201247167 六、發明說明: 【發明所屬之技術領域】 種= 貝料彙整裝置與其系統,特別有關於一種彙整生理狀態 資訊的雲端值ϋ及其觀嶋統。 〜 【先前技術】 g為能確保民眾的健康與減少醫療院所的S擔,居家護理已成 為m統巾相當重要的—環^而目前健賴護設備(例如體 重片、脈度找域計等·..)的製造廠前是各自發展獨立的健康 …、ί又備’造成各廠商間的健康照護設财論是在資料輸出方式 或資訊傳輪方式都沒有統一的標準。 同時’在顯示照護資訊的硬體方面也沒有統—規格,並且絕 大部分的健賴護設備雖有喊獨立資赠輸裝置。由於各家廠 商並無提出制的資訊交換賴,所以目前並無可行的方式來整 合各廠牌健康照護設備的軟硬體,造成各服務平台或醫療院所在 整合使用者的生理狀態資訊的處理上多有不便。 【發明内容】 鑒於以上的問題,本發明在於提供一種使用者生理狀態資訊 的觀測系統’用以彙整不同使用者的生理狀態資訊。 本發明所揭露之使用者生理狀態資訊的觀測系統包括:客戶 端、健康照魏置與雲朝㈣。客戶端向雲輔服ϋ發出登入 要求或接收來自於雲端伺服器的顯示資訊。健康照護裝置用以偵 測使用者的生理狀態,並擷取使用者的生理狀態資訊。健康照護 201247167 裝置另包括生理狀態_單元與連鱗元。健賴魏置可以曰 =二定為血壓計、體重計、溫度計、血糖計、睡眠資訊記‘ 或计v器。每—健康照魏置儲存各自的種崎訊。生理狀 測單兀紀錄制者的生雜_訊,並由連線單元發送包含種類 資訊之生理狀態資訊。 # 雲端鍊器分別電性連接於客戶端與健康照護裝置。雲端飼 服器更包減理單元、訊_收單元、人齡面與雌單^。訊 號接收單元根據麵資訊判斷健康照護裝置的麵。處理單元將 所接收的生理狀態資訊寫人儲存單元,並產生相應的顯示資訊。 .雲端飼服讀據所接收的登人要求將生理狀態資訊套紐人機介 面中,並產生對應的顯科訊。最後雲端伺服器向客戶端發送所 產生的顯示資訊。 此外,本發明的觀測系統更包括遠端伺服器。遠端词服器可 以透過網際網路的方式連接於雲端舰器。客戶端可以透過雲端 鑛器向遠端舰器發送資訊分享要求,藉以將制者儲存在雲 ,飼服器中的生理狀態#訊轉發至遠端伺服器。再透過遠端飼服 器公布使用者的生理狀態資訊。 本發明另提出-種朗者生理狀態觀啦統,其係包 括健康照難置、碱制裝置與雲·㈣。健康 有生理狀態_單域連線單元。生理狀態_單元紀錄使用者 的生理狀’由連線單元顧包含相應健康照縣置的種類 資訊之生理狀態資訊。訊號細懷置電性連接於健康照護裝置。 201247167 訊號偵測裝置用以偵測健康照護裝置是否發出起始要求,於接收 起始要求後進行接收生理狀態資訊。 农端祠服Hf性連接於喊侧裝置。雲糊㈣具有處理 早疋、訊號接收單元、人機介面與儲存單元。訊麵測裝置將生 里狀1、貝訊傳送至雲端伺服器。處理單元透過訊號接收單元所接 收的麵資期以觸健賴護裝置的種類。處理單元將所接收 的生理狀Μ喊人儲存單元,並將生理狀態資訊套用至人機介 面中並產生對應的顯示資訊。 除了上述實施態樣外,本發明更提出一種使用者生理狀態資 訊的觀測系統’其係包括:健康照護裝置與客戶端。健康照護裝 置八有生魏態仙單元與連線單元。生理狀態侧單元紀錄使 者的生理狀態-貝訊,由連線單元發送包含相應健康照護裝置的 種類貝訊之生理狀態資訊。客戶端接收生理狀態資訊。客戶端更 包括處理單元與顯示單元。處理單元根據所減__訊判斷 健康’、、、護裝置_類,並於顯示單元上顯示生理狀態資訊。 本發明亦提出相應-種彙整生理狀態資訊的#端健器,用 以策集與顯示所接收的生理狀態資訊。本發明的雲端伺服器包 括·訊號接收單元、儲存單元與處理單元。訊號触單元接收由 健康照護裝置所發出的生理狀態資訊、顯示要求或資訊分享要 求。儲存早讀存所接㈣的生理狀態資訊與人機介面。處理單 凡電性連接於訊號接收單元與儲存單元。處理單元根據顯示要求 將相應的生理狀態資訊套用至人機介面並產生對應的顯示資訊。 201247167 該處理單70根據資訊分享要求賴示資訊騎至遠端伺服器。 本毛月更揭路之一種彙整生理狀態資訊的雲端伺服器,其係 包括.减接收單元、儲存單元與處理單元。訊號接收單元接收 由健康照射置所發出的生理狀態資訊、顯示要求或資訊分享要 求。儲存單元儲存生理狀_訊與人機介面。處理單元電性連接 於。fl號接收單7G射轉單元。處理單元根據齡要求將相應的生 理狀心資騎用至人機介面並赶對應_示資訊。處理單元根 據=貝》fU享要求將顯示資訊轉發至遠端飼服器。 本發明所提出的雲端魏^及其朗祕可以㈣的傳送使 用者的生理狀態資訊。而且雲端伺服器可以自動_識健康照護 裝置的種類’並根據使用者的_時㈣*__生理狀態資 2進行排序。糾,使肖㈣_分術輸理繼訊 轉發至遠端舰H,使得其喊財Μ魏上倾生 狀態。 貫施例詳細說 有關本發_概財作,賊合圖式作最佳 明如下。 【實施方式】 竿構干立0 «^目」所7F,其料本發明之帛—種實施態樣的 圖。本發明的觀測系_包括··客戶端n 健120、訊號偵測裝置請與雲端錬請。在本發明中= =;置是:為個,—^ 持式電子裝置。偏者可以透過客戶端11G以魏(_)或 201247167 (wireless)傳輸的方式連接至雲端伺服器14〇。使用者可以透過 客戶端110向雲端伺服器140發出登入要求或接收來自於雲端伺 服器140的顯示資訊。 健康照5蔓裝置120更包括生理狀態彳貞測單元121與連線單元 122。生理狀態偵測單元121用以偵測使用者的生理狀態資訊。其 中,健康照濩裝置120係為血壓計、體重計、溫度計、血糖計、 睡眠資訊記錄器或計步器。而根據健康照護裝置12〇的不同使得 生理狀·%資訊可以是使用者的血壓、體重、體溫、血糖、睡眠時 間或走路錄。社雜態侧料121 制者的生理狀態 資錢,連線單το 122隨即將種類資訊封裝至生理狀態資訊。連 線單元122可以透過無線網路傳輸協定(ffiEE 8〇21系列)、藍牙 無線傳輸協定、超寬頻無線傳輸協定(ultra_WideBand,UWB)、 近場無線傳輸協定(NearFieldC〇mmUnication,騰)、通用序列 匯流排(UniversalSerialBus,USB) ' 網路線(ieee8〇23 系列) 或火線(Firewire),將生理狀態資訊傳送至訊號偵測裝置i3〇。 對於不同麵的健康照護裳置12〇則可以指派相應的麵資 訊’使得雲端祠服器140可以判別使用者所記錄的生理狀態資訊。 例如:將血壓計的種類資訊指派為「嶋」、體重計的種類資訊指 派為「002」或溫度計的種類資訊指派為「_」,此為本發明的舉 例。兄明而已並非僅侷限此一編碼方式。對於健康照護裝置m的 廠商而δ ’不需要對於每一款新推出的健康照護裝置指派新 的編號。對於雲端飼服器140而言,雲端伺服器14〇僅需要知道 8 201247167 麵資訊所對朗裝置即可進行域__譯(其辦處理將 於後文詳述)’而不需要持續的更新健康照護裝置⑽的型號。 訊號偵測袭置13G分別連接於健康照_置12()與雲端飼服 器140之間。訊號_裝f 13〇可以是獨立的裝置,也可以被内 嵌於其他電子裝置之中。舉例來說,訊號偵測裝置130可以是接 收器u_e),·訊韻測農置130也可以是内嵌於8〇2 ιι系列的 無線基地纟(A_PGint,AP)巾。訊賴職置i3G針對所偵 測的區域範_是财歸賴裝置12G發出起始要求。當健康 照護裝置120發出起始要求時,訊號伽彳裝置13() _進行接收 來自於健康照護裝置120的生理狀態資訊。本發明的每一訊號偵 測裝置130可分別指派所偵測的區域範圍的大小。 舉例來說,對於血糖計或體重計隸置而言,不會佔用較大 區域範圍。因此訊麵職置⑽可吨過藍輯輸或近場無線 傳輸等方式來對健康照護裝置12〇進行偵測。若是健康照護裝置 ⑽係為計步器’則訊號偵測裝置13〇可以透過8〇2 ιι系列的無 線肩路來接收健康照魏置12G所發出的触要求或生理狀態資 訊。 ' 雲端飼服器140電性連接於訊號偵測裝置13〇。雲端舰器 =0具有處理單元⑷、訊號接收單元142、齡單元143與人機 介面144。訊號偵測裝置130將生理狀態資訊傳送至雲端伺服器 H〇。處理私141透過訊號接收單元142所接__資訊,判 斷健康照縣置120的麵為何。接著,處理單元⑷將所接收 201247167 的生理狀態資訊與相關資訊(例如: 的種類或出產廠商等)寫人儲存單元14= a健康照錄置120 處理單元⑷將生理狀態資訊轉譯為雲端饲服器 的顯示資訊。處理單元141在接獲 斤棱仪 七拄旁饰一", 发J客戶% 所發出的登入要 = 則糊相應客戶端⑽的顯示資訊並回解 _端m。而生理狀態資訊可以是透過腳本語言⑼⑽、 PHP、ASP或:TSP等開發語言進行轉譯為顯示資訊的網 即本發明的人機介面144)。 ' 以下係以血_生理狀態資訊作為朗。假設使用者利用血 壓計量測級祕為丨G6 mmHg,而舒_為& 。健康昭 護裝置W隨即將該些資料紀錄下來,也可以同時紀錄所量測的 相關貧訊(例如:量測時間)。在此將所量_結果以計算機語古 的陣列型態(array type)表示,其中在攔位5與攔位6分別記錄 收縮壓與舒張壓: data[]={44^72,49^77^6,106,65,80^υ8748〇32,0Α〇Α〇,〇 ,0,216} 接下來,健賴護裝置12G將·資料傳送至雲端飼服器 ⑽。