201011592 彭 九、發明說明: 【發明所屬之技術領域】 本發明係有關一種行動裝置以及輸入方法,尤指一種結合壓 力感測元件以及慣性感測元件以進行輸入之手持式行動裝置以及 相關之輸入方法。 【先前技術】 手持行動裝置具有輕巧、攜帶方便、多功能等特性。對於如 行動電話、個人數位助理等常常需要輸入的手持行動裝置而言, 由於本身體積的限制,通常使用實體小鍵盤、於螢幕上以軟體模 擬J鍵盤、聲控或運用加速感測n來進行文字符號的輸入。 得統貫體小鍵盤受限於體積的大小,通常係在窄小以及按鍵 數)的鍵盤(如12個按鍵的數字鍵盤)上搭配特殊的輸入法進名 中英文符鮮輸人,但特殊的輸人法錢㈤、的驗個起來便 利性不;i;也有絲越乡朗QWERTy配置_娜讎可如一 ,進行輸入’但其按鍵尺寸較前述簡 秘錢料#确㈣彻,輸入的速度 鍵盤的輸人方絲可解決硬體 上觀按鍵 成p 數少以及需要特殊輸入法造 但同樣存在有營幕鍵盤小(受限於螢幕尺寸) :二聲控輸入的精確性有賴使用者聲音語 ^度—致’且通常需要經過學習的限制,且-般聲控輸入 201011592 無/緣人特殊的文字符號;*加速感丨職進行輸人的方式相 車乂於刖述所提及的輸人方式,雖具有較直覺且方便的操作,但由 於文字輸人的筆晝方向以及筆晝順序的雜,_ f知的加速感 測器進行輸人的村極肖發生辨識錯·情形,目前因辨識錯誤 率高而無法普遍使用。 【發明内容】 ❹ 本㈣係提供—種結合壓力制元相及慣性制元件進行 輸人之手持式行動裝置,其包含有—制元件、_慣性制元件、 一控制树以及-切換元件。域測元件伽來與—表面接觸並 依據與該表面接觸力量大小產生相㈣度之-啟動訊號。該慣性 感測元件_來於侧_啟動峨時,制該手持式行動裝置 之一移動軌跡。該㈣元件制來辨識該慣性感測元件所感測之 該移動執跡。該切換元件_接於該控制元件,用來控制該控制 元件獅性地依據—文字輸人模辆識該移誠跡或依據一手稿 輸入模式產生該移動軌跡之一圖像。 本發明另提供-種結合勤感瓶件以及慣性_元件輸入 之輸入方法’其包含有:自—文字輸人模式以及—手稿輸入模式 選擇輸入模式,使用-感測元件與一表面接觸並依據與該表 面接觸力量大小產生相異強度之一啟動訊號;_感測元件產生 該啟動訊賴m手持式行練置之-移祕顧及相對 '應之啟動訊號強度;當選擇該文字輸入模式時,辨識該移動軌跡 201011592 並依據該移動執跡產生相對應之文字或符號字元;以及當選擇該 手稿輸入模式時,產生對應該移動軌跡之_圖像,其巾該圖像係 依據對應該移動執跡之啟動峨強度而包含不雜細之筆畫。 本發明另提供-種結合壓力感航件以及慣性感測元件之輸 入方法’其包含有:伽元件與—表面_並依據與該表 面接觸力量大小產生相異強度之一啟動訊號;於該感測元件產生 〇該啟動訊號_,_—手持式行動裝置之—移動軌跡以及相對 應之啟動訊號強度;以及產生對應該移動執跡之一圖像,其中該 圖像係依據對應該移動軌跡之啟動訊號強度而包含不同粗細之筆 本發明另提供-種結合壓力_元件以及舰_元件之輸 =法’其包含有:使用—感測元件與—表面接觸以產生一啟動 訊號’·於域測元件產生該啟動訊軸間,朗—手持式行動裝 〇置之-雜獅;韻·輸跡;以及依驗移純跡產生相 對應之文字或符號字元。 【實施方式】 請參考第1圖,第1圖為本發明所揭露之手持式行動震置i -實施例之外齡意圖,傾式行練置i可為行動電祕 Phone) ^ (personal digital assistam> pDA) ^ * 裝置(globalpositioningsystem,Gps)、多媒體手機(multimedia 7 201011592 phone)、MP3播放器、錄音筆或上述裝置之整合性產品,且能滿 足行動輸入如收發電子郵件、傳送簡訊、文書軟體輸入、圖像記 錄等需求’因此於手持式行練置丨糊壓力制元件以及慣性 感測元件協同輸入,以具備方便、高準確性的優勢。手持式行動 裝置1於外觀之殼體10上具有一壓力感測元件2〇、一顯示元件 50、輸入it件90以及-_元件⑼。壓力_元件2()如第i圖 所不設置於殼體10之-角,切換元件60則如第!圖所示設置於 ❹殼體10 -侧,其可為熱錢式、觸碰式或㈣按鍵。當使用者使 用手持式行動裝置1進行書寫輸入時,使用者握持手持式行動裝 置1 ’並以殼體10 -角之壓力感測元件2〇接觸書寫表面以產生壓 力訊號’而使用者手指可觸動切換元件6〇以進行不同模式的輸 入。壓力細元件20可與—絲細並錄與該表面接觸的力量 大小而產生不随度的壓力感測訊號,來表示輸人力道的大小, 藉以表現輸入線條的粗細程度;顯示元件5〇可為一般液晶榮幕或 觸碰式螢幕,因此手持式行動裝置1本身亦具備使用輸入元件90 〇(如鍵盤)或觸碰式顯示元件5G進行輸人的功能。 月參考®帛2圖為手持式行動裝置卜實施例之系統 功此方塊ffi除了别述外觀上之壓力感測元件Μ、切換元件⑼、 顯不兀件5〇外手持式行動襄置】於殼體㈣部另具有一慣性 感測元件,—_元相…儲存元件7G以及-輸出元件80。 If〖生感測π件〇係為初多轴動作感應技術之動作錢器(又稱 為慣性感·或加速紙聰,G·麵。〇,可於使用者握持手持 8 201011592 =裝^進行書寫時,感測手持式行動裝置1於空間中移動 、 以獲彳于二維或三維之執跡資訊。控制單元4〇則用& _ _ 力感測元件20以及㈣心, 早以〇則用來處理麼 H… 件3〇所產生之訊號,如針對慣性 ” ^ 〇獲得之齡資訊進行辨識(亦可另外透過—文字㈣ ==Γ跡辨識)’透過與内建一資料庫之資料進行比對: 換成文字或符號字元,並透過顯示元㈣顯示辨識 ❹ 圖像或圖像,以及將辨識後之文字、符號字元或 ^象儲存於儲概件7〇 (如内建於手持式行動裝置丨之記憶體或 以及/或透過輸出元件8〇 (有線傳輸蟑 輸模組)將資料傳輸至一第三方裝置,達到共享的目的。 為了於使用者操作手持式行動裝置丨進行手寫輸人過程中能 有效辨識或靖朗者手寫輸人_容,配讀述特式行動裝 置1進行-手寫輸入的方法,如第3圖所示,其係為結合壓力感 ❹ 測元件20以及慣性感測元件3〇進行輸入之輸入方法之流程圖, 其步驟如下: 步驟100:關始進行手寫輸入時,判斷是否按下切換元件6〇 以啟動手稿輸入模式;若啟動手稿輸入模式,執行步 驟120;若未啟動手稿輸入模式,則進入文字輸入模 式,執行步驟110; ' 步驟11G :祕制勤細树2()是否與—表面接觸產生塵 力,當壓力感測元件20接觸該表面而產生壓力時, 201011592 壓力感測元件20產生—啟動訊號; 步驟112 : 慣性感測元件30在壓域測元件2Q產生徽動訊號 期間,感财攜式行_置1的雜財、,並且持續 將感測到之移動轨跡傳送至控制元件40 ; 步驟114 : 控制元件40魏慣賴測树3()轉送之移動軌 跡’並與-資料庫儲存之龍進行比對簡該移動軌 跡轉換成文字或符號字元;執行步驟13〇 ; 步驟120 : ❹ 系統侧壓力感測元件2G是否與—表面接觸產生壓 力’當壓力感測元件20接觸該表面而產生壓力時, 壓力感測元件2G產生-啟動訊號,其中該啟動訊號 相對應動細元件2G與該表面接觸之壓力大小而 有不同之強度資訊; 步驟122 : ❹步驟124 : 慣性感測元件3G德力_元件2G產生該啟動訊號 期間,感測可攜式行動裝置1的移動軌跡,並且持續 將感測到之移動軌跡傳送至控制元件4〇 ; 控制元件40接收慣性感測元件3〇所傳送之移動軌跡 以及自壓力感測元件20接收相對應各移動軌跡之啟 動訊號的強度資訊’並產生由具有不同粗細之筆畫所 組合而成之一圖像; 步驟130 : 控制元件40將步驟114產生之文字或符號字元或步 驟124產生之圖像傳送至顯示元件4〇顯示供使用者 確認; 步驟140 : 當使用者痛遇無誤時’控制单元40將步驟114產生 201011592 之文字或符號字元或步驟124產生之圖像儲存雜 存元件70或透過輸出元件8〇將資料傳輸至_第三方 裝置。 首先,使財可透·動切換元件6G選擇「 或「手稿輸入模式」,來做文字符號或圖像的輸入(步驟=_ ❹功:吏=使用峨子郵件、傳送簡訊、文書軟體輸入等 換元件⑻擇文讀人模式(於此實施财,即不觸動切 換兀件⑼,此時系統會偵測壓力感測元件2〇是否作用產生魔 感測訊號(啟動訊號)’亦即當使用者將手持式行動裝置丨具壓力 感測元件2G —端接難表面產Μ力(麵πο),此時慣性❹, =牛30發生侧,開始感測手持式行動裝置i的移動軌跡,並持 續將移動軌跡資訊傳送至控制元件⑽(㈣112)。