1305315 九、發明說明: 【發明所屬之技術領域】 、、,本發明係關於一種虛擬海洋生物系統,尤 +生物為主體’提供使用者建構虛擬之海洋生物實驗室 以利於研究海洋生物且可體驗水族世界之設計。 【先前技術】 海洋生物研究之範圍相當廣泛, ,、研九對象主要以各 種海洋生物為主’且深入探討各種 合禋海年生物之繁衍、遺傳 土因 '特徵等課題,而台灣為海島型國家,其海洋生 物係為相當重要的資源’故如何提升海洋生物研究之水 準’有效培養海洋生物管理人才,並教育—般民眾對海洋 生物具有初步之認識,對於海洋生物的保育、管理等相關 問題,亦扮演相當重要的角色。 然目前於海洋生物研究領域中,仍有如下所述之諸多 問題尚待解決: 1、一般海洋生物之繁衍、親子遺傳因果關係等知 硪’係為海洋生物學家極感興趣的課題之一,惟欲深入探 討前述問題,必需以繁殖實驗長期進行觀察記錄,故相對 會投入較多的人力及成本,且亦無法立即反映繁衍結果’ 而造成研究過程中之諸多不便。 2 '目前培養海洋生物管理人才,以及教育民眾認識 各種海洋生物之方式,不外乎以圖片配合言語之描述進 行,惟該方式仍會浪費大量的人力資源,且利用圖片呈現 海洋生物之方式,並無法給予學習者更具真實感的視覺感 1305315 受,故其教學成效不佳。 3、又,為體驗海洋咮榀+ u A 置水族箱,並購買如“ 世界,亦有人們會設 作為-般消遣娱樂外;=海'生物飼養於水族箱中,除 研究其外型特徵,惟水之生態;並 雉護作業,故仍會造成許多不便。' τ間進仃後續 【發明内容】 本發明提供一種「洚w 計’提供使用者建立各種’’生物糸統」’希藉此設 ^ ^ 各種不同特徵的虛擬海洋生物,且於 其中加入繁衍、其、奥、 #所# fr . 、搜尋族譜等功能,並可依據先 之:洋生物建構個人化之虛擬水族箱,以作為研 教…驗及消遣娱樂等用途,為其主要之發明目 :述I明目的’本發明所運用的技術手段係在 於k供:種虛擬海洋生物系統,其主要包括有: 模、、且資料庫’用以儲存虛擬海洋生物之槽案資料; 推A處理$ ’用以操取模組資料庫中所存放之虛擬 海洋生物資料’以機率與推理㈣法之處理運算來推論海 洋生物之繁衍結果; 一繪圖處理器’依據模組資料庫儲存之虛擬海洋生物 資料,以及推論處判推論處理後之資訊,藉㈣過預先 疋義的參數寊料格式進行檔案存取,再參照該參數資料格 式繪製虛擬海洋生物之立體模型; 一使用者介面單元,主要係連接模組資料庫存取其中 1305315 生物圖處理器繪製之虛擬海洋 ㈣,配合推論處理器之運算處理提供包括有虛 ㈣年生物建構流程、虛擬海洋生物繁衍流程、族譜檢視 :二虛擬水族箱設定流程等操作功能介面,該虛擬海洋 ㈣ 程用以建立各種虛擬海洋生物,該虛擬海洋生 繁何流程係配合推論處理器進行海洋生物之繁衍工作, 該族譜檢視流程以先前繁衍之海洋生物,建立其親代及子 代=間的族譜關係’該虚擬水族箱設定流程係建構虛擬水 族箱並將各海洋生物加入其中。 Μ猎由上述系統組成’使用者可自由創造出各種不同特 :並?海洋生物’且於創作過程中加入繁衍、基因遺傳、族 °曰等功旎,並可規劃一虛擬水族箱放置先前創造之海洋生 :2以呈現數位化的海洋生態環境,故可作為輔助教 學、實驗研究、及消遣娛樂等諸多用途。 【實施方式】 發月之虛擬海洋生物系統為一具有回饋機制的系 :’該系統提供使用者自我創造如魚類·_...·等各種虛擬海 年生物,且可重複檢視自我創造之虛擬海洋生物的外型特 被’並用以觀察親代與子代之間的繁衍情形,以及討論遺 傳因果關係形成之原故,另可依據所創造之虛擬海洋生物 進一步建立各種不同風格的虛擬水族箱,請參閱第一圖所 示,該虛擬海洋生物系統(1 0 )之整體架構主要包括有 一海洋生物之模組資料庫(i1)、一推論處理器(工 2)、一繪圖處理器(13)及一使用者介面單元( 5 1305315 4 ),其中: 模組資料庫(]1彳士痛 種;洋在& 主要用以存放使用者所創造之各 償Μ擬海羊生物的檔幸, < < 谷 ^ , ^匕括有各海洋生物之屬性特;^ :科及相關文字註解等’例如:魚 :徵 背韓、尾籍等特徵資料。 丨玍物之眼睛、 推論處理器(1 p」 2)擔任推理及組配特徵1305315 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a virtual marine biological system, in which a user provides a user to construct a virtual marine biology laboratory to facilitate research and study of marine life. The design of the aquarium world. [Prior Art] The scope of marine life research is quite extensive. The research objects of the nine researches are mainly based on various marine organisms, and in-depth discussion on various issues such as the breeding of genetics and the characteristics of genetic soils, and Taiwan is an island type. The country, its marine biology department is a very important resource 'how to improve the level of marine life research' to effectively cultivate marine life management talents, and educate people to have a preliminary understanding of marine life, for the conservation and management of marine life, etc. The problem also plays a very important role. However, in the field of marine life research, there are still many problems to be solved as follows: 1. The proliferation of general marine life, the parent-child genetic causality, etc. is one of the topics of great interest to marine biologists. However, in order to further explore the above-mentioned problems, it is necessary to carry out long-term observation records in breeding experiments, so relatively more manpower and cost will be invested, and it is impossible to immediately reflect the reproduction results', which causes many inconveniences in the research process. 