雲端舰器可以透過下述片段程式碼進行·格式的轉譯: def read一data(self): data = self.serial.read(256) #print str(int(data[0])) #if Jen(data)==〇: 201247167201247167 VI. Description of the invention: [Technical field to which the invention pertains] Species = a material-feeding device and its system, in particular, a cloud value and its view system for collecting physiological state information. ~ [Prior technology] g is to ensure the health of the people and reduce the burden of medical institutions, home care has become very important for the m-clothes - the current health care equipment (such as weight tablets, pulse look Before the manufacturing plant of ..), it is the development of independent health... and ί, 'there is no unified standard for the data export method or the information transfer method. At the same time, there is no uniform specification for the hardware that displays the care information, and most of the health care equipments have shouted independent gifts. Since there is no information exchange between the various manufacturers, there is currently no feasible way to integrate the hardware and software of each brand of health care equipment, resulting in the processing of physiological status information of the integrated users of the service platforms or medical institutions. There are many inconveniences. SUMMARY OF THE INVENTION In view of the above problems, the present invention provides an observation system for user physiological state information to collect physiological state information of different users. The observing system for the physiological state information of the user disclosed in the present invention includes: a client, a health photo Wei and a cloud (4). The client sends a login request to the cloud auxiliary service or receives display information from the cloud server. The health care device is used to detect the physiological state of the user and retrieve the physiological state information of the user. Health Care 201247167 The device also includes physiological status _ unit and even scale elements. Jian Lai Wei can be 曰 = two for the sphygmomanometer, weight scale, thermometer, blood glucose meter, sleep information ‘ or count v device. Every health photo store stores its own species. The physiological condition is the data of the physiological information of the type information. # 云链链器 is electrically connected to the client and the health care device. The cloud feeding device is also equipped with a reduction unit, a message unit, a human face and a female unit. The signal receiving unit judges the face of the health care device based on the face information. The processing unit writes the received physiological state information to the human storage unit and generates corresponding display information. The cloud feeding service reads the physiological requirements information in the interface of the human body and generates the corresponding information. Finally, the cloud server sends the generated display information to the client. Furthermore, the observing system of the present invention further includes a remote server. The remote word server can be connected to the cloud ship through the Internet. The client can send a message sharing request to the remote ship through the cloud miner, so as to transfer the physiological state stored in the cloud and the feeder to the remote server. The user's physiological status information is then published through the remote feeding device. The invention further proposes a kind of physiological state of the Langer, which includes a health photo, a caustic device and a cloud (4). Health has a physiological state _ single domain connection unit. The physiological state _ unit records the physiological state of the user's by the connection unit to include the physiological state information of the type information of the corresponding health photo county. The signal is electrically connected to the health care device. 