location of the record memory module of multi-lingual fusion from resource adjustment channel module write FLASH record storage by adjustment;

H () logs off step: click system with mouse and exit soft key, ARM9 is by current language coded data module, grade's coded data module, class coded data module and word sequence coded data module 4 parameters are stored in the power-off reserve area of the parameter of 4 in eeprom memory within the class period, and program is return plateform system and run;

(i) resource applying step: during resource application, resource application of softkeys is clicked in mouse or touch, ARM9 runs resource application module program, indexing parameter subwindow input at interface is employed recording indexes code, mouse or touch are clicked application and are exported soft key, are employed record record memory module of multi-lingual fusion from FLASH memory and export resource application channel module to; Data resource in resource application channel module or follow the tracks of for modular character calligraph and instruct or follow the tracks of for free style character calligraph and instruct or supply other system, 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 system, 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, audient is wide, life cycle is long, function is strong, flexibly easy to maintenance.

Accompanying drawing explanation

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

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

Embodiment

Below in conjunction with drawings and Examples, the present invention is further detailed explanation.

See Fig. 1, the character calligraph process prescription word resource container system of multi-lingual fusion of the present invention is primarily of container body module 1, container recording indexes pointer maps module 2, resource input functional module 3, resource output function module 4 four part composition.

Container body module 1, for depositing resource record, is made up of the record memory module of multi-lingual fusion, resource input channel module, resource output channel module and container pointer module.The record content that the record memory module of multi-lingual fusion stores is that form can multi-lingual general character calligraph process prescription word; Need the resource of input to enter the record memory module of multi-lingual fusion through resource input channel module, the current pointer content what position specifically depositing in the record memory module of multi-lingual fusion is received by container pointer module is determined; When needing to export resource from container, the current pointer content received by container pointer module determines the position exporting resource record, and selected resource exports from resource output channel module.

Container recording indexes pointer maps module 2, for the formation of the pointer needing 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 sequence coding module within the class period, the record retrieval information that user provides by the input equipment module 5 be made up of keyboard, mouse, touch-screen, gesture equipment and speech sound device etc. delivers to container recording indexes pointer maps module 2, the language of wall scroll record resource, grade, class number and word sequence coding are provided when wall scroll record resource operation, owner record pointer data and record length parameter is in a reservoir provided when batch records resource operation.For wall scroll record resource operation, the language coding from input equipment module 5 enters language coding module; Grade's coding enters a grade coding module; Class coding enters class coding module; Word sequence coding enters word sequence coding module.For batch records resource operation, enter container pointer counting module from the owner record pointer of input equipment module 5 and batch records length parameter.The parameter provided by the coding modules such as language, grade, class number, word sequence and container pointer counting module delivers to index word mapper module.During the operation of wall scroll record, the coding parameters such as language, grade, class number, word sequence are transformed to operation note actual pointer information in a reservoir by index word mapper module; During batch records operation, index word mapper module is by operation note actual pointer information in a reservoir headed by the coding parameter conversion such as the language of owner record, grade, class number, word sequence, in batch operation process, container pointer counting module adjusts its output content automatically, until batch operation amount meets length parameter.Wall scroll resource record operating pointer or bulk resources record operating pointer are supplied to container pointer module in container body by index word mapper module, as by operating resource record physical location pointer in a reservoir.

