201043193 六、發明說明: 【發明所屬之技術領域】 本發明係與人體生理狀態感測系統有關,特別是指一 種微細能量分析系統。 【先前技術】 在人體醫學的領域中,除了傳統西醫與中醫以外,還 有一種另類醫學也始終受到病患的注意’當遇到西、中醫 都無法有效治癒的疾病時’另類醫學往往就成為病患的唯 一治療方式。 在另類醫學的眾多種類中,能量醫學被視為最有機會 成為主流之醫療方式。由於能量醫學所注重的是類似傳統 中醫以人的精、氣、神之整體調和,搭配人體之經絡、穴 道等良導點所散發出的微細能量(Subtle Energy ),可以呈 現出人體結構當下的生命狀況。 一因此在進行上述能量醫學時,微細能量之感測與分析 訧成為最重要的課題,然而,現有測量微細能量的方式都 =將精確地將人體的狀態反應出來,讓測量出的結果與 行=態之間存有極大差異,而且無法讓使用者方便地進 【發明内容】 ^此’本發明之主要目的乃在於提供—觀細能量分 糸、、先’其可較為精4地感測出人體的微細能量。 3 201043193 本發明之另一目的則在於提供一種微細能量分析系 統,其可提供感知信號給使用者,讓使用者方便地判斷與 確認人體的生理狀態。 為達成前揭目的,本發明所提供之微細能量分析系 統,包含有至少二感測單元、一訊號處理單元、一訊號轉 換單几,以及一訊號判斷單元;各該感測單元係分別連接 · 於使用者,讓使用者的生理訊號可傳送至各該感測單元; 該訊號處理單元係電性連接於各該感測單元,用以接收經 由各該感測單元所傳送之生理訊號;該訊號轉換單元係電_ 性連接於該訊號處理單元,該訊號轉換單元用以將該生理 訊號轉換為數位訊號,並且以數值運算方式分析出該數位 訊號之參數特徵,該訊號判斷單元係電性連接於該訊號轉 換單元,該訊號判斷單元接收該數位訊號並進行參數判 斷藉此,由於本發明利用該訊號處理單元接收透過感測 單兀感測之微細能量,能量取得方式較為直接而精準,可 減少原始訊號的雜訊。而生理訊號再經訊號轉換單元運算 以後,即可得出時域與頻域的參數數據,進而分析出訊號◎ 的變化與特徵’作為判斷生理狀態的依據或者是直接顯示 出來。本發明即可較為精確地感測出人體的微細能量,並, 且可提供感知信號給使用者,讓使用者方便地判斷與確对、-人體的生理狀態。 、晚 【實施方式】 以下k配合圖式列舉一較佳實施例,用以詳細說明本 201043193 發明之技術特徵與功效。 如第-圖所7F ’係為本發明較佳實施例之系統架構, 本發明所提供的微細能量分析系統,包含有至少二感測單 S 10、-訊號處理單元20、_訊號轉換單元3〇,以及一 訊號判斷單元40。 各感測單元10係為電極片,可分別貼附於使用者的皮 膚表面,虽電極片貼附於使用者的皮膚時,使用者的生理 訊號即可傳送至各感測單元10。 α該11峨處理單元2G包含有相互電性連接之—訊號放 大器22與一訊號濾波處理器24,訊號處理單元20係電性 連接於各感測單元1G,用以接收經由各制單元1〇所傳 运之類比生理職。生理訊號傳送至訊號處理單元 20之放 ,器22與濾波處理器24,可以讓極小的生理訊號放大成 可進订處理之訊號’並由濾、波處理ϋ 24肖除職測時同步 接收到的雜訊。 〇 该訊號轉換單元30具有一離散化轉換模組32,離散 化轉換拉組32可進行快速傅立S方式轉換運算。如第二圖 • 所不,忒號轉換單元30係電性連接於訊號處理單元20, Ά號處理單元2 Q接收到的生賴號轉換為數位訊號,數 位5ί1號可同時由離散化轉換模組 32分析出數位訊號之頻 域訊號炎叙· 。>默’亦即取得訊號的頻域數據,也可進行時域訊 號刀析取得時域訊號參數 ,時域訊號參數包括有訊號電壓 =極性變化順序數據以及訊號準位線變化數據。時域訊號 "/、頻域訊號參數進一步整合以後’即可分析出生理訊 5 201043193 號中各頻率成分的比例分佈、頻譜峰值大小的改變狀態, 或是時域電壓的正負極性。 該訊號判斷單元40係電性連接於訊號轉換單元3〇 , 該訊號判斷單元40接收經分析後的數位訊號並進行參數 判斷,即可判別出人體的生理狀況。訊號判斷單元40可另 外連接一聲光裝置,例如顯示螢幕或是發聲器,讓訊號的 頻率圖形可以呈現在顯示螢幕,或是將判斷單元4 0所判定 的結果以聲音發出於發聲器回饋給使用者。 反由上述本發明之架構說明,本發明可感測與分析人 體在不同環i兄下的生理狀態。如第三圖所示,如果人體在 進行襌坐,各感測單元10可分設於左、右手腕内侧,而再 將一電極片5 0設於受測者的小腿處做為接地處,或是不使 用接地處。其中一感測單元1〇可為正極,另一感測單元 10為負極,或是二感測單元10皆為正極,負極則共接於 身體以外的地方。透過感測單元1〇接收人體所釋放出的微 細能量,當受測者的思緒無法穩定時,生理結構自然產生 振動,感測單元10即可接收到波動能量訊號,訊號經過處 理單元20與轉換單元30的運算與分析之後,即可由判斷 單元40判定出受測者呈分心狀態,顯示螢幕即可顯示出當 下的人體狀態,提供襌坐時的訓練輔助工具。 本發明也可應用於肢障者作為溝通工具,由於人的眼 球在由視點中央往右方轉動後回復,以及由視點中央往左 方轉動後回復或產生出波形相反的訊號,本發明之各感測 單元10可分別設置在靠近眼睛的左、右太陽穴位置,如第 201043193 五及第六圖所示地感挪 負極性改變的特性 目波_訊號’ 訊號中正 定編碼方式。 _發展出卿者與外界溝通的特 ^發明彻崎處理單元20接收到之微細能201043193 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a human physiological state sensing system, and more particularly to a micro energy analysis system. [Prior Art] In the field of human medicine, in addition to traditional Western medicine and traditional Chinese medicine, there is also an alternative medicine that has always been noticed by patients. 'When encountering diseases that cannot be effectively cured by Western and Chinese medicine, ' alternative medicine often becomes The only treatment for patients. Among the many categories of alternative medicine, energy medicine is seen as the most promising medical approach to mainstream. Because energy medicine pays attention to the traditional Chinese medicine, the fineness of the human essence, the gas, the whole of the gods, and the subtle energy emitted by the good points of the human body, such as the meridians and acupuncture points, can present the human body structure. Life situation. Therefore, in the above-mentioned energy medicine, the sensing and analysis of the fine energy has become the most important issue. However, the existing methods of measuring the fine energy are to accurately reflect the state of the human body, and let the measured results and rows There is a great difference between the = state, and it is not convenient for the user to enter the content of the invention. [The main purpose of the present invention is to provide - view the fine energy distribution, and firstly, it can be more accurate. The fine energy of the human body. 3 201043193 Another object of the present invention is to provide a micro energy analysis system that provides a sensory signal to a user for easy judgment and confirmation of the physiological state of the human body. In order to achieve the foregoing, the micro energy analysis system provided by the present invention includes at least two sensing units, a