#使用者停筆 (壓力感測元件2G無法翻壓力時即停止產生啟動訊號),慣性 感瓶件3G械之停止_傾式行魏们之鷄軌跡。藉由 步驟m以及步驟m中勤感測元件2〇以及慣性感測元㈣ 一連串的相互配合動作,控制單元4G將所獲得之移動軌跡與資料 庫之資料_進行辨識岐生具有意義之文字或符财元(步驟 間’並將社字紐財元舰域料件5(>触供使用者確 為(步驟130),當者確認完畢,再依使用者設定直接儲存於 於錯存元件70、透過輸出元件8G傳送至第三方裝置_ 或繼續於顯示元件50上顯示。 11 201011592 當使用者欲使用如_記錄、_製作等魏時,使用者選 擇手稿輸入模式(於此實施例中,即觸動切換元件6〇),此時系統 會偵測壓力感測元件2〇是否作用產生壓力感測訊號(啟動訊號), 亦即當使用者料料行練置丨難力❹抗件2G—端接觸某 表面產生壓力,並且該啟動訊號相對應壓力感測元件π與該表面 接觸之壓力大小而有不同之強度資訊(步驟12〇),此時慣性感測 ❹讀30發生_,開始感測手持式行動裝置〗的移動軌跡並持 續將移祕跡纽騎至㈣元件4G (步驟122)。當使用者停筆 (壓力感測元件2G無法感測壓力時即停止產生啟動訊號),慣性 感測耕3G也隨之停止_手持式行練置丨之移械跡。藉由 步驟120以及步驟122中壓力感測元件2〇以及慣性感測元件3〇 一連串的相魏合動作’卿單元⑽_獲得具有資訊之移 動軌跡合成產生由具有不同粗細之筆畫(由某一移動軌跡以及相 對應啟動訊號之強度資訊結合產生)所組合而成之一圖像(步驟 124)’並將該圖像傳送至顯示元件%輸出供使用者確認(步驟 13〇),當朗者確認完畢,再依制者設定直接儲存於於儲存元 件7〇、透過輸出元件80傳送至第三方裝置(步驟14〇)或繼續於 顯示元件50上顯示。 本發明所财之手持式行動裝置以及輸人方法透過切換元件 而-有文子輸人模式以及手稿輸人模式。於文字輸人模式中,當 •壓力感測70件與-表面接觸產生壓力且進行書寫動作時,慣性感 12 201011592 測元件_顿式行練置__ =二Γ=輸人模式卜__元件以不同力道與 、m、5強度之麼力感剩訊號且進行書寫動作時,慣性感 跡二式灯動裝置移動執跡,並由控制元件將該移動軌 跡與相對應之壓力感測訊號強度結合而產生—圖像。透過簡單的 ❹ 蝴動作以及結合健力道大小,使手持式行雜置可靈活輸入 文子、符號字元或圖像。 以上所述僅為本發明之較佳實施例,凡依本發明申請專利範 圍所做之均等變化與修飾,皆應屬本發明之涵蓋範圍。 【圖式簡單說明】 第1圖為結合壓力感測元件以及慣性感測元件進行輸入之手持式 行動裝置一實施例之外觀示意圖。 © ^ 0 弟2圖為第1圖手持式行動裝置之系統功能方塊圖。 第3圖為結合壓力感測元件以及慣性感測元件輸入之輸入方法之 流程圖。 【主要元件符號說明】 手持式行動裝置 10 殼體 壓力感測元件 30 慣性感測元件 控制元件 50 顯示元件 13 201011592 - 60 切換元件 70 儲存元件 80 輸出元件 90 輸入元件 100〜140步驟201011592 Peng Jiu, invention description: [Technical field of the invention] The present invention relates to a mobile device and an input method, and more particularly to a handheld mobile device and related input that combines a pressure sensing element and an inertial sensing element for input. method. [Prior Art] The handheld mobile device has the characteristics of being light, portable, and multifunctional. For handheld mobile devices, such as mobile phones, personal digital assistants, etc., which are often required to input, due to their own size limitations, text is usually performed using a physical keypad, a software-simulated J-keyboard on the screen, voice control, or acceleration sensing n. The input of the symbol. The keyboard is limited by the size of the volume, usually in the narrow and button number of the keyboard (such as the 12-key numeric keypad) with a special input method to enter the Chinese and English characters, but special The input method money (five), the convenience of the test is not; i; also there is the silky township lang QWERTy configuration _ Na 雠 can be like one, enter the input 'but its button size is smaller than the aforementioned simple money material # indeed (four), input The input keyboard of the speed keyboard can solve the problem that the hard-view button has a small number of p and requires special input method, but there is also a small screen keyboard (limited to the screen size): the accuracy of the second voice-activated input depends on the user's voice.语^度—致' and usually requires learning restrictions, and the general voice control input 201011592 no / rim person special text symbols; * accelerate the sense of dereliction of duty to enter the way of the car 刖 刖 刖 刖 刖 刖 刖 刖The human method, although it has a more intuitive and convenient operation, due to the pen-input direction of the text input and the miscellaneous sequence of the pen, the _f-known acceleration sensor performs the identification error of the input village. Unable to identify high error rate Over use. SUMMARY OF THE INVENTION ❹ This (4) provides