200908929 九、發明說明: 【發明所屬之技術領域】 本發明係關於—種生理狀態檢測方法及其 是關於利用一輸出參數資料庫與-資料分析平Γ1析= -較佳檢測參數,並依昭 斤刀析未侍 檢測之生理狀態檢測方法及其系統。“體進行生理 【先前技術】 隨著科技的進步’傳統謂於人體侵人式的檢 、’由於會在檢測過程”檢騎象造成不必制傷害,2 以此方法已經漸漸受到各界質疑與揚棄。 3 為降低習用侵入式檢測方法的傷害,本領域有許多專 利《出,其中1用生理狀態檢⑽統,如中華民國八 :一,告第1270364號「整合型生理訊號量測裝置」發明專利, 其包含-感測介面模組、—類比訊號處理模組、 數位轉換單元、-數位訊號處理模組及—顯示單元+ 组單元係依序電性連接。該感測介面模組包含二感測^ 與至少-光學探頭組,該感測電極用以揭取一受二者:心 電訊號,同時該光學探頭組亦掏取—光體積描計圖訊號: 該類比訊號處理模組係將該感測介面模組所量測之訊號進 行-類比格式職處理,接著藉由_比/數位轉換單元。將 該類比格式訊號轉換成一數位訊號,且輸入該數位訊號至 該數位訊號處理單元模組之一中央處理運算單元中進行演 算處理,以對應該心電訊號與該光體積描計圖訊號分別獲 付至少-心電茶數與至少一血管參數,並顯示於該顯示單 ΡΚ10418 2007/8/20 200908929 元,藉此獲得數種生理參數以供醫護專業人員判斷了解受 測者之心血管狀況。 然而,上述習用生理狀態檢測系統具有下列缺點,例 如:習用生理狀態檢測系統係以該感測電極組通電連接於 受測者之待檢測部位〔例如:心臟等〕,以獲得並紀錄該 待檢測部位之生理參數,但長時間經由電極通電接觸可能 對人體造成一負面作用,光學方式(例如紅外線、X光)偵 測血管脈波方面,其係利用光所具有反射、吸收及穿透等 特性進行測量,但其無針對不同生命體條件設定實施不同 程度之光學計量,會造成光源浪費耗損,且過量之光線穿 透亦會對人體產生一定程度的傷害影響。 j 另外,中華民國公告第1267037號「利用編碼基準點 作三維表面形狀量測之方法」與第1235〇41號「三度空間 人體掃描資料的自動化特徵點辨識方法」發明專利,其二 者均針對父測者進行人體表面形狀的三維測量,以獲得受 測者之外觀資訊〔例如:身高或三圍等特徵〕。 不過,上述習用僅針對人體之外觀進行辨識,仍未能 偵測較内部如皮下組織或心血管等細部生理狀態,導致無 法進一少掌握更加詳細之生理狀態。基於上述原因,其確 實有必要進一步改良上述習用生理狀態檢測方法及其系統 〇 有鑑於此’本發明改良上述之習用生理狀態檢測方法 及其系統之缺點’其係關於—掃描裝置利㈣學檢測方式 對-生命脉進仃初步檢測’並將初步檢酬獲得之初步參 PK10418 2007/8/20 200908929 數輸入一資料分析平台進行比對,以對應該生命體獲得/ 最佳檢測設定參數,並回傳至該掃描裝置,使該掃描裝置 依據該最位檢測設定參數再次對該生命體進行進階檢測, 藉此獲得更為精確之生理參數,且可藉由該最佳檢測設定 筝數對該婦也I置之最佳化設定減少檢測光源對人體造成 的影響。 【發明内容】 本發明之目的係提供一種生理狀態檢測方法及其系 統,其可先透過一資料分析平台求得一最佳檢測設定參數 ,使掃描瓜置依據該最佳檢測設定參數對檢測對象進行進 階檢測’再透過一判別資料庫將取得之檢測影像資料進行 分析比對,使得本發明可以提供檢測對象及醫療人員一較 安全且較便利之生理檢測。 U 本發明之另一目的係提供一種生理狀態檢測方法及 其系統’其係關於-掃描裝置利用光學檢測方式對一生命 體進行初步檢測,—資料分析平台經由該初步檢測結果求 付一最佳檢測設定參數,使該掃描裝置依攄該最佳檢測設 疋參數再次對該生命體進行進階檢測,使得本發明具有提 升檢測精確性及降低檢職險性之功效。 /本發明之再一目的係提供一種生理狀態檢測方法及 其系統,其中該貧料分析平台另連接一判別資料庫,以便 二資料刀析平台將g亥進階檢測結果輪入該判別資料庫進行 7刀析^對’進而對應該進階檢測結果提供適當的生理評估 使付本發明具有提供診斷建議之功效。 PK10418 2007/8/20 200908929 根據本發明之生理狀態檢須 掃描裝置對—生命體之m _方去及其糸統,係利用一 牛淨: 表面進仃-初步檢測,以獲取-初 二=、、、' 將該初步檢測結果傳送至1學參數裝置分 該祕t傳回該毁定參數至該掃描裝置,使 位進行進^丨賴化狀’並對該生命體之—特定部 理狀二:Γ對應取得1階檢測結果,·藉由一生 果,;二Γ 進階檢測結果所對應之-評估結 果亚輸出该評估結果至一顯 * ,,貝不早兀’以作為醫護人員診 辦及後㈣療作業之重要參考依據。 【實施方式] 本發明之生理狀態檢測方法及其系 於一生 〒體之各部位(例如,心血管、凡 ,、、、’ ’、、 數神&偽甘月骼與各臟器等)的生理參 數擷取與其機能狀態判 L 、為嘬本發明之上述及其他目的 j %敛及優點能更明顯易懂, 辦夕、、上—A 重下文特舉本發明針對該生命 月^:血管部位之檢測作為較佳實施例,並配合所附圖式 ,作砰細說明如下: …口月:以第1圖所不’本發明第一實施例之生理狀態檢 f系統,包含—掃描裝置卜-光學參數裝置2、-生理狀 二平估早兀3及-顯示單元4。該掃据裝置〗係藉由光學 心測方式〔例如.紅外線或χ光等〕對—生命體進行外觀 輪靡之檢測〔例如身高與三圍等〕,或進一步揭取該生命 體之特^部位之生理參數;該掃描裝置〗與該-光學來數 裝置^及該生理狀態評估單元3連結。 4再參照第1圖所示,本發明第—實施例之光學參數 ΡΚ10418 2007/8/20 200908929 裝置2設有一暫存資料庫21、一輸出參數資料庫22與一 資料分析平台23。該暫存資料庫21係用以儲存該掃描裝 置1所獲得之一初步檢測結果,並於必要時輸出該初步檢 測結果至該資料分析平台23 ;該輸出參數資料庫22亦連 接該資料分析平台23,其内部建構有對應各種檢測參數之 最佳化設定參數;該資料分析平台23分別連結於該暫存資 料庫21、該輸出參數資料庫22及該掃描裝置1,其用以將 該暫存資料庫21内之初步檢測結果與該輸出參數資料庫 22内之設定參數進行分析比對,且將其分析結果回傳至該 掃描裝置1。更詳言之,該輸出參數資料庫22係預先由各 種不同之設定參數建立而成,該初步檢測結果至少對應有 一組設定爹數’以便措由該設定爹數決定該掃描裝置之最 佳設定參數值〔例如:掃描光源之種類選擇、掃描時間及 掃描光源之波長、功率或亮度等〕。 請再參照第1圖所示,本發明第一施例之生理狀態檢 測系統的生理狀態評估單元3設有一病歷資料庫31、一判 別資料庫32及一資料處理平台33。該病歷資料庫31係連 接該掃描裝置1,以接收儲存該掃描裝置所檢測之一進階 檢測結果;該判別資料庫32係用以儲存大量之檢測評估數 據;該資料處理平台33分別連接該病歷資料庫31、該判 別資料庫32與該顯示單元4,其用以將該病歷資料庫31 内之進階檢測結果與該判別資料庫32内之檢測評估數據 進行分析比對,且將該比對結果呈現於該顯示單元4。更 詳言之,該判別資料庫32係預先由多種不同之評估結果建 PK10418 2007/8/20 —9 — 200908929 立而成,且各該不同之評估結果均分別對應至少一進階檢 測結果,以便該資料處理平台33經由該進階檢測結果判讀 出該生命體之生理狀態。 請參照第1及2圖所示,生理狀態檢測系統主要依據 下列檢測方法進行檢測動作,其第一步驟s丨係利用該掃描 裝置1對該待測生命體進行—初步檢測,該掃描裝置^由 上至下且36〇度的沿著該待測生命體之表面三維型態進行 檢測,以獲取一基本特徵參數〔例如:身高與三圍作 為-初步檢測結果;接著,將該初步檢測結果傳送至該光 學參數裝置2之暫存資料庫21儲存且保密。