201009652 ιινιυ iH /1W 29072twf.doc/n 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種游標控制裝置的參數設定方 法’且特別是有關於游標解析度參數的設定方法。 【先前技術】 隨著消費者的使用需求以及光學感應技術的進步,滑 〇 鼠可支援的解析度越來越高’甚至可以取代鍵盤的某些功 能。隨著視窗(Windows)作業系統的普及,市面上的滑鼠種 類不斷推陳出新,其功能也隨之發展進步,不但滑鼠的解 析度提高了,本身具備的功能也從早期單純的指向、點選, 進化到現在的捲動、圈選、快速鍵、訊息提示等等。 在衫像處理或是電腦游戲方面,由於對游標操作的精 細度要求越來越高,因此高解析度的光學的滑鼠便因應= 生,其解析度的單位為DPI (dot per inch)。目前滑鼠的解 析度已經從標準的400 DPI進步到至少800DPI,甚至開妒 f 1600^PI到3GGG DPI高級滑鼠的市場出現。就滑心 ’肖,市場與技術而言,大約是以獅G Dpi的解析度作為分 ^嶺,一些尚階的技術大多使用在高於1000 DPI的滑&市 場,而以價位為主打的市場多是6〇〇Dpi或8〇〇〇ρι的機 種。 然而、’有很多使用者對於滑鼠解析度的定義並不了 解斯Ϊ無Ϊ準確以及快速的設定適合自己使用習慣的滑鼠 又於一般使用者而言,解析度越高,功能越強大 201009652 ν-ινιυι^/ι 29072twf.doc/n 的滑鼠有時候反而造成使用者在設定上的困擾。 【發明内容】 有鑑於此,本發明提供一種游標控制裝置的參數設定 方法,利用人性化的設定介面,讓使用者可以依照其使用 習慣’直覺的設定適合自己的參數值。 承上述,本發明提出一種游標控制裝置的參數設定方 ❹ 法,包括下列步驟:顯示一游標起始區與—游標定位區; 在上述游標起始區中提供複數個游標,且上述游標對應於 複數個游標參數;偵測一游標控制裝置的一移動向量 (movement vector)並根據相對應之上述游標參數與上述移 動向量分別調整上述游標的顯示位置;以及若上述游標其 中之一位於上述游標定位區且致能—設定信號時,則根據 相對應之上述游標參數其中之一設定上述游標控制裝置的 參數。 在本發明一實施例中,其中在顯示上述游標起始區與 參 丨述游標定位區之步驟中,上述游榡起始區與上述游標定 位區分別位於一螢幕畫面中的兩侧。” 在本發明一實施例中,其中上述游標起始區與上述游 標定位區分別為一圓形區域。 在本發明一實施例中,其中在上述游標起始區中提供 上述游標,且上述游標對應於上述游標參數之步驟中,: 述游標一對—對應於上述游標參數,且上述游標參數分別 具有相對應的一解析度參數。 201009652 CMUI471W 29072twf.doc/n 在本發明一實施例中,上述參數設定方法更包括根據 各上述游標所對應之上述解析度參數調整各上述游標的移 動速度。 在本發明一實施例中,其中上述設定信號的致能方式 包括按下上述游標控職置的—設定减點選上述游標定 位區。 在本發明一實施例中,其中上述游標控制裝置的上述 e 設定鍵為一滑鼠左鍵、滑鼠中鍵或一滑鼠右鍵。 在本發明一實施例中,其中上述游標控制裝置的參數 包括一解析度參數。 在本發明一實施例中,其中在根據相對應之上述游標 參數其中之一設定上述游標控制裝置的參數之步驟更包 括’·將相對應之上述游標參數其中之一傳送至上述游標控 制裝置並儲存於上述游標控制裝置中;以及根據所儲存之 上述游標參數其中之-蚊上料標控備置的上述解析 度參數。 在本發明一實施例中,其中在根據所儲存之上述游標 參數其中之一設定上述游標控制裝置的上述解析度參數的 步驟更包括:若上述游標控制裝置為一光學滑鼠,則根據 所f存之上述游標參數之一設定上述光學滑鼠的一光學 應器的參數以調整上述光學滑鼠的上述解析度參數。 在本發明一實施例中,其中在上述游標起始區中提供 上述游標,且上述游標對應於上述游標參數之步驟更^ 括.分別根據上述游標的顯示位置,顯示相對應之上述游 201009652 cmui^/ivV 29072twf.doc/n 標參數。 在本發明一實施例中,上述參數設定方法更包括下列 步驟:若上述游標皆未移動至上述游標定位區而上述設定 信號致能時,則顯示一錯誤信息。 在本發明一實施例中,上述參數設定方法更包括下列 步驟:若接收到一重置信號,則重新在上述游標起始區中 顯示上述游標。201009652 ιινιυ iH /1W 29072twf.doc/n IX. Description of the Invention: [Technical Field] The present invention relates to a parameter setting method for a cursor control device and particularly relates to a method for setting a cursor resolution parameter. [Prior Art] With the demand of consumers and the advancement of optical sensing technology, the squirrels can support higher resolutions even replacing some of the functions of the keyboard. With the popularity of Windows (Windows) operating system, the types of mouse on the market continue to evolve, and its functions have also evolved. Not only has the resolution of the mouse improved, but its functions have also been pointed from the early stage. , evolved to the current scrolling, circle selection, quick keys, message prompts, and more. In the case of shirt-like processing or computer games, due to the increasingly high precision requirements for cursor operations, high-resolution optical mice respond to = raw, and the unit of resolution is DPI (dot per inch). At present, the mouse's resolution has improved from the standard 400 DPI to at least 800 DPI, and even the market for the opening of the 1600^PI to 3GGG DPI advanced mouse. As for the slippery heart, the market and technology are about the resolution of the lion G Dpi. Some of the most advanced technologies are mostly used in the sliding & market, which is higher than 1000 DPI. The market is mostly 6 〇〇 Dpi or 8 〇〇〇 ρι. However, there are a lot of users who don't understand the definition of mouse resolution. It is easy and fast to set the mouse that suits their own habits. For the average user, the higher the resolution, the more powerful the function 201009652 The mouse of ν-ινιυι^/ι 29072twf.doc/n sometimes causes the user to be bothered by the settings. SUMMARY OF THE INVENTION In view of the above, the present invention provides a parameter setting method for a cursor control device, which utilizes a user-friendly setting interface to allow a user to intuitively set a parameter value suitable for himself according to his usage habits. In view of the above, the present