Resource input functional module 3 for container body module 1 transmit need stored in resource record, the special input functional modules such as the resource input channel model calling resource of container body module 1 refreshes, add, amendment and adjustment, resource input functional module 3 receives and is character calligraph process prescription word recorded information with the content transmitted.Resource adds module and resource modifying module provides character calligraph process prescription word information by the input equipment module 5 comprising the input equipments such as keyboard, mouse, touch, gesture, speech sound device, and character calligraph process prescription word information position indicator pointer is in a reservoir the wall scroll resource record operating pointer information that in container body module 1, container pointer module is current, when existence is distrusted container body module 1 content, need to utilize resource backup to refresh recording memory module in container body module 1, refresh source resource in comprising 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 resource refresh module by refreshing information, operating pointer derives from the container pointer maps output during bulk resources record output of container recording indexes pointer maps module 2.When making exercise word occur grade because of teaching material version updating, text, during word sequence variation within the class period, do not need typing resource record content again, as long as and carry out internal resource adjustment, in resource input functional module 3, the input information of resource adjusting module adjusts channel module by resource provides, controlled recorded information from resource adjustment channel module 9 is delivered to the resource input channel module in container body module 1 by resource adjusting module, the recorded information that adjustment comes is deposited in the new memory location determined by container pointer module by container body module 1, the deposit method of adjustment record can adopt the method such as cladding process and insertion, adjustment input pointer is pressed wall scroll resource record operating pointer and is generated.

Resource output function module 4 is for receiving the recorded information from resource output channel module in container body module 1, and the resource information of resource output channel module is from record memory module.Resource output function module 4 by resource backup, delete, consult, to apply and the dedicated functions module such as adjustment forms, each dedicated functions module delivers to succeeding target module after carrying out corresponding function process to recorded information.The destruction Of resources or loss is caused because of reasons such as hardware, software, external disturbance and disasters for preventing in container body module 1 resource, in container body module 1, resource is by the bulk resources record way of output, by resource backup module be transported to comprise host computer storer, mobile memory, online storage device resource backup EM equipment module 8 back up, operating pointer derive from container recording indexes pointer maps module 2 bulk resources record export time container pointer maps; Resource consults module recorded information is exported to comprise LCD display, light-emitting diode display display device module 6 for the display of corresponding display, operating pointer derives from the output information of container recording indexes pointer maps module 2 when wall scroll resource record or bulk resources record export; Recorded information is exported to resource application channel module 7 by resource application module, be applied to comprise template type character calligraph follow the tracks of with instruct, free style character calligraph follows the tracks of and the resource utility system module 10 of guidance, character calligraph cluster, character calligraph classification etc., the output information of container recording indexes pointer maps module 2 when operating pointer derives from wall scroll resource record or the output of bulk resources record; The resource record that resource adjusting module will adjust sends into resource adjustment channel module 9, and operating pointer derives from the output information of container recording indexes pointer maps module 2 when wall scroll resource record exports; Resource removing module completes the deletion of resource record in container body module 1, and operating pointer derives from the output information of container recording indexes pointer maps module 2 when wall scroll resource record or bulk resources record export.

Record is the target of container, what container of the present invention loaded 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 stroke order and the relation of expressing corresponding character calligraph, the more important thing is to have multi-lingual general structure.Multi-lingual general stroke-order structure presses design by such as below:

The word of any language, its writing process all has its order of strokes observed in calligraphy specified.From time-space relationship angle views, the common law of each language stroke structure word process is: current stroke writing with write all strokes and form the two-dimensional geometry position relationship specified.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 process 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 handed over, the general stroke-order structure of each language character calligraph is defined as: (the leading order of strokes observed in calligraphy) (the wrong friendship order of strokes observed in calligraphy) (wrong from the order of strokes observed in calligraphy).

The leading order of strokes observed in calligraphy is the writing process from the Article 1 stroke of word to the last item stroke, the stroke sequential write be made up of regulation stroke and stroke relation, custom component and parts relationship.If word is containing K bar stroke, will be write word according to the calculability of the locus of the stroke that is connected between two and be customized to N number of parts, the stroke number that each parts comprise 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).Custom component I(I ∈ 1,2, N}) structure be: (stroke subset 1) (stroke relation subset 1) (stroke subset 2) (stroke relation subset 2) (stroke relation subset k _i-1) (stroke subset k _i).Stroke subset is the stroke set be made up of the stroke that can develop mutually, and stroke relation subset is the stroke set of relationship be made up of the stroke relation that can develop mutually.