201247167 The signal detection device is used to detect whether the health care device issues an initial request, and receives physiological status information after receiving the initial request. The agricultural end of the Hf is connected to the shouting device. The cloud paste (4) has processing early, signal receiving unit, man-machine interface and storage unit. The information surface measuring device transmits the live shape 1 to the cloud server. The processing unit receives the face-to-face period received by the signal receiving unit to determine the type of the device. The processing unit screams the received physiological condition to the human storage unit, and applies the physiological state information to the human machine interface to generate corresponding display information. In addition to the above embodiments, the present invention further provides an observation system for user physiological state information, which includes: a health care device and a client. The health care device has eight Weixianxian units and connection units. The physiological state side unit records the physiological state of the occupant, and the physiological state information of the type of the babies containing the corresponding health care device is transmitted by the connection unit. The client receives physiological status information. The client further includes a processing unit and a display unit. The processing unit judges the health, the device, and the device according to the reduced __, and displays the physiological state information on the display unit. The invention also proposes a corresponding-type health tool for collecting physiological state information for collecting and displaying the received physiological state information. The cloud server of the present invention comprises a signal receiving unit, a storage unit and a processing unit. The signal touch unit receives physiological status information, display requirements or information sharing requirements issued by the health care device. Store the physiological status information and human-machine interface of the early reading and storage (4). The processing unit is electrically connected to the signal receiving unit and the storage unit. The processing unit applies the corresponding physiological state information to the human machine interface according to the display requirement and generates corresponding display information. 201247167 The processing unit 70 rides the information to the remote server according to the information sharing request. This cloud month is a kind of cloud server that collects physiological state information, which includes a minus receiving unit, a storage unit and a processing unit. The signal receiving unit receives physiological state information, display requirements or information sharing requirements issued by the health irradiation device. The storage unit stores the physiological state and the human interface. The processing unit is electrically connected to. The fl number receives a single 7G revolving unit. The processing unit rides the corresponding physiological heart to the human-machine interface according to the age requirement and responds to the information. The processing unit forwards the display information to the remote feeding device according to the requirement of the “F”. The cloud Wei and its secrets proposed by the present invention can transmit the physiological state information of the user. Moreover, the cloud server can automatically sort the type of health care device and sort according to the user's time (4) *__ physiological state. Correction, so that Xiao (four) _ sub-transportation relay is forwarded to the remote ship H, making it screaming for money. The detailed examples of the implementation of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ [Embodiment] The structure of the present invention is shown in Fig. 7F. The observing system of the present invention includes the client n health 120, and the signal detecting device please contact the cloud. In the present invention, ==; is set to: a, -^ holding electronic device. The partial user can connect to the cloud server 14〇 through the client 11G in the form of Wei (_) or 201247167 (wireless) transmission. The user can send a login request to the cloud server 140 through the client 110 or receive display information from the cloud server 140. The health photo 5 device 120 further includes a physiological state detecting unit 121 and a connecting unit 122. The physiological state detecting unit 121 is configured to detect physiological state information of the user. Among them, the health care device 120 is a sphygmomanometer, a weight scale, a thermometer, a blood glucose meter, a sleep information recorder, or a pedometer. Depending on the health care