invention provides a parameter setting method for a cursor control apparatus, comprising the steps of: displaying a cursor start area and a cursor positioning area; providing a plurality of cursors in the cursor start area, and the cursor corresponds to a plurality of cursor parameters; detecting a motion vector of a cursor control device and respectively adjusting a display position of the cursor according to the corresponding cursor parameter and the motion vector; and if one of the cursors is located in the cursor Zone and enable - When the signal is set, the parameters of the cursor control device are set according to one of the corresponding cursor parameters. In an embodiment of the invention, in the step of displaying the cursor starting area and the cursor positioning area, the cursor starting area and the cursor positioning area are respectively located on two sides of a screen. In an embodiment of the present invention, the cursor starting area and the cursor positioning area are respectively a circular area. In an embodiment of the present invention, the cursor is provided in the cursor starting area, and the cursor is Corresponding to the step of the cursor parameter, the cursor pair corresponds to the cursor parameter, and the cursor parameter has a corresponding resolution parameter respectively. 201009652 CMUI471W 29072twf.doc/n In an embodiment of the invention, The parameter setting method further includes adjusting the moving speed of each of the cursors according to the resolution parameter corresponding to each of the cursors. In an embodiment of the invention, the enabling manner of the setting signal includes pressing the cursor control position. - In the embodiment of the present invention, the e setting button of the cursor control device is a mouse left button, a middle mouse button or a mouse right button. In an example, the parameter of the cursor control device includes a resolution parameter. In an embodiment of the invention, wherein the phase is The step of setting the parameters of the cursor control device in one of the above cursor parameters further includes: transmitting one of the corresponding cursor parameters to the cursor control device and storing in the cursor control device; and storing according to the cursor control device; In the above-mentioned cursor parameter, the above-mentioned resolution parameter of the mosquito-feeding standard is set. In an embodiment of the present invention, wherein the resolution parameter of the cursor control device is set according to one of the stored cursor parameters The step further includes: if the cursor control device is an optical mouse, setting a parameter of an optical device of the optical mouse according to one of the cursor parameters stored in the f to adjust the resolution parameter of the optical mouse. In an embodiment of the present invention, the cursor is provided in the cursor starting area, and the step of the cursor corresponding to the cursor parameter is further included. According to the display position of the cursor, the corresponding tour 201009652 cmui is displayed respectively. ^/ivV 29072twf.doc/n parameters. In an embodiment of the invention, the above parameter setting The method further includes the following steps: if the cursor is not moved to the cursor positioning area and the setting signal is enabled, an error message is displayed. In an embodiment of the invention, the parameter setting method further comprises the following steps: When a reset signal is reached, the above cursor is displayed again in the cursor start area.