The wrong order of strokes observed in calligraphy of handing over is that the current stroke and the first two and the cross that write out the mistake that stroke produces in the past thereof of writing out hands over stroke relational sequence.If what write out current is J article of stroke, then the longest possible mistake hands over order of strokes observed in calligraphy writing process coding structure to be expressed as: (stroke J, stroke J-2) (stroke J, stroke J-3) (stroke J, stroke 0).For the word containing K bar stroke, when K >=3, then the longest possible mistake hands over order of strokes observed in calligraphy writing process coding structure to be 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).In diadactic structure, the right element can be indirectly, if namely can not there is wrong friendship, can not list.The wrong length of the order of strokes observed in calligraphy of handing over is prediction, and 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 article of stroke is write, and the rest may be inferred by analogy for it.

Wrong from the order of strokes observed in calligraphy be current write out stroke and the first two and write out the sequence that stroke deviate from correct stroke relation in the past.If what write out current is J article of 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 relations, 1, two relations 2) (stroke J, stroke J-3, two relations, 1, two relations 2) (stroke J, stroke 0, two relations, 1, two relations 2).For the word containing 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 relations 1, two relations 2, ) (stroke 4, stroke 2, two relations 1, two relations 2, ) (stroke 4, stroke 1, two relations 1, two relations 2, ) (stroke 5, stroke 3, two relations 1, two relations 2, ) (stroke 5, stroke 2, two relations 1, two relations 2, ) (stroke 5, stroke 1, two relations 1, two relations 2, ) (stroke K, stroke K-2, two relations 1, two relations 2, ) (stroke K, stroke K-3, two relations 1, two relations 2, ) (stroke K, stroke 1, two relations 1, two relations 2, ).Every a pair mistake the right element in relationship expression structure can be indirectly, if namely can not occur wrong from; can not list, two picture relations only list likely produce wrong from relation, impossible, can not list.The wrong length from the order of strokes observed in calligraphy and mistake are predictions from listing of relation, wrong irrelevant from the order of strokes observed in calligraphy and parts, parts relationship.

If word is containing K bar stroke, customizable is N number of parts, and the stroke number that each parts comprise respectively is k ₁, k ₂, k _n, the practicality of character calligraph process code and storage organization are: (stroke subset 1, stroke subset 2, stroke subset K) (stroke relation subset 11, stroke relation subset 12, stroke subset relation 1k ₁-1, parts relationship 1, stroke relation subset 21, stroke relation subset 22, stroke subset relation 2k ₂-1, parts relationship 2, stroke relation subset N1, stroke relation subset N2, stroke subset relation Nk _n-1, parts relationship N) (wrong friendship order of strokes observed in calligraphy sequence) (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.

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

See Fig. 2, support that the hardware configuration of inventive container is as follows:

The hardware systems of containment system is with embedded processors ARM 9 for core devices, and the device connecting ARM9 comprises FLASH memory, 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 FLASH memory; 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 the interactive component of system and user; What resistive touch film provided by A/D converter writes the digital signal that touch simulation signal converts expression person's handwriting point two-dimensional coordinate to; LCD interface is the information interaction passage modular circuit of ARM9 and LCD; LED interface is the information interaction passage modular circuit of ARM9 and LED; USB interface is the information interaction modular circuit of the input block 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 host computer system; RJ45 is the modular circuit of native system and internet interactive information, and network memory is to the backup of record storage and refresh by this modular circuit transmission of information; Power source special is powered; Special cabinet encapsulation.LCD resistive touch screen is embedded in the panel of cabinet, click for system display, user writing and order, user's touch operation information is sent into ARM9, ARM9 by A/D converter and LCD interface and is sent into the display of touch-screen assigned position by needing the information of display by LCD interface by touch-screen; Keyboard carries out information interaction by 1#USB interface and ARM9; Mouse carries out information interaction by 2#USB interface and ARM9, and 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 inventive container system are as follows:

