1239480 玖、發明說明: 【發明所屬之技術領域】 本發明是有關於一種輸入方法、控制模組及其電子產 品,特別是指一種以起始位置及移動方向所定義,可依不 时勢其所產生不同之控制信號供主機作為後續的控制功 能使用之輸入方法、控制模組及其電子產品。 【先前技術】 10 15 目前所知的觸控裝置依其偵測觸控點的物理原理,大 致包含電容式、電阻式、電磁式、壓力式、電感式、表面 聲波式、超音波式、光學式等等,一般常見的則為電阻式 電谷式幾種’其主要應用在例如筆記型電腦、個人數位 助理等消費性電子產品上,其使用方式為利用觸控筆 (stylus)或者以手指在觸控板上移動,來進行手寫文字或模 擬滑鼠的點選功能。 如圖丨所示’是在美國專利第Mi4,67i號中提出的一 種觸控裝置9’其可_手指8或觸控筆於其觸控板9〇上 之碰觸位置之電容變化,亦即,當手指8接觸到觸控板卯 的瞬間’觸控板9〇的表 μ魅千+ 、、7衣由即產生一接觸電容,由於觸控板 〇之表面為一感應矩陣,其與一觸控裝置9具 向處理單元91、一 ♦田口口 方 Υ方向處理早元92及一運算單元93相 互電性連接,由X方向處理單元91及丫方向處理單元% 可t續不斷追料# 8之接觸電容的㈣,㈣運算單元 93疋位出手指8位置的_(χ,γ该標位置參數,同時運算單 ^ 93亦可測得手指8觸遷在觸控板9〇不同距離變化而:定 20 5 10 15 20 1239480 Z,座標參數,運算單元93再將所偵測χ、γ、ζ座標 ^一位移單元94、一手勢單元95及-傳輸介面96’由位 移單元’94加以計算位移量Δχ、Δγ,並將其值經傳輸介面 傳U到主機97,提供主機97上的游標所需的相對位移 量’手勢單元95則是用以判斷手指8的㈣方式,如單‘ ㈦Ρ)、雙擊(d〇uble tap)或拖$(drag)等手勢(洲㈣)動作, 至於主機97可以是一般的個人電腦、筆記型電腦或可攜 電子產品等裝置。 、上述以計算位移量ΔΧ、ΛΥ及判斷手勢的輸入方式固 J方便#而此種方式主要以提供—般視窗軟體上的游標 所需的相對位移量使用,其應用範圍十分有限。 " 【發明内容】 基於以上原因’本發明提出一種以起始位置及移動方 向所疋義’且可依不同手勢其所產生不同之控制信號供主 機:為後續的控制功能使用之輸入方法、控制模組及電子 產品’主要是希望能使觸控裝置提供更多樣的控制功能, 使其用途更為廣泛。 因此,本發明之目的,在於提供一種以起始位置及移 方向所疋義,且可依不同手勢其所產生不同之控制信號 供主機作為後續的控制功能使用之輸入方法。 本發明之另一目的,在於提供一種可轉換以起始位置 及移動方向所定義之手勢為不同控制信號,用以提供各式 主機作為後續的控制功能使用之控制模組。 本發明之再一目的,在於提供一種以起始位置及移動 5 1239480 產=所疋義’且可依不同手勢作為多用途控制功能之電子 之不因考1月之輸入方法係由一控制模組識別一觸控裝置上 5 10 15 機作μ勢’以不同手勢其所產生不同之控制信號供-主 為作為後績的控制功能 該觸控裝置之位置^ 方法疋以一次碰觸 合各該不同㈣^ H ’並將該起始位置配 比對少▲* + °之手勢於该控制模組中定義出一可供 手勢產Γ丈Γ料集’接著積測該觸控裝置上是否有符合: 向銘叙後將符合碰觸該起始位置及相配合之移動方 ° 之手勢,將其與該控制模組中所定義之兮來 集相比對’麵比對結果輸出至tm q貧料 本:明之控制模組係電性連接於一觸控裝置及 :識別該觸控裝置上將該起始位置: 方向之丰執,4 ^ W] φ w : 所產生不同之控制信號供該主機押制 使用,該控制模組包含—電 二制 理單元、㈣ “連接於该觸控裝置之座標處 早π -内部預定有—可供比對 憶單元、—雷w、查拉+入4 貝丁寸杲之芩數記 之運曾單-, 標處理單元及該參數記憶單元 二7C ’及-電性連接於該主機之傳輸介面。 對岸處:單元係接收該觸控裝置上之手勢轉換為相 數’該運算單元以第一次碰觸該觸控裝置之 為一起始位置’將該起始位置配合手勢之移動古 數並與二料所接收到之該座⑭ 所對應之控制信號:=="_合該手勢 亥傳輸介面使該運算單元所產生的 20 ίο 15 20 1239480 控制信號傳遞至該主機。 本号务明"Τ' \ ^子產品包含一主機、一電性連接該主機之 觸ί允I W 77 " ,及一電性連接於該主機及該觸控裝置之控制模 組"亥控制模組用以識別該觸控裝置上將該起始位置配合 各違不冋移動方向之手勢,並將其所產生不同之控制信號 供該主機控制使用。 控制模組具有—電性連接於該觸控裝置之座標處理 部預定有-可供比對之參數資料集之參數記憶 早7L、-電性連接於該座標處理單元及該參數記憶單元之 運算單S,及—電性連接於該主機之傳輸介面。 該座標處理單元係接收該觸控裝置上之手勢轉換為相 座標參數,該運算單元以第一次碰觸該觸控裝置之 位置設定為-起始位置,將軸始位置配合手勢之移動方 向作為判斷準則,將該座標處理單元所接收到之該座標參 數並與該參數資料集中儲在 y渚存苓數相比對以輸出符合該手勢 所對應之控制信號,3^ 虎且δ亥傳輸介面使該運算單元所產生的 控制信號傳遞至該主機。 【實施方式】 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之四較佳實施例及其相關範例的詳細說 明中,將可清楚的明白。 兄 如圖2所示,為本發明 ,主Is以筮^ 輪方法之第一較佳實施例 主要疋以弟-M觸觸控裝置1之位置設 置P1,配合有一第一移動古A 巧然伍 有弟私動方向u 12> 7 5 10 15 20 1239480 而第一移動方向u與第二移動方向i2 P1為基準沿-軸向之二相對方向延伸。 以起始位置 必須事先說明的是,i 的各實施例中,皆是將手;;二較佳實施例及其它所述 次碰觸位置視為起始位置, 工衣置1表面第- 只要移動時超過系統之預定時間曰= 勿體於觸控裝置1 作用容後再述p直到手指或物體、二寺:輸出控制信號( 離開觸控裝置1為止0 在本較佳實施财,㈣於㈣裝置 ’皆可視為其起始位置P1,因此若 表面的任一處 的定義,則由起始位置P1往 、口上逑起始位置P1 符合由起始位置?1往第二;多c…動,或者 效的控制動作。 ° 12移動,皆可視為有 如圖3所示,為本發明之輸入方法 ,第-次碰觸時所測得之起始位置。2=貫= 配合有如第一較佳實施例的第料基準’除了 “,更配合有-第三移動方向:方:—= 。而第-移動方向u與第二移動方向;:者:;動方向14 置Μ為基準,沿—轴向之二相對者^以起始位 …第四移動方向14亦以起 申=三移動方 沿垂直於軸向之相對方向延伸。 $基準’且各為 無論以手指或物體在觸控穿 · 觸,皆視為其起始位置^ 、面任-處第-次碰 動方向U移動、由起始位置=广第-移 由起始位…第三移動方向Λ—二方者?移動、 或者由起始位置 ίο 15 20 1239480 P2往第四移動方向14 比 如圖4所示,為”視為有效的控制動作。 '、、本务明之輸入方法之第二^ ,=-次碰觸時所測得之起始位:::實施, 配合有弟-移動方向u、第二移乍為基準,除了 13及第四移動方向14,更配合 ::2、第三移動方向 六移動方向16、一第 和動方向15、一第 。 ^㈣方向17及㈣@ u 其中的第五移動方向15介 動方…間、第六移動方向;:介^ 第四移動方向14之間、,-移動方向η及 方向及第四移動方向14之間 ° 17介於第二移動12 二移動方向12及第三移動方向13之二動方向18介於第 ,上述任二相鄰移動方向之夾角為介於15 =過實際測試 任一角度,皆具有十分良好的控制效果。0度之間 無論以手指或物體在觸控裝置 觸,皆視為其起始位置Ρ3 表面任-處第-次碰 叙古A η 付合由起始位置Ρ3拍笙妙 動方向11移動、由起始位置Ρ3往苐二…在弟一私 由起始位置Ρ3往第三移動方向13 ^夕動方^2移動、 w往第四移動方向u移動,及_始心或者由起始位置 方…動、由起始位置朽往第六移第五移動 起始位置W往第七移動方向17移動^向6移動、由 往第八移動方向i8 t 次者由起始位置P3 如圖”:亍Π 為有效的控制動作。 ,係將第— 大碰觸ft 之輸入方法之第四較佳實施例 錢觸%所測得之起始位置^作為基準,配合 1239480 有一第九移動方向19及-第十移動方向20,第九移動方向 19為沿—順時針方向與第十移動方向20為沿—逆時針方向 。無論以手指或物體在觸控裝置4表面任一處第一次碰觸 ,皆視為其起始位置P4,若符合由起始位置p4往第九移動 方向19淨夕動,或者符合由起始位置p4往第十移動方向π 移動,皆可視為有效的控制動作。 -口圖6 7所不,為結合第一較佳實施例、第二較佳 ίο 15 實施例及第三較佳實施例的輸人方法於-電子產品5的範 例’其中,電子產品5的觸控裝置51上可劃分為複數區域 :該等區域分別為-第-區域511、-第二區域512及_第 二區域513 ’此外,電子產品5内部並裝設有一控制模組 52’其分別電性連接於觸控裝置51及—主機53,此控制模 組52是用於識別觸控裝置51上將在第一區域511、第二區 或2及第一區域513所分別產生起始位置ρι,、ρ2,、卩3, 配口不同#動方向之手勢,並將其所產生不同之控制信號 502供主機53控制使用。至於起始位置η,、”,、ρ3,配合 不同移動方向之手勢,可參考前述如圖2、3、4所示之: 於起始位置Ρ1、^ π人 、Ρ3配a不同移動方向之手勢之相關說 明,在此不再予以贅述。 20 在本範例中,電子產品5可為一觸控式遙控器,且可 識別其觸控裝置51上將不同起始位置配合不同移動方向之 手勢’並將其所產生之控制信號502供主機53作為主選單 之k項k取、頻道增減及音量大小等多種媒體控制項的遙 力月t*至於在觸控褒置51上所規劃的第一區域511、第 10 1239480 二區域512及第三區域513,其所分別由起始位置P1,、p2 、P3’配合不同移動方向之手勢對應產生的控制項及其輸出 控制信號502則分別如表格1所示。 表格1 控制項說明 控制信號 ΡΓ +雙擊 Pl’ +單擊 ΡΓ+-> ΡΓ + — ΡΓ+ t ΡΓ+ i P2,+— P2,+ — P3,+ 个 P3,+ I P3,+— P3,+ — P3,+ / P3,+ / P3,+ \ P3,+ \ P3’ +單擊 返回主選單 選定 右移 左移 上移 下移 對比增加 對比減少 頻道遞增 頻道遞減 音量增大 音量減小 電源 靜音 亮度增加 亮度減少 若位於按鈕 00000001 00000010 00000011 00000100 00000101 00000110 00000111 00001000 00001001 00001010 00001011 00001100 00001101 00001110 00001111 00010000 00010001 P3’ +單擊 P3 ’ +雙擊 右無位於按紐則為無效 一確定(Enter) 00010010 在電子產品 戶斤包含的控制模、组52具有一電性連接於 觸控裝置51之座輕声 0 一 對之失m ” H521、""内部預定有—可供比 電性連接於座標處 對之翏數-貝料集之參數記憶單元522、 1239480 理單元521及參數記憶單 造2之運异皁元523,及一電性 =於主機53之傳輸介面524。而座標處理單元521係接 置51上之手勢轉換為相對應之座標參數501,而 連鼻早元5 2 3則以第—+说雜“ 弟-人石亚觸觸控装置51之位置設定為一 已始位置,將起始位置配合手勢之移動方向作為判斷準則 f座t處理單7C 521所接收到之座標參數與參數資料集 中儲存參數相比對以輪出符合該手勢所對應之控制信號5〇2 ’且傳輸介面524使運算單A 523所產生的控制信號5〇2 傳遞至主機53使用。 10 15 20 配&圖8 9所示,為結合第二較佳實施例及第四較佳 實施例的輸入方法於另一電子產品6之範例,此電子產品6 亦為-觸控式遙控器’而電子產6的組成元件包括觸控 裝置、控制模組62與主機63之連接方式及相關功能作 用類似上述電子產品5,且電子產品6的觸控裝置61上亦 劃分為複數區域,不同的是觸控裝置61上的該等區域分別 為-第四區域6U及一第五區域612,而其所具有的控制模 組62將在第四區域611及第五區域612所分別產生起始位 置P2’’、P4”配合不同移動方向之手勢,並將其所產生不同 之控制信號602供主機63作為後續的控制使用。至於起始 位置P2”、P4”配合不同移動方向之手勢,可參考前述如圖 3、5所示之對於起始位置P2、P4配合不同移動方向之手勢 之相關說明,在此不再予以贅述。1239480 发明 Description of the invention: [Technical field to which the invention belongs] The present invention relates to an input method, a control module, and an electronic product thereof, and particularly to a method defined by a starting position and a moving direction, which can be determined by the circumstances. Generates different control signals for the host to use as an input method, control module, and electronic product for subsequent control functions. [Prior technology] 10 15 The currently known touch devices, based on the physical principle of detecting touch points, include capacitive, resistive, electromagnetic, pressure, inductive, surface acoustic wave, ultrasonic, optical And so on, generally common are resistive electric valley type, which is mainly used in consumer electronic products such as notebook computers, personal digital assistants, and its use is using a stylus or a finger Move on the touchpad to perform hand-written text or click on the mouse. As shown in Figure 丨 'is a touch device 9 proposed in US Patent No. 4,67i, which can change the capacitance of the finger 8 or the stylus at the touch position of the touch pad 90. That is, the moment when the finger 8 touches the touchpad ', the surface of the touchpad 90, the charm μ +, and 7, immediately generates a contact capacitance. Since the surface of the touchpad 0 is a sensing matrix, its contact with A touch device 9 is electrically connected to the processing unit 91, the Taguchi mouth square processing early element 92, and an arithmetic unit 93. The X-direction processing unit 91 and the Ya-direction processing unit% can continue to follow The contact capacitance of # 8, the calculation unit 93 positions _ (χ, γ the position parameter of the finger 8 position, and the calculation sheet ^ 93 can also measure that the finger 8 touches at different distances from the touchpad 90. Change and set: 20 5 10 15 20 1239480 Z, coordinate parameters, the arithmetic unit 93 will then detect the detected χ, γ, ζ coordinates ^ a displacement unit 94, a gesture unit 95 and-transmission