201042488 六、發明說明: 【發明所屬之技術領域】 1 θ 涉及—種可攜式電子裝置及其密碼輸人方法,尤 過輸入密碼進行解鎖的可攜式電子裝置及 其雄'碼輸入方法。 【先前技術】 Ο ❹ 考/遺frrr不斷進步,f訊流通便利,出於資訊安全的 2提=:夕的資訊需要加密’使用者需輸入預定的密碼 方T提取資訊。大多數密碼是由 合所組成,^起I 及央文字母排列組 成Z起來—般較為_,使用者常常因為密碼字 几過多’可能忘記密碼或是輸 =广碼予 的箸境,而引起許許多多===、碼,造成無法登入 輸入時-般都f要;^較短時n& 另外’此類密碼在 作,使用起來並不十分^ 對多個按鍵進行連續操 電話最常使用的可攜式電子裝置如行動 常需要於密二? 碼來士志11 '、且SIM卡或是手機的開機密201042488 VI. Description of the Invention: [Technical Fields of the Invention] 1 θ relates to a portable electronic device and a password input method thereof, and more particularly to a portable electronic device for unlocking by inputting a password and a male 'code input method thereof. [Prior technology] Ο ❹ Test / legacy frrr continues to improve, f communication is convenient, for information security 2 mention =: eve information needs to be encrypted ‘user needs to enter the predetermined password to extract information. Most of the passwords are made up of the combination, and the letters I and the letters of the central language are arranged to form a Z-likeness. The user often causes the dilemma because the password is too many, which may forget the password or lose the code. There are a lot of ===, code, which makes it impossible to log in to the input. It is usually f; when it is short, n& In addition, this type of password is in use, and it is not very easy to use. Do you need to use portable electronic devices such as mobile phones? Code to Shishi Zhi 11 ', and the SIM card or mobile phone's boot password
按鍵二4二人/。傳統的開機密碼多是以數個實體輸入 铋鍵14的組合來作為輸入模組,需I 產生1對應__^ ni祕由按壓夕數個按鍵 多次的按壓按鍵動作方可輸入六谷易§己憶’並且需要經過 的程式,操作較為複雜。刖1經確認程式以完成開機 【發明内容】 本發明在於提供一種方便進行密碼輸入的可構式電子 3 201042488 裝置。 本發明還在於提供一種方便進行密碼輸入的可攜式電 子裝置的密碼輪入方法。 馬式電 Ο Ο -種可攜式電子裝置,包括:至少一個壓力感測楔έ且, 用於感測使用者輸人的壓力大小,並產生至少—個壓力類比 «,-編碼模組,連接於壓力感難組,㈣轉換 類比訊號成壓力數位訊號;一記憶體模組,連接於運算= 70 ’包括有密碼資料庫及密碼比對程式,用以儲存至少一密 密碼比對程式;一運算單元,分別連接於編碼模 j產力感測模組’用以載人記憶體模組㈣密碼資料庫及 密碼比對程式;-使用者圖形介面模組,連接於運瞀單元 用以顯示壓力感測模組接收到的麗力大小;以及: π ’連接於該使用相形模組,用以作為該可攜式電子裝置 的顯不元件。—種可攜式電子裝置的密碼輸人方法,包括 =:壓力感測模組至少接受一屋力;該壓力感測模組產 -壓力類比訊號;該編碼模組將該壓力類比訊號轉換 磨力數位訊號;透過—運算單元比對㈣力數位訊號盘一預 先儲存於記憶體模組的密碼;若比對相符,則執行該可攜式 ,子裝置解鎖的程式,若比對不相符,則繼續保持鎖定: 態0 相較于現有技術,本發明優點在於提供使用者直接利用 手指按Μ的方式’透過㈣感測模組形成密碼,免去現有的 可攜式電子裝置解鎖時需要操作多個按鍵的麻須,且無須編 4 201042488 . 制及記憶複雜密碼。 【實施方式】 有關本發明的技術内容,在以下配合參考圖式的鉍彳土誊 施例中,將可清楚的說明: 請參閱圖2,本發明的可攜式電子裝置較佳實施例提供 一行動電話20 ’本實施例中’行動電話20的一側表面設有 一第一壓力感測裝置21,另一侧表面設有第二壓力感測裝置 22,本實施例的壓力感測裝置的數量,實際實施時亦可設置 ❹兩組以上的壓力感測裝置,不以此實施例為限制。該行動電 話20還包括設於其正面的螢幕23及按鍵組24;其中,螢幕 23提供一使用者介面及訊息;所述按鍵組24提供使用者輪 入的用途。 圖3為行動電話20的功能模組圖。行動電話2〇包括— 壓力感測模組31、一編碼模組32、一運算單元33、一使用 者圖形介面模組34、一顯示單元35、一記憶體模組36以及 一通訊模組37。所述的二個壓力感測模組31分別設置於所 述的第一壓力感測裝置21及第二壓力感測裝置22内,並為 二類比感測壓力模組,其包括一將機械力大小轉換成一類比 以訊號的機械感測元件。該編碼模組32内至少包括有一類比 數位轉換單元321,將所述使用者按壓於第一壓力感測裝置 21及第二壓力感測裝置22上的壓力類比訊號轉換成壓力數 位訊號。該運算單元33負責該裝置的訊號、資訊處理與程 序控制;該顯示單元35,其負責顯示功能;該使用者圖形介 面模組34 ’將運算單元33的處理資訊透過該使用者圖形介 面模組34設置的圖形介面顯示於顯示單元35 ;該記憶體模 組36更包括一密碼資料庫361及一密碼比對程式362,該密 碼資料庫361儲存有一使用者預先儲存密碼資訊,另外,用 戶識別模組(Subscriber Identification Module)内的密碼用作 5 201042488 該行動電話開機使用;該密碼比對程式362則負責比對上述 的該密碼資料庫361的密碼資訊或用戶識別模組(Subscriber Identification Module)内的密碼與壓力測模組31轉換後的壓 力數位訊號傳送至運算單元33内的密碼資訊是否相符;該 通訊模組37負責該行動電話20的無線通訊溝通。所述運算 單元33分別電性連接於記憶體模組36與通訊模組37,並透 過編碼模組32連結於壓力感測模組31及透過使用者圖形介 面模組34連接於顯示單元35。 一般而言,該運算單元33為一微處理器,用以資料或 〇 訊號運算處理,該運算單元33載入儲存於記憶體模組36内 的密碼資料庫361及密碼比對程式362,載入運算單元33的 密碼比對程式3 6 2將上述轉換後的數位編碼訊號與密碼資料 庫361内的密碼資訊比對,若密碼比對結果相符,則完成該 行動電話20解鎖的程式。相反,若密碼比對結果不相符, 則行動電話20繼續保持鎖定。使用者圖形介面模組34連接 於該運算單元33,用以顯示該壓力感測模組31接收到的壓 力大小及顯示上述密碼的比對過程。顯示單元35連接於使 用者圖形模組34,用以顯示相應的比對結果。該顯示單元 〇 35可與上述現有的行動電話螢幕23整合,亦可使用一觸控 式螢幕替代傳統的顯示螢幕,並增加一輸入功能。 