Run the containment system software deposited in FLASH memory, the record that keyboard and mouse action input is by 1#USB interface, 2#USB interface enters ARM9, SDRAM storer is entered again by ARM9, and show in the respective window of LCD touch screen, after sending confirmation operation information by mouse or touch user, ARM9 is to the character calligraph process prescription digital data content in SDRAM storer, structure carries out legalizing and normalization analysis, both be identified errorless after, by ARM9, the character calligraph process prescription digital data of typing is loaded in the record storage relevant position of FLASH memory.The record deposit position of record storage presses language coding, grade's coding, class number coding and word sequence 4 parameter references within the class period.The groundwork step of containment system record resource management is carried out and content is by man-machine interaction parts such as keyboard, mouse, touch and LCD display:

Character calligraph process prescription word record data organization step: work out the character calligraph process prescription word logging modle data resource code chain be stored in container body module (1) according to the writing process of word and general stroke-order structure;

Start enters containment system step: open chassis power supply, ARM9 operation platform system software, touch screen display containment system execute file icon, this icon is clicked with mouse or touch, ARM9 runs the containment system software in FLASH memory, touch-screen by the input window of interface layout's display record Resource Storage district text point index code of design, stroke coding input window, stroke relation and parts relationship coding input window, wrongly hand over stroke order coding input window, the wrong action pane from stroke order coding input window and added field.

Wall scroll resource record index code establishment step: the first step utilizes mouse or touches the drop-down menu mid point selection kind provided at language chooser window; Second step clicks grade in utilizing mouse or touching the drop-down menu that provides at grade's chooser window; 3rd step utilizes mouse or touches the drop-down menu mid point curricula-variable number provided at class chooser window; 4th step utilizes mouse or touches the drop-down menu mid point selection word number of sequence within the class period that word sequence chooser window provides within the class period.

Character calligraph process prescription digital data resource input step: the first step utilizes mouse or touches and system works cursor is positioned stroke coding input window, by keyboard input stroke coding according to the order of sequence; Second step utilizes mouse or touches and system works cursor is positioned stroke relation and component coding input window, and by keyboard, entering stroke relation and parts relationship are encoded according to the order of sequence; 3rd step utilizes mouse or touches and system works cursor is positioned wrong friendship stroke order coding input window, inputs wrong friendship stroke order coding according to the order of sequence by keyboard; 4th step utilizes mouse or touch to be positioned by system works cursor wrong from stroke order coding input window, is inputted wrong from stroke order coding by keyboard according to the order of sequence; 5th step presses correlation method input added field.

Character calligraph process prescription digital data resource adds preservation operation steps: input registration confirmed soft key is clicked in mouse or touch, ARM9 runs coding and preserves modular program, by the encoded content in four coding input windows by language coding, grade's coding, class number coding and within the class period in the relevant position of the index code determined of word sequence 4 parameters stored in the record Resource Storage region of FLASH memory.

Resource consults step: resource consults soft key is clicked in mouse or touch, ARM9 runs resource consults modular program, touch-screen enters resource consults interface, the language coding at interface, grade's coding, class number coding and word sequence within the class period numbers four indexing parameter subwindows show the value of the four current reservations in parameter memory block, resource presses stroke subset, stroke relation and parts relationship, the wrong friendship order of strokes observed in calligraphy, wrong from the order of strokes observed in calligraphy and added field totally 8 columns show the resource content of typing FLASH record storage respectively, Article 1, be recorded as the resource record of indexing parameter subwindow Current Content index, can carry out forward or reverse retrieval.

Resource set-up procedure: resource adjustment soft key is clicked in mouse or touch, ARM9 runs resource adjusting module program, touch-screen enters resource adjustment interface, indexing parameter subwindow input at interface is by adjustment recording indexes code, mouse or touch are clicked adjustment and are exported soft key, exported to resource adjustment impact damper by adjustment record from FLASH memory, remove by the shared spatial data of adjustment record; Location index code newly deposited in indexing parameter subwindow input adjustment record at interface, and adjustment input soft key is clicked in mouse or touch, recorded memory location new from resource adjustment impact damper write FLASH record storage by adjustment.