signal processing unit, a signal conversion unit, and a signal determining unit; each of the sensing units are respectively connected. The user can transmit the physiological signal of the user to each of the sensing units; the signal processing unit is electrically connected to each of the sensing units for receiving the physiological signal transmitted through each of the sensing units; The signal conversion unit is electrically connected to the signal processing unit, and the signal conversion unit is configured to convert the physiological signal into a digital signal, and analyze the parameter characteristics of the digital signal by numerical operation, and the signal determining unit is electrically Connected to the signal conversion unit, the signal determination unit receives the digital signal and performs parameter determination. Because the present invention uses the signal processing unit to receive the fine energy transmitted through the sensing unit, the energy acquisition method is relatively direct and accurate. It can reduce the noise of the original signal. After the physiological signal is calculated by the signal conversion unit, the parameter data of the time domain and the frequency domain can be obtained, and then the change and characteristics of the signal ◎ can be analyzed as the basis for judging the physiological state or directly displayed. The invention can sense the micro energy of the human body more accurately, and can provide a sensing signal to the user, so that the user can conveniently judge and correct the physiological state of the human body. [Embodiment] The following k and the drawings illustrate a preferred embodiment for explaining the technical features and effects of the 201043193 invention. The system of the present invention is a micro energy analysis system including at least two sensing single S 10, a signal processing unit 20, and a signal conversion unit 3. 〇, and a signal judging unit 40. Each of the sensing units 10 is an electrode sheet that can be attached to the surface of the user's skin. When the electrode sheet is attached to the skin of the user, the physiological signal of the user can be transmitted to each sensing unit 10. The 11-inch processing unit 2G includes a signal amplifier 22 and a signal filtering processor 24, which are electrically connected to each other. The signal processing unit 20 is electrically connected to each sensing unit 1G for receiving through each unit. The analogy of the transport is physiological. The physiological signal is transmitted to the signal processing unit 20, and the device 22 and the filter processor 24 can be used to amplify the minimal physiological signal into a signal that can be processed by the processing, and is synchronously received by the filtering and wave processing. The noise. 〇 The signal conversion unit 30 has a discretization conversion module 32, and the discretization conversion pull group 32 can perform a fast Fourier S mode conversion operation. As shown in the second figure, the nickname conversion unit 30 is electrically connected to the signal processing unit 20, and the aging number received by the nickname processing unit 2 Q is converted into a digital signal, and the digit 5 ί1 can be simultaneously converted by the discretization conversion mode. Group 32 analyzes the frequency domain signal of the digital signal. > 默 ' is the frequency domain data of the obtained signal, and can also perform time domain signal analysis to obtain time domain signal parameters, and the time domain signal parameters include signal voltage = polarity change order data and signal level line change data. After the time domain signal "/, the frequency domain signal parameters are further integrated, the proportional distribution of the frequency components, the peak state of the spectrum, or the positive and negative polarity of the time domain voltage can be analyzed. The signal determining unit 40 is electrically connected to the signal converting unit 3, and the signal determining unit 40 receives the analyzed digital signal and performs parameter determination to determine the physiological condition of the human