2 'Currently cultivating marine life management talents and educating the public about the various marine life methods is nothing more than a picture with words, but this method will still waste a lot of human resources and use pictures to present marine life. It is not able to give learners a more realistic visual sense of 1305315, so their teaching results are not good. 3, in addition, in order to experience the ocean 咮榀 + u A set aquarium, and buy such as "the world, there are people who will set up as a general entertainment; = sea" creatures raised in the aquarium, in addition to study its appearance characteristics However, the ecology of the water; and the maintenance of the work, it will still cause a lot of inconvenience. 'The following is the content of the τ 仃 【 【 【 【 【 【 【 【 发明 发明 发明 发明 发明 发明 发明 发明 【 发明 【 【 发明 【 发明 发明 发明 发明 【 发明 发明 发明 发明 发明In this way, we can set up various virtual marine creatures with different characteristics, and add the functions of reproduction, its, Austria, #所#, search for genealogy, etc., and can be based on the first: the virtual creature constructs a personalized virtual aquarium. For the purposes of research, entertainment, entertainment, etc., the main object of the invention is: 1. The purpose of the present invention is to provide a virtual marine biological system, which mainly includes: And the database 'storage data for storing virtual marine life; push A processing $ ' to manipulate the virtual marine biological data stored in the module database' to infer marine life with the processing of probability and reasoning (four) method Complex The result is: a drawing processor 'according to the virtual marine biological data stored in the module database, and inferring the information after the inference is processed, by (4) accessing the file in a pre-determined parameter data format, and then referring to the parameter data. The format draws a three-dimensional model of a virtual marine organism; a user interface unit, which is mainly connected to the module data inventory, and takes the virtual ocean (4) drawn by the 1305315 biograph processor, and cooperates with the inference processor to provide processing including virtual (four) years of biological construction. Process, virtual marine life reproduction process, genealogy review: operation interface of the second virtual aquarium setting process, the virtual ocean (4) process is used to establish various virtual marine organisms, and the virtual ocean production process is combined with the inference processor for marine life. In the reproduction work, the genealogical review process establishes the genealogical relationship between the parent and the child = the previously proliferated marine life. The virtual aquarium setting process constructs the virtual aquarium and adds the marine life to it. Μ 由 is composed of the above system ‘users are free to create a variety of special features: and? Marine life's addition to the process