1241545 玖、發明說明: 【發明所屬之技術領域】 本發明是有關於一矩陣式發光二極體看板模組之媒體 播放方法,特別是指一各發光二極體看板彼此相鄰,並以 5 矩陣方式排列之矩陣式發光二極體看板模組之媒體播放方 法。 【先前技術】 一般在影像媒體宣傳的使用上,為了更容易吸引消費 者的注意,係利用複數個LED看板,構築出一高精細度且 1〇 大畫面之㈣看板模組,利用其來播放-宣傳影像資料來 吸引廣大消費者或特定客戶的注意。參關丨…般要達成 此種LED看板模組的技術,係利用—視訊分割器,將一 控制端之顯示器U的母晝面資料M1,依展示端之顯示器 數量,分割為數個相對應的子畫面資料S1-S4,並將子畫面 15 貧料S1_S4傳送至一展示端的各相對應LED看板21-24 上,或疋由一控制端的顯示器搭配一展示端之看板, 以對的方式,彼此互相配合,而展現出電視牆的效 但此類技術,由於只可單純的分割母畫面資料mi,並 2〇 直接傳送至各LED看板上播放,無-可控制分割後之子晝 面資料1 S4之功此,故無法充份運用、編輯母畫面資料 Ml,而造成一動畫之媒體播放效果,如畫面飛入、飛出、 放大縮】4 ·’董十一廣告媒體泥濫的今天,無一較多樣 之媒體表現方式,將無法有效地吸引廣大消費者之注意, 1241545 而充份達到媒體宣傳的效果。 【發明内容】 因此,本發明之目的,即在提供一種可不另增硬體設 備且了於矩陣式發光一極體看板模組上,顯示一動畫 5 效果之矩陣式發光二極體看板模組之媒體播放方法。 於是,本發明一種矩陣式發光二極體看板模組之媒體 播放方法,係用以控制複數個以矩陣方式排列之發光二極 體看板的播放畫面,方法含下列步驟·· A)提供各終端機一 特疋之影像讀取區塊位址;B)及各終端機依據所屬之影像 10 項取區塊位址,於一預定時間,於顯示記憶體單元中讀取 一影像區塊,並將各影像區塊經由一影像擷取介面顯示於 所屬之各發光二極體看板。 再者,本發明另揭示一種電腦可讀取之記錄媒體,其 可被載置於一遠端主機上做為一媒體播放裝置,傳送一影 15 像畫面貧料複數終端機,各終端機並經由一影像擷取介 面’將該影像畫面之一影像區塊傳送至所屬之發光二極體 看板上播放,其中,各發光二極體看板彼此相鄰,且以一 矩陣方式排列,記錄媒體中記錄有一可驅使媒體播放裝置 動作之程式碼,程式碼可於該媒體播放裝置中執行如下之 2〇 #驟:八)提供至少一影像晝面資料;B)提供各發光二極體看 板所播放之影像畫面需要之媒體播放參數;及c)依據此等媒 體播放參數計算出各發光二極體看板所屬之影像讀取區塊 位址。 各終端機接收此影像晝面資料,及所屬影像讀取區塊 1241545 位址,並依據影像項取區塊位址讀取影像畫面資料,麫由 影像擷取介面顯示於所屬之發光二極體看板。 【實施方式】 本發明之刚述及其他技術内 5 10 15 配合參考圖式之較佳實施例的詳細說明中,將可清楚 白。 ’月、 參閱圖2,本發明-種發光二極體(LED)看板模組之媒 體播放方法之較佳實施例,係包含一控制端之遠端主機 31、-媒體資料庫32、及一展示端之複數終端機34,與一 矩陣式發光二極體看板模組,矩陣式發光二極體看板模组 具有複數LED看板3 3。 遠端主機31與媒體資料庫32連結,媒體資料庫32中 具有複數影像畫面資料,可供遠端主機31使用,當然,此 等影像畫面資料亦可由遠端主機31内部之一儲存襞置如 提供,並不以此實施例揭露者為限。遠端主機31具有—健 存裝置311 ’及一輸入裝置318,其中,此遠端主機31為 一電腦’故其詳細構造在此不再多加贅述。複數終端機Μ 分別具有一顯示記憶體(Vide。ram)單元(圖未示卜及一影 像操取介面341,此等終端機34經由網路與遠端主機31連 結’可接收遠端主機31所傳送之影像畫面資料並儲存至顯 不記憶體(Video RAM)單元’且各終端機%影像操取介面 如可將顯示記憶體單元内健存之影像晝面資料,轉換為一 數位貧料格式,傳送LED核33塌放。各LED看板% 彼此相鄰’並以-矩陣方式排列,而形成一具有較大顯示 明 20 1241545 畫面:矩型顯示幕的矩陣式發光二極體看板模組。 1閱圖2,一具有媒體播放功能之媒體播放軟體,可儲 :乙、而主機31之儲存裝置3n中,其中,此儲存裝置 可為硬碟、柄片或其它可供存取之儲存裝置,在本實 施例Li是指-為硬碟態樣之料裝置3]1。 、 >閱圖2、3,本發明之媒體播放軟體可分為數個模 、·且匕3有一使用者介面312、一影像處理模組3、一時 間管理模組314、—即時播放模組315,及-媒體預覽模組 316。透過使用者介面312,使用者可利用遠端主機31之輸 入裝置318經由使用者介面312來設定媒體播放參數,此 等媒體播放參數包含一載體選擇參數、一群組設定參數' 一載體播放順序參數、一播放時間參數,及一資料調整參 數,當然,此使用者介面312之設計,可依需要之不同, 再加以增設可設定之參數,如播放時間、搭配音效等,並 不以此實施例中所揭露者為限。 影像處理模組3 12係接收使用者介面3 12所設定的各 參數值,並利用載體選擇參數指定所欲使用之發光二極體 看板33,且由群組設定參數設定各發光二極體看板33所屬 之群組,及各群組所需使用之影像晝面資料,其中,同一 群組所使用之影像畫面資料相同。如此,將可界定各發光 二極體看板33所屬之終端機34所需接收之影像晝面資 料。 參閱圖2、3 ’接著’再利用載體播放順序參數分別依 照各群組之不同,設定各群組所屬之發光二極體看板33播 1241545 放影像畫面資料之順序,並由欲播放此影像晝面資料之發 光二極體看板33數目,及各發光二極體看板33播放順 序,計算出各發光二極體看板33所屬之影像讀取區塊位 址,與所欲播放之影像畫面資料分別傳送至各發光二極體 5 看板33所屬之終端機34,其中,值得說明的是,此影像資 料的傳送可套用一 HTML網頁母版,以網頁格式,傳送至 各展示端之終端機,而因其為網頁格式,故可利用網頁編 輯的技術,如Java Script或VB Script,加入特殊動畫效 果,如翻頁或水紋,來增加播放時的宣傳效果,由於此網 10 頁編輯之方式,已為一普偏使用且成熟之技術,故在此不 多加贅述。 各終端機34會依據此影像讀取區塊位址,於顯示記憶 體單元中讀取於該位址之影像區塊資料,並將其透過影像 擷取介面341,將此影像區塊資料格式轉換數位格式,於所 15 屬之發光二極體看板33上播放。 如圖4、5所示,為使說明上更為清楚,於下文中,將 以一影像畫面為手機之影像畫面資料Ml,一影像畫面為一 電視之影像畫面資料M2、一影像畫面為一黑底白 字’’Dream”之鏤空字型的影像晝面資料M3,及一影像畫面 20 類似於影像畫面資料M3但為一白底黑字”Dream”字型的影 像畫面資料M4,分別於矩陣式發光二極體看板模組之複數 發光二極體看板33a-33t上以一動畫效果播放之例子,來加 以說明,惟並不以此作為本發明之限制。 其中,在本例中,欲達成影像畫面資料Ml於發光二極 1241545 體看板33a至33d上,由3313、33〇1向33a、33c移動,影像 畫面資料M2於發光二極體看板33e至33j上,由33h_33j 向33e-33g移動,影像畫面資料M3於發光二極體看板33化 至33t上,以一翻頁模式切換為影像晝面資料M4之效果。 要達到上述之效果,有兩項因素需要考量,一者為如 何使各發光二極體看板33正確地擷取到所需的影像畫面資 料,者為各影像晝面資料如何於正確地時間播出於所屬 之發光二極體看板33。 參閱圖2、4、5,首先,使用者利用遠端主機31之輸 入裝置318,透過使用者介面312,設定相關媒體播放參 數,其中,利用載體選擇參數指定所欲使用之發光二極體 看板33為33a-33t,並由群組設定參數設定發光二極體看板 33a至33d為一第一群組,發光二極體看板33e至33』為一 第二群組,發光二極體看板33k至33t為一第三群組,且 指定第一群組播放影像畫面資料M1,第二群組播放影像畫 面資料M2,及第三群組播放影像晝面資料M3及影像畫面 資料M4。 蒼閱圖5,此外,因第一群組上欲形成影像畫面資料 Ml由右向左移動之效果,第二群組上欲形成影像晝面資料 M2由下向上移動之效果,故利用載體播放順序參數設定第 一群組之影像播放順序是由發光二極體看板33b、33d至發 光二極體看板33a、33c,第二群組之影像播放順序是由發 光二極體看板33h、33i、33j至發光二極體看板33e、33f、 33g,影像處理模組312則依據各發光二極體看板33所欲 !241545 播放的影像畫面資料大小,及播放此影像畫面資料之發光 二極體看板數目,及各欲使用之發光二極體看板於所屬之 發光二極體看板群組之位置,區分出此影像畫面資料存放 於各發光二極體看板33a-33t所屬之終端機34之顯示記憶 體單元中的影像區塊,如影像畫面資料Ml區分出S11至 S14四個影像區塊,影像畫面資料m2則區分出S21至S26 六個影像區塊,影像畫面資料M3、M4則區分出S31至 S40十個影像區塊。 影像處理模組312依據所設定之影像區塊,及由各欲 使用之發光二極體看板於所屬之發光二極體看板群組之位 置,分別計算出出各發光二極體看板33a至33t所屬之終端 機34,於其顯示記憶體單元中所欲讀取之影像讀取區塊位 址。如此,各發光二極體看板33所屬之終端機34,在讀取 顯示記憶體單元中之資料時,將依據影像讀取區塊位址, 讀取到一影像晝面資料之影像區塊。 此外,為使各影像晝面資料可於正確地時間播出於所 屬之發光二極體看板33,使用者更透過使用者介面312, 設定一播放時間參數,及一資料調整參數,分別指定各發 光二極體看板33播放此影像畫面資料之播放時間,及播放 效果,並傳送至各終端機34,各終端機34將於設定之播放 時間,播放此影像畫面資料於所屬之發光二極體看板33, 並於一延遲時間後,依據設定之播放效果調整顯示記憶體 單元中之影像區塊,再根據影像讀取區塊位址,讀取資料 調整後的影像區塊資料,經由影像擷取介面341於各發光 11 1241545 二極體看板看板上呈現,其中,此播放效果可為放大、縮 小或移動此影像晝面資料,而各播放時間未有指定播放之 影像畫面資料的發光二極體看板33則播放一預設書面,而 可呈現出-動畫之效果,由於調整顯示記憶體内儲存資料 5 之方法係為一普偏使用之技術,故在此並不多加贅述。 