Log off step: click system with mouse and exit soft key, current language is encoded by ARM9, grade's coding, class number coding and word sequence within the class period numbers 4 parameters stored in the power-off reserve area of 4 parameters in eeprom memory, program is return plateform system and is run.

Resource applying step: during resource application, resource application of softkeys is clicked in mouse or touch, ARM9 runs resource application module program, indexing parameter subwindow input at interface is employed recording indexes code, mouse or touch are clicked application and are exported soft key, are employed record record memory module of multi-lingual fusion from FLASH memory and export resource application channel module to; Data resource in resource application channel module or follow the tracks of for modular character calligraph and instruct or follow the tracks of for free style character calligraph and instruct or supply other system, 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 is existing by three aspect endomorphs, is the character calligraph process prescription digital data resource container structure realizing multi-lingual fusion had as shown in Figure 1 on the one hand; Two aspects are language codings, grade's coding, class number coding and word sequence coding produce the record container pointer required for container body module 1 through container recording indexes pointer maps module 2; Three aspects are by the leading order of strokes observed in calligraphy, wrong hand over the order of strokes observed in calligraphy, wrongly form character calligraph process prescription word from the order of strokes observed in calligraphy by the ordering structure of regulation.

The resource that the record memory module of multi-lingual fusion in container body module 1 stores 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 multi-lingual writing process describing word Resources Sharing Mechanism for mark.Below the example being realized fusion with the Chinese phonetic alphabet, English letter and simplified Hanzi three kinds of languages by leading, wrong friendship, mistake from three class order of strokes observed in calligraphy resource sharings:

Stroke, stroke relation, custom component relation are carried out ordinal number and length and are gone forward one by one to combine and encode, and namely carry out ordinal number coding by the number of stroke to stroke; If the value that maximum ordinal number most significant digit adds 1 low level full 0 is L, L is first relation object coding, Δ ₁for relation object coding code value increment, then L+ α ₁Δ ₁for relation object universal coding, α ₁∈ { 0,1,2, }; If class coding code bit length is M position, with Δ ₂represent that stroke hierarchical position relation is distinguished coding and to be gone forward one by one step-length, relation code length is M+ α ₂Δ ₂, α ₂∈ { 1,2, }, α ₂get the corresponding position relationship of 1 expression word by single-layer positions relation coding, the rest may be inferred by analogy for it.In the present invention parts be customization do not need special coding.

According to the space calculability in character calligraph process, word is customized to N number of parts.Character calligraph process code structure based on N number of parts is made up of four parts, and Part I is the stroke coding sequence of subsets of the 1 to the N custom component; Part II is the 1 to the N custom component stroke relation encoded subsets sequence, last relation code of each sequence of subsets is parts relationship code, the parts relationship code of N number of sequence of subsets is relational sequence end mark code, and system is met this yard and terminated writing process analysis; Part III is wrong friendship order of strokes observed in calligraphy sequence, and this sequence has predictability; Part IV is wrong from order of strokes observed in calligraphy sequence, and in this sequence, the length of each element has predictability.Language, grade, class number and within the class period word sequence four coding form the deposit position retrieval code of character calligraph process code in code database container.

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

Table 1 small letter Chinese phonetic alphabet stroke coding

Chinese phonetic alphabet stroke coding capitalized by table 2

Table 3 small letter English letter stroke coding

English letter stroke coding capitalized by table 4

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 gets Δ ₁=10, α ₁=0, using 60 ~ 69 as stroke relation classification code, the large class process stroke relation of codified 10; Make α ₁=1, using 70 ~ 79 as process component relation classification code, the large class process parts relationship of codified 10.Large class coding code bit length M=2, gets Δ ₂=2, α ₂∈ { 1,2}, namely can encode, when getting α by one deck or two layers of position relationship by character calligraph process ₂when=1, process is by single-layer positions relation coding, and code length is 2+2; When getting α ₂when=2, process is by double-deck position relationship coding, if second layer relation number does not need 2 figure places to express, desirable length is 1, and corresponding code length is 2+2+1=5.