body. The signal determining unit 40 can be additionally connected with an acousto-optic device, such as a display screen or a sounder, so that the frequency pattern of the signal can be presented on the display screen, or the result determined by the determining unit 40 can be sent back to the sounder by the sound. user. In contrast to the above described architecture of the present invention, the present invention can sense and analyze the physiological state of a human being under a different ring. As shown in the third figure, if the human body is squatting, each sensing unit 10 can be disposed on the inner side of the left and right wrists, and then an electrode piece 50 is disposed at the lower leg of the subject as a grounding place. Or do not use grounding. One of the sensing units 1〇 can be a positive pole, the other sensing unit 10 is a negative pole, or both sensing units 10 are positive poles, and the negative poles are connected to a place other than the body. The sensing unit 1 receives the fine energy released by the human body. When the subject's thoughts cannot be stabilized, the physiological structure naturally generates vibration, and the sensing unit 10 can receive the wave energy signal, and the signal passes through the processing unit 20 and converts. After the calculation and analysis of the unit 30, the determination unit 40 determines that the subject is distracted, and displays the current state of the human body by displaying the screen, and provides a training aid when sitting. The present invention can also be applied to a person with a disability as a communication tool, since the human eyeball returns after being rotated from the center of the viewpoint to the right, and the signal from the center of the viewpoint is rotated to the left to recover or generate a signal having the opposite waveform, each of the present invention The sensing unit 10 can be respectively disposed at the left and right temple positions close to the eye, as shown in the first and second figures of 201043193, and the positive definite coding mode in the characteristic wave_signal' signal of the negative polarity change. _Developing the special communication between the Qing and the outside world
旦取透過感啤元1G直接_於人體皮膚表面,能 里得方式較為直接而精準,可減少原始訊號的雜訊。而 放大與;慮錢的生理訊號再經轉換單元Μ運算以後即可 得出時域與頻域的參數數據’進而分析出訊號的變化與特 徵,作為判斷生理狀態的依據,或者是直接顯示出來。藉 此’本發明即可較為精確地感測出人體的微細能量,並且 可提供感知信號給使用者’讓使用者方便地判斷與確認人 體的生理狀態。Once the sensation of the beer 1G directly on the surface of the human skin, the way to get it is more direct and accurate, which can reduce the noise of the original signal. The amplification and the physiological signal of the money can be obtained through the conversion unit Μ operation to obtain the parameter data of the time domain and the frequency domain', and then analyze the change and characteristics of the signal, as the basis for judging the physiological state, or directly display it. . By this invention, the fine energy of the human body can be sensed more accurately, and a sensing signal can be provided to the user to allow the user to conveniently judge and confirm the physiological state of the human body.
7 201043193 【圖式簡單說明】 第一圖係為本發明一較佳實施例之系統架構圖。 第二圖係為本發明一較佳實施例之流程圖。 第三圖係為本發明一較佳實施例之應用示意圖。 第四圖係為本發明一較佳實施例之另一實施態樣。 第五圖係為眼球向左轉動之波形圖。 第六圖係為眼球向右轉動之波形圖。 【主要元件符號說明】 10感測單元 22訊號放大器 30訊號轉換單元 40訊號判斷單元 20訊號處理單元 24訊號濾波處理器 32離散化轉換模組 50電極片7 201043193 [Simplified description of the drawings] The first figure is a system architecture diagram of a preferred embodiment of the present invention. The second drawing is a flow chart of a preferred embodiment of the present invention. The third figure is a schematic diagram of the application of a preferred embodiment of the present invention. The fourth figure is another embodiment of a preferred embodiment of the present invention. The fifth picture is a waveform diagram of the eyeball turning to the left. The sixth picture is a waveform diagram of the eyeball turning to the right. [Main component symbol description] 10 sensing unit 22 signal amplifier 30 signal conversion unit 40 signal judgment unit 20 signal processing unit 24 signal filter processor 32 discretization conversion module 50 electrode sheet