of reproduction, genetic inheritance, family and other functions, and can plan a virtual aquarium to place previously created marine students: 2 to present a digitalized marine ecological environment, so it can be used as an auxiliary teaching , experimental research, and recreational entertainment and many other uses. [Embodiment] The virtual marine biological system of the moon is a system with feedback mechanism: 'The system provides users with self-creation of various virtual sea creatures such as fish·_.·, and can repeatedly view the self-created virtual The appearance of marine life is specially used to observe the reproduction between the parent and the offspring, and to discuss the formation of the genetic causality. Further, the virtual aquarium of different styles can be further established according to the created virtual marine life. Referring to the first figure, the overall architecture of the virtual marine biological system (10) mainly includes a marine organism module database (i1), a inference processor (work 2), and a graphics processor (13). And a user interface unit (5 1305315 4 ), wherein: the module database (1) gentleman pain; the ocean & is mainly used to store the files created by the user for each of the compensation for the sea creatures. << 谷 ^ , ^ 匕 有 各 各 各 各 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ (1 p) 2) Serving as reasoning and matching features
:,用以進行海洋生物之繁衍:作,其主W 合機率歲推理”;J: 海年生物的各種資料,配 可之處理運算’用以推論計算海洋生物 K之繁竹結果,其推論内容可包括產 衍推論規則、繁衍過程中之親代來源資訊·..等 4 繪圖處理器(13)作為影像處理之用途,主要 據模組資料庫(1 1 )中所神六 ^ )中所儲存之虛擬海洋生物的相關 料’以及推論處理器(12)推算處理後之資㉟,透過預 先疋義的參數貝料格式(data channel )進行標案存取, 該參數資料格式可包括海洋生物之基因、特徵及變形等資 料’再參照該參數資料格式,#為後續繪製 之立體模型的主要依據。 羊生物 使用者介面單元(i 4 )係連接模組資料庫(工 1 ),用以存取該資料庫中各種虛擬海洋生物之資料,且 呈現繪圖處理器(1 3 )所繪製之虛擬海洋生物立體模 裂,並配合推論處理器(i 2 )之運算處理,提供海洋生 物之建立、交配繁衍、族譜查詢及產生虛擬水族箱等流程 功能,該使用者介面單元(i 4 )主要包括有虛擬海洋生 1305315 物建構流程(20)、虛擬海洋生物繁衍流程(3〇)、族譜 檢視流程(40)、虛擬水族箱設定流程(5〇)等可提供使用= 操作之功能介面,其中_· 如第二圖所示,虛擬海洋生物建構流程(2〇)主要係 提供使用者建立各種虛擬海洋生物,其工作流程包括有: 設定海洋生物之屬性表,係先進入建構功能介面 (20,該介面中分別建立料生物屬性表(22)及海洋生物 展不晝面(23) ’且藉由屬性表分別修改海洋生物之屬性特 徵⑽,再依據前述屬性表上之屬性特徵更新海洋生物之 展不晝面(25),藉以提供使用者即時預覽所建立之虛擬海 洋生物的外型特徵; 坤 立體模型’於完成海洋生物之屬性表 海洋生物模型(26),其係由繪圖處理 性表上之屬性特徵,判斷是否有足夠 訊可產生海洋生物之立體模型, 、 海洋生物之立體楔型m 足夠時’即繪製出 (27) , „ 、 並k供使用者預覽海洋生物模型 畫面中檢視模型之各角度位置,以作為 參考依據,如資訊不足時,即發出警告 )@再次修改屬性表上之屬性特徵; 儲存建立完成之海洋生物 之屬性表設定後 另完成海洋支物 1^各 汀堤立之海乎生物符合愛卡尨 “子該海洋生物之檔案⑽至模組資科庫;, 由系統判斷是否有足夠資 ” ’ _,如資訊不足時,即發二=)即完成存標 山《。戒忍(2δ),而再次修 7 1305315 改屬性表上之屬性特徵。 藉由前述虛擬海洋生物建構流程(20 ),以下係以建 立”’、類J之海洋生物為例提出說明,其中,前述屬性表 —~概可依下表之規則予以區分: 特徵值 屬性 尾鰭形狀_ 尾鰭紋路 背鰭形^ 眼睛顏色_ 身體紋路 性別 ϋ形二形、底劍形、雙劍等 _如馬賽克、草尾、蛇王、素辛. 处 ""——.——* · · · 如展開、閉合......等 如黑色、紅色 等 如馬赛克、草尾、蛇王、素色 公、母 =圖所示,使用者可藉由虛擬海洋生物建構流程 :斤k供的建構功能介面⑵)建立所需之魚類造型, Μ面主要包括有海洋生物屬性表(211)、 畫面(212)以及數功能鍵(213), 物展不 κ ^ ^ 屬性表(211)用以提供使 用者依序選定各屬性特徵,例 J X 選取魚類的眼睛顏 巴......寺’而依據所設定之屬性胜料 π , p , 屬性特徵,可於展示畫面 中P日守呈現出該魚類的外型彳纟# 參考展示晝面⑺2)…類外’使用者可 、 ,、、卜i,而不斷修改屬性矣 :生之特徵值’以檢視該魚類外型是否符合需求,並於 :=表_之設定作業後,即可選取功能鍵(213)直 接將建立元成之魚類檔案資料 τ减仔至拉組資料庫(丄工) 中,或疋進一步觀察先前所建立之奋 型。 …、頰海洋生物的立體模 8 1305315 前述海洋生物之屬性特徵的分類方式,可以「物件導 向」技術加以定義,藉此,當系統欲建立大量的海洋生物 時,其系統可更有規則性的將各海洋生物之外觀資料 分f黃,以孑丨丨热备έ吞夕敕胁洗.. 