參閱圖‘6,故在本例中,使用者於使用者介面312 上’分別對發光二極體看板33a-33t設定: ㈣時,影像晝面資料M1之移動路徑之起始點為發光 -極體看板33b、33d,於t=l時,結束至發光二極體看板 jq 33a、33c ° t=0時,影像晝面資料M2之移動路徑之起始點為發光 -極體看板33h-33j ’於t=i時,結束至發光二極體看板 33e-33g ° 影像畫面資料“3於t=〇播放於第三群組並於户丨時以 15 翻頁模式切換為影像晝面資料M4之限制條件。 其中,值得說明的是,上述此等媒體播放參數之設定, 口 ;使用者”面上,以圖示、選項、或鍵入數值等易於操作 之方式設定。 2〇 ^ ♦閱圖6,故以第一群組而言,經影像處理模組3計 y出各舍光_極體看板33a-33d所屬之影像區塊讀取位址 刀另i為F1-F4 ’在㈣時,LED看板—、33c此時並無指 &播U畫面貧料,故其所屬之終端機提供—預定畫面匕 1 ,、上播放而LED看板33b、3;3d所屬終端機34分別於 …、員示。己k體單元中,依據影像讀取區塊位址Η、Η,分 12 1241545 別讀取並顯示影像區塊S11、S13經影像擷取介面341傳送 至LED看板33b、33d顯示其影像畫面。 蒼閱圖5、7,以相同方式,第二群組中之發光二極體 看板33h-33j及第三群組之發光二極體看板33k-33t,於t=〇 5 時分別於看板上顯示S21-S23,S31-S35,而發光二極體看 板33e-33g此時並無指定播放影像區塊,故其所屬之終端機 則提供一預定畫面b於其上播放。 參閱圖6、7,在t=i時,LED看板33a-33d所屬之終 端機34分別於其顯示記憶體單元中,依據影像調整參數, 10 將影像畫面資料寫入顯示記憶體之影像讀取區塊位址 F1 _F4 ’各終端機並依其所屬之影像像讀取區塊位址讀取儲 存位址调整後之影像區塊,並傳送至所屬之發光二極體看 板,顯示其影像畫面。故可形成影像畫面資料M1於第一群 組上由右而左移動的效果, 15 以相同的方式,在t=l時,第二群組之發光二極體看板 33e-33j所屬終端機34之顯示記憶體單元中,依據資料調整 參數,調整影像資料M2位址,經各影像擷取介面依據所屬 之影像讀取區塊位址讀出所屬之顯示影像區塊S21-S26,並 分別傳送及顯示於第二群組之發光二極體看板33e_33j上。 20 而第二群組之所屬終端機,亦於此時,於顯示記憶體單元 中將影像資料M4覆蓋於影像資料M3上,並由於影像資料 M3、M4係以套用一寫入翻頁效果之網頁格式,故於資料切 換時,呈現一翻頁效果。如此一來,每隔一延遲時間後, 每一發光二極體看板將切換到預存的下一晝面,而達到預 13 1241545 期的展示效果。 參閱圖8,此外,若預於此矩陣式發光二極體看板模組 上形成一影像畫面放大之效果,係於利用載體選擇參數選 擇使用之發光《一極體看板為33a-33t,且定義其為同一群 5 組,並分別設定户〇時,影像畫面資料M1之放大路徑之起 始點為發光二極體看板33d、33h、33i、331、33m、33ιι, t=l時,結束點為發光二極體看板33a_33t,即可達成此效 果。 此外,媒體播放軟體更具有一時間管理模組314,係用 10 以統一达端主機31與各終端機3 4之時鐘脈波信號,使得 遠端主機31與各終端機34具有一相同之時間參考基準, 而讓動畫之效果更為流暢。 另外,參閱圖3,為了讓本發明一種矩陣式發光二極體 看板模組之媒體播放方法,可更靈活地調度及校正所欲播 15 放的影像畫面資料,媒體播放軟體更具有一即時播放模組 315,及一媒體預覽模組316,即時播放模組315用以接收 一即時影像畫面資料,並直接傳送到至少一個發光二極體 看板33上播放,而形成一種插播的效果。媒體預覽模組 316用以於遠端主機31上預先檢視各發光二極體看板33於 20 接收遠端主機31發送之影像畫面資料及參數後所會呈現之 畫面效果。 除此之外,本發明更包含一顧客資料管理模組317,用 以管理使用此矩陣式發光二極體看板模組之顧客資料,讓 使用此看板模組之使用者更可有系統地控管顧客資料。 14 1241545 苓閱圖2、3、9,當使用者欲控制咖看板模組時, 如步驟 ’需先於遠端主機31 λ,啟動使用者介面 扣’並透過使用者介面312,如步驟術,選擇—欲使用 H於使用者介面中,分別提供了 -即時播放模式、一 顧客資料管理模式,及一行程編排模式。當進入即時播放 Μ式’使用者介面312提供使用者選擇欲即時播放之影像 晝面資料,及欲播放此畫面資料之發光二極體看板33,如 步驟405,並利用即時播放模组315傳送選擇之影像晝面資 料’直接經選定之發光二極體看板33所狀影像擁取介面 1〇 341,傳送到選定之發光二極體看板33上播放,而形成一 種插撥的效果;當進入顧客資料管理式,係可於使用者介面 312上,利用輸入裝置318,於顧客資料管理模組317中, 建立、管理使用此矩陣式發光二極體看板模組之顧客資 料,讓使用此看板模組之使用者更可有系統地控管顧客資 15 料,如步驟404,並可於輸入顧客資料完畢後,重回步驟 402 〇 參閱圖3、9、1〇,進入行程編排模式後,使用者可透 過使用者介面312,利用輸入裝置318(參閱圖2)來設定媒體 播放參數,其中,媒體播放參數包含一載體選擇參數、一 1〇 群組設定參數、一載體播放順序參數、一播放時間參數, 及一資料調整參數,如步驟406,影像處理模組313可依所 設定之載體選擇參數,指定所欲使用之發光二極體看板, 參閱圖10,如步驟406a,並由群組設定參數設定各發光二 極體看板33所屬之群組,及各群組所需使用之影像晝面資 15 5 10 15 20 影像畫面資料,顯示於 1241545 據播放時財㈣較 ^ 丁 / J 右無,返回步驟 ,再依影像讀取區塊位址,讀旦 Λ 於久TFD善此M it顯示 於各LED看板33上,若p 丨冷η、庁 已到達延遲時間,則依據資料調整 參數將影像區塊資料進行資料门正 * $仃貝#,再返回步驟412,依影 像項取區塊位址讀取資料調整後的 y 各LED看板33上。 命納上述,本發明-種矩陣式發光二極體看板模組之 媒體播放方法,係利用—具有—媒體播放軟體之遠端主機 31,於一媒體資料庫32中取得所需之影像畫面資料,經由 其影像處理模組313設定各發光二極體看板33所需之影像 畫面資料’及讀取影像畫面f料時之影像讀取區塊位址, 且可由播放時間參數,及資料調整參數之設^,而於-延 遲時間後,控制終端機34調整影像畫面資料,再根據影像 磧取區塊位址,讀取資料調整後的影像畫面資料,傳送至 所屬之影像擷取介面34卜而於各發光二極體看板33上呈 現一動畫顯示之效果。 另外’為了可更靈活地調度及校正所欲播放的影像晝 面資料’遠端主機31更可由即時播放模組315將一即時影 像畫面資料’直接傳送到至少一個發光二極體看板33上播 放’而形成一種插撥的效果。並可利用媒體預覽模組316 預先檢視各發光二極體看板33於接收發送之影像畫面資料 及參數後所會呈現之畫面效果,來做一預先之檢視及修 正’故確實能達到發明之目的。 惟以上所述者,僅為本發明之較佳實施例而已,當不 17 1241545 能以此限定本發明實施之範圍,即大凡依本發明申請專利 範圍及發明說明書内容所作之簡單的等效變化與修飾,皆 應仍屬本發明專利涵蓋之範圍内。 【圓式簡單說明】 圖1是一示意圖,說明習知矩陣式發光二極體看板模 組之媒體播放方法; 圖2是一示意圖,說明本發明矩陣式發光二極體看板 模組之媒體播放方法的較佳實施例; 圖3是一示意圖,說明一媒體播放軟體; 圖4是一示意圖,說明該較佳實施例之矩陣式發光二 極體看板模組; 圖5疋一示思圖,說明該較佳實施例所需之複數影像 畫面資料; 圖6是-示意圖’說明該較佳實施例之作動流程; 圖7是-示意圖,說明該較佳實施例之一播放效果; 圖8疋不思圖,說明該較佳實施例之另一播放效 果; 圖9疋#思圖,說明本發明矩陣式發光二極體看板 模組之媒體播放方法之作動步驟;及 圖10疋/肢私圖,說明本發明之一詳細作動步驟。 18 1241545 【圖式之主要元件代表符號說明】 31 遠端主機 34 終端機 311 儲存裝置 341 影像擷取介面 312 使用者介面 33a-33t 發光二極體看板 313 影像處理模組 M1-M3 影像畫面資料 314 時間管理模組 F1-F4 影像讀取區塊位 315 即時播放模組 址 316 媒體預覽模組 S11-S14 影像區塊 317 顧客資料管理模 S21-S26 影像區塊 組 S21-S26 影像區塊 318 輸入裝置 401-416 步驟 32 媒體資料庫 406a-406d 步驟 33 發光二極體看板 191241545 发明 Description of the invention: [Technical field to which the invention belongs] The present invention relates to a method for media playback of a matrix light-emitting diode kanban module, in particular, a light-emitting diode kanban is adjacent to each other, and 5 Media playing method of matrix light-emitting diode kanban module arranged in matrix manner. [Previous technology] Generally, in the use of image media