請參閱圖4,當使用者準備輸入密碼開啟該行動電話20 時,可以利用一手指41按壓該裝置一侧表面的第一壓力感 測裝置21,使設置於第一壓力感測裝置21内的壓力感測模 組31將使用者按壓的壓力轉換成壓力類比訊號,傳送至設 置於編碼模組32内的類比數位轉換單元321將所述的壓力 類比訊號轉換成壓力數位訊號後,傳送至運算單元33。此 時,運算單元33將從記憶體模組36載入所述的密碼比對程 式362,該密碼比對程式362將前述暫存於運算單元33内的 6 201042488 Ο Ο 壓力數位訊號與儲存於所述密碼資料庫361的密碼資訊比 對。待比對結果完成後,運算單元33將比對的結果訊息傳 送至電性連結於運算單元33的使用者圖形介面模組,^顯 =於顯示單元。在此實施例,該運算單元33載入儲存於記 憶體模組36内的密碼資料庫361或是載入用戶識別模組 (Subscriber Identification Module)内的密碼及密碼比對程式 362,在比對密碼的過程中,使用者圖形介面模組%於顯示 幕幕23,即時顯示該壓力感測模組31接收到的施加於第一 壓力,測裝置21上的壓力大小於一第一壓力圖示指標43 ^,气使用者按壓的壓力大小與儲存於該密碼資料庫的 密碼資訊相符,則完成解鎖的程式。請參閱圖5,使用者也 可以同時利用手指41及手指42分別按壓該行動電話2〇表 面^第一壓力感測裝置21及第二壓力感測裝置22,以相同 的程式原理產生二個壓力類比訊號,再經轉換成二個壓 ,訊號後,傳送至運算單元33與記憶體模組36載入所 f碼比對程式362,該密碼比對程式362將前述暫存於運算 =兀3 3内的二個壓力數位訊號與儲存於所述密碼資 比對密碼的過程中,使用者圖形介面模組34 時顯示該壓力感測模組31接收到的施加 :认f力感測裝置21及第二壓力感測裝置22上的壓力大 二! 一第一壓力圖示指標51及一第二壓力圖示指桿52上, 按力大小與儲存於該密碼資料庫361的密碼 貝訊相付,則完成解鎖的程式。 例,實中’該可攜式電子裝置是以-行動電話為 丄立以此為限’亦可為一般市面上常見的個人 (Notebook)等隨身電子裝置。 J聿圯型電胳 本發明還提供使用者一種新穎應用於可攜式電子裝置 7 201042488 - 的密碼輸入方法,其利用按壓的方式產生一組密碼的方法, 以期使用者容易記憶及易於使用。 凊參閱圖6為圖4揭露的行動電話20使用壓力作為密 碼的方法流程圖。當使用者使用可攜式電子裝置時,使用壓 力作為密碼的方法,該方法包括: 步驟S601 :使用者準備輸入密碼開啟該行動電話2〇 時,利用一手指按壓該裝置一侧表面的第一壓力感測裝置^ 產生一物理位移量。 步驟S602 :設置於行動電話20第一壓力感測裝置21 内的壓力感測模組31將步驟S601的物理位移量轉換成至少 一輸入的壓力類比訊號,並傳送至編碼模組32。 λα麻步驟S603:編碼模組32的類比數位轉換單元321將S602 、壓力類比訊號轉換成壓力數位訊號後,傳送至運算單元 ::S6:4 ·運算單* 33載入預先儲存於記憶體模组% is r驟牛S603傳至的壓力數位訊號比對,若比對 紅步驟細5;若比對結果不相料,進入步 ❾ 36的m:5的:運ΐ單7°33比對載入儲存於記憶體模組 比二=解 解除仃動電活20的鎖定模式。 體模==先二巧算單元33比對載入儲存於記憶 位訊號比對不相符時存的 以相同的原理,圖、5=i=:話20的鎖定模式。 感測裝置作為解除丄?路的仃動電話20使用二個壓力 作贅述。㈣鎖定的方法流程也是—致,在此不多 請參閱圖7為發明的另一較佳實施例,揭露一種使用者 201042488 使用行動電話20時,結合壓力輸入及實體按鍵輸入作為密 碼的方法,該方法包括: 步驟S601〜步驟S603 :其步驟流程相同於圖6的流程。 步驟S604 :運算單元33載入預先儲存於記憶體模組36 的密碼資訊與步驟S603傳至的壓力數位訊號比對,若比對 結果相符時,進入步驟S605 ;若比對結果不相符時,進入步 驟 S6041 。 步驟S6041:使用者利用壓力感測模組31輸入密碼錯誤 的次數超過一預先設定的次數,則行動電話20將恢復到實 〇 體輸入按鍵輸入密碼的方式進行密碼比對程式,若密碼比對 結果相符進入步驟S605 ;若比對結果不相符時,進入步驟 S606。 步驟S605 :當運算單元33比對載入儲存於記憶體模組 3 6的預先儲存的密碼資訊與壓力轉換的壓力數位訊號相符 時,解除行動電話20的鎖定模式。 步驟S606 :相反,當運算單元33比對載入儲存於記憶 體模組36的預先儲存的密碼資訊與壓力轉換的壓力數位訊 號不相符時,繼續保持行動電話20的鎖定模式。 〇 在以上實施例中,該可攜式電子裝置是以一行動電話為 例,實際實施時不以此為限,亦可為一般市面上常見的個人 數位助理裝置(Personal Digital Assistant)、筆記型電腦 (Notebook)等隨身電子裝置。 以上所述者僅為本發明的較佳實施例,並非用以限定本 發明的實施範圍。凡依本發明申請專利範圍所作的等效變化 與修飾,皆仍屬本發明專利所涵蓋的範圍内。 9 201042488 ‘ 【圖式簡單說明】 目1為現村攜式電作置的細輸人方式的示意圖。 圖2為本發明可攜式電子農置一較佳實施例行動電話的立體 圖。 起 圖3為圖2所示的行動電話的功能模組圖。 圖4為圖2所不的行動電話利用單-手指輸人密碼的操作示 意圖。 〇圖5觸2所補行_話_兩手指輸人密碼的操作示意 圖。 圖6為圖4所不的行動電話使用壓力作為密碼的方法流程圖。 圖7為本發明所揭露的另一較佳實施例的於行動電話結合使 用壓力感測模組及實體輸人按鍵作為密碼的方法流程圖。 【主要元件符號說明】 10 密碼輸入區 11 14 行動電話 20 21 第二壓力感測裝置 22 23 按鍵組 24 31 蝙碼模組 32 321 運算單元 33 34 顯示單元 35 36 密碼資料庫 361 362 通訊模組 37 傳統行動電話 〇 實體輸入按鍵 第一壓力感測裝置 螢幕 壓力感測模組 組 記憶體模組 密碼比對程式 201042488 使用者拇指 41、42 第一壓力圖示指標43 第二壓力圖示指標 51 第三壓力圖示指標52Button two 4 two people /. The traditional power-on password is mostly a combination of several physical input keys 14 as an input module, and I need to generate 1 corresponding __^ ni secrets by pressing a number of keys multiple times of pressing the button action to enter the six valleys § Have recalled 'and need to go through the program, the operation is more complicated.刖1 Confirmed program to complete booting [Invention] The present invention provides a constructible electronic 3 201042488 device that facilitates password input. The present invention also provides a password rounding method for a portable electronic device that facilitates password entry. Horse-type electric Ο Ο - portable electronic device, comprising: at least one pressure sensing wedge, and for sensing the pressure of the user to input, and generating at least a pressure analog ratio «, - encoding module, Connected to the pressure sensitive group, (4) convert analog signal into