201019897 九、發明說明: 【發明所屬之技術領域】 本發明涉及一種多功能電子裝置及其使用方法,尤其 涉及一種具用戶狀態調節功能之電子裝置及其使用方法。 【先前技術】 隨著無線通訊與資訊處理技術之發展,行動電話、個 人數位助理(personal digital assistant,PDA)、電腦等各 _類電子裝置競相湧現,令消費者可隨時隨地充分享受高科 技帶來之種種便利。然而’因工作、學習、娛樂之需要, 用戶經常長時間不間斷地對這些電子裝置進行操作,如此 一來,可能造成疲勞並受到大量電磁輻射,從而給用戶帶 來很大健康隱患。 一習知一些電子裝置具定時提醒用戶之功能,如每間隔 一定時間向用戶發送一休息提示以防止造成上述不利影 I。然:習知電子裝置尚缺乏感測用戶當前健康狀況之功 ❿能,不能根據用戶當前健康狀況來有效地調節用戶之狀 態。另,時間並非判斷用戶健康狀況唯一指標,於不適當 之時候對用戶進行休息提示,非但不能對用戶狀態起到有 放地調即作用’反而可能會影響用戶工作效率。 【發明内容】 鑒於此,有必要提供一種可有效調節用戶狀態之多 功能電子裴置。 妝能I有必要提供一種上述多功能電子裝置使用之用戶 狀態調節方法。 6 201019897 種多功能電子裝置,包括依次雷 訊號處理模組及一押制模组.接之一感測模 用戶之峰理㈣兮感測模組用以獲取 2 訊號經訊號處理模組轉化為生理 ί. ίΐ至控制触,該控龍__生理指標是否= 〇级疋範圍;該多功能電子奘 €于裝置還包括一娛樂模組,該娛 樂模,、且與控制模組電性連接’並於控制模組判斷用户生理 指標不於符合収範圍内時,對用戶狀態進行調節。 ❹ .一種電子裝置用戶狀態調節方法,該方法包括以下步 驟:感測電子裝置用戶之生理訊號;據該生理訊號確定用 戶之健康狀態,並判斷用戶之健康狀態是否正常;於判斷 用戶處於不健康狀態時,進行用戶狀態調節。 相較於習知技術,該多功能電子裝置於用戶使用時感 測用戶之生理訊號並轉化為對應之生理指標,並於用戶生 理指標異常時’對用戶進行狀態調節。 【實施方式】 ❹ 請參閱圖1,本發明較佳實施方式多功能電子裝置 100包括一感測模紕10、一訊號處理模組20、一資料庫 模組30、一控制模組4〇、一娛樂模組5〇、一顯示模組6〇 及一存儲模組70。該感測模組1〇、訊號處理模組2〇與控 制模組40依次電性連接;該資料庫模組3〇、娛樂模組5〇、 顯示模組60及存儲模組70均與該控制模組4〇電性連接。 該感測模組1〇用以於用戶使用該多功能電子裝置 100過程中偵測其生理訊號。該感測模組10可為一心跳 脈搏感測器、一溫度感測器、一皮膚表面電阻抗感測器或 201019897 者其組合。該感測模組10設置於該多功能電子裝置丄⑼ 上用戶需要長時間接觸之位置,如輸入裝置滑鼠、鍵盤 等’且該感測模組10之感測點設於輸入裝置之表面,使 用戶於接觸使用該多功能電子裝置100時可方便快捷地 獲取用戶至少一項生理訊號’如心率、脈率、體溫及皮膚 表面電阻抗等。 該訊號處理模紕20用以將感測模組10獲取之用戶生 ❹理訊號進行採樣,由類比訊號轉化為數位訊號,並進一步 將該數位訊號轉化為用戶對應之生理指標,然後傳送至控 制模組40。 該資料庫模組30用以存儲每一生理指標或者生理指 標範圍及該生理指標或者生理指標範圍所對應之分類。用 戶可根據生理指標或者生理指標之範圍將健康狀況分類 為·健康狀態及不健康狀態,例如,當該感測模組獲 取之生理訊號為心率與脈率時,成人正常心率與脈率範圍 碜為60-100次/分鐘,即當用戶心率與脈率範圍為6〇1〇〇次 /分鐘時,該用戶處於健康狀態;當用戶心率與脈率範圍 超過100次/分鐘時或者小於60次/分鐘時,該用戶處於不 健康狀態。其中,當該處於不健康狀態時,可進一步分類 為:心率過快及心率過慢。另外,該生理指標範圍也可根 據用戶自身狀況和不同之生理訊號對應之生理指標來進 行設定及分類。 該控制模組40用以根據資料庫模組3〇中分類設定來 對用戶生理指標進行分類判斷。例如,當用戶之心率與脈 201019897 革不於60-100次/分鐘範圍 卢軎俞夕健志也 円時該控制模組40於判斷用 戶虽刖之健康狀況類別為 啟動_模組5〇對行;該控制模組40 該娛樂模組50用以於田ή 士 ^ au m .夕 、用戶處於不健康狀態時調節用 戶狀態’其可為一多媒體枭署 煺褒置,該多媒體裝置可播放音樂 或者進仃互動遊戲。該娛举掇 樂模組50與資料庫模組30中分 類相對應,例如,當用卢虚% π & + 戶處於不健康狀態時,且心率超過 ❹ 100次/分鐘時,則播放一段音樂·而t 年越過 仅曰樂,而心率過慢時,則啟動 :互動遊戲。該音樂或者互動遊戲可根據用戶喜好通過控 制模組40來預先設定。 該顯示模組60用以將用戶之生理指標資訊直觀地顯 示給用戶’其可為電腦之顯示器,或者行動電話之顯示面 板0 該存儲模組70用以存儲用戶之生理指標資訊,以建 立用戶健康狀況之資料資料庫。用戶可通過控制模組3〇 ❹調用存儲模組70之生理指標資訊,以清楚地瞭解自己某 段時間之健康狀況,從而可採取主動措施避免不健康狀態 持續。 請一併參閱圖2,本發明較佳實施方式多功能電子裝 置100對用戶之狀態進行調節之工作流程,包括以下幾個 步驟: 步驟S1 :該感測模組10於用戶觸碰該多功能電子裝 置100時’感測其生理訊號,並將該生理訊號傳送至訊號 處理模組20。 201019897 檨m:該㈣處理模組2g㈣生料號進行採 樣,並由類比訊號轉化為數位訊號後進 = 標傳送至控制模組4〇。 '為生理指 60顧步^3:該控制模組4G將該生理指標通過顯示模也 6〇顯不給用戶’同時存储至存儲模組70。 步驟S4:該控制模組4〇根據資料庫模组3〇 斷該生理指標是否正常,若是,則返回至步驟si,201019897 IX. Description of the Invention: [Technical Field] The present invention relates to a multifunctional electronic device and a method of using the same, and more particularly to an electronic device having a user state adjustment function and a method of using the same. [Prior Art] With the development of wireless communication and information processing technology, mobile phones, personal digital assistants (PDAs), computers and other electronic devices are emerging, allowing consumers to fully enjoy high-tech belts anytime, anywhere. All kinds of conveniences come. However, due to the needs of work, study, and entertainment, users often operate these electronic devices without interruption for a long time, which may cause fatigue and be subjected to a large amount of electromagnetic radiation, thereby bringing great health hazards to users. A conventional electronic device has a function of periodically reminding the user, such as sending a rest prompt to the user at intervals of time to prevent the above-mentioned adverse effects. However: the conventional electronic device lacks the ability to sense the user's current health status, and cannot effectively adjust the user's status according to the user's current health status. In addition, time is not the only indicator to judge the health status of the user. If the user is given a break prompt when not appropriate, it will not be able to play a role in the user's status. Instead, it may affect the user's work efficiency. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a multi-function electronic device that can effectively adjust the state of a user. It is necessary for the makeup energy I to provide a user state adjustment method for the above-mentioned multifunctional electronic device. 6 201019897 Multi-function electronic devices, including the lightning sensor processing module and the one-off module. The peak of the sensing module user (4) The sensing module is used to obtain the 2 signal converted by the signal processing module into Physiological ί. 控制 控制 控制 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , 'And when the control module determines that the user's physiological indicators are not within the compliance range, the user status is adjusted. An electronic device user state adjustment method, the method comprising the steps of: sensing a physiological signal of a user of the electronic device; determining a health state of the user according to the physiological signal, and determining whether the health state of the user is normal; determining that the user is in an unhealthy state When the user status is adjusted. Compared with the prior art, the multifunctional electronic device senses the physiological signal of the user when the user uses it and converts it into a corresponding physiological index, and adjusts the state of the user when the user's physiological index is abnormal. EMBODIMENT OF THE INVENTION Referring to FIG. 1 , a multi-function electronic device 100 includes a sensing module 10 , a signal processing module 20 , a database module 30 , and a control module 4 . An entertainment module 5A, a display module 6A and a storage module 70. The sensing module 1 and the signal processing module 2 are electrically connected to the control module 40 in sequence; the database module 3, the entertainment module 5, the display module 60, and the storage module 70 are all connected thereto. The control module 4 is electrically connected. The sensing module 1 is configured to detect a physiological signal of the user during use of the multifunctional electronic device 100. The sensing module 10 can be a combination of a heartbeat pulse sensor, a temperature sensor, a skin surface electrical impedance sensor or 201019897. The sensing module 10 is disposed on the multifunctional electronic device (9) at a position where the user needs to contact for a long time, such as an input device mouse, a keyboard, etc., and the sensing point of the sensing module 10 is disposed on the surface of the input device. The user can conveniently and quickly obtain at least one physiological signal 'such as heart rate, pulse rate, body temperature, and skin surface electrical resistance, etc. when the user uses the multifunctional electronic device 100. The signal processing module 20 is configured to sample the user raw signal received by the sensing module 10, convert the analog signal into a digital signal, and further convert the digital signal into a physiological indicator corresponding to the user, and then transmit the control to the control. Module 40. The database module 30 is configured to store each physiological indicator or a range of physiological indicators and a classification corresponding to the physiological indicator or the range of physiological indicators. The user can classify the health status into a healthy state and an unhealthy state according to the range of physiological indicators or physiological indicators. For example, when the physiological signals acquired by the sensing module are heart rate and pulse rate, the normal heart rate and pulse rate range of the adult are 60-100 beats/min, that is, when the user's heart rate and pulse rate range is 6〇1〇〇/min, the user is in a healthy state; when the user's heart rate and pulse rate range exceeds 100 times/min or less than 60 times/ In minutes, the user is in an unhealthy state. Among them, when the person is in an unhealthy state, it can be further classified as: the heart rate is too fast and the heart rate is too slow. In addition, the physiological indicator range can also be set and classified according to the user's own condition and physiological indicators