promotion, in order to attract consumers ’attention more easily, a number of LED kanban boards are used to construct a high-definition and large-screen 10 kanban board module, which is used to play -Promote video materials to attract the attention of consumers or specific customers. Participation 丨 ... Generally, to achieve the technology of this kind of LED kanban module, the video divider is used to divide the mother daytime data M1 of a display U on the control end into several corresponding ones according to the number of displays on the display end. Sub-picture data S1-S4, and send sub-picture 15 lean material S1_S4 to the corresponding LED kanbans 21-24 on a display end, or a display on the control end paired with a kanban on the display end in a paired manner with each other Cooperate with each other and show the effect of the TV wall. However, this type of technology can only split the mother picture data mi and directly transmit it to each LED signboard for playback. None-Controls the daylight data of the divided child 1 S4 Because of this, it is not possible to fully use and edit the mother screen data Ml, resulting in an animated media playback effect, such as the screen flying in, flying out, zooming in and out] 4 · 'Dong Shiyi ’s advertising media is rampant today, no A variety of media expression methods will not be able to effectively attract the attention of consumers, 1241545 and fully achieve the effect of media publicity. [Summary of the Invention] Therefore, an object of the present invention is to provide a matrix type light emitting diode sign board module which can display an animation 5 effect on a matrix type light emitting diode sign board module without adding additional hardware equipment. Media playback method. Therefore, a method for playing a matrix light-emitting diode kanban module of the present invention is to control the display screen of a plurality of light-emitting diode kanbans arranged in a matrix. The method includes the following steps. A) Provide each terminal Machine-specific image reading block address; B) and each terminal takes the block address according to the 10 items of the image it belongs to, and reads an image block in the display memory unit at a predetermined time, and Each image block is displayed on each light-emitting diode signboard to which it belongs through an image capture interface. Furthermore, the present invention also discloses a computer-readable recording medium, which can be loaded on a remote host as a media playback device, and transmits a plurality of 15-image terminals, and each terminal is Through an image capture interface, an image block of the image frame is transmitted to the corresponding light-emitting diode signboard for playback, wherein each light-emitting diode signboard is adjacent to each other and arranged in a matrix manner in a recording medium. A code is recorded that can drive the media playback device. The code can execute the following steps # 20 in the media playback device: 8) Provide at least one image day and day data; B) Provide each LED display The media playback parameters required for the image screen; and c) Calculate the address of the image reading block to which each LED board belongs according to these media playback parameters. Each terminal receives this image daytime data, and its image read block 1241545 address, and reads the image screen data according to the image item's block address, and the image capture interface displays it on the corresponding light-emitting diode. Kanban. [Embodiment] In the detailed description of the preferred embodiment just described in the present invention and other technologies 5 10 15 with reference to the drawings, it will be clear. 