200908929 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a method for detecting a physiological state and relating to the use of an output parameter database and a data analysis method - a preferred detection parameter, and The method and system for detecting the physiological state of the undetected test. "Physical physiology [prior art] With the advancement of technology, 'traditional is said to be invasive in human body detection, 'because it will be in the process of detection," it is not necessary to make damage, 2 this method has gradually been questioned and abandoned by all walks of life. . 3 In order to reduce the harm of the invasive detection method, there are many patents in the field, such as 1 using the physiological state test (10) system, such as the Republic of China 8:1, No. 1270364 "integrated physiological signal measuring device" invention patent The inductive interface module, the analog signal processing module, the digital conversion unit, the digital signal processing module, and the display unit + group unit are sequentially electrically connected. The sensing interface module includes two sensing electrodes and at least an optical probe set, wherein the sensing electrodes are used to extract one of the two: an electrocardiographic signal, and the optical probe set also captures a light plethysmogram signal. The analog signal processing module performs the analog-like format processing on the signal measured by the sensing interface module, and then passes through the _ ratio/digital conversion unit. Converting the analog format signal into a digital signal, and inputting the digital signal to a central processing unit of the digital signal processing unit module for performing an arithmetic process to obtain an echo signal corresponding to the electrocardiogram signal and the optical volumetric map signal respectively At least - the number of ECG teas and at least one blood vessel parameter are displayed on the display unit 10418 2007/8/20 200908929, whereby several physiological parameters are obtained for the medical professional to judge the cardiovascular condition of the subject. However, the above-mentioned conventional physiological state detecting system has the following disadvantages, for example, the conventional physiological state detecting system is configured to electrically connect the sensing electrode group to a part to be detected (for example, a heart or the like) of the subject to obtain and record the to-be-detected. Physiological parameters of the site, but long-term contact with the electrodes may cause a negative effect on the human body. Optical methods (such as infrared, X-ray) detect the vascular pulse wave, which uses the characteristics of reflection, absorption and penetration of light. The measurement is carried out, but it does not have different degrees of optical measurement for different living body conditions, which will cause waste of the light source, and excessive light penetration will also have a certain degree of damage to the human body. j In addition, the Republic of China Announcement No. 1267037 "Method for measuring the shape of three-dimensional surface shapes using coded reference points" and the invention patent for "Automatic feature point identification method for three-dimensional space human body scanning data" No. 1235〇41, both of which are Three-dimensional measurement of the shape of the human body surface is performed for the parent tester to obtain the appearance information of the subject (for example, characteristics such as height or circumference). However, the above-mentioned practice only recognizes the appearance of the human body, and still fails to detect the internal physiological state such as subcutaneous tissue or cardiovascular, resulting in no more detailed physiological state. For the above reasons, it