interface 96 'from the displacement unit '94 Calculate the displacements Δχ, Δγ, and transmit their values to the host 97 via the transmission interface to provide the game on the host 97. The required relative displacement amount 'gesture unit 95 is used to determine the gesture of the finger 8, such as a single' ㈦P), double tap (double tap), or gestures (continued) such as $ (drag). As for the host 97 can be a general personal computer, a notebook computer, or a portable electronic device. The above-mentioned input methods for calculating the displacements ΔX, ΛΥ, and judgment gestures are convenient. This method is mainly used to provide the relative displacements required by cursors on general window software, and its application range is very limited. " [Summary of the invention] Based on the above reasons, the present invention proposes a meaning defined by the starting position and the direction of movement, and can generate different control signals for the host according to different gestures: an input method for subsequent control functions, The main purpose of the control module and electronic product is to enable the touch device to provide a variety of control functions and make it more versatile. Therefore, an object of the present invention is to provide an input method which is defined by a starting position and a moving direction, and can generate different control signals according to different gestures for a host to use as a subsequent control function. Another object of the present invention is to provide a control module that can convert gestures defined by a starting position and a moving direction into different control signals, so as to provide various types of hosts as subsequent control functions. Yet another object of the present invention is to provide a non-causal input method for an electronic device that uses a starting position and a mobile 5 1239480 product = the meaning of 'and can be used as a multi-purpose control function according to different gestures. The group recognizes a 5 10 15 machine as a potential on a touch device, and uses different gestures to generate different control signals. The main function is to control the position of the touch device. The method is to use a single touch to connect each The different ㈣ ^ H 'gestures that match the starting position with less ▲ * + ° define a gesture set in the control module that can be used to generate gestures, and then measure whether the touch device is There is a match: After the inscription, the gesture of touching the starting position and the corresponding moving direction ° will be matched, and it will be compared with the Xilaiji defined in the control module. The face comparison result is output to tm q Lean book: The control module of Ming is electrically connected to a touch device and: identifies the starting position on the touch device: directional abundance, 4 ^ W] φ w: different control signals generated For the host to hold down the control module, the control module contains-electrical two management unit , ㈣ "connected to the coordinates of the touch device as early as π-internal reservation is available-for comparison memory unit,-Lei w, Chala + 4 4 bedding inch 杲 杲 芩 芩 曾 单 单-, 标The processing unit and the parameter memory unit II 7C 'and-are electrically connected to the transmission interface of the host. Opposite shore: the unit receives the gesture conversion on the touch device into a phase number' The computing unit touches the first time The touch device is a starting position. 