2, referring to FIG. 2, the present invention-a preferred embodiment of a media playback method of a light-emitting diode (LED) kanban module is a remote host 31 including a control end, a media database 32, and a The plurality of terminals 34 at the display end and a matrix light-emitting diode sign board module, the matrix light-emitting diode sign board module has a plurality of LED sign boards 33. The remote host 31 is connected to the media database 32. The media database 32 has a plurality of image screen data for use by the remote host 31. Of course, these image screen data can also be stored by one of the internal hosts of the remote host 31, such as It is not limited to those disclosed in this embodiment. The remote host 31 has a storage device 311 'and an input device 318, wherein the remote host 31 is a computer', so its detailed structure will not be described in detail here. The plurality of terminals M each have a display memory (Vide.ram) unit (not shown in the figure and an image manipulation interface 341. These terminals 34 are connected to the remote host 31 via the network and can receive the remote host 31 The transmitted image screen data is stored in the Video RAM unit 'and each terminal ’s% image operation interface can convert the image daytime data stored in the display memory unit into a digital data. Format, the transmission LED core 33 collapses. Each LED sign board is adjacent to each other 'and arranged in a -matrix manner to form a matrix with a large display 20 1241545 Picture: a matrix light-emitting diode sign board module with a rectangular display screen 1 See Figure 2. A media playback software with media playback function can store: B, and the storage device 3n of the host 31, where the storage device can be a hard disk, a handle or other storage that can be accessed The device Li in this embodiment refers to a material device 3 in the form of a hard disk. [1], > With reference to Figures 2 and 3, the media playback software of the present invention can be divided into several modules, and the dagger 3 has a user. Interface 312, an image processing module 3, a time management Management module 314,-real-time playback module 315, and-media preview module 316. Through the user interface 312, the user can use the input device 318 of the remote host 31 to set media playback parameters through the user interface 312. The media playback parameters include a carrier selection parameter, a group setting parameter, a carrier playback sequence parameter, a playback time parameter, and a data adjustment parameter. Of course, the design of this user interface 312 can be different according to needs. Addable parameters that can be set, such as playback time and sound effects, are not limited to those disclosed in this embodiment. The image processing module 3 12 receives the parameter values set by the user interface 3 12 and uses The carrier selection parameter specifies the light-emitting diode kanban 33 to be used, and the group setting parameter sets the group to which each light-emitting diode kanban 33 belongs, and the day-to-day data of the image to be used in each group. Among them, the same The image screen data used by the group is the same. In this way, the daytime data of the image to be received by the terminal 34 to which each LED board 33 belongs can be defined. 2, 3 'Next' Reuse carrier The playback sequence parameters are set according to the different groups respectively. Set the order of the display screen data of the light-emitting diode Kanban 33 broadcast 1241545 to which each group belongs, and the day-to-day data of the image to be played The number of light-emitting diode kanbans 33 and the playback order of each light-emitting diode kanban 33. Calculate the address of the image reading block to which each light-emitting diode kanban 33 belongs, and send the image screen data to be played to The terminal 34 to which each of the light-emitting diodes 5 kanban 33 belongs, it is worth noting that the transmission of this image data can be applied to an HTML web page master and transmitted to the terminals of each display terminal in web page format. It is a web page format, so you can use web editing technology, such as Java Script or VB Script, to add special animation effects, such as page turning or watermarking, to increase the effect of publicity during playback. Due to the way of editing the 10 pages of this website, A commonly used and mature technology, so I won't go into details here. Each terminal 34 reads the block address according to this image, reads the image block data at that address in the display memory unit, and uses the image capture interface 341 to format