is indeed necessary to further improve the above-described conventional physiological state detecting method and system thereof. In view of the fact that the present invention improves the above-mentioned conventional physiological state detecting method and system thereof, the system relates to the scanning device (four) detection. The method of pair-life pulse initial detection' and the initial PK10418 2007/8/20 200908929 number of initial remuneration is input into a data analysis platform for comparison, in order to correspond to the living body acquisition/best detection setting parameters, and Returning to the scanning device, causing the scanning device to perform advanced detection on the living body again according to the most-origin detection setting parameter, thereby obtaining more accurate physiological parameters, and setting the number of pairs by the optimal detection The woman also optimized the settings to reduce the impact of the detection light source on the human body. SUMMARY OF THE INVENTION The object of the present invention is to provide a physiological state detecting method and system thereof, which can first obtain an optimal detection setting parameter through a data analysis platform, so that the scanning melon is set according to the optimal detection setting parameter to the detection object. Performing advanced detection 're-analyzes the acquired image data through a discriminant database, so that the present invention can provide a safer and more convenient physiological test for the test subject and the medical staff. U Another object of the present invention is to provide a physiological state detecting method and a system thereof, wherein the scanning device performs an initial detection on a living body by using an optical detecting method, and the data analyzing platform obtains an optimum through the preliminary detecting result. The setting parameter is detected, so that the scanning device performs advanced detection on the living body again according to the optimal detection setting parameter, so that the invention has the effects of improving detection accuracy and reducing the risk of checking the service. A further object of the present invention is to provide a physiological state detecting method and a system thereof, wherein the poor material analysis platform is further connected with a discriminating database, so that the second data analysis platform turns the g Hai advanced detection result into the discriminant database. Performing a 7-knife analysis to provide an appropriate physiological assessment of the results of the advanced test results in the efficacy of the present invention. PK10418 2007/8/20 200908929 According to the physiological state inspection scanning device of the present invention, the m-square of the living body and its system are utilized by a cow net: surface enthalpy - preliminary detection to obtain - the first two = , , , 'Transfer the preliminary test result to the 1st parameter device to transfer the ruined parameter back to the scanning device, so that the bit is made into the 丨 化 并Shape 2: Γ corresponds to obtain the first-order test result, · by one fruit, and two Γ advanced test results correspond to - the evaluation result sub-output the evaluation result to a display *, and it is not early as 'medical staff An important reference for the diagnosis and after (four) treatment operations. [Embodiment] The physiological state detecting method of the present invention and its components are attached to various parts of a