corresponding to different physiological signals. The control module 40 is configured to classify and determine the physiological indicators of the user according to the classification settings in the database module 3〇. For example, when the user's heart rate and pulse 201019897 are less than 60-100 times/minute range, Lu Hao Yu Xi Jianzhi also knows that the user's health status category is the start-up module 5〇 The control module 40 is used by the entertainment module 50 to adjust the user status when the user is in an unhealthy state. The multimedia device can play music or Enter the interactive game. The entertainment music module 50 corresponds to the classification in the database module 30, for example, when the user is in an unhealthy state with a loyalty π & + and the heart rate exceeds 次100 times/minute, a piece of music is played. · When t is over only fun, and when the heart rate is too slow, it starts: interactive game. The music or interactive game can be preset by the control module 40 according to user preferences. The display module 60 is configured to visually display the physiological indicator information of the user to the user's display, or the display panel of the mobile phone. The storage module 70 is configured to store the physiological indicator information of the user to establish a user. Information database on health status. The user can call the physiological indicator information of the storage module 70 through the control module 3〇 to clearly understand the health status of the user for a certain period of time, so that active measures can be taken to prevent the unhealthy state from continuing. Referring to FIG. 2, the workflow of adjusting the state of the user by the multifunctional electronic device 100 according to the preferred embodiment of the present invention includes the following steps: Step S1: The sensing module 10 touches the multifunctional function by the user. The electronic device 100 senses its physiological signal and transmits the physiological signal to the signal processing module 20. 201019897 檨m: The (4) processing module 2g (4) raw material number is sampled and converted into a digital signal by the analog signal and transmitted to the control module 4〇. 'For the physiological finger 60 step ^3: The control module 4G displays the physiological index to the user module through the display mode and simultaneously stores it to the storage module 70. Step S4: The control module 4 〇 determines whether the physiological indicator is normal according to the database module 3, and if yes, returns to step si,
對用戶之生理訊號進行感測;若否,則進人步驟S5。 步驟S5 :該控龍組4()將該生理指標與資料庫模 30之資料資訊進一步進行分類。 、、 步驟S6 :該控制模組4〇根據該生理指標對應之分類 啟動對應之娛樂模組50,以調節用戶之健康狀態例如, 播放一段音樂,或者啟動一互動遊戲。可理 組5〇具趙之調節方式可由用戶根據自已喜好預先設定樂模 【圖式簡單說明】 ❹ 圖1係本發明較佳實施方式之多功能電子裝置之功 能模組圖。 圖2係本發明較佳實施方式之多功能電子裝置之工 作流程圖。 【主要元件符號說明】 多功能無線通訊裝置 100 感測模 組 10 訊號處理模組 20 資料庫 模組 30 控制模組 40 娛樂模 組 50 顯示模組 60 存儲模 組 70Sensing the physiological signal of the user; if not, proceeding to step S5. Step S5: The control group 4() further classifies the physiological index and the data information of the database module 30. Step S6: The control module 4 activates the corresponding entertainment module 50 according to the classification corresponding to the physiological index to adjust the health state of the user, for example, playing a piece of music, or starting an interactive game. The adjustment mode of the group 5 can be preset by the user according to the preference of the user. [Simplified description of the drawing] FIG. 1 is a functional module diagram of the multifunctional electronic device according to the preferred embodiment of the present invention. 2 is a flow chart showing the operation of the multifunctional electronic device in accordance with a preferred embodiment of the present invention. [Main component symbol description] Multi-function wireless communication device 100 Sensing module 10 Signal processing module 20 Library Module 30 Control module 40 Entertainment module 50 Display module 60 Memory module group 70