device 12, the physiological information % information may be the user's blood pressure, body weight, body temperature, blood sugar, sleep time or walking record. The physiological state of the system side of the 121 side of the system, the money, the connection single το 122 will be packaged into the physiological state information. The connection unit 122 can communicate through a wireless network transmission protocol (ffiEE 8〇21 series), a Bluetooth wireless transmission protocol, an ultra-wideband wireless transmission protocol (ultra_WideBand, UWB), a near field wireless transmission protocol (NearFieldC〇mmUnication, a universal sequence), a universal sequence The bus (UniversalSerialBus, USB) 'network route (ieee8〇23 series) or Firewire (Firewire) transmits the physiological status information to the signal detection device i3〇. If the health care of different faces is set to 12, then the corresponding face information can be assigned to enable the cloud server 140 to discriminate the physiological state information recorded by the user. For example, the type information of the sphygmomanometer is assigned as "嶋", the type information of the weight scale is designated as "002", or the type information of the thermometer is assigned "_", which is an example of the present invention. Brother Ming is not limited to this coding method. For the manufacturer of the health care device m, δ ' does not need to assign a new number to each new health care device. For the cloud server 140, the cloud server 14 only needs to know that the 2012 167 information can be used for domain __ translation (the processing will be described later) 'without continuous updates. The model number of the health care device (10). The signal detection attack 13G is connected between the health photo_set 12() and the cloud feed server 140, respectively. The signal_installation f 13〇 can be a stand-alone device or can be embedded in other electronic devices. For example, the signal detecting device 130 may be a receiver u_e), and the signal monitoring device 130 may also be a wireless base station (A_PGint, AP) towel embedded in the 8〇2 ιι series. Xie Lai's i3G is the starting point for the 12G that is being investigated. When the health care device 120 issues an initial request, the signal gamma device 13() _ receives physiological state information from the health care device 120. Each of the signal detecting devices 130 of the present invention can respectively assign a size of the detected range of regions. For example, for a blood glucose meter or a scale stand, it does not occupy a large area. Therefore, the signal placement (10) can detect the health care device 12 by means of a blue-to-blue transmission or near-field wireless transmission. If the health care device (10) is a pedometer, then the signal detecting device 13 can receive the contact or physiological status information sent by the health care 12G through the wireless shoulder of the 8〇2 ι series. The cloud feeding device 140 is electrically connected to the signal detecting device 13A. The cloud ship =0 has a processing unit (4), a signal receiving unit 142, an age unit 143, and a human machine interface 144. The signal detecting device 130 transmits the physiological state information to the cloud server H〇. The processing private 141 transmits the __ information received by the signal receiving unit 142 to determine the face of the health photo county 120. Next, the processing unit (4) writes the physiological state information and related information (for example: type or manufacturer, etc.) of the received 201247167 to the human storage unit 14 = a health photo recording 120 processing unit (4) translates the physiological state information into a cloud feeding service Display information. The processing unit 141 is decorated with a quotation of the 棱 仪 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The physiological state information may be a network translated into display information by a development language such as a scripting language (9) (10), PHP, ASP, or TSP, that is, a human-machine interface 144 of the present invention. 