pressure digital signal; a memory module, connected to operation = 70 'includes password database and password comparison program to store at least one password password comparison program; An operation unit is respectively connected to the coding module j, the force sensing module is used for carrying the memory module (4), the password database and the password comparison program; and the user graphic interface module is connected to the operation unit for connecting to the operation unit Displaying the magnitude of the Lili received by the pressure sensing module; and: π 'connecting to the phase forming module for use as a display component of the portable electronic device. a password input method for a portable electronic device, comprising: a pressure sensing module receiving at least one house force; the pressure sensing module producing a pressure analog signal; the coding module converting the pressure analog signal to a grinding machine Force digital signal; through the operation unit comparison (four) force digital signal disk a pre-stored password in the memory module; if the comparison is consistent, the portable, sub-device unlocking program, if the comparison does not match, Continuing to keep the lock: State 0 Compared with the prior art, the present invention has the advantages that the user can directly use the finger to press the ' to form a password through the (four) sensing module, thereby eliminating the need to operate when the existing portable electronic device is unlocked. Multiple buttons of whiskers, and no need to edit 4 201042488. System and memory complex password. [Embodiment] The technical content of the present invention will be clearly explained in the following embodiments of the present invention with reference to the following drawings: Referring to FIG. 2, a preferred embodiment of the portable electronic device of the present invention is provided. A mobile phone 20' is provided with a first pressure sensing device 21 on one side surface of the mobile phone 20 and a second pressure sensing device 22 on the other side surface. The pressure sensing device of the present embodiment The number and actual implementation may also be set to more than two sets of pressure sensing devices, which are not limited by this embodiment. The mobile phone 20 also includes a screen 23 and a button set 24 disposed on the front side thereof; wherein the screen 23 provides a user interface and a message; the button set 24 provides the user for the purpose of the wheel. FIG. 3 is a functional block diagram of the mobile phone 20. The mobile phone 2 includes a pressure sensing module 31, an encoding module 32, an arithmetic unit 33, a user graphical interface module 34, a display unit 35, a memory module 36, and a communication module 37. . The two pressure sensing modules 31 are respectively disposed in the first pressure sensing device 21 and the second pressure sensing device 22, and are two analog pressure sensing modules, including a mechanical force The size is converted into a mechanical analog component that is analogous to the signal. The code module 32 includes at least one analog digital conversion unit 321 for converting the pressure analog signal pressed by the user to the first pressure sensing device 21 and the second pressure sensing device 22 into a pressure digital signal. The computing unit 33 is responsible for the signal, information processing and program control of the device; the display unit 35 is responsible for the display function; the