Multi-lingual shared procedure stroke relation coding is in table 6.The ground floor relation that every large class is encoded with " 00 " does not establish second layer relation, and all the other all establish trisection two ATM layer relationsATM, and by 1 coded representation, i.e. code total length 5, during actual use, one deck, two ATM layer relationsATMs codings all can independently use.

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

Multi-lingual shared character calligraph process component relation coding is in table 7.One ATM layer relationsATM coded representation is current writes out parts and the position relationship that will write out parts and should be formed; Two ATM layer relationsATM coded representations are current write out parts by with continuously after how many parts writing there is an ATM layer relationsATM to encode the position relationship marked, by 1 coded representation, maximum part count reaches 9.Each character calligraph procedure structure is different, the process component of customization is also different, and the concrete parts of concrete word have its corresponding rear write parts number continuously, therefore, the rear continuously write parts number X of two layers of parts relationship coding represents, according to concrete condition assignment during actual coding.Two ATM layer relationsATM codings overallly can only be used time practical.

The multi-lingual shared character calligraph process component relation coding schedule of table 7

Table 6, table 7 are that multi-lingual shared process stroke and process component relation are encoded, if there is the unique relationship that shared relationship cannot describe in certain language, coding can be supplemented at remaining code space, as large class field can enable " 80 ", " 90 ", " 100 " etc., process stroke relation generic field can enable " 67 ", " 68 " etc., and process component relation generic field can enable " 73 ", " 74 " etc.

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

Example 1. " wood " is the new word that a first volume the 2nd class the 2nd wants writing exercise, respective index code is 01010202, and process code write by " wood " wordbook stored at this index position of the character calligraph process code container of FLASH memory and coding structure is 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 relate to two ATM layer relationsATMs, second pass is ground floor relation; The end mark code that native system adopts is " 0000 "; 3 wrong friendship sequential elements may be there are in prediction; Prediction can not produce wrong from sequential element.

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

Table 9 01022103

Table 9 shows, this word is customized to 4 parts compositions, i.e. N=4; 1st parts are made up of 2 articles of strokes, and after these parts are continuous with 2, write parts becomes full width left-right relation; 2nd parts are made up of 2 articles of strokes, and the process stroke relation subset between 2 strokes is containing 2 elements, and these parts and the next one write out parts and become full width upper and lower relation; 3rd parts are made up of 7 articles of strokes, containing 6 process stroke relations, wherein 5 subsets are single element subset, and be ground floor process stroke relation coding, 1 subset is 2 subset of elements, 2 elements are second layer process stroke relation coding, these parts with after write 1 parts and become main upper left corner semi-surrounding relation; 4th parts are made up of 2 articles of strokes, and stroke relation subset containing 2 elements, and is second layer process stroke relation coding; Prediction can produce 10 wrong friendship sequential elements; Prediction can produce 5 mistakes from sequential element.

Example 3 " h " is the Chinese phonetic alphabet lowercase that the 1st class the 17th wants writing exercise, respective index code is 06010117, and process code write by " h " wordbook stored at this index position of the character calligraph process code container of FLASH memory and coding structure is 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 made up of 2 strokes, and process stroke relation subset is containing 2 elements, and first element is ground floor process stroke relation, and second element is second layer process stroke relation; Prediction can not produce wrong friendship sequential element; Prediction can not produce wrong from sequential element.