the image block data. The digital format is converted and played on the light emitting diode board 33 belonging to the 15 family. As shown in Figs. 4 and 5, in order to make the description clearer, in the following, an image screen is used as the mobile phone's image screen data M1, an image screen is a television image screen data M2, and an image screen is The daylight data M3 of the hollowed-out image of the white text "Dream" on a black background and an image frame 20 are similar to the image data M3 but are the image data M4 of a black background "Dream" type on the matrix. An example of playing an animation effect on the plurality of light-emitting diode kanban modules 33a-33t of the light-emitting diode kanban module is described, but this is not a limitation of the present invention. Among them, in this example, the Reached the image screen data Ml on the light-emitting diode 1241545 body kanbans 33a to 33d, moved from 3313, 33〇1 to 33a, 33c, the image screen data M2 on the light-emitting diode kanbans 33e to 33j, from 33h_33j to 33e-33g Move, the image picture data M3 is changed to 33t on the light-emitting diode kanban, and the page turning mode is switched to the effect of the image daytime data M4. To achieve the above effect, there are two factors to consider, one is how Make each glow The diode kanban 33 has correctly captured the required image frame data, and how the daytime data of each image is broadcasted at the correct time on the corresponding luminescent diode kanban 33. See Figures 2, 4, and 5. First, The user uses the input device 318 of the remote host 31 to set the relevant media playback parameters through the user interface 312. Among them, the carrier selection parameter is used to specify the light-emitting diode kanban 33 to be 33a-33t, and the group The group setting parameter sets the light emitting diode kanbans 33a to 33d as a first group, the light emitting diode kanbans 33e to 33 "as a second group, and the light emitting diode kanbans 33k to 33t as a third group. And specify the first group to play the video picture data M1, the second group to play the video picture data M2, and the third group to play the video day data M3 and the video picture data M4. Please refer to Fig. 5. In addition, because the first group The effect of moving the image data M1 from right to left on the group, and the effect of moving the image daytime data M2 from bottom to top on the second group, so use the carrier playback order parameter to set the video playback order of the first group Is made by Photodiode kanbans 33b, 33d to light-emitting diode kanbans 33a, 33c. The second group of video playback sequence is from light-emitting diode kanbans 33h, 33i, 33j to light-emitting diode kanbans 33e, 33f, 33g. The processing module 312 is based on the size of each light-emitting diode kanban 33! 241545 The size of the image screen data that is played, the number of light-emitting diode kanbans that play this image screen data, and the light-emitting diode kanbans that are to be used. The position of the light-emitting diode kanban group distinguishes the image picture data stored in the display memory unit of the terminal 34 to which each light-emitting diode kanban 33a-33t belongs, such as the image picture data M1. Four image blocks S11 to S14 are identified, the image screen data m2 is divided into six image blocks S21 to S26, and the image screen data M3 and M4 are distinguished into ten image blocks S31 to S40. The image processing module 312 calculates each light-emitting diode kanban 33a to 33t according to the set image block and the position of each light-emitting diode kanban to be used in the corresponding light-emitting diode kanban group. The terminal 34 to which it belongs reads the image read block address in the display memory unit. In this way, when the terminal 34 to which each light-emitting diode kanban 33 belongs reads the data in the display memory unit, it will read an image block of image daytime data according to the image read block address. In addition, in order that the daytime data of each image can be broadcast on the corresponding light emitting diode board 33 at the correct time, the user further sets a