在本發明-實施例中,其中上述游標包括一原始游標 與至少一虛擬游標。 在本發明一實施例中,其中根據上述游標參數其中之 -設定上述游標控織參數之步驟更包括:根^上述 游標控制裝置所設定的參數調整上述原始游標的解析度。 鼠或實施射,其中上述游標控制裝置為一滑 方法從〜m度來看’本㈣錢f麟標參數設定 在上述游標起純t提供-游鮮稀 ,度比例對應於複數個游標參數;制一游標· 根據上,向量對應調整上述游標指* 位區且致二嗖定=:上返游標指示線通過上述游標定 靜〜☆ r Μ 域時,則根據上麟標指示線盘上述 之一 設定上爾晴置的^紅上賴標參數其* 區中提供 在本發明一實施例中,其中在上述游標起始 201009652 CM0147TW 29072^ίάοο/η ^述游標指示線’且依上述游標指示線的長度_標示上 =游標參數之步驟中,上述游標指示線的長度係隨上述游 軚控制裝置的一最大解析度參數而變。In an embodiment of the invention, wherein the cursor comprises an original cursor and at least one virtual cursor. In an embodiment of the invention, the step of setting the cursor control and weaving parameter according to the cursor parameter further comprises: adjusting the resolution of the original cursor by the parameter set by the cursor control device. The mouse or the implementation of the shooting, wherein the above cursor control device is a sliding method from the viewpoint of ~m degree 'this (four) money f Lin standard parameter is set in the above cursor from the pure t provided - the tour is rare, the degree ratio corresponds to a plurality of cursor parameters; According to the upper, vector corresponding adjustment of the cursor finger * bit area and the second determination =: the upper return cursor indicator line through the above cursor to determine the static ~ ☆ r Μ field, according to the upper line indication line An embodiment of the present invention is provided in a region of the present invention, wherein the cursor starts at 201009652 CM0147TW 29072^ίάοο/η ^ the cursor indication line ' and is indicated by the cursor In the step of length_marking the upper=cursor parameter, the length of the cursor indicating line is a function of a maximum resolution parameter of the above-described recreation control device.
在本發明一實施例中,其中在根據上述游標指示線盘 上述游標定位區的域交触置騎應之上賴標參數其 中之-奴上麟標控制裝置的參數的步驟更包括:將相 對應之上述游標參數其中之—傳送至上述游標控制裝置並 儲存於上料標控織置巾;以及根據觸存之上述游標 參數其中之-蚊上述游標控制裝置的—解析度參數。丁 在本發明-實施例中,其中在根據上述游標指示線與 上述游標定位區的上述交接位置所對應之上述游標參數其 中之一设定上述游標控制裝置的參數的步驟更包括:若上 述游標控做置為-光學料,麻據存之上述游標 參數之一没疋上述光學滑鼠中的一光學感應器以調整上 光學滑氣的上述解析度參數。 本發明因採用人性化的參數設定介面,直接於螢幕蚩 面上提供多個具有不同參數的游標,讓使用者可以在操^ 過程中,直覺選擇適用於自己的游標,系統便會根據“ 者所選擇的游標對應調整游標控制裝置的參數(例如解 度)。由於使用者不需暸解各個參數的意義,只要依照個 使用習慣與感覺來進行點選,系統便會設定對應的參數, 因此可以增加游標參數設定的方便性。 為讓本發明之上述特徵和優點能更明顯易懂,下文 舉較佳實施例,並配合所附圖式,作詳細說明如下。、 9 201009652 CM0147TW 29072twf.doc/n 【實施方式】 第一實施例 本實施例提出一種人性化的參數設定方法,直接於螢 幕畫面上顯示多個具有不同參數(本實施例以解析度參數 為例)的游標,每個游標皆依照相對應的解析度參數來調整 其移動速度。使用者可以藉由同一個游標控制裝置同時操 作多個游標,然後在操作過程成程中選擇適合自己使用習 e 慣的游標,此時系統便會根據所選擇的游標所對應的解析 度參數去自動設定游標控制裝置中的參數,例如解析度參 數0 〆 接下來,以圖示進一步說明本實施例之技術手段,情 參=圖1A,圖1A根據本發明第一實施例之參數設定介面 不思圖,首先,螢幕晝面n〇中會顯示游標起始區120盥 游,定位區⑽’分別位於螢幕晝面nG中的兩側,而^ =標起始區120中會顯示多個游標1〇1〜1〇4,游標1〇1〜1〇4 ❹ 分別對應於不同的游標參數’本實施例以解析度參數為 當使用者移祕標控制裝置(本實施_滑I為例說明) ’所有游標101〜104便會隨之移動,即對應調整其顯示 2。游標101〜104的移動速度則會根據所對應的解析度 二:有所不同’換言之’游標101〜104會根據相對應之 :數與滑鼠的移動向量分別調整游標1〇1〜1〇4的 位置。 * 值!Γ注意的是游標101〜104其中之一的解析度參數 右。目—賴設定值相同’断直接採用滑鼠的輸出來 201009652 t^MUi4/x W 29072twf.doc/n 移動游標’其餘游標則可藉由運算方式來產生對應的虛擬 游標。也就是說’游標101〜104可例如由一個原始游標與 三個虛擬游標所組成。此外’在游標起始區丨2〇中所產生 的游標數目並不受限於4個,可依照使用者的需求以及游 標控制裝置所支援的解析度而定,本實施例並不受限。 當偵測到使用者移動滑鼠時,游標101〜104會對應移 動,如圖1B所示,圖1B為根據本實施例之參數設定介面 ❹ 示意圖。其中,由於游標101〜104所對應的解析度參數不 同’因此其顯示位置與移動速度也會有所不同,而標示 201〜204則是用表示游標ι〇1〜1〇4的游標參數值(例如 400DPI、800DPI、1200DPI 以及 1600DPI),也就是解析度 1〜4 ’可依照使用者需求選擇顯示或不顯示。在使用者的 操作過程中’當使用者將游標1〇1〜1〇4其中之一移動至游 標定位區130上且致能一設定信號時,系統依照位於游標 定位區130上的游標(圖iB中以游標104為例)所對應的解 析度參數(即解析度4)來設定滑鼠的解析度參數(也就是重 ® 新設定原始游標的解析度參數)。設定信號的致能方式則例 如為按下滑鼠的一設定鍵(滑鼠左鍵、中鍵或右鍵)或點選 游標定位區130。值得注意的是,若在設定過程中,系統 接收到一重置信號(例如使用者按下重置鍵),游標101〜104 會被重新顯示於游標起始區12〇中,讓使用者可以重新設 定。 此外’若系統所連結的游標控制裝置為光學滑鼠,當 系統偵測出使用者所需設定的解析度參數時,系統可將此 11 201009652 c;Mui4/iw^ 29072twf.doc/n 解析度參數傳送光學滑鼠,並儲存於光學滑鼠的記憶體 中,然後依據此解析度參數設定光學滑鼠中的光學感&器 的參數以調整滑鼠的解析度參數。 一 综合上述,本實施例可歸納出一種游標控制裝置的表 數設定方法,圖2為根據本實施例之游標控制裝置的參^ 設定方法流程圖。首先,在螢幕晝面上顯示—游標起始區 與一游標定位區(步驟S210),然後在游標起始區中顯示複 m 數個游標,分別對應於不同的游標參數(解析度參數),個 別游標會根據所對應的解析度參數調整其移動速度。接下 來,偵測游標控制裝置是否移動?(步驟S230),若游標控制 裝置移動,則根據對應的游標參數與游標控制裝置的移動 向量,分別調整各別游標的顯示位置(步驟S240)。接著, 偵測是否接收到一重置信號?(步驟S250),若是,則回到步 驟S220,重新在游標起始區中顯示複數個游標,讓使用者 可以重新設定。值得注意的是,步驟S25〇並不限定於目 刖的位置,可以設置於步驟S210〜步驟270之間的任—位 置皆可,也就是說,使用者在設定的過程中可以隨時進行 重置,將游標回復至游標起始區中以重新設定。 若未接收到重置信號,則進入步驟S260,偵測是否有 任-游標移動至游標定位區且致能一設定信號?若有則 根據相對應的游標參數設定游標控制裝置的參數(步驟 S270) ’若否,則繼續偵測。在步驟s26〇中致能設定信 遽的方式則可由制者自行設定龍的按鍵,例如滑鼠左 鍵或滑鼠右鍵,本實施例並不受限。 