user graphic interface module 34' transmits the processing information of the computing unit 33 through the user graphic interface module. The graphic interface of the 34 is displayed on the display unit 35. The memory module 36 further includes a password database 361 and a password comparison program 362. The password database 361 stores a user pre-stored password information, and the user identification The password in the Subscriber Identification Module is used as 5 201042488. The password comparison program 362 is responsible for comparing the password information or the Subscriber Identification Module of the password database 361. The password is transmitted to the password information transmitted by the pressure measuring module 31 and transmitted to the computing unit 33. The communication module 37 is responsible for wireless communication of the mobile phone 20. The computing unit 33 is electrically connected to the memory module 36 and the communication module 37, and is connected to the pressure sensing module 31 via the encoding module 32 and to the display unit 35 via the user graphic interface module 34. In general, the computing unit 33 is a microprocessor for data processing or data processing. The computing unit 33 loads the password database 361 and the password comparison program 362 stored in the memory module 36. The password comparison program 326 of the input operation unit 33 compares the converted digital coded signal with the password information in the password database 361. If the password comparison result matches, the program for unlocking the mobile phone 20 is completed. Conversely, if the password match does not match, the mobile phone 20 continues to remain locked. The user graphic interface module 34 is connected to the computing unit 33 for displaying the magnitude of the pressure received by the pressure sensing module 31 and the comparison process for displaying the password. Display unit 35 is coupled to user graphics module 34 for displaying corresponding alignment results. The display unit 〇 35 can be integrated with the above-mentioned existing mobile phone screen 23, and a touch screen can be used instead of the conventional display screen, and an input function can be added. Referring to FIG. 4, when the user prepares to input a password to activate the mobile phone 20, the first pressure sensing device 21 on one side of the device may be pressed by a finger 41 to be disposed in the first pressure sensing device 21. The pressure sensing module 31 converts the pressure pressed by the user into a pressure analog signal, and transmits it to the analog digital conversion unit 321 disposed in the encoding module 32 to convert the pressure analog signal into a pressure digital signal, and then transmits the signal to the operation. Unit 33. At this time, the arithmetic unit 33 loads the password comparison program 362 from the memory module 36, and the password comparison program 362 stores the 6 201042488 Ο 压力 pressure digital signal temporarily stored in the arithmetic unit 33. The password information of the password database 361 is compared. After the comparison result is completed, the operation unit 33 transmits the comparison result message to the user graphic interface module electrically connected to the operation unit 33, and displays the display unit. In this embodiment, the computing unit 33 loads the password database 361 stored in the memory module 36 or the password and password comparison program 362 loaded in