資料 …一〜π甘艰,千玍物(外覜貢料 作出分類,㈣於系統之整體運作,並加強其執行處理效 率,在此以魚類之分類方式為例提出說明,一般魚類可定 義成「魚縛類別」、「器官類別」及「其它類別」等三大 類別,其中,如尾鰭、背縛等魚韓特徵皆屬力「魚續類 別」、眼睛等器官特徵屬於「器官類別」,巾「魚鱗類 別」、「器官類別」二類別外之特徵,則歸屬於「其它類 別」之領域,如身體......等。 如第四圖所示,虛擬海洋生物繁衍流程(3〇)主要係 提供使用者依據先前所建立之各種虛擬海洋生物’進行後 代之繁何工作,其工作流程包括有: 載人欲進行交配之海洋生物,係先進人交配功能介面 i葡再搜尋模組資料庫(11)中所儲存之海洋生物, :父二::及母系之海洋生物(32)、(33),且分別顯示 ’、系之海洋生物的外型及屬性特徵(34); 業後進If衍交配’當完成父系及母系海洋生物之載入作 '、後,糸統之推論處理器(1 ? ^ 進杆六( 1 2 )即以機率及推理演算法 又-己作業(35)的運算處理,使該 物交配—士 一 ^ 使°哀又系及母系之海洋生 洋生二ίπ: 繼承親代之屬性特徵的虛擬子系海 :且同時顯示其外型及屬性特徵(36); 儲存子系海洋生物之檔案f 即儲存嗲早#、I1 於凡成父配作業後, 亥子代海乎生物之相關槽案⑽至模組資料庫(] 9 1305315 l )中。:, used for the reproduction of marine life: the main reason for the age of the W-year-old reasoning; J: the various materials of the sea year creature, with the processing of the operation' to infer the calculation of the results of the calculation of marine life K, its inference The content may include the rules of production and inference, the source information of the progeny in the process of reproduction, etc. 4 The graphics processor (13) is used for image processing, mainly according to the module database (1 1 ) The stored virtual marine organism related material 'and the inference processor (12) estimated processing 35, through the pre-determined parameter data channel (data channel) for the file access, the parameter data format may include the ocean The gene, characteristics and deformation of the organism's reference to the parameter data format, # is the main basis for the subsequent rendering of the three-dimensional model. The sheep bio-user interface unit (i 4) is the connection module database (work 1), used Accessing the data of various virtual marine organisms in the database, and presenting a virtual ocean creature stereoscopic crack drawn by the graphics processor (1 3 ), and cooperating with the inference processor (i 2 ) for processing The user interface unit (i 4 ) mainly includes the virtual marine life 1305315 material construction process (20) and the virtual marine life reproduction process (3〇), such as the establishment of foreign organisms, mating and breeding, genealogy query and generation of virtual aquarium. ), the genealogical review process (40), the virtual aquarium setting process (5〇), etc., can provide a functional interface for use = operation, where _· as shown in the second figure, the virtual marine life construction process (2〇) is mainly provided The user establishes various virtual marine organisms, and the workflow includes: setting the attribute table of the marine organism, and first entering the construction function interface (20, respectively, the material bio-attribute table (22) and the marine life exhibition are not in the interface ( 23) 'And modify the attribute characteristics of marine life by the attribute table (10), and then update the marine life exhibition (25) according to the attribute characteristics on the aforementioned attribute table, so as to provide the user with a virtual preview of the virtual marine life established. The appearance of the feature; the Kun stereo model's completion of the marine life attribute table marine biological model (26), which is