living carcass (for example, cardiovascular, genus, ,,, ' ', number god & pseudo-Gan, and various organs, etc.) The physiological parameters of the invention are judged by the functional state, and the advantages and advantages of the above-mentioned and other objects of the present invention are more obvious and easy to understand, and the present invention is directed to the life month ^: The detection of the blood vessel site is taken as a preferred embodiment, and is described in detail with reference to the following drawings: ... mouth month: the physiological state detection system of the first embodiment of the present invention, including - scanning The device-optical parameter device 2, the physiological shape, and the display unit 4. The scanning device is configured to detect the appearance of the living body by optical heart-measuring methods (for example, infrared rays or neon light, etc.), such as height and measurements, or to further extract the special parts of the living body. The physiological parameter; the scanning device is coupled to the optical device and the physiological state evaluation unit 3. 4 Referring again to Fig. 1, the optical parameter ΡΚ10418 2007/8/20 200908929 of the first embodiment of the present invention is provided with a temporary storage database 21, an output parameter database 22 and a data analysis platform 23. The temporary storage database 21 is configured to store a preliminary detection result obtained by the scanning device 1, and output the preliminary detection result to the data analysis platform 23 as necessary; the output parameter database 22 is also connected to the data analysis platform. 23, the internal construction has optimized setting parameters corresponding to various detection parameters; the data analysis platform 23 is respectively connected to the temporary storage database 21, the output parameter database 22 and the scanning device 1 for using the temporary The preliminary detection result in the storage database 21 is compared with the setting parameters in the output parameter database 22, and the analysis result is transmitted back to the scanning device 1. In more detail, the output parameter database 22 is pre-established by various setting parameters, and the preliminary detection result corresponds to at least one set of setting parameters 'to determine the optimal setting of the scanning device by the setting parameter. Parameter value (for example: type selection of scanning light source, scanning time and wavelength, power or brightness of the scanning source). Referring to Fig. 1, the physiological state evaluation unit 3 of the physiological condition detecting system of the first embodiment of the present invention is provided with a medical record database 31, a discrimination database 32, and a data processing platform 33. The medical record database 31 is connected to the scanning device 1 for receiving and storing one of the advanced detection results detected by the scanning device; the identification database 32 is for storing a large amount of detection evaluation data; the data processing platform 33 is respectively connected to the The medical record database 31, the identification database 32 and the display unit 4 are configured to analyze and compare the advanced detection result in the medical record database 31 with the detection evaluation data in the identification database 32, and The comparison result is presented on the display unit 4. More specifically, the discriminant database 32 is formed by a plurality