a hand-held mobile device that combines a pressure system and an inertial component, and includes a component, an inertial component, a control tree, and a switching component. The domain-measuring component gamma-contacts the surface and generates a phase-four-degree start-up signal based on the amount of contact force with the surface. The inertial sensing element _ is used to move the trajectory of one of the handheld mobile devices when the side is activated. The (four) component is configured to identify the movement trace sensed by the inertial sensing component. The switching element is connected to the control element for controlling the control element to generate an image of the moving track according to the text input mode or according to a manuscript input mode. The invention further provides a method for inputting a sense bottle member and an inertia_component input, which includes: a self-character input mode and a manuscript input mode selection input mode, and the use-sensing element is in contact with a surface and is based on One of the different strengths of the surface contact force produces a different start signal; the sensing element generates the start-up signal, and the shifting signal is relative to the corresponding start signal strength; when the text input mode is selected Identifying the movement track 201011592 and generating a corresponding text or symbol character according to the movement indication; and when selecting the manuscript input mode, generating an image corresponding to the movement track, the image of the towel is corresponding to the image The movement is based on the strength of the start and contains no strokes. The present invention further provides an input method for combining a pressure sensing member and an inertial sensing element, which includes: a gamma element and a surface _ and activating signal according to a magnitude of contact strength with the surface; The measuring component generates the activation signal _, _ - the movement trajectory of the handheld mobile device and the corresponding activation signal strength; and generates an image corresponding to the movement, wherein the image is based on the corresponding trajectory The invention further provides a combination of pressure_components and ship_components. The method includes: using-sensing elements and surface contacts to generate an activation signal. The measuring component generates the starting signal axis, the lang-hand-held mobile device--the lion, the rhyme and the inscription; and the corresponding text or symbol character according to the inspection. [Embodiment] Please refer to FIG. 1 , which is a hand-held action shake i-embodiment of the invention disclosed in the present invention. The tilting practice can be a mobile phone secret phone) ^ (personal digital Assistam> pDA) ^ * Global positioning system (Gps), multimedia mobile phone (multimedia 7 201011592 phone), MP3 player, voice recorder or integrated devices of the above devices, and can meet the action input such as sending and receiving emails, sending newsletters, documents Software input, image recording and other requirements 'Therefore, in the hand-held line, the paste pressure component and the inertial sensing component are cooperatively input, so as to have the advantages of convenience and high accuracy. The hand-held mobile device 1 has a pressure sensing element 2, a display element 50, an input