12 201009652 29072twf.doc/n 本實施例可以適用於支援非連續性解析度的游標控In an embodiment of the invention, the step of the parameter of the slave-on-the-loop control device in the field of the above-mentioned cursor positioning area according to the cursor indicating the above-mentioned cursor further includes: Corresponding to the above-mentioned cursor parameters, which are transmitted to the cursor control device and stored in the loading standard control woven towel; and the resolution parameter of the vernier control device according to the cursor parameter. In the embodiment of the present invention, the step of setting the parameter of the cursor control device according to one of the cursor parameters corresponding to the intersection position of the cursor indication line and the cursor positioning area further comprises: if the cursor is The control is set to be an optical material, and one of the above cursor parameters is not included in an optical sensor of the above optical mouse to adjust the above resolution parameter of the upper optical slip. The invention adopts a humanized parameter setting interface, and provides a plurality of cursors with different parameters directly on the screen surface, so that the user can intuitively select a cursor suitable for himself in the operation process, and the system will according to the The selected cursor corresponds to adjusting the parameters of the cursor control device (for example, the solution degree). Since the user does not need to understand the meaning of each parameter, the system selects the corresponding parameter according to the usage habit and feeling, so the system can set the corresponding parameter, so The convenience of the cursor parameter setting is increased. In order to make the above features and advantages of the present invention more comprehensible, the following description of the preferred embodiments and the accompanying drawings will be described in detail below. 9 201009652 CM0147TW 29072twf.doc/ [Embodiment] The first embodiment of the present invention provides a user-friendly parameter setting method, which directly displays a plurality of cursors having different parameters (for example, the resolution parameter in this embodiment) on the screen, each cursor Adjust the moving speed according to the corresponding resolution parameter. The user can simultaneously use the same cursor control device Make a plurality of cursors, and then select a cursor suitable for the user to use in the course of the operation process. At this time, the system automatically sets the parameters in the cursor control device according to the resolution parameter corresponding to the selected cursor, for example, analysis. Degree parameter 0 〆 Next, the technical means of the embodiment will be further illustrated by the following figure, and the parameter setting interface of FIG. 1A is not considered in the first embodiment of the present invention. First, the screen is n〇 The cursor starting area 120 is displayed, the positioning area (10)' is located on both sides of the screen nG, and the ^= starting area 120 displays multiple cursors 1〇1~1〇4, the cursor 1〇 1~1〇4 ❹ correspond to different cursor parameters respectively. In this embodiment, the resolution parameter is used when the user moves the secret control device (this implementation _ slip I is an example). All cursors 101~104 will follow. Move, that is, adjust its display 2. The movement speed of the cursors 101~104 will be different according to the corresponding resolution 2: different 'in other words' the cursors 101~104 will be corresponding according to the number: the movement vector of the mouse and the mouse respectively Adjust cursor 1〇1~1〇4 Position. * Value! Γ Note that the resolution parameters of one of the cursors 101 to 104 are right. The target value is the same as the 'offset' directly using the output of the mouse to 201009652 t^MUi4/x W 29072twf.doc/n The cursor 'the rest of the cursors can be operated to generate the corresponding virtual cursor. That is to say, the cursors 101 to 104 can be composed of, for example, an original cursor and three virtual cursors. In addition, the cursor is in the start