characterized by the nature of the map on the processing table , to determine whether there is enough information to generate a three-dimensional model of marine life, and when the three-dimensional wedge type m of marine life is sufficient, 'that is to draw (27), „, and k for the user to preview the angles of the model in the marine biological model picture. Location, as a reference, if the information is insufficient, the warning is issued) @Modify the attribute characteristics on the attribute table again; After the storage and establishment of the marine life attribute table is set, the marine branch is completed. The creature conforms to the card of "Is the marine life file (10) to the module library; the system judges whether there is sufficient capital" '_, if the information is insufficient, then the second =) is completed. Ring tolerance (2δ), and repair again 7 1305315 Change the attribute characteristics on the property sheet. Through the aforementioned virtual marine life construction process (20), the following is an example of establishing a marine life of "', J, for example, wherein the foregoing attribute table - can be distinguished according to the following rules: eigenvalue attribute caudal fin Shape _ Tail fin grain back fin shape ^ Eye color _ Body grain gender ϋ shape, bottom sword shape, double sword, etc. _ such as mosaic, grass tail, snake king, Su Xin. At ""——.——* · · Such as unfolding, closing, etc., such as black, red, etc., such as mosaic, grass tail, snake king, plain color, male and female = figure, the user can construct the process by virtual marine life: the construction function of the kilo Interface (2)) to establish the required fish shape, the surface mainly includes a marine life attribute table (211), a picture (212) and a number function key (213), the exhibition is not κ ^ ^ attribute table (211) for providing use The character attributes are selected in sequence, for example, JX selects the eye of the fish, the temple... and according to the set attributes, the π, p, attribute characteristics can be displayed in the display screen. Fish's appearance 彳纟# Reference display 昼面(7)2)... Outside the user can, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , 213) Directly establish the fish archives of Yuancheng to reduce the amount of the fish to the pull group database (completed), or further observe the previously established type of struggle. ..., the stereo model of the buccal marine organisms 8 1305315 The aforementioned marine life The classification of attribute characteristics can be defined by the "object-oriented" technique, whereby when the system wants to build a large number of marine life, its system can more regularly divide the appearance data of each marine organism into yellow.