playback time parameter and a data adjustment parameter through the user interface 312 to specify each The light emitting diode board 33 plays the playing time of the image picture data, and the playing effect, and transmits it to each terminal 34. Each terminal 34 will play the image picture data in the light emitting diode to which it belongs at the set playing time. Kanban 33, and after a delay time, adjust the image block in the display memory unit according to the set playback effect, then read the block address according to the image, read the adjusted image block data from the data, and capture through the image The access interface 341 is presented on each of the light-emitting 11 1241545 diode kanban boards. Among them, the playback effect can be enlarged, reduced, or moved the daytime data of the image, and the light-emitting diodes of the image screen data that are not specified for playback at each playback time The Kanban 33 plays a preset writing, and can show the effect of -animation, because the method of adjusting and displaying the data stored in the memory 5 is a Partial use of technology, so this is not narrated herein. Refer to Figure '6, so in this example, the user sets the light-emitting diode kanbans 33a-33t respectively on the user interface 312: at the moment, the starting point of the movement path of the image day-surface data M1 is light-emitting- Polar body kanbans 33b, 33d, at t = 1, end to the light-emitting diode kanbans jq 33a, 33c ° t = 0, the starting point of the movement path of the image day data M2 is light-polar body kanban 33h- 33j 'At t = i, it ends to the light-emitting diode kanban 33e-33g ° The image screen data "3 at t = 〇 is played in the third group and is switched to the image day and time data in 15 page turning mode at home Limitations of M4. Among them, it is worth noting that the settings of these media playback parameters, such as the user interface, are set by icons, options, or easy-to-operate values. 2〇 ^ ♦ See Figure 6, so in the first group, the image processing module 3 counts out each of the shading_polar body kanban 33a-33d belongs to the image block read address knife and the other i is F1 -F4 'At the moment, the LED kanban—, 33c at this time has no finger & broadcast U screen is poor, so the terminal it belongs to provides — scheduled picture dagger 1,, and play on the LED kanban 33b, 3; 3d belongs Terminals 34 are shown at ... According to the image reading block addresses Η and Η in the k-body unit, it is divided into 12 1241545. Do not read and display the image blocks S11 and S13 via the image capture interface 341 and send them to the LED kanbans 33b and 33d to display their image screens. See Figures 5 and 7. In the same way, the light-emitting diode kanbans 33h-33j in the second group and the light-emitting diode kanbans 33k-33t in the third group are on the kanbans at t = 0. S21-S23, S31-S35 are displayed, and the light-emitting diode kanbans 33e-33g are not designated to play the image block at this time, so the terminal to which they belong provides a predetermined picture b to play on it. Referring to Figures 6 and 7, at t = i, the terminals 34 to which the LED kanbans 33a-33d belong are respectively displayed in the display memory unit, and according to the image adjustment parameters, 10 write the image screen data to the display memory for image reading Block address F1 _F4 'Each terminal will read the image block adjusted by the storage address according to the image image to which it belongs and send it to the corresponding LED display board to display its image screen . Therefore, the effect of moving the image screen data M1 from right to left on the first group can be formed. 15 In the same manner, at t = 1, the terminal 34 of the light emitting diode kanban 33e-33j of the second group belongs In the display memory unit, the image data M2 address is adjusted according to the data adjustment parameters, and the respective display image blocks S21-S26 are read out according to the image read block address to which each image capture interface belongs, and transmitted separately. And displayed on the light emitting diode boards 33e_33j of the second group. 