area of the cursor. The number of generated cursors is not limited to four, and may be determined according to the needs of the user and the resolution supported by the cursor control device, and the embodiment is not limited. When the user is detected to move the mouse, The cursors 101 to 104 are correspondingly moved, as shown in FIG. 1B, and FIG. 1B is a schematic diagram of the parameter setting interface 根据 according to the embodiment. Wherein, since the resolution parameters corresponding to the cursors 101 to 104 are different, the display position and the moving speed are different, and the labels 201 to 204 are the cursor parameter values indicating the cursors ι〇1 to 1〇4 ( For example, 400DPI, 800DPI, 1200DPI, and 1600DPI), that is, resolution 1~4' can be displayed or not displayed according to user requirements. During the operation of the user, when the user moves one of the cursors 1〇1~1〇4 to the cursor positioning area 130 and enables a setting signal, the system follows the cursor located on the cursor positioning area 130 (Fig. In iB, the resolution parameter (ie, resolution 4) corresponding to the cursor 104 is used to set the resolution parameter of the mouse (that is, the resolution parameter of the original cursor is newly set). The setting mode of the signal is, for example, a button for pressing the mouse (left mouse button, middle button or right button) or clicking the cursor positioning area 130. It is worth noting that if the system receives a reset signal during the setting process (for example, the user presses the reset button), the cursors 101 to 104 are redisplayed in the cursor start area 12〇, so that the user can reset. In addition, if the cursor control device connected to the system is an optical mouse, when the system detects the resolution parameter that the user needs to set, the system can use this 11 201009652 c; Mui4/iw^ 29072twf.doc/n resolution The parameters are transmitted to the optical mouse and stored in the optical mouse's memory. Then, according to the resolution parameter, the optical sensor & parameters in the optical mouse are set to adjust the resolution parameter of the mouse. In the above, the present embodiment can be summarized as a method of setting the number of the cursor control device, and Fig. 2 is a flow chart showing the method of setting the cursor control device according to the present embodiment. First, a cursor starting area and a cursor positioning area are displayed on the screen surface (step S210), and then a plurality of cursors are displayed in the cursor starting area, corresponding to different cursor parameters (resolution parameters), Individual cursors adjust their movement speed according to the corresponding resolution parameters. Next, is the detection of the cursor control device moving? (Step S230), if the cursor control device moves, the display positions of the respective cursors are individually adjusted based on the corresponding cursor parameters and the motion vector of the cursor control device (step S240). Then, it is detected whether a reset signal is received (step S250), and if so, the process returns to step S220 to display a plurality of cursors in the cursor start area, so that the user can reset. It should be noted that step S25 is not limited to the location of the directory, and may be set to any position between step S210 and step 270, that is, the user can reset at any time during the setting process. , the cursor is returned to the cursor start area to reset. If the reset signal is not received, then go to step S260 to detect whether there is any - cursor moved to the cursor positioning area and enable a setting signal? If yes, the parameters of the cursor control device are set according to the corresponding cursor parameters (step S270). If not, the detection is continued. In the manner of enabling the setting of the signal in step s26, the player can set the button of the dragon, such as the left mouse button or the right mouse button. This embodiment is not limited. 12 201009652 29072twf.doc/n This embodiment can be applied to cursor control that supports non-continuous resolution