丨 έ έ έ έ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . As an example, the general definition of fish can be defined as three categories: "fishing type", "organ type" and "other category". Among them, fish and han characteristics such as caudal fin and shackle are all "fish continuation categories". ,eye The characteristics of the organ are classified as "organ type", and the characteristics other than the two categories of "fish scale category" and "organ category" are attributed to the field of "other categories", such as the body... etc. As shown in the fourth figure The virtual marine reproduction process (3〇) mainly provides users with the work of descendants according to the various virtual marine creatures previously established. The workflow includes: marine organisms that are intended to be mated, advanced Human mating function interface i Portuguese re-search module database (11) stored in the marine life, : Father 2:: and maternal marine life (32), (33), and respectively show ', the system of marine life Appearance and attribute characteristics (34); After entering the If-mating 'when completing the loading of the paternal and maternal marine life', after the system's inference processor (1? ^ into the six (1 2) is the probability And the reasoning algorithm is also the operation of the operation (35), so that the object mates - Shi Yi ^ makes the mourning and the mother of the ocean and the ocean is two π: The virtual sub-system that inherits the attributes of the parents: And at the same time display its appearance and attribute characteristics (36) The storage sub-system of marine life f is stored in the early #, I1 Yu Fancheng father assignment, the Haizi generation of the sea related to the trough case (10) to the module database (] 9 1305315 l).
藉由前述虛擬海洋生物I _ %何'肌粒(30) ’以下係以繁 何 魚類J之海洋生物A也丨# , 物為例提出說明,如第五圖所示,該 父配功月b介面主摩白扭·亡jgg t, 屬性表顯示區(31 〇、交配展示畫 面(312 )、子系廣類展千查 ' '、旦面(3〗3 )以及數功能鍵(3丨4 ),藉 此,使用者可於交配展千全工,πιη、 展不畫面(312)分別載入模組資料庫 (11)中預先建立之父系备相& it 糸…、類及母系魚類’且於載入完 成後’該魚類之屬性特徵可5 ^ J呈現於屬性表顯示區(311)中, 而子糸魚類展示畫面(31 3 )用ιν σ 了曰丄π ^ 用以壬現父配完成後之子系魚類 的外型’且該子代魚類所繼承之屬性特徵同樣可呈現於屬 性表顯示區(m)中,藉以提供使用者參考親代與子代彼此 之間的遺傳因果關係,最後,亦可選取功能鍵(3⑷直接將 建立完成之子代魚類資料儲存至模組資料庫(丄丄)中。 前述海洋生物之繁衍過程中,該推論處理器(i 2 ) 之推理運算法則’可依據「孟德爾遺傳法則」為基礎,藉 以^對真實海洋生物之基因繁衍規則,透過處理器之程式 運算處理,使經由該系統之配種及交配過程中,其產生之 虛擬海洋生物符合遺傳法則,使該系統所建立之虛擬海洋 生物擬真性更高。 如第六圖所示,族譜檢視流程(4〇)主要係提供先前所 繁衍之海洋生物,其親代及子代彼此之間的族譜關係,以 利於使用者直接檢視各虛擬海洋生物的親子遺傳屬性及相 關特徵,其工作流程係先進入族譜功能介面(41),並載入 模組資料庫(i i )中預先繁衍完成之海洋生物(42),再 1305315 依據資料結構中之—开满 追縱心Γ 原之資料搜尋 ^功耗人之料生物親代及子代根源,進而 時= = _ :當點選族譜樹上之海洋生物(44) 用者 /、肖徵,並同時更新展示晝面(45),讓使 用者便於了解該海洋生物之外型特徵。 第七圖所示’虛擬水族箱設定流程(5〇)主要係選取 中所儲存的各種海洋生物,並將:: 擬水族箱中,提供—擬真化的海洋生態, 具工作流程包括有: 载入虛擬水族箱,孫春λ , a ^ 可選擇载人先前設:完==設:介面⑼,* 箱(53); 疋成之水族相(52)’或載入空的水族 箱設=族f設定!業,依據所取定之水族箱進行水族 (54疋 °亥水族相之設定功能概包括有選擇前景特效 =刪景圖片叫新增海洋生物(⑽及調』 4^、刪除海洋生物(545)等功能,藉前述各功能 =水族箱之設定作業(55)’以建構出特定造型之 儲存建立完成之水族箱, 觀看水族箱(5 6 ),並儲存水族 料庫(1 1 )中。 元成水族箱設定後,可直接 箱(5 7 )之相關資料於模組資 本發明虛擬海洋生物系 由上述系統之工作流程得知 統之特點在於: δ亥糸統可依據各種不 同海洋生物的屬性特徵 而 1305315 建立出外觀特徽+八 & ,且建 〃貝且容易以肉眼辨識的虛擬海洋生 且建立海洋生物的過程中,係加 :生 旋譜等要素,故所建立^纟因退傳、 作為海洋以真性大幅提升,可 實驗的成本,:::開發之輔助工具,以減少繁殖 關係。 4谷易㈣海洋生物之親子遺傳的因果 之檢二f由該!統所建立之各種海洋生物,配合水族箱 互動的力Γ 了’現更為真實的海洋生態環境,並以即時 物,且可用以培養海深入認識各種海洋生 3、使用者可利用其教學成效。 中,用以體驗另類的數立水種族每入該虛擬水族箱 娛樂之用途。’數位水族世界,故相當適合作為消遣 、、的說月可知,本發明虛擬海洋生物系統,可用 以創造各種不同特徵的 、, 建立有繁衍、基因且針對各海洋生物 出各種私6普搜尋等機制功能,並可規劃 同風格的虛擬水族箱,以作為消遣娱樂用途,里 確為一相當優異之設計。 /、 【圖式簡單說明】 第一圖係本發明之系統架構圖。 第二圖係本發明虛擬海洋生物建構流程之流程圖。 第三圖係本發明虛擬海洋生物建構流程之使用示意圖。 第四圖係本發明虛擬海洋生物繁衍流程之流程圖。 12 1305315 . 