element 90 and a - element (9) on the outer casing 10. The pressure element 2 () is not disposed at the angle of the housing 10 as shown in Fig. i, and the switching element 60 is as described! The figure is shown on the side of the casing 10 - which can be a hot money type, a touch type or a (four) button. When the user performs a writing input using the hand-held mobile device 1, the user holds the hand-held mobile device 1' and touches the writing surface with the pressure sensing element 2 at the corner of the housing 10 to generate a pressure signal' while the user's finger The switching element 6 can be activated to perform input in different modes. The pressure fine element 20 can be combined with the wire to record the force of contact with the surface to generate a pressure sensing signal that does not follow the degree, to indicate the size of the input human body, thereby expressing the thickness of the input line; the display element 5〇 can be In general, a liquid crystal screen or a touch screen, the handheld mobile device 1 itself has a function of inputting using an input element 90 (such as a keyboard) or a touch display element 5G. The monthly reference 帛 2 diagram is a system of the hand-held mobile device. The block ffi is a hand-held action device except for the pressure sensing element Μ, the switching element (9), and the display element 5 The housing (4) further has an inertial sensing element, a - phase ... storage element 7G and - an output element 80. If〗 〖 感 感 π 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 为 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初 初When writing, the hand-held mobile device 1 is sensed to move in space to obtain the two-dimensional or three-dimensional obstruction information. The control unit 4 uses the & _ force sensing element 20 and (4) heart, as early as 〇 用来 用来 用来 用来 H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H The data is compared: it is replaced with a text or symbol character, and the identification image or image is displayed through the display element (4), and the recognized text, symbol character or image is stored in the storage unit 7 (eg Built in the memory of the handheld mobile device or/or through the output component 8 (wired transmission and transmission module) to transfer data to a third party device for sharing purposes. For the user to operate the handheld action The device can be effectively identified during the handwriting input process or Jing Lang's handwriting input _ 容, with the reading of the special mobile device 1 - handwriting input method, as shown in Figure 3, which is combined with the pressure sensing element 20 and the inertial sensing element 3 〇 input The flow chart of the input method is as follows: Step 100: When the handwriting input is started, it is determined whether the switching element 6 is pressed to start the manuscript input mode; if the manuscript input mode is activated, step 120 is performed; if the manuscript input is not activated If the mode is entered, the text input mode is entered, and step 110 is performed; 'Step 11G: Whether the secret thin tree 2() generates dust force when contacted with the surface, and when the pressure sensing element 20 contacts the surface to generate pressure, 201011592 The detecting component 20 generates a start signal; Step 112: The inertial sensing component 30 during the generation of the emblem signal by the pressure domain