'The following is based on blood _ physiological status information as a lang. Assume that the user uses the blood pressure measurement level to determine 丨G6 mmHg, and Shu_ is & The health care device W can record the relevant information at the same time, and can also record the relevant poor information (for example, measurement time). Here, the quantity _ results are expressed in the array type of computer language, in which the systolic and diastolic pressures are recorded in the block 5 and the block 6 respectively: data[]={44^72,49^77 ^6,106,65,80^υ8748〇32,0Α〇Α〇,〇,0,216} Next, the health care device 12G transmits the data to the cloud feeding device (10). The cloud player can perform the format translation through the following fragment code: def read-data(self): data = self.serial.read(256) #print str(int(data[0])) #if Jen( Data)==〇: 201247167
#print "NULL if len(data)>7: if ord(data[0]) == 38 and ord(data[l]) == 2 : self.parsetemp(data) elif ord(data[5]) == 77 and ord(data[6]) == 76 : self.parse_bp(data) elif ord(data[5]) == 221 and ord(data[6]) == 224 : self.parsebg(data) def parse_bp(self,data): print "systolic = " + str( ord(data[7].)) + " diastolic = "+ str ( ord(data[8])) self.emit(SIGNAL(Mfill_bp"), str( ord(data[7])) str (ord(data[8])) ) 當雲端伺服器140完成轉議後,雲端伺服器14〇將會保存該 些資料。當使用者透過客戶端11〇登入雲端伺服器14〇時,雲端 祠服器140將相應使用者的顯示資訊回應給客戶端ιι〇。在回應給 客戶端110的同時,雲端飼服$ 14〇會根據前述所轉譯的資料^ 筆填入顯示資訊之帽應位置的欄位。雲端伺服器⑽根據生理 狀態資訊的產生時間與健康照護裝置m的種類進行分類 戶端110上顯示已分類後的顯示資訊。 、 —為清楚朗本競態_運作触,料配合 不,其係林發明的此—實施紐運作流糊: 」所 201247167 步驟S21G :健康職裝置獲取使用者的生理狀態資訊; 步驟S22G :健賴護裝置發送包含對應種㈣訊的生理狀態 資訊至雲端伺服器; 步驟S23G .魏伺㈣根據種類資訊判斷健賴、護裝置的種 類; 步驟S24〇 ·雲端伺服器將所接收的生理狀態資訊寫入儲存單 元; 步驟S25G .處理單元根據所接收的登人要求並透過人機介面 將生理狀態資訊轉譯為相對應的顯示資訊;以及 步驟S26G :雲端鑛器向客戶端發送所產生的顯示資訊。 首先,使用者操作健康照護裝置W。在完成_後,健康照 護裝置UG會獲得烟者的職生雜態資訊。接著,健康照護 裝置120將麵資訊與生理狀態資訊一同傳送至雲端飼服器⑽。 如同前文所述,雲端伺服器140可以根據種類資訊判斷健康 照護裝置120的種類。雲端伺服器14〇依據健康照護裝置12〇的 種類將使用者的生理狀態資訊進行相應的分類。舉例來說,使用 者依序在第一時間、第二時間與第三時間分別透過廠商八所生產 的體重計1、廠商B所生產的體重計2與廠商C所生產的溫度計 進行量測。 雲端伺服器140在第一時間收到生理狀態資訊時,雲端伺服 器140可以根據體重計1的種類資訊(例如為前述所舉例子,體 重計種類資訊為「002」)得知所接收的生理狀態資訊係為使用者 201247167 的體重值。雲端飼服器將令筌决 •⑷中。~^章生理狀態減紀錄於儲存單元 • _丨 _測體重時,體重計2會將第二時間 到的體重值傳送雲端伺服器⑽。由於雲端伺服器14〇之中 ^爾第-時間所取得體重值,__⑽依據對不同時 _的體重值將其記錄至儲存單元143中。 ” 3服14G接收溫度計所傳送來的生理狀能資訊 端從種類資訊可以得知生理狀態資訊係為使时的體溫 1溫度計的種類資訊與體重計的種類資訊不同,因此處理 早π⑷將體溫值記錄在儲存單元143中且相異於體重值位置。 本發明僅需要知道健康照護裝置12G的種類資訊,而不需要進一 步的紀Γ康照護裝請的型號。這樣—來,雲端錬器140 可以不6要持續的更新健康職裝置12G的型號。 、使用者力X透過客戶端11G向雲朝服H 14G發出登入要 夂而处里單疋141根據所接收的登入要求並透過人機介面⑷ 將生理狀態資訊轉譯為相對應的顯示資訊,請參考「第3圖」所 示,「其係為本發明透過人機介面144所呈現的顯示資訊之晝面。 在「第3圖」中的顯示資訊分別包括使用者資訊(例如:照片、 或上次登入時間等)、資訊分頁與各項生理狀態資訊(在「第 係以體重值、血糖、血壓與體溫作為表示)。使用者可以從顯示次」 机中觀看之前儲存的生理狀態資訊。 -相對於第一種實施態樣,本發明更可以對第-種實施態樣進 行下列的變化。請參考「第4圖」所示,其係為本發明之第二種 13 201247167 實施態樣的架構示意圖。第二種實施態樣的觀測系統100包括: 客戶端110、健康照護裝置120、與雲端伺服器140。客戶端11〇 透過網路連接於雲端伺服器140。雲端伺服器140電性連接於健康 照護裝置120。本實施態樣的健康照護裝置120係透過連線單元 122將所接收到的生理狀態資訊傳送至雲端伺服器140。 5月參考「第5圖」所示,其係為本發明之第三種實施態樣的 架構示意圖。第三種實施態樣的觀測系統1〇〇包括:客戶端、 健康照濩裝置12G、訊麵測裝13G、雲翻服器14Q與遠端祠 服器150。 说號偵測裝置130分別電性連接健康照護裝置12〇與雲端伺 服器140之間。訊號债測裝置13〇除了可以一對一的接收健康照 濩裝置120所發出的生理狀態資訊,也可以一對多台健康照護裝 置120。在本實施態樣中,雲端伺服器14〇另透過網路連接客戶端 11〇與遠端飼服器150。遠端伺服器150係為社群網站、討論區網 站或入口網站等。客戶端110除了向雲端伺服器140發出登入要 、、卜客戶%> 110也會透過雲端伺服器14〇向發出遠端伺服器15〇 毛出貝訊分享要求。使用者可峨雲端舰H 14G巾所儲存的生 理,態資訊中選擇任—筆,並對所選出的生理狀態f訊向遠端飼 月=器1%發出分享該筆資賴要求。當遠糊㈣w接受資訊 :予要求<4 ’遠端伺㈣15G將所接收的生理狀態資訊依照所顯 不格式進彳了張狀處理’藉以讓其他使用者可以觀看。 承則文之例子’使用者A從雲端伺服器140中所儲存的三筆 201247167 生理狀態資訊(分別為第—時間、第二時間與第三時間所儲存的 生理狀態資訊)中選擇第三時間所儲存的體溫值。假設遠端娜 器150係為如咖伙社群網站(也可以是她打或咖也等網站), 且使用者A已經在遠端舰器15G上註冊過域的帳號。當使用 者透過雲端伺服器140向遠端伺服器15〇發出該筆體溫值的資訊 刀享要求’遠朝服H 15〇將所接收的生理狀態資訊進行張貼於 使用者A的€ 5板上。如此__來,其他使用者可以不需連接到雲 端伺服器H0,也可以從遠端鎌器⑽上觀看到使用者A的生 理狀態資訊。 本發明除了上述實雜樣外,亦可以進行下述雜化,請參 考第6圖」所不’其係為本發明之第四種實施態樣的架構示意 圖。第四實施態樣的觀測系統励包括:客戶端11〇、訊號偵測裝 置130與健賴護裝置12()。訊號侧裝置13()分別雜連接於客 戶端no與健康照護奸120β健康照護裝置12以包括生理狀能 _單元121與魏單元122。在生雜解元m獲取使用 者的生理狀態資赠,連線單元m隨即將觀資崎袭至生理 狀態貝況之中。連線單疋122發送起始要求給訊號偵測裝置⑽。 當訊號偵職置⑽接_起始要求後,訊雜職置13〇除了 可以將起鮮求轉發至客丨端11G,訊賴測裝置㈣也可以開始 接收生理狀態資訊。由於客戶端11〇並非一直處於運作狀能,因。 此訊號偵贼置13G可以暫存所接㈣生雜隸訊,直至客戶 端110運行時訊號偵測裝i 130才依序將生理狀態資訊傳送至客 201247167 戶端110。 明參考「第7圖」所7F ’其係為本發明之第五種實施態樣的 架構示意圖。第五種實施態樣的觀測系統100包括:客戶端110 與健康照護裝置心此-實施態樣中,客戶端110可以以無線或 有線的方式連接於健康照護裝置120。在本實施態樣中,生理狀態 偵測單元m在取得使用者的生理狀態資訊後,將透過連線單元 122將生理狀態資訊傳送給客戶端11()。客戶端⑽除了可以直接 記錄所接收的生理狀態資訊’也可謂生理狀態資訊上傳到雲端 词服器140或遠端伺服器150。 .本發明所提出的雲端値H 140及其觀測系、统謂可以即時 的傳送使用者的生理狀態資訊。而且雲端値器⑽可以自動的 辨識健康賴裝置120 _類’並根據使用者的記錄時間對不同 麵的生理狀態資訊進行排序。使用者可以透過分享的方式將生 理狀態資輯發至遠端錬H 15G,使得其他使时可以追縱上傳 使用者的生理耗。