'The starting position is matched with the ancient movement of the gesture and the control signal corresponding to the seat received by the two materials: == " The 20 ίο 15 20 1239480 control signal generated by the computing unit is passed to the host. This sub-product "T '\ ^ subproduct contains a host, an electrical connection IW 77 " electrically connected to the host, and a A control module electrically connected to the host and the touch device " The control module " is used to recognize the starting position on the touch device with each gesture that violates the direction of movement, and generates a difference The control signal is used by the host for control. The control module has -The coordinate processing unit electrically connected to the touch device is scheduled to have-the parameter memory of the parameter data set that can be compared is 7L earlier,-the operation sheet S electrically connected to the coordinate processing unit and the parameter memory unit, and —Electrically connected to the transmission interface of the host. The coordinate processing unit receives gestures on the touch device and converts them into phase coordinate parameters. The arithmetic unit sets the starting position of the touch device to -start. Position, using the starting position of the axis and the movement direction of the gesture as the judgment criterion, comparing the coordinate parameter received by the coordinate processing unit with the parameter data stored in the number of stored data in y, to match the corresponding output of the gesture As a control signal, the transmission interface of the 3 ^ Tiger and δH transmission allows the control signal generated by the operation unit to be transmitted to the host. [Embodiment] The foregoing and other technical contents, features, and effects of the present invention will be clearly understood in the following detailed description of the fourth preferred embodiment and related examples with reference to the drawings. As shown in FIG. 2, for the present invention, the main Is is a first preferred embodiment of the 筮 ^ wheel method, which mainly uses P-M to touch the position of the touch device 1 to set P1, which is matched with a first mobile ancient A Wu Youdi's private movement direction u 12 > 7 5 10 15 20 1239480 and the first movement direction u and the second movement direction i2 P1 extend along the two opposite directions of the axial direction as a reference. The starting position must be explained in advance that in each of the embodiments of i, the hand is used; the second preferred embodiment and other mentioned touch positions are regarded as the starting position, and the work clothes are placed on the first surface-as long as Exceed the system's predetermined time when moving: = Do not touch the touch device 1 after the capacity is described p until the finger or object, two temples: output control signal (until the touch device 1 0 in this preferred implementation, ㈣Device 'can be regarded as its starting position P1, so if the definition of anywhere on the surface, from the starting position P1 to the mouth, the starting position P1 conforms to the starting position? 1 to the second; more c ... The motion or the effective control action. ° 12 movements can be considered as shown in Figure 3, which is the input method of the present invention, the starting position measured at the first touch. 