detecting component 2Q, the money is carried, and the moving track is continuously sensed. The trace is transmitted to the control element 40; Step 114: The control element 40 is accustomed to the movement track of the tree 3() transfer and is compared with the database storage dragon to convert the movement track into a text or symbol character; Step 13: Step 120: ❹ Whether the system-side pressure sensing element 2G generates pressure with the surface contact. When the pressure sensing element 20 contacts the surface to generate pressure, the pressure sensing element 2G generates a start signal, wherein The activation signal has different intensity information corresponding to the pressure of the moving element 2G in contact with the surface; Step 122: Step 124: Inertial sensing element 3G Deli_Component 2G generates the activation signal during sensing of the portable type The movement trajectory of the mobile device 1 and continuously transmits the sensed movement trajectory to the control element 4; the control element 40 receives the movement trajectory transmitted by the inertial sensing element 3 以及 and receives the corresponding movement from the pressure sensing element 20 The intensity information of the start signal of the track 'and produces one image combined by strokes having different thicknesses; Step 130: The control element 40 transmits the text or symbol character generated in step 114 or the image generated in step 124 to The display component 4〇 is displayed for confirmation by the user; Step 140: When the user encounters the error, the control unit 40 generates the text of 201011592 or The symbol character or image generated by step 124 stores the memory component 70 or transmits the data to the third party device via the output component 8. First, the financial transceiving/moving element 6G selects " or "manuscript input mode" to input text symbols or images (step = _ 吏 吏: 吏 = use dice mail, transfer newsletter, document software input, etc.) Change the component (8) to select the text reader mode (in this implementation, that is, the switching device (9) is not touched, and the system will detect whether the pressure sensing component 2 作用 acts to generate the magic signal (start signal). The hand-held mobile device cooker pressure sensing element 2G is terminated with a difficult surface (potential πο), and at this time, the inertia ❹, = the cow 30 occurrence side, starts to sense the movement trajectory of the handheld mobile device i, and Continue to transfer the movement track information to the control element (10) ((4) 112). #User stop the pen (the pressure sensing element 2G can stop generating the start signal when the pressure is not turned), the inertia sensor bottle 3G machine stops _ tilting Wei Wei The trajectory of the chicken. The control unit 4G identifies the obtained movement trajectory and the data of the database by the step m and the serial sensing element 2 〇 and the inertial sensing element (4). Meaning The text or the symbol of the money (between the steps and the social word New Zealand dollar shipyard material 5 (> touch the user to confirm (step 130), the person confirms the completion, and then directly stored in the wrong component according to the user settings 70, transmitted to the third party device through the output component 8G_ or continue to display on the display component 50. 