再者,本發明不f要對所有賴康照護裝置 120給定相應的型號。本發明不需持續地維護各家廠商所推出的健 康照護裝置120之型號。 雖然本發明赠述之較佳實施例揭露如上,然其並非用以限 定本發明’任何熟習相像技藝者’在不脫離本發明之精神和範圍 内’當可作麵之更動朗飾,因此本發明之專娜護範圍須視 本說明書所附之申請專利範圍所界定者為準。 【圖式簡單說明】 16 201247167 第1圖係為本發明之第一種實施態樣的架構示意圖。 第2圖係為本發明的此一實施態樣運作流程圖。 第3圖係為本發明透過人機介面所呈現的顯示資訊之晝面。 第4圖係為本發明之第二種實施態樣的架構示意圖。 第5圖係為本發明之第三種實施態樣的架構示意圖。 第6圖係為本發明之第四種實施態樣的架構示意圖。 第7圖係為本發明之第五種實施態樣的架構示意圖。 【主要元件符號說明】 100 觀測系統 11.0 客戶端 120 健康照護裝置 121 生理狀態偵測單元 122 連線單元 130 訊號偵測裝置 140 雲端伺服器 141 處理單元 142 訊號接收單元 143 儲存單元 144 人機介面 150 遠端伺服器 17#print "NULL if len(data)>7: if ord(data[0]) == 38 and ord(data[l]) == 2 : self.parsetemp(data) elif ord(data[5] ) == 77 and ord(data[6]) == 76 : self.parse_bp(data) elif ord(data[5]) == 221 and ord(data[6]) == 224 : self.parsebg(data Def parse_bp(self,data): print "systolic = " + str( ord(data[7].)) + " diastolic = "+ str ( ord(data[8])) self.emit( SIGNAL(Mfill_bp"), str( ord(data[7])) str (ord(data[8]))) After the cloud server 140 completes the transfer, the cloud server 14 will save the data. When the user logs in to the cloud server 14 through the client 11, the cloud server 140 responds to the client ιι〇 by displaying the corresponding user's display information. In response to the client 110, the cloud feeding service will fill in the field indicating the location of the information in accordance with the translated information. The cloud server (10) sorts the generation time of the physiological state information and the type of the health care device m. The classified display information is displayed on the terminal 110. - In order to understand the Langben competition _ operational touch, it is expected that the cooperation is not the same, the system invented this - the implementation of the New Zealand operation paste: "201247167 Step S21G: Health equipment to obtain the user's physiological status information; Step S22G: Health The protection device sends the physiological state information including the corresponding species (four) messages to the cloud server; Step S23G. Wei servo (4) determines the type of the health care device according to the type information; Step S24〇 The cloud server receives the physiological state information Writing to the storage unit; Step S25G. The processing unit translates the physiological state information into the corresponding display information according to the received login request and through the human machine interface; and step S26G: the cloud mining device sends the generated display information to the client . First, the user operates the health care device W. After the completion of _, the health care device UG will get the miscellaneous information of the smoker's occupation. Next, the health care device 120 transmits the facial information along with the physiological state information to the cloud feeding device (10). As described above, the cloud server 140 can determine the type of the health care device 120 based on the genre information. The cloud server 14 classifies the physiological state information of the user according to the type of the health care device 12A. For example, the user sequentially measures the weights produced by the manufacturer's eight scales, the manufacturer's weight scale 2, and the manufacturer C at the first time, the second time, and the third time, respectively. When the cloud server 140 receives the physiological state information at the first time, the cloud server 140 can know the received physiological condition according to the type information of the weight scale 1 (for example, the above-mentioned example, the weight type information is "002"). The status information is the weight of the user 201247167. The cloud feeding machine will make a decision in (4). ~^ Chapter physiological state minus record in the storage unit • _丨 _ When measuring weight, the weight scale 2 will transfer the weight value of the second time to the cloud server (10). Due to the weight value obtained by the cloud server 14〇, the __(10) is recorded in the storage unit 143 according to the weight value of the different time_. 