20 At this time, the terminal belonging to the second group also overlays the image data M4 on the image data M3 in the display memory unit, and because the image data M3 and M4 are applied with a page turning effect Web page format, so when the data is switched, it presents a page turning effect. In this way, after every delay time, each LED board will be switched to the pre-stored next day, and the display effect of pre-13 1241545 period is achieved. Refer to Fig. 8. In addition, if the effect of enlarging an image screen is formed on the matrix light-emitting diode kanban module in advance, it is based on the use of the carrier selection parameter to select the light-emitting "polar-board kanban is 33a-33t, and definition It is the same group of 5 groups, and when the user 0 is set, the starting point of the magnification path of the image screen data M1 is the light-emitting diode kanban 33d, 33h, 33i, 331, 33m, 33m, and when t = 1, the ending point This effect can be achieved for the light-emitting diode kanbans 33a-33t. In addition, the media player software also has a time management module 314, which uses 10 to unify the clock pulse signals of the end host 31 and each terminal 34, so that the remote host 31 and each terminal 34 have the same time Reference benchmarks to make animations smoother. In addition, referring to FIG. 3, in order to allow a method for media playback of a matrix light-emitting diode kanban module according to the present invention, it is possible to more flexibly schedule and correct the video image data to be broadcasted, and the media playback software has a real-time playback Module 315 and a media preview module 316. The real-time playback module 315 is used to receive real-time image picture data and directly transmit it to at least one light-emitting diode board 33 for playback, thereby forming an insert effect. The media preview module 316 is used to pre-view the effect of each light-emitting diode kanban 33 on the remote host 31 after receiving the image data and parameters sent by the remote host 31 at 20. In addition, the present invention further includes a customer data management module 317 for managing customer data using the matrix light-emitting diode kanban module, so that users using the kanban module can have more systematic control Manage customer information. 14 1241545 Ling read Figures 2, 3, and 9. When the user wants to control the Kanban module, if the step 'need to be before the remote host 31 λ, activate the user interface button' and pass the user interface 312, as shown in step , Choose-if you want to use H in the user interface, it provides-real-time playback mode, a customer data management mode, and an itinerary scheduling mode. When entering the real-time playback M-type user interface 312, the user can select the daytime data of the image to be played in real time, and the light-emitting diode kanban 33 to play this screen data, as shown in step 405, and transmitted by using the real-time playback module 315. The selected image daytime data 'is directly transmitted to the selected light-emitting diode kanban 33 through the image-capturing interface 10341 of the selected light-emitting diode kanban 33, and played to form a plug-in effect; when entering The customer data management type can be created and managed on the user interface 312 using the input device 318 and the customer data management module 317 in the customer data management module 317 using the matrix light-emitting diode kanban module, so that the kanban can be used. The user of the module can also systematically control the customer data, such as step 404, and can return to step 402 after entering the customer information. ○ Refer to Figures 3, 9, and 10. After entering the schedule mode, The user can set the media playback parameters by using the input device 318 (see FIG. 2) through the user interface 312. The media playback parameters include a carrier selection parameter, a 10 group Group setting parameters, a carrier playback sequence parameter, a playback time parameter, and a data adjustment parameter. For example, in step 406, the image processing module 313 can specify the light emitting diode Kanban to be used according to the set