11 201011592 When the user wants to use such as _record, _production, etc., the user selects the manuscript input mode (in this embodiment) That is, the switching element 6 触 is touched, and the system detects whether the pressure sensing element 2 作用 acts to generate a pressure sensing signal (starting signal), that is, when the user feeds the material, it is difficult to force the 2G. - the end contacts a surface to generate pressure, and the activation signal has different intensity information corresponding to the pressure of the pressure sensing element π in contact with the surface (step 12〇), at which time the inertial sensing reading 30 occurs _, starting Sensing the movement trajectory of the hand-held mobile device and continuing to ride the secret track to the (4) element 4G (step 122). When the user stops the pen (the pressure sensing element 2G cannot sense the pressure, the start signal is stopped), Inertial sensing The ploughing 3G is also stopped _ hand-held arranging the trajectory of the armor. With the pressure sensing element 2 〇 and the inertial sensing element 3 in step 120 and step 122, a series of phase-closing action 'Qing unit (10) _ Obtaining an information-based moving trajectory synthesis produces an image (step 124) that is composed of strokes having different thicknesses (generated by a combination of a certain movement trajectory and intensity information of the corresponding activation signal) and transmits the image The output to the display component % is confirmed by the user (step 13〇), and when the suffrage is confirmed, the device setting is directly stored in the storage component 7〇, and transmitted to the third-party device through the output component 80 (step 14〇) or The display device 50 continues to display on the display unit 50. The handheld mobile device and the input method of the present invention pass through the switching element - a text input mode and a manuscript input mode. In the text input mode, when the pressure sensing 70 pieces are in contact with the surface to generate pressure and perform writing action, the inertia feeling 12 201011592 measuring element _ ton type practice __ = two Γ = input mode __ When the component uses different force, m, and 5 strengths to sense the signal and perform the writing action, the inertial sensing two-type lamp device moves and traces, and the control component moves the trajectory and the corresponding pressure sensing signal. The combination of intensity produces an image. Hand-held line miscellaneous allows for flexible input of text, symbol characters or images through a simple 蝴 butterfly action and a combination of the size of the power track. The above are only the preferred embodiments of the present invention, and all changes and modifications made to the scope of the present invention should fall within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing an embodiment of a hand-held mobile device incorporating input of a pressure sensing element and an inertial sensing element. © ^ 0 Brother 2 is a block diagram of the system function of the handheld mobile device in Figure 1. Figure 3 is a flow chart of a method of inputting a pressure sensing element and an inertial sensing element input. [Main component symbol description] Handheld mobile device 10 Housing Pressure sensing element 30 Inertial sensing element Control element 50 Display element 13 201011592 - 60 Switching element 70 Storage element 80 Output element 90 Input element 100~140 steps