3 The physiological information transmitted by the 14G receiving thermometer can be obtained from the type information. The physiological state information is the temperature information of the thermometer. The type information of the thermometer is different from the type information of the weight meter. Therefore, the body temperature value is treated as early as π(4). It is recorded in the storage unit 143 and is different from the weight value position. The present invention only needs to know the type information of the health care device 12G, and does not require further models of the protective device. Thus, the cloud device 140 can No. 6 to continuously update the model of the 12G of the health service device. The user force X sends a login request to the cloud H 14G through the client 11G, and the device 141 according to the received login request and through the human machine interface (4) The physiological status information is translated into the corresponding display information. Please refer to the "Figure 3", which is the display of the information presented by the human-machine interface 144. The display in "Picture 3" The information includes user information (such as photos, or last login time, etc.), information pagination and various physiological status information (in the "system weight value, blood sugar, blood As a representation of the temperature). The user can watch the previously stored physiological state information from the display times "machine. With respect to the first embodiment, the present invention can further make the following changes to the first embodiment. Please refer to FIG. 4, which is a schematic diagram of the second embodiment of the present invention. The observing system 100 of the second embodiment includes: a client 110, a health care device 120, and a cloud server 140. The client 11 is connected to the cloud server 140 via the network. The cloud server 140 is electrically connected to the health care device 120. The health care device 120 of the present embodiment transmits the received physiological state information to the cloud server 140 via the connection unit 122. In May, reference is made to "Figure 5", which is a schematic diagram of the structure of the third embodiment of the present invention. The third embodiment of the observation system 1 includes a client, a health care device 12G, a face-to-face measurement device 13G, a cloud server 14Q, and a remote server 150. The number detecting device 130 is electrically connected between the health care device 12 and the cloud server 140, respectively. The signal debt measuring device 13 can also receive the physiological state information issued by the health care device 120 one-to-one, or one or more health care devices 120. In this embodiment, the cloud server 14 is connected to the client 11 and the remote feeder 150 via a network. The remote server 150 is a social networking site, a discussion forum website, or an portal website. In addition to sending the login request to the cloud server 140, the client 110 also sends a request to the remote server 15 via the cloud server 14 to send out the subscription request. The user can select any pen in the physiological and state information stored in the cloud ship H 14G towel, and send a request to the remote feeding unit 1% to share the money. When the far-waste (four)w accepts the information: the request <4' remote server (4) 15G will receive the physiological state information according to the displayed format, so that other users can watch it. Example of Chengzhi' User A selects the third time from the three 201247167 physiological state information stored in the cloud server 140 (the physiological state information stored in the first time, the second time and the third time respectively) Stored body temperature value. Assume that the remote device 150 is a website such as a coffee community website (or a website such as her or coffee shop), and user A has already registered the domain account on the remote ship 15G. When the user sends the information of the body temperature value to the remote server 15 through the cloud server 140, the user requests the remote physiological status information to be posted on the user's A board. In this way, other users can view the physiological status information of user A from the remote server (10) without connecting