of different evaluation results in advance, and each of the different evaluation results respectively corresponds to at least one advanced detection result. The data processing platform 33 determines the physiological state of the living body via the advanced detection result. Referring to Figures 1 and 2, the physiological state detecting system mainly performs the detecting operation according to the following detecting method, and the first step s is to perform preliminary detection on the living body to be tested by using the scanning device 1, the scanning device ^ Detecting the three-dimensional shape of the surface of the living body to be tested from top to bottom and 36 degrees to obtain a basic characteristic parameter (for example: height and measurements as a preliminary detection result; then, transmitting the preliminary detection result) The temporary storage database 21 to the optical parameter device 2 is stored and kept secret.
凊再蒼照第1及2圖所示,本發明第一實施例之第二 步驟S2係將該初步檢測結果經由該暫存㈣庫η傳送至 口亥貝料刀析平σ 23 ’由於相同之掃描光源對於不同之該待 測生命體具有㈣之撿顺果,其可能導致檢·果產生 些微誤差’故本發明L讀平纟23細該 =該^參數資料庫22中找㈣應該初步檢測結果之 口: : ^將5亥设定參數傳回該掃描裝置1,以便該掃 二之各項檢轉數〔例如:掃描光源之波長範圍、 ==I均對應該待測生命體之初步檢測結果 叫再芩妝第1及2圖所示,本發明第-實施例之第 :驟:,該掃描她以光學檢測方式進行 ,心=位的,測,即藉由該職置ι之發 早、,曰不〕毛出一掃描光源照射於該待測生命體之, PK10418 2007/8/20 200908929 血管部位,卫 〕接收通過該描裝置1之至少一接收器〔未緣示 進-步分柄生°Ρ體之光線;接著,該掃描裝置1传 Ϊ命體波長、頻率或衰退率,以取得該2 將該進階檢測結:= 目關茶數作進階檢測結果,並 料庫31 f諸存且;密$该生理狀態評估單元3之病歷資 清再表日g楚 步驟S4係料及2圖所示,本發明第一實施例之第四 資料處理平階檢測結果自該病歷資料庫31輸出至該 與該判別該_處理衫33將該進階檢測結果 ,進而提彳&人2所預先儲存之評估結果進行分析比對 1為醫護人之心血f部位的即時生理狀態,以作 J之,經比對德後績醫療作業之重要參考依據。更詳言 評估結果的該進階檢測結果之數據與代表正常之該 出該評估結果合時,該⑽處理平台幻將輪 參考診斷.反^員不早元4,以供專業醫護人員進一步 該評估結果的、i相進階檢測結果之數據與代表異常之 將輸出該據相符合時,該資料處理平台幻 行後續醫針:該顯示單元4 ’以便專業醫護人員進 及其系第^㈣二實施例之生理狀態檢測方法 作檢列。夢一貫施例係針對該生命體之骨路與腫瘤 :欠糾、错由物梅裝置"攀播所得之初步檢測結果於該 貝二刀析平台23比對該輸出參數資料庫22 ’獲得分別斜 =絡無雜私奴錢,其_魏娜裝置i且 兀成X進卩自化5又疋,該掃描裝置1即針對該生命體之肾骨久 ΡΚ1〇4ίδ 2007/8/20 200908929 與腫瘤進行掃描’獲得該生命體之骨愁與腫瘤掃推譽像之 進階檢測結果,該進階檢漁]結果於該資料處理平台與士亥 判別資料庫32之影像比斜,獲得相對應之評估影像,將S 上影像結果輸出顯示於该顯示單元4,以進—步診斷节生 命體之生理狀態。此外’由於該光學參數裝置2可提供該 掃描裝置1適當之各項檢測參數〔例如:掃描光源之波+ 範圍、亮度與掃描時間等〕,因此若適當控制參數,亦可 於掃描腫瘤影像時達成不需顯影劑之效果。 本發明藉由預先取得該待測生命體之基本特徵參數 ,以經由該資料分析平台23取得適合該待測生命體之最佳 檢測设定參數’藉此使該掃描裝置1可精確的取得該待測 生命體之心血管、骨路與腫瘤部位的相關參數及影像,進 而提升檢測精確性;同時,由於部分具較強穿透性之檢測 光源〔例如:X光〕具有危害該待測生命體之可能性,而 本發明係因應不同之該待測生命體所適合的光學掃描設定 條件亦不相同,而採取上述檢測方法,其係為了降低不必 要之光源耗損,並減少該掃描光源對該待測生命體所造成 的影響程度,進一夕有效提升檢測安全性。 上述生理狀態檢測方法及其系統係針對該生命體之 心血管、骨骼及腫瘤等部位之檢測作為較佳實施例,使本 發明之特徵及優點能更明顯易懂;其係適用於一生命體之 各部位(例如,骨骼、各臟器與组織等)的生理參數擷取與 其機能狀態判讀,在此不加贅述。 如上所述,相較於習用生理狀態檢測系統係於生命體 PK10418 2007/8/20 200908929 生理訊號操取時,固 a 命體條件差異而調整光射線參數,無法因應生 造成光源非必要之損耗與過“^間等參數設定, 用技術僅能針對待測對象之外觀取太或習 藉由該掃描裝置_光學檢測方本發明 傳至該掃描裝置’使該掃描裝置依據該最二 分析出該進階檢測結果所對應之1估;;狀 不僅源祕與避免過多錄穿透 由一判別㈣庫’以便將該進階檢騎果進行影像之^ 'ζΓ 比對’進而對應該進階檢測結果提供適當的生理評估,可 協助醫療人員進行後續評估判斷,有效提升診斷正確性與 效率。 、 雖然本發明已利用上述較佳實施例揭示,然立並非用 以限定本發明’任何熟習此技#者在不脫離本發明之精神 和範圍之内,相對上述實施舰行各種更動與修改仍屬本 發明所保護之技術m目此本發明之賴範,視後附 之申請專利範圍所界定者為準。 PK10418 2007/8/20 一 13 — 200908929 【圖式簡單說明】 第1圖:本發明較佳實施例之生理狀態檢測方法及其系 統之系統架構示意圖。 第2圖:本發明較佳實施例之生理狀態檢測方法及其系 統之方法步驟方塊流程圖。 【主要元件符號說明】In the first step S2 of the first embodiment of the present invention, the preliminary detection result is transmitted to the mouth of the mouth by the temporary storage (four) library η. The scanning light source has (4) the shun fruit for the different living body to be tested, which may cause some slight error in the detection and fruit. Therefore, the present invention L reads the flat 纟 23 fine = the ^ parameter database 22 finds (four) should be preliminary The result of the test result: : ^Return the 5 Hai setting parameter back to the scanning device 1 so that the number of rotations of the sweeping 