2 = Consistent = Cooperate as the first In the preferred embodiment, the material reference "except" is more compatible with the third movement direction: Fang:-=. And the first movement direction u and the second movement direction; Opposite to the two along the axis ^ with the starting position ... the fourth moving direction 14 is also starting from Shen = three moving sides Extending in the opposite direction perpendicular to the axial direction. $ Reference 'and each is regarded as its starting position ^ when it is touched or touched by a finger or an object Start position = Guangdi-shift from the start position ... the third movement direction Λ—two? Move, or from the start position 15 20 1239480 P2 to the fourth movement direction 14 For example, as shown in Figure 4, This is an effective control action. '、, the second input method of Benming's input method, =-the starting position measured when touching twice ::: implementation, with the movement direction u and the second movement The reference, in addition to 13 and the fourth moving direction 14, is more coordinated: 2: 2, the third moving direction, six moving directions 16, a first moving direction 15, and a first. ^ ㈣direction 17 and the fifth moving direction of ㈣ @ u 15 Mediation side ... between, the sixth movement direction;: ^ between the fourth movement direction 14, and-between the movement direction η and the direction and the fourth movement direction 14 ° 17 between the second movement 12 and the second movement direction 12 And the third moving direction 13, the second moving direction 18 is between the first, and the angle between any two of the above-mentioned adjacent moving directions is between 15 = excessive At any angle, it has a very good control effect. No matter if you touch it with your finger or object on the touch device between 0 degrees, it will be regarded as its starting position P3. Move from the starting position P3 to the moving direction 11 and move from the starting position P3 to the second position ... at the first position from the starting position P3 to the third moving direction 13 ^ Xi moving side ^ 2, w move to the fourth Move in the direction u, and _ the starting point or from the starting position ..., move from the starting position to the sixth, move the fifth position, move the starting position W to the seventh moving direction 17, move to 6, and move to the eighth The direction i8 t times the starting position P3 as shown in the figure: 亍 Π is an effective control action. It is based on the measured initial position ^ of the fourth preferred embodiment of the fourth-largest input method of the touch ft input method as a reference, with 1239480 having a ninth moving direction 19 and a tenth moving direction 20, the The nine moving directions 19 are along the clockwise direction and the tenth moving directions 20 are along the anti-clockwise direction. Regardless of the first touch with a finger or an object on any surface of the touch device 4, it is regarded as its starting position P4. If it conforms to the ninth moving direction 19 from the starting position p4, or it starts from Moving the starting position p4 to the tenth moving direction π can be regarded as an effective control action. -Figure 6-7 shows the method of inputting the first preferred embodiment, the second preferred embodiment 15 and the third preferred embodiment in the example of the electronic product 5 'wherein the electronic product 5 The touch device 51 can be divided into a plurality of areas: these areas are-the first area 511, the second area 512, and the second area 513 '. In addition, a control module 52' is installed inside the electronic product 5 '. The control module 52 is electrically connected to the touch device 51 and the host 53 respectively. The control module 52 is used to identify the touch device 51 to generate the start in the first area 511, the second area or 2 and the first area 513, respectively. Positions ρι, ρ2, 卩 3, and gestures with different #moving directions are provided, and different control signals 502 generated by them are used by the host 53 for control. As for the starting positions η ,, ", and ρ3, for gestures with different movement directions, please refer to the aforementioned Figures 2, 3, and 4: At the starting positions P1, ^ π, and P3 with different movement directions The description of the gestures will not be repeated here. 20 In this example, the electronic product 5 can be a touch remote control, and can recognize the gestures on the touch device 51 that match different starting positions with different movement directions. 