to the cloud server H0. In addition to the above-described examples, the present invention can also be hybridized as described below. Please refer to Fig. 6 for a schematic view of the fourth embodiment of the present invention. The observation system of the fourth embodiment includes: a client terminal 11, a signal detecting device 130, and a health protection device 12 (). The signal side devices 13() are respectively connected to the client no and the health care 120β health care device 12 to include the physiological energy unit 121 and the Wei unit 122. In the raw material solution m, the user's physiological state gift is obtained, and the connection unit m is immediately absorbed into the physiological state. The connection unit 122 sends a start request to the signal detecting device (10). When the signal Detective Set (10) is connected to the _ initial request, in addition to forwarding the fresh request to the client terminal 11G, the device (4) can also start receiving physiological status information. Because the client 11 is not always in operation, because. The signal thief set 13G can temporarily store the connected (4) raw messenger, until the client 110 runs the signal detection device i 130 to sequentially transmit the physiological state information to the client 201247167 client 110. Referring to Figure 7F of Figure 7, it is a schematic diagram of the fifth embodiment of the present invention. The fifth embodiment of the observing system 100 includes a client 110 and a health care device. In an embodiment, the client 110 can be connected to the health care device 120 in a wireless or wired manner. In this embodiment, the physiological state detecting unit m transmits the physiological state information to the client 11 () through the connection unit 122 after acquiring the physiological state information of the user. In addition to directly recording the received physiological state information, the client (10) can also report that the physiological state information is uploaded to the cloud word processor 140 or the remote server 150. The cloud 値H 140 and its observing system proposed by the present invention can transmit the physiological state information of the user in real time. Moreover, the cloud device (10) can automatically identify the health device 120 class _ class and sort the physiological state information of different faces according to the user's recording time. The user can send the physiological status to the remote port H 15G through sharing, so that other time can track the physiological consumption of the uploading user. Furthermore, the present invention does not provide a corresponding model for all of the Lai Kang care devices 120. The present invention does not require continuous maintenance of the model of the health care device 120 introduced by various manufacturers. Although the preferred embodiment of the present invention is disclosed above, it is not intended to limit the invention to any of the skilled artisan of the present invention. The scope of the invention must be determined by the scope of the patent application attached to this specification. BRIEF DESCRIPTION OF THE DRAWINGS 16 201247167 FIG. 1 is a schematic diagram of the architecture of the first embodiment of the present invention. Figure 2 is a flow chart showing the operation of this embodiment of the present invention. Figure 3 is a diagram showing the display information presented by the human-machine interface of the present invention. Figure 4 is a schematic diagram of the architecture of a second embodiment of the present invention. Figure 5 is a schematic diagram of the architecture of a third embodiment of the present invention. Figure 6 is a schematic diagram of the architecture of the fourth embodiment of the present invention. Figure 7 is a schematic diagram of the architecture of the fifth embodiment of the present invention. [Main component symbol description] 100 Observing system 11.0 Client 120 Health care device 121 Physiological state detecting unit 122 Wiring unit 130 Signal detecting device 140 Cloud server 141 Processing unit 142 Signal receiving unit 143 Storage unit 144 Human machine interface 150 Remote server 17