2 (for example, the wavelength range of the scanning light source, ==I corresponds to the living body to be tested) The preliminary test results are shown in Figures 1 and 2 of the present invention. The first embodiment of the present invention is the first step of the present invention: the scan is performed by optical detection, and the heart = position, measured, that is, by the position Early, if not, a scanning light source is irradiated onto the living body to be tested, PK10418 2007/8/20 200908929 blood vessel part, Wei] receives at least one receiver through the drawing device 1 - the step of dividing the stem to produce the light of the corpus callosum; then, the scanning device 1 transmits the wavelength, frequency or decay of the corpus callosum Retreat rate to obtain the 2 the advanced detection knot: = the number of teas for the advanced detection results, and the library 31 f stored; and the physical status of the physiological state assessment unit 3 The step S4 and the second figure show that the fourth data processing level detection result of the first embodiment of the present invention is output from the medical record database 31 to the determination and the determination of the advanced detection result, and further The evaluation results pre-stored by Titan & 2 are analyzed and compared. 1 is the immediate physiological state of the medical staff's heart and blood, so as to be an important reference for comparing the medical work of the Germans. More specifically, the data of the advanced detection result of the evaluation result is combined with the representative of the evaluation result, and the (10) processing platform magic wheel reference diagnosis. The anti-personnel is not early 4, for the professional medical staff to further The data of the i-phase advanced detection result of the evaluation result and the representative abnormality will output the data, and the data processing platform phantom follow-up medical needle: the display unit 4' so that the professional medical staff enters the department and the fourth (4) The physiological state detecting method of the second embodiment is used as a check. The dream consistently applies to the bone path and the tumor of the living body: the initial detection result of the under-correction and the wrong thing, and the result of the climbing is obtained on the output parameter database 22 ' Separately = 络 无 无 无 络 络 络 络 络 络 络 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 魏 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置Scanning with the tumor to obtain the advanced detection results of the bones of the living body and the tumor scanning image, the result of the advanced fishery] is obtained by comparing the image processing platform with the image of the Shihai discriminant database 32. Corresponding evaluation images are displayed, and the image result output on S is displayed on the display unit 4 to further diagnose the physiological state of the living body. In addition, since the optical parameter device 2 can provide various detection parameters of the scanning device 1 (for example, wave + range of scanning light source, brightness and scanning time, etc.), if the parameters are properly controlled, the tumor image can also be scanned. Achieve the effect of not requiring a developer. The invention obtains the basic characteristic parameter of the living body to be tested in advance to obtain an optimal detection setting parameter suitable for the living body to be tested via the data analysis platform 23, thereby