the Subscriber Identification Module. During the process of the password, the user graphical interface module % displays on the display screen 23, and instantly displays the pressure applied to the first pressure received by the pressure sensing module 31, and the pressure on the measuring device 21 is at a first pressure icon. Indicator 43 ^, the pressure of the pressure pressed by the gas user matches the password information stored in the password database, and the unlocked program is completed. Referring to FIG. 5, the user can simultaneously press the surface of the mobile phone 2 and the second pressure sensing device 21 and the second pressure sensing device 22 by using the finger 41 and the finger 42 respectively, and generate two pressures by the same program principle. The analog signal is converted into two voltages, and then transmitted to the arithmetic unit 33 and the memory module 36 to load the f code comparison program 362. The password comparison program 362 temporarily stores the foregoing operation = 兀 3 The two pressure digital signals in the 3 are stored in the password matching password process, and the user graphical interface module 34 displays the application received by the pressure sensing module 31: the force sensing device 21 And the pressure on the second pressure sensing device 22; a first pressure graphic indicator 51 and a second pressure graphic finger 52, according to the magnitude of the force and the password stored in the password database 361 Pay, then complete the unlocked program. For example, the portable electronic device is limited to the mobile phone. It can also be a personal electronic device such as a notebook that is commonly found on the market. The invention also provides a method for the password input method which is novelly applied to the portable electronic device 7 201042488 -, which uses a pressing method to generate a set of passwords, so that the user can easily memorize and be easy to use. Referring to FIG. 6, a flow chart of the method for using the mobile phone 20 as a password by the mobile phone 20 disclosed in FIG. When the user uses the portable electronic device, the method of using the pressure as the password, the method includes: Step S601: When the user prepares to input the password to turn on the mobile phone 2, the first surface of the device is pressed with a finger The pressure sensing device ^ produces a physical displacement amount. Step S602: The pressure sensing module 31 disposed in the first pressure sensing device 21 of the mobile phone 20 converts the physical displacement amount of the step S601 into at least one input pressure analog signal, and transmits the signal to the encoding module 32. Λα麻Step S603: The analog digital conversion unit 321 of the encoding module 32 converts the S602 and the pressure analog signal into a pressure digital signal, and then transmits the signal to the arithmetic unit::S6:4. The operation single* 33 is pre-stored in the memory module. Group % is r pressure digital signal comparison sent to S609, if the comparison is fine 5; if the comparison results are not expected, enter m:5 of step 36: ΐ 7 7°33 comparison The lock mode stored in the memory module is compared to the second = solution unlocking power activity 20. The phantom == the first two units of the unit 33 is stored in the memory. The bit signal is stored in the same principle, 5=i=: the lock mode of the word 20. The sensing device acts as a slamming phone 20 for releasing the squatting path using