'And use the control signal 502 generated by the host 53 as the remote control month t of various media control items such as k items of the main menu, channel selection, volume increase and decrease, and volume level * As for the planned on the touch setting 51 The first region 511, the tenth 1239480 the second region 512, and the third region 513. The control items generated by the starting positions P1, p2, P3 'in cooperation with gestures in different movement directions and their output control signals 502 are respectively This is shown in Table 1. Table 1 Control item description Control signal Pl + Double-click Pl '+ Click Pl + +-> Pl + + Γ + i P2, +-P2, +-P3, + P3, + I P3, + — P3, + — P3, + / P3, + / P3, + \ P3, + \ P3 '+ Click back to the main menu to select right move left move up move down contrast increase contrast decrease channel increase channel decrease volume increase volume decrease power mute brightness increase brightness decrease if located on the button 00000001 00000010 00000011 00000100 00000101 00000110 00000111 00001000 00001001 00001010 00001011 00001100 00001101 00001110 00001111 00010000 00010001 P3 '+ Click P3' + Double-click the right button without the button to invalidate it. Enter (Enter) 00010010 The control module and group 52 included in the household electronics product have a seat electrically connected to the touch device 51 Softly 0 Loss of a pair m ”H521, " " Internally scheduled-available for electrical connection to the number of pairs at the coordinates-parameter storage unit 522, 1239480 processing unit 521 and parameter storage list of the shell material set It is made up of a different transport element 523, and an electrical property = a transmission interface 524 on the host 53. The coordinate processing unit 521 converts the gesture on the connection 51 to the corresponding coordinate parameter 501, and even the nose early element 5 2 3 sets the position of the touch-control device 51 according to the first + + hybrid. This is a starting position. The starting position and the movement direction of the gesture are used as the judgment criterion. The coordinate parameters received by the processing table 7C 521 are compared with the parameters stored in the parameter data set. The signal 502 ′ and the transmission interface 524 allow the control signal 502 generated by the operation sheet A 523 to be transmitted to the host 53 for use. 10 15 20 As shown in FIG. 8 and 9, it is a combination of the second preferred embodiment and the first The input method of the four preferred embodiments is an example of another electronic product 6. This electronic product 6 is also a “touch remote control”. The components of the electronic product 6 include a touch device, a control module 62, and a host 63. The connection method and related functions are similar to the above-mentioned electronic product 5, and the touch device 61 of the electronic product 6 is also divided into a plurality of areas. The difference is that these areas on the touch device 61 are-the fourth area 6U and the first area. Five zones 612 and the controls it has The group 62 will generate the starting positions P2 ", P4" in the fourth area 611 and the fifth area 612, respectively, with gestures in different moving directions, and use the generated different control signals 602 for the host 63 for subsequent control. . As for the gestures of the starting positions P2 "and P4" with different movement directions, please refer to the foregoing description of the gestures of the starting positions P2 and P4 with different movement directions as shown in Figs. 3 and 5, which will not be repeated here. .