enabling the scanning device 1 to accurately acquire the The relevant parameters and images of the cardiovascular, bone path and tumor site of the living body to be tested, thereby improving the accuracy of detection; at the same time, because some of the highly penetrating detection light sources (for example: X-ray) have a hazard to the life to be tested The possibility of the body, and the present invention adopts the above detection method according to different optical scanning setting conditions suitable for the living body to be tested, which is to reduce the unnecessary light source loss and reduce the scanning light source pair. The degree of influence caused by the living body to be tested will effectively improve the safety of detection. The above physiological state detecting method and system thereof are directed to the detection of the cardiovascular, skeletal, and tumor parts of the living body as a preferred embodiment, so that the features and advantages of the present invention can be more clearly understood; The physiological parameters of each part (for example, bones, organs and tissues, etc.) are interpreted and their functional status is interpreted, and will not be described here. As described above, compared with the conventional physiological state detection system, when the physiological signal is taken, the physiological signal is manipulated, and the optical ray parameters are adjusted due to differences in the solid body conditions, and the unnecessary loss of the light source cannot be caused. With the parameter setting such as "^, the technique can only take the appearance of the object to be tested by the technique or by the scanning device_the optical detection method is transmitted to the scanning device", so that the scanning device analyzes according to the second The first test results correspond to the 1 estimate; the shape is not only the source secret and avoids the excessive recording penetration by a discriminating (four) library 'so that the advanced check riding fruit image ^ 'ζΓ comparison' and then the advanced The test results provide an appropriate physiological evaluation, which can assist the medical personnel to carry out subsequent evaluation and judgment, and effectively improve the correctness and efficiency of the diagnosis. Although the present invention has been disclosed by the above preferred embodiments, it is not intended to limit the present invention. Those skilled in the art without departing from the spirit and scope of the present invention, the various modifications and modifications of the above-mentioned implementation of the ship are still the technical protections of the present invention. The scope of the patent application is defined by the scope of the patent application. PK10418 2007/8/20-13 - 200908929 [Simplified illustration] FIG. 1 : Physiological state detection method and system thereof according to a preferred embodiment of the present invention Schematic diagram of the system architecture. Fig. 2 is a block diagram of the method steps of the physiological state detecting method and system of the preferred embodiment of the present invention.
1 掃描裝置 2 光學參數裝置 21 暫存資料庫 22 輸出爹數資料庫 23 資料分析平台 3 生理狀態評估單元 31 病歷資料庫 32 判別資料庫 33 資料處理平台 4 顯示單元 PK10418 2007/8/20 141 Scanning device 2 Optical parameter device 21 Temporary database 22 Output parameter database 23 Data analysis platform 3 Physiological status evaluation unit 31 Medical record database 32 Discriminant database 33 Data processing platform 4 Display unit PK10418 2007/8/20 14