two pressures. (4) The method of locking is also the same. Please refer to FIG. 7 for another preferred embodiment of the invention. The user 201042488 is combined with the pressure input and the physical key input as a password when using the mobile phone 20, The method includes: Step S601 to Step S603: The flow of the steps is the same as the flow of FIG. 6. Step S604: The operation unit 33 loads the password information pre-stored in the memory module 36 and the pressure digital signal transmitted to the step S603. If the comparison result matches, the process proceeds to step S605; if the comparison result does not match, Go to step S6041. Step S6041: If the number of times the user inputs the password error by the pressure sensing module 31 exceeds a predetermined number of times, the mobile phone 20 restores the password to the physical input button to perform the password comparison program. If the result matches, the process proceeds to step S605; if the result of the comparison does not match, the process proceeds to step S606. Step S605: When the operation unit 33 matches the pre-stored password information stored in the memory module 36 with the pressure-converted pressure digital signal, the lock mode of the mobile phone 20 is released. Step S606: Conversely, when the arithmetic unit 33 does not match the pre-stored password information stored in the memory module 36 and the pressure-converted pressure digital signal, the lock mode of the mobile phone 20 is continuously maintained. In the above embodiment, the portable electronic device is an example of a mobile phone. The actual implementation is not limited thereto, and may be a personal digital assistant (Personal Digital Assistant) and a notebook type commonly used in the market. Portable electronic devices such as a notebook. The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. Equivalent changes and modifications made in accordance with the scope of the present invention remain within the scope of the present invention. 9 201042488 ‘ [Simple description of the diagram] The head 1 is a schematic diagram of the fine input method of the current village-held portable operation. 2 is a perspective view of a mobile phone in accordance with a preferred embodiment of the portable electronic farm of the present invention. Figure 3 is a functional block diagram of the mobile phone shown in Figure 2. Fig. 4 is a schematic illustration of the operation of the mobile phone of Fig. 2 using a single-finger input password. 5 Figure 5 touch 2 to make up the line _ _ _ two-finger input password operation diagram. 6 is a flow chart of a method for using a mobile phone as a password for the mobile phone shown in FIG. FIG. 7 is a flow chart of a method for using a mobile phone in combination with a pressure sensing module and a physical input button as a password according to another preferred embodiment of the present invention. [Main component symbol description] 10 Password input area 11 14 Mobile phone 20 21 Second pressure sensing device 22 23 Button group 24 31 Bar code module 32 321 Operation unit 33 34 Display unit 35 36 Password database 361 362 Communication module 37 Traditional mobile phone 〇 physical input button first pressure sensing device screen pressure sensing module group memory module password comparison program 201042488 user thumb 41, 42 first pressure graphic indicator 43 second pressure graphic indicator 51 Third pressure graphic indicator 52
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