制裝置,例如支援 400DPI、800DH、1200DPI 以及 1600DPI 等解析度。由於游標控制裝置所支援的解析度只有數種選 擇’因此可直接根據游標控制裝置所支援的解析度,提供 數個對應的游標讓使用者選擇。當游標控制裝置的光學感 應器可以支援類比式的解析度變化時,例如1、2、 3〜3000DH,此時使用者可自行決定設定時所要顯示的游 φ 標數,系統即可對應計算各別游標所對應的解析度。此外, 游標的顯示方式亦不限定於圖1B’也可以利用其於形式來 顯示,例如游標指示線,如以下第二實施例的說明。 第二實施例 當游標控制裝置具有類比式的光學感應器時,由於其 可支援一定範圍内的所有解析度,例如1〜3〇〇〇dpi。因此, 可利用游標指示線的長度比例來表示所有的解析度參數, 請參照圖3 ’圖3為根據本發明第二實施例之參數設定介 面示意圖。其中,螢幕晝面110中同樣會顯示游標起始區 ❹ 120與游標定位區130,圖3與圖1A主要的差異在於圖3 中是以游標指示線310來取代游標1〇1〜1〇4。游標指示線 310的長度比例對應於複數個游標參數,以1〜3〇〇〇Dpi為 例,其游標指示線310上可依長度比例標示數個參數值,The device supports, for example, resolutions such as 400DPI, 800DH, 1200DPI, and 1600DPI. Since the resolution supported by the cursor control device is only a few choices, it is possible to provide a plurality of corresponding cursors for the user to select based on the resolution supported by the cursor control device. When the optical sensor of the cursor control device can support the analogy of the resolution change, for example, 1, 2, 3 to 3000 DH, at this time, the user can determine the value of the travel φ to be displayed at the time of setting, and the system can calculate each Do not correspond to the resolution of the cursor. Further, the display manner of the cursor is not limited to Fig. 1B' and may be displayed in the form, for example, a cursor indicating line, as explained in the following second embodiment. SECOND EMBODIMENT When the cursor control device has an analog type optical sensor, it can support all resolutions within a certain range, for example, 1 to 3 〇〇〇 dpi. Therefore, all the resolution parameters can be represented by the length ratio of the cursor indication line. Referring to Figure 3, Figure 3 is a schematic diagram of a parameter setting interface according to a second embodiment of the present invention. The cursor starting area ❹ 120 and the cursor positioning area 130 are also displayed in the screen surface 110. The main difference between FIG. 3 and FIG. 1A is that the cursor indicator line 310 is substituted for the cursor 1〇1~1〇4 in FIG. . The length ratio of the cursor indicator line 310 corresponds to a plurality of cursor parameters, and is exemplified by 1 to 3 〇〇〇 Dpi, and the cursor indicator line 310 can be marked with a plurality of parameter values according to the length ratio.
例如 600DI>I、1200DPI、1800DPI、2400DH 以及 3〇〇〇DPI 等參數值來提醒使用者。游標指示線310的長度會隨著游 標控制裝置所支援的最大解析度參數與游標控制裝置的移 動而變,而游標指示線310的方向也會隨著游標控制裝置 13 201009652 CM01471W 29072twf.doc/n 的移動而變。 ❹For example, parameters such as 600DI>I, 1200DPI, 1800DPI, 2400DH, and 3〇〇〇DPI are used to alert the user. The length of the cursor indicator line 310 will vary with the maximum resolution parameter supported by the cursor control device and the movement of the cursor control device, and the direction of the cursor indicator line 310 will also follow the cursor control device 13 201009652 CM01471W 29072twf.doc/n The movement changes. ❹
從另一個角度來看’游標指示線310可視為由複數個 游標所構成’只是游標是以虛線表示。當使用者移動游標 控制裝置時,游標指示線310即隨著游標控制裝置所產生 的移動向量改變其長度與方向。當游標指示線通過游標定 位區130且致能一設定信號時,則根據游標指示線31〇與 游標定位區130的交接位置320所對應之游標參數設定游 標控制裝置的解析度參數。由於游標指示線31〇的長度與 解析度成比例’因此交接位置32〇所對應的解析度參數可 由長度L1與長度L2的比例而得。對於交接位置320的選 疋,可例如設定為游標指示線31〇與游標定位區13〇的交 會中心、最大或最小值。 當取得交接位置320所對應的解析度參數後,即可將 對應的解析度參數傳送到游標控制裝置巾,並據以調整其 2析度參數,例如調整滑鼠中的光學感應器的解析度參 數。