第五圖係本發明虛擬海洋生物繁衍流程之使用示意圖。 第六圖係本發明族譜檢視流程之流程圖。 第七圖係本發明虛擬水族箱設定流程之流程圖。 【主要元件符號說明】 (1〇)虛擬海洋生物系統 (11)使用者介面單元 (1 2 )推論處理器 (1 3 )繪圖處理器 ® ( 1 4 )模組資料庫By the aforementioned virtual marine organism I _ % 何 '肌肌(30) ' The following is a description of the marine fish A 丨# of the hobby fish J, as an example, as shown in the fifth figure, the father's matching month b interface main white twisted and dead jgg t, attribute table display area (31 〇, mating display screen (312), sub-system wide exhibition thousand check ' ', Dan face (3 〗 3) and number function keys (3 介4), whereby the user can perform the work of the mating exhibition, the πιη, and the exhibition screen (312) respectively loaded into the pre-established parent system & it 糸..., class and maternal in the module database (11) The fish 'and after the loading is completed', the attribute characteristics of the fish can be presented in the attribute table display area (311), and the sub-salmon display (31 3 ) is used for ιν σ 曰丄π ^ for 壬The appearance of the subfamily fish after the completion of the father's and the attribute characteristics inherited by the offspring fish can also be presented in the attribute table display area (m), thereby providing the user with reference to the inheritance between the parent and the offspring. Causal relationship, finally, you can also select the function key (3 (4) to directly store the completed progeny fish data to the module database (丄In the process of reproduction of the aforementioned marine organisms, the inference algorithm of the inference processor (i 2 ) can be based on the "Mundell genetic law", by which the rules of genetic reproduction of real marine organisms are transmitted through the processor. The program operation processing makes the virtual marine organism generated by the system through the breeding and mating process conform to the genetic law, so that the virtual marine life established by the system is more realistic. As shown in the sixth figure, the genealogy inspection process ( 4〇) mainly provides the genealogical relationship between the progeny and the progeny of the previously proliferated marine life, so that the user can directly view the parental genetic attributes and related characteristics of each virtual marine organism, and the workflow is first entered. Genealogy function interface (41), and loaded into the module database (ii) pre-proliferated marine life (42), then 1305315 based on the data structure - full of the heart of the original search for the power consumption ^ power people The biological parents and the roots of the offspring, and then = = _: when the point of the marine life on the genealogical tree (44) user /, Xiao Zheng, and simultaneously update the display (45), to make it easy for users to understand the characteristics of the marine life. The virtual aquarium setting process (5〇) shown in the seventh figure mainly selects various marine life stored in the selected, and will:: aquarium In the process of providing - the quasi-authentic marine ecology, the work flow includes: loading the virtual aquarium, Sun Chun