See Fig. 2, the modularized hardware principle of work of hardware configuration to the character calligraph process prescription word resource container system of the multi-lingual fusion of the present invention in conjunction with the present embodiment further describes.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, FLASH memory, SDRAM storer, eeprom memory, LCD, resistive touch film, A/D changes, LCD interface, LED interface, com interface, RJ45 interface, USB interface, keyboard, mouse, gesture device, the modular circuit such as speech sound device and power supply and parts composition, the system hardware main frame of modular circuit composition is installed in cabinet, the LCD touch screen overlapped by LCD display and resistive touch film is exposed by cabinet window, for man-machine interactive operation, keyboard connects the 1#USB interface of main frame on cabinet, mouse connects the 2#USB interface of main frame on cabinet.After system energization, ARM9 runs and is loaded on system program in FLASH memory, program makes ARM9 by 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, the character calligraph order of strokes observed in calligraphy data resource Input Software that system enters FLASH memory runs, the character calligraph order of strokes observed in calligraphy data message that this software makes ARM9 be provided by 1#USB interface keyboard, by the clicking operation information that 2#USB interface mouse provides, language, grade, class number, the coding parameter information such as word sequence are clicked at corresponding subwindow by mouse.What produce in software running process does not need power-off to retain data to deliver to SDRAM storer by ARM9 and keep in, the stray parameter needing power-off to retain is delivered to eeprom memory by ARM9 and is preserved, the coding ARM9 of user's typing delivers in FLASH memory and stores in code database vessel space, and the language that memory location is inputted by keyboard, mouse action by user, grade, class number, within the class period word sequence etc. four index codes formed of encoding are determined.Main frame is by com interface and serial equipment interactive information in addition, by RJ45 interface and internet device interactive information, by reserved USB interface and movable storage device interactive information, the code database container contents of FLASH memory can be carried to the system or equipment that need use this database thus; Namely language, grade, class number, within the class period word sequence etc. four coding and character calligraph order of strokes observed in calligraphy data message record content also can 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 container body module (1), container recording indexes pointer maps module (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 refreshing channel module (11), wherein:

(a) container body module (1): for the record content coming from resource input functional module (3) being stored in container recording indexes pointer defined memory location according to container recording indexes pointer maps module (2), or according to container recording indexes pointer maps module (2), the record content being stored in container recording indexes pointer assigned address is read into resource output function module (4), comprise

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

Container pointer module, for receiving and depositing the container recording indexes pointer data from container recording indexes pointer maps module (2);

Resource input channel module, come from the record data of resource input functional module (3) for receiving, and record data are stored in the relevant position in the record memory module of multi-lingual fusion by the container recording indexes pointer provided by container pointer module;

Resource output channel module, for the container recording indexes pointer that provides by container pointer module by the record data reading of relevant position in the record memory module of multi-lingual fusion to resource output function module (4);

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

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

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

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

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

Container pointer counting module, for receiving from the owner record pointer of the batch records of input equipment module (5) and batch records length, and the container recording indexes pointer of owner record is sent into index word mapper module, after starting batch transmission, this module changes container recording indexes pointer automatically by given side-play amount;

Index word mapper module, by four kinds of the wall scroll record from language coding module, grade's coding module, class coding module and word sequence coding module coding or batch records owner record container recording indexes pointer and batch length, be transformed to the actual container recording indexes pointer of the record memory module respective memory unit of multi-lingual fusion in container body module (1);

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

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

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

Resource refresh module, the resource refreshing content refreshing channel module (11) from resource is sent to the resource input channel module of container body module (1) by realization after respective handling;

Resource adjusting module, the resource Suitable content adjusting channel module (9) from resource is sent to the resource input channel module of container body module (1) by realization after respective handling;

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

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

Resource removing module, realizes the resource delete function of container, and the data from resource output channel module in container body module (1) are used for resource and delete effect examination;

Resource consults module, realization carries out resource display by being sent to resource display device module (6) from the data of resource output channel module in container body module (1) after respective handling;

Resource application module, realization is sent to resource application channel module (7), for the system in resource utility system module (10) by from the data of resource output channel module in container body module (1) after respective handling;

Resource adjusting module, realization is sent to resource adjustment channel module (9) by from the data of resource output channel module in container body module (1) after respective handling.