關於本實施例之其餘操作細節照Viewed from another perspective, the 'cursor indicator line 310 can be viewed as being composed of a plurality of cursors' except that the cursor is indicated by a dashed line. When the user moves the cursor control device, the cursor indicator line 310 changes its length and direction as the motion vector generated by the cursor control device. When the cursor indication line passes through the cursor positioning area 130 and a setting signal is enabled, the resolution parameter of the cursor control device is set according to the cursor parameter corresponding to the intersection position 320 of the cursor indication line 31〇 and the cursor positioning area 130. Since the length of the cursor indicating line 31〇 is proportional to the resolution, the resolution parameter corresponding to the handover position 32〇 can be obtained from the ratio of the length L1 to the length L2. The selection of the handover position 320 can be set, for example, to the intersection center, maximum or minimum value of the cursor indication line 31A and the cursor positioning area 13A. After the resolution parameter corresponding to the handover location 320 is obtained, the corresponding resolution parameter can be transmitted to the cursor control device towel, and the 2 resolution parameter can be adjusted accordingly, for example, the resolution of the optical sensor in the mouse is adjusted. parameter. For the rest of the operation details of this embodiment
的說明,在此不加贅述。 矛只1J 接下來 田上述圖3的說明中可歸納出另一種游標;! 方法’請參照圖4,^ 4為根據本發明第二實如 二:控制裝置的參數設定方法流程圖。首先,顯示一; =始點與—游駄位區(步驟㈣),然後在游標起始【 於複:個示線的長度比_ 曰/數(乂驟S42〇)。接者,偵測游標控制裝j 疋否移動?(步驟_),當使用者移動游標控制裝置時q 201009652 CM〇l4/xW 29072twf.doc/n 會根據游標控制裝置的移動向量對應調整游標指示線的長 度與方向(步驟S440)。接著,偵測是否接收到一重置信 號?(步驟S450),若是,則回到步驟S420,重新在游標起 始區中顯示游標指示線,讓使用者可以重新設定。值得注 意的是’步驟S450並不限定於目前的位置,可以設置於 步驟S410〜步驟470之間的任一位置皆可,也就是說,使 用者在設定的過程中可以隨時進行重置,將游標指示線回 〇 復至游標起始區中以重新設定。 若未接收到重置信號,則進入步驟S460,偵測是游標 指示線是否通過游標定位區且致能一設定信號?若有,則 根據游標指示線與游標定位區的一交接位置所對應之游標 參數設定游標控制裝置的參數(步驟S470);若否,則繼 續偵測。關於圖4的其餘操作細節請參照上述圖3的說明, 在此不再資述。 值得注意的是,上述實施例中所述之游標控制裝置並 不限於滑鼠,也可以是觸控墊等游標控制裝置,而游標起 始區與游標定位區可以是一圓形區域’也可以依照使用者 的吾好設定不同的形狀,本發明並不受限。由於使用者可 在同一晝面中同時操作多個不同解析度的游標或游標指示 線’因此可以直覺的選擇出適合自己使用習慣的游標參 數,藉此可以增加使用者在設定游標參數時的方便性。此 外’上述實施例以解析度為例說明本發明之技術手段,然 而本發明之參數設定方法亦可應用於其他參數的設定,例 如雙擊速度、游標圖形等,讓使用者可直接經由使用的感 15 201009652 /! V/ 29072twf.doc/n 覺來進行選取。 此外,當裝置在參數設定程序時,只有一個實際的解析度 現行設定值,也就是游標控制裝置中的解析度設定值,其他的 指示點或指示線皆是以該實際參數依比例換算後顯示出來 的。另外,在運算過程中,游標起始區與游標定位區的基準座 祆可以其中心點的座標為準。換言之,游標起始區實際上可以 是一個點而不是一個區域而游標定位區尤其在作運算新的設 φ 定值時,也可以是以其中心點的座標值被代入運算。 綜上所述,本發明在同一畫面中提供具有多個不同解 析度的游標,個別游標均會依據所對應的參數反應出相對 應的操作特性,讓使用者可以直接依據其使用習慣來選擇 適合自己的解析度參數值。使用者不需了解參數的意義, 只要選擇適合自己的游標’系統即會根據其游標所對應的 參數主動進行設定,讓游標參數的設定更為人性化與便利。 雖’、、;本發明已以較佳實施例揭露如上,然其並非用以 蚊本發明,任何所屬技術領域中具有通常^者,在不 ❹ 脫離本發明之精神和範圍内,當可作些許之更動與潤飾, 因此本發明之保護範圍當視後附之申請專利範圍^界定者 為進。 【圖式簡單說明】 圖1Α根據本發明第一實施例之參數設定介面示意圖。 圖1Β為根據本發明第-實施例之參數設定介面示意 16 201009652 l.iviwi^/i 29072twf.doc/n 圖2為根據本發明第一實施例之游標控制裝置的參數 設定方法流程圖。 圖3為根據本發明第二實施例之參數設定介面示意 圖。 圖4為根據本發明第二實施例之游標控制裝置的參數 設定方法流程圖。 ©【主要元件符號說明】 101〜104 :游標 110 :螢幕晝面 120 :游標起始區 13 0 .游標定位區 201〜204 :標示 310 :游標指示線 320 :交接位置 LI、L2 :游標指示線的長度 〇 S210〜S270、S410〜S470 :流程圖步驟 17The description is not repeated here. Spears only 1J Next, the above description of Fig. 3 can be summarized as another cursor;! Method 'Please refer to Fig. 4, which is a flow chart of the parameter setting method of the control device according to the second embodiment of the present invention. First, display one; = start point and - swim position area (step (4)), and then start at the cursor [in complex: the length of the line is _ 曰 / number (step S42 〇). Receiver, detect cursor control device j 疋 No move? (Step_), when the user moves the cursor control device, q 201009652 CM〇l4/xW 29072twf.doc/n adjusts the length and direction of the cursor indication line according to the motion vector of the cursor control device (step S440). Then, it is detected whether a reset signal is received (step S450), and if so, the process returns to step S420 to display the cursor indication line in the cursor start area again, so that the user can reset. It should be noted that the step S450 is not limited to the current position, and may be set at any position between the steps S410 and 470. That is, the user can reset at any time during the setting process. The cursor indicates that the line is back to the cursor start area to reset. If the reset signal is not received, then go to step S460 to detect whether the cursor indicator line passes through the cursor positioning area and enable a setting signal. If yes, the parameters of the cursor control device are set