在觸控裝置61上所規劃的第四區域611及第五區域 612其所分別產生起始位置P2”、P4”配合不同移動方向之 12 1239480 602則分別如表格2 手勢對應的控制項及其輸出控制信號 所示。 5 表格2The fourth region 611 and the fifth region 612 planned on the touch device 61 have their starting positions P2 ", P4" respectively, and 12 1239480 602 with different movement directions, as shown in Table 2. The output control signal is shown. 5 Form 2
控制信號 P2”+單擊 P2”+雙擊 P2,,+— P2,,+ — P2,,+ f P2,,+ j P4”+順時針旋轉 P4”+逆時針旋轉 P4” +雙擊 P4’’+單擊 選定 返回主選單 右移 左移 上移 下移 頻道增加 頻道減少 確定(Enter) 若位於按紐 00000001 00000010 00000011 00000100 00000101 00000110 00000111 00001000 00001001 00001010Control signal P2 ”+ click P2” + double-click P2 ,, + — P2 ,, + — P2 ,, + f P2 ,, + j P4 ”+ rotate clockwise P4” + rotate counter-clockwise P4 ”+ double-click P4 '' + Click to select and return to the main menu.Move right, move left, move up, move down and increase the channel. Decrease (Enter). If it is on the button 00000001 00000010 00000011 00000100 00000101 00000110 00000111 00001000 00001001 00001010
d兄明的疋,電子產品5、6除了可為一觸控式遙控 器,f可以是其它需要以觸控式輸人方法作為控制功能的 電子#置’其可由已預先模組化的控制模組52、62來連接 觸控裝置’並輸出實際可供應用的控制信號來搭配不同的 主機,用以實現多種控制功能。 10 帚内上述相較於以往輸入方式是提供一般視窗軟體 上的游標所需的相對位移量使用,其應用範圍十分有限, 由於本發明輸入方法、控制模組及其電子產品除了是以手 勢的起始位置及移動方向定義並輸出不同的控制信號,且 更在觸控I置規劃了複數區域,各區域皆適用本發明的輸 入方法,因此使觸控裝置提供更多樣的控制功能,並擴大 13 15 10 15 20 1239480 了其可應用的範圍。 惟以上所述者,僅為本發明之較佳實施例而已,當不 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。 【圖式簡單說明】 〜η…μ让衣1尸共有的会 成元件及其作用; 〃圖2是-示意圖,說明本發明輸入方法之第一較佳^ 施例’是以第-次碰觸之位置ρι為基準,並配合有一第: 移動方向與一第二移動方向; 圖3、是—示意圖,說明本發明輸入方法之第二較" 也例,是以第一次碰觸之位 、 …-移動方向血第_丄1為基準,除了配合㈣ 向與—第四移動方向動方向’更配合有一第三移動方 圖4是一示意圖,說明本發 施例’是以第—次碰觸之位置:’弟二父佳實 3之第-移動方向、第二移動方向1 配合有如圖 動方向,更配合有—第第二移動方向及第四移 第七移動方向及-第八移動=向、-第六移動方向、- 圖5是一示意圖,铕 施例,是以第—次碰觸°兔明輸入方法之第四較佳實 動方向及一第十移動方向,且★為土準,配合有一第九移 方向與第十移動方向A % I ¥九移動^向為沿—順時針 门為》口一逆時針方向,· 14 1239480 圖6疋不意圖,說明結合第一較佳實施例、第二較 佳實施例及第三較佳實施例的輸入方法於_電子產品; 圖7疋電路方塊圖,說明圖6之電子產品組成元件 具有-觸控裝置、_控制模組及一主#,且在電子產品的 觸控裝置上規劃有一第一區域、一第二區域及一第三區域 圖8疋不意圖,說明結合第二較佳實施例及第四較 佳實施例的輪入方法於另一電子產品;及 10 圖9是一電路方塊圖,說明圖8之電子產品組成元件 具有一觸控奘罢 . 、置、一控制模組及一主機,且在電子產品的 觸控破置上規劃有_第四區域及_第五區域。 15 1239480 【圖式之主要元件代表符號說明】 1〜4 觸控裝置 511 第一區域 11 第一移動方向 512 第二區域 12 第二移動方向 513 第三區域 13 第三移動方向 52、 62 控制模組 14 第四移動方向 521 座標處理單元 15 第五移動方向 522 參數記憶單元 16 第六移動方向 523 運算單元 17 第七移動方向 524 傳輸介面 18 第八移動方向 53 ^ 63 主機 19 第九移動方向 611 第五區域 20 第十移動方向 612 第六區域 5 ^ 6 電子產品 P1〜 P4, P1’〜P3,, P2,,,P4 501 位置參數 起始位置 502 控制信號 51、61 觸控裝置 16Brother Ming, in addition to the electronic products 5, 6 can be a touch-control remote control, f can be other electronic control devices that need to use the touch input method as a control function, which can be pre-modulated control The modules 52 and 62 are connected to the touch device and output practical control signals to be used with different hosts to implement various control functions. 