carrier selection parameter. Referring to FIG. 10, if step 406a, the group to which each light-emitting diode kanban 33 belongs is set by the group setting parameter, and the image daytime charge required for each group is 15 5 10 15 20 The image screen data is displayed in 1241545 According to the time of playing, ㈣ / / J, right, no, return to the step, and then read the block address according to the image, read Λ Yu Jiu TFD, this M it is displayed on each LED sign 33, if p 丨 冷 η If 延迟 has reached the delay time, the image block data will be gated according to the data adjustment parameters * $ * 贝 #, and then return to step 412 to take the block address according to the image item and read the adjusted y LED boards. 33 on. As mentioned above, the present invention, a matrix-type light-emitting diode kanban module media playback method, uses a remote host 31 with media playback software to obtain the required image picture data in a media database 32 Through its image processing module 313, it sets the image picture data 'required for each light-emitting diode board 33 and the image read block address when reading the image picture f, and it can be adjusted by the playback time parameters and data parameters. ^, And after the -delay time, the control terminal 34 adjusts the image screen data, and then fetches the block address according to the image, reads the adjusted image screen data, and sends it to the corresponding image capture interface 34. An animation display effect is displayed on each of the light-emitting diode boards 33. In addition, 'in order to more flexibly schedule and correct the daytime data of the image to be played', the remote host 31 can directly transmit an instant image screen data 'to the at least one light-emitting diode board 33 for playback by the real-time playback module 315. 'And the effect of a plug. And the media preview module 316 can be used to pre-view the screen effect of each light-emitting diode kanban 33 after receiving and sending the image screen data and parameters to do a pre-review and correction, so it can indeed achieve the purpose of the invention. . However, the above are only the preferred embodiments of the present invention. The scope of the present invention can be limited by 17 1241545, that is, the simple equivalent changes made according to the scope of the patent application and the content of the invention specification. And modifications should still fall within the scope of the invention patent. [Circular brief description] FIG. 1 is a schematic diagram illustrating the media playing method of the conventional matrix light-emitting diode kanban module; FIG. 2 is a schematic diagram illustrating the media playback of the matrix-type light-emitting diode kanban module of the present invention A preferred embodiment of the method; FIG. 3 is a schematic diagram illustrating a media player software; FIG. 4 is a schematic diagram illustrating a matrix light-emitting diode kanban module of the preferred embodiment; FIG. 5 is a schematic diagram, The plural image screen data required for explaining the preferred embodiment; FIG. 6 is a schematic diagram illustrating the operation flow of the preferred embodiment; FIG. 7 is a schematic diagram illustrating the playback effect of one of the preferred embodiments; Without thinking about the diagram, another playback effect of the preferred embodiment is illustrated; FIG. 9 疋 # is a diagram showing the operation steps of the media playing method of the matrix light-emitting diode kanban module of the present invention; and FIG. 10 疋 / limb private The figure illustrates a detailed operation procedure of the present invention. 18 1241545 [Description of the main components of the diagram] 31 Remote host 34 Terminal 311 Storage device 341 Image capture interface 312 User interface 33a-33t LED display board 313 Image processing module M1-M3 Image screen data 314 Time management module F1-F4 Image reading block position 315 Instant playback module address 316 Media preview module S11-S14 Image block 317 Customer data management module S21-S26 Image block group S21-S26 Image block 318 Input devices 401-416 step 32 media library 406a-406d step 33 LED display 19