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 in described container body module (1), the record memory module of multi-lingual fusion stores is: leading order of strokes observed in calligraphy data module connects wrong friendship order of strokes observed in calligraphy data module, wrong friendship order of strokes observed in calligraphy data module connects wrong from order of strokes observed in calligraphy data module, wrong from order of strokes observed in calligraphy data module connection additional field data module; Wherein,

The leading order of strokes observed in calligraphy: the writing process from the Article 1 stroke of word to the last item stroke, the stroke sequential write be made up of regulation stroke and stroke relation, custom component and parts relationship;

Wrong hand over the order of strokes observed in calligraphy: the current stroke and the first two and the cross that write out the mistake that stroke produces in the past thereof of writing out hands over stroke relational sequence;

Wrong from the order of strokes observed in calligraphy: current write out stroke and the first two and write out the sequence that stroke deviate from correct stroke relation in the past.

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: language coding module connects grade's coding module, grade's coding module connection class coding module, class coding module connective word sequence coding module.

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

(a) character calligraph process prescription word record data organization step: work out the character calligraph process prescription word logging modle data resource code chain be stored in container body module (1) according to the writing process of word and general stroke-order structure;

B () start enters containment system step: open chassis power supply, ARM9 operation platform system software, touch screen display containment system execute file icon, this icon is clicked with mouse or touch, ARM9 runs the containment system software in FLASH memory, touch-screen is by the input window of interface layout's display position, character calligraph process prescription 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, wrong friendship stroke order coding data module input window, the wrong action pane from stroke order coding data module input window and additional field data module,

(c) wall scroll resource record index code establishment step: the first step clicks language coding module in utilizing mouse or touching the drop-down menu that provides at language chooser window, selects corresponding language; Second step clicks grade's coding module in utilizing mouse or touching the drop-down menu that provides at grade's chooser window, selects corresponding grade; Click class coding module during 3rd step utilizes mouse or touches the drop-down menu that provides at class chooser window, selects corresponding class number; 4th step utilizes in mouse or the touch drop-down menu that word sequence chooser window provides within the class period and clicks word word sequence coding module within the class period, selects corresponding word;

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

E () character calligraph process prescription digital data resource adds preservation operation steps: input registration confirmed soft key is clicked in mouse or touch, ARM9 runs coded data module and preserves modular program, by the coded data module contents in four coding input windows by language coding, grade's coding, class number coding and within the class period word sequence encode in index code that 4 parameters the determine relevant position stored in the record Resource Storage region of FLASH memory;

(f) resource consults step: resource consults soft key is clicked in mouse or touch, ARM9 runs resource consults modular program, touch-screen enters resource consults interface, the language coding at interface, grade's coding, class number coding and within the class period word sequence four indexing parameter subwindows of encoding show the parameter value of the four current reservations in parameter memory block, resource presses stroke subset, stroke relation and parts relationship, the wrong friendship order of strokes observed in calligraphy, wrong from the order of strokes observed in calligraphy and added field totally 5 columns show the resource content of the record memory module of multi-lingual fusion in typing FLASH record storage respectively, Article 1, be recorded as the resource record of indexing parameter subwindow Current Content index, can carry out forward or reverse retrieval,

(g) resource set-up procedure: resource adjustment soft key is clicked in mouse or touch, ARM9 runs resource adjusting module program, touch-screen enters resource adjustment interface, indexing parameter subwindow input at interface is by adjustment recording indexes code, mouse or touch are clicked adjustment and are exported soft key, exported to resource adjustment channel module by adjustment record record memory module of multi-lingual fusion from FLASH memory, remove by the shared spatial data of adjustment record; Location index code newly deposited in indexing parameter subwindow input adjustment record at interface, adjustment input soft key is clicked in mouse or touch, is recorded the new memory location of the record memory module of multi-lingual fusion from resource adjustment channel module write FLASH record storage by adjustment;

H () logs off step: click system with mouse and exit soft key, ARM9 is by current language coded data module, grade's coded data module, class coded data module and word sequence coded data module 4 parameters are stored in the power-off reserve area of the parameter of 4 in eeprom memory within the class period, and program is return plateform system and run;

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