10 Compared with the previous input method, the above-mentioned input method is used to provide the relative displacement amount required by the cursor on general window software, and its application range is very limited. Because the input method, control module and electronic products of the present invention are gesture-based, The starting position and movement direction define and output different control signals, and a plurality of areas are planned in the touch control device. Each area is applicable to the input method of the present invention, so that the touch device provides more control functions, and 13 15 10 15 20 1239480 has expanded its application range. However, the above are only the preferred embodiments of the present invention. When the scope of implementation of the present invention cannot be limited by this, that is, the simple equivalent changes and modifications made according to the scope of the patent application and the content of the invention specification, All should still fall within the scope of the invention patent. [Brief description of the drawing] ~ η ... μ Let the assembly elements common to the body and its function; 〃 FIG. 2 is a schematic diagram illustrating the first preferred input method of the present invention ^ The embodiment is the first time The touch position ρι is used as a reference, and is matched with a first: a moving direction and a second moving direction; FIG. 3 is a schematic diagram illustrating the second comparison of the input method of the present invention. Position,… -moving direction blood number _ 丄 1 as a reference, in addition to matching ㈣ direction and-the fourth moving direction moving direction 'more coordinated with a third moving party Figure 4 is a schematic diagram illustrating the embodiment of the present invention' is based on the- The position of the second touch: 'The second movement direction of the second brother Jiashi 3, the second movement direction 1 is matched with the figure movement direction, and it is more compatible with-the second movement direction and the fourth movement, the seventh movement direction, and the- Eight movements = direction,-sixth movement direction,-Fig. 5 is a schematic diagram, an example of which is the fourth best actual movement direction and a tenth movement direction based on the first touch ° input method, and ★ For the standard, there is a ninth and tenth movement direction A% I ¥ nine movement ^ direction In order to follow the “clockwise door” as a counter-clockwise direction, 14 1239480 Figure 6 疋 is not intended to illustrate the input method combining the first preferred embodiment, the second preferred embodiment, and the third preferred embodiment in _ Electronic product; FIG. 7 疋 Circuit block diagram illustrating that the components of the electronic product of FIG. 6 have a touch device, a control module and a main #, and a first area, a first area and a first area are planned on the touch device of the electronic product. 8 and 2 of the second and third regions are not intended to illustrate the combination of the rotation method of the second preferred embodiment and the fourth preferred embodiment to another electronic product; and FIG. 9 is a circuit block diagram illustrating the diagram. The components of the electronic product of 8 have a touch panel, a control module, a host, and a _fourth area and a _fifth area are planned on the touch control of the electronic product. 15 1239480 [Description of main symbols of the drawings] 1 ~ 4 Touch device 511 First area 11 First movement direction 512 Second area 12 Second movement direction 513 Third area 13 Third movement direction 52, 62 Control mode Group 14 Fourth moving direction 521 Coordinate processing unit 15 Fifth moving direction 522 Parameter memory unit 16 Sixth moving direction 523 Computing unit 17 Seventh moving direction 524 Transmission interface 18 Eighth moving direction 53 ^ 63 Host 19 Ninth moving direction 611 Fifth area 20 Tenth moving direction 612 Sixth area 5 ^ 6 Electronics P1 ~ P4, P1 '~ P3 ,, P2 ,,, P4 501 Position parameter start position 502 Control signal 51, 61 Touch device 16