λ, a ^ optional manned previous set: end == set: interface (9), * box (53); The aquarium phase of Fucheng (52)' or the empty aquarium set = family f set! Industry, according to the aquarium determined to carry out the aquarium (54 疋 ° Hai aquarium phase set function includes selective prospects special effects = delete The picture is called the addition of marine life ((10) and tune 4^, delete the marine life (545) and other functions, by the above functions = aquarium setting operation (55)' to construct a specific shape of the storage to complete the aquarium , watch the aquarium (5 6 ) and store it in the aquarium (1 1 ). After the Yuancheng aquarium is set up, the relevant information of the direct box (5 7) can be found in the module of the virtual capital of the module. The characteristics of the system are: δ海糸 can be based on various marine life Attribute characteristics and 1305315 establishes the appearance of the special emblem + eight & and builds a mussel and is easy to visually recognize the virtual ocean and establishes marine life in the process of adding marine elements, such as the spine spectrum, so Retreat, as the ocean is greatly improved, the cost of experimentation::: Development aids to reduce reproductive relationships. 4 Gu Yi (four) the cause and effect of the parental inheritance of marine life. The various marine organisms established by the Institute have combined with the aquarium to create a more realistic marine ecological environment, with real-time objects, and can be used to cultivate the sea to understand a variety of marine life. 3. Users can use their teaching effectiveness. . In order to experience the alternative digital water races for each virtual aquarium entertainment. 'Digital aquarium world, it is quite suitable as a pastime, and the moon can be known. The virtual marine biological system of the present invention can be used to create various characteristics, and to establish a variety of genetic, genetic, and various marine organisms. The mechanism function, and can plan the same style of virtual aquarium for recreational use, it is a very good design. /, [Simplified description of the drawings] The first figure is a system architecture diagram of the present invention. The second figure is a flow chart of the virtual marine life construction process of the present invention. The third figure is a schematic diagram of the use of the virtual marine life construction process of the present invention. The fourth figure is a flow chart of the virtual marine organism reproduction process of the present invention. 12 1305315 . The fifth figure is a schematic diagram of the use of the virtual marine organism reproduction process of the present invention. The sixth figure is a flow chart of the genealogical review process of the present invention. The seventh figure is a flow chart of the virtual aquarium setting process of the present invention. [Main component symbol description] (1〇) Virtual marine biological system (11) User interface unit (1 2) Inference processor (1 3 ) Graphics processor ® ( 1 4 ) Module database
1313