according to the cursor parameters corresponding to the intersection position of the cursor indication line and the cursor positioning area (step S470); if not, the detection is continued. For details of the remaining operations of FIG. 4, please refer to the description of FIG. 3 above, and no further description is provided herein. It should be noted that the cursor control device described in the above embodiments is not limited to a mouse, and may be a cursor control device such as a touch pad, and the cursor starting area and the cursor positioning area may be a circular area. The present invention is not limited in terms of setting different shapes according to the user's. Since the user can simultaneously operate a plurality of cursors or cursor indication lines of different resolutions in the same plane, it is possible to intuitively select a cursor parameter suitable for the usage habit, thereby increasing the convenience of the user in setting the cursor parameters. Sex. In addition, the above embodiment illustrates the technical means of the present invention by taking the resolution as an example. However, the parameter setting method of the present invention can also be applied to other parameter settings, such as double-click speed, cursor graphics, etc., so that the user can directly use the sense of use. 15 201009652 /! V/ 29072twf.doc/n Feel to pick. In addition, when the device is in the parameter setting program, there is only one actual resolution current setting value, that is, the resolution setting value in the cursor control device, and other indication points or indicator lines are displayed according to the actual parameter scale conversion. from. In addition, during the operation, the reference position of the cursor start area and the cursor positioning area can be determined by the coordinates of the center point. In other words, the cursor start area may actually be a point rather than an area, and the cursor positioning area may be substituted for the coordinate value of the center point, especially when the operation is set to a new value of φ. In summary, the present invention provides a cursor with a plurality of different resolutions in the same screen, and each cursor reflects corresponding operating characteristics according to the corresponding parameters, so that the user can directly select according to his usage habits. Your own resolution parameter value. The user does not need to understand the meaning of the parameters. Just select the cursor that suits you. The system will actively set according to the parameters corresponding to the cursor, making the setting of the cursor parameters more user-friendly and convenient. The present invention has been described above by way of a preferred embodiment, and it is not intended to be used in the field of the invention, and it is intended to be within the spirit and scope of the invention. There are a few changes and refinements, and therefore the scope of protection of the present invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram showing a parameter setting interface according to a first embodiment of the present invention. 1 is a parameter setting interface according to a first embodiment of the present invention. 16 201009652 l.iviwi^/i 29072twf.doc/n FIG. 2 is a flow chart showing a parameter setting method of a cursor control device according to a first embodiment of the present invention. Figure 3 is a schematic illustration of a parameter setting interface in accordance with a second embodiment of the present invention. Fig. 4 is a flow chart showing a parameter setting method of the cursor control device according to the second embodiment of the present invention. ©【Main component symbol description】 101~104: Cursor 110: Screen face 120: Cursor start area 13 0. Cursor positioning area 201~204: Marker 310: Cursor indicator line 320: Handover position LI, L2: Cursor indicator line Length 〇S210~S270, S410~S470: Flowchart Step 17