TWI647665B - Physiological monitoring system - Google Patents

Physiological monitoring system Download PDF

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TWI647665B
TWI647665B TW106123155A TW106123155A TWI647665B TW I647665 B TWI647665 B TW I647665B TW 106123155 A TW106123155 A TW 106123155A TW 106123155 A TW106123155 A TW 106123155A TW I647665 B TWI647665 B TW I647665B
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sensing
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image
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TW201909128A (en
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連炎
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台灣安麗莎醫療器材科技股份有限公司
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Abstract

本發明係一種生理監控系統,包含產生第一感測資料之近端可攜式監控模組、擷取使用者之第一影像,且將該第一感測資料及該第一影像執行時間同步以形成第一組合資料的影像感測模組、以及能搜尋且連接對應之該近端可攜式監控模組而接收該第一感測資料且顯示對應該第一組合資料的畫面之近端資訊顯示模組,當該第一感測資料包含警示訊號時,此警示發生前的第一時間至該警示訊號解除的第二時間內的該第一組合資料係利用該影像感測模組透過網際網路傳送至雲端伺服器中儲存,並提供該段時間的該第一組合資料予該近端資訊顯示模組以顯示。本發明之生理監控系統可應用於安全監控、醫療院所等應用領域。 The present invention is a physiological monitoring system, including a near-end portable monitoring module that generates first sensing data, captures a first image of a user, and synchronizes the first sensing data with the first image execution time. The image sensing module forming the first combined data, and the proximal sensing end of the screen capable of searching and connecting the corresponding near-portable monitoring module to receive the first sensing data and displaying the corresponding first combined data The information display module, when the first sensing data includes a warning signal, the first combination data before the warning occurs and the second combination of the warning signal is released by the image sensing module The Internet is transmitted to the cloud server for storage, and the first combination data of the period of time is provided to the near-end information display module for display. The physiological monitoring system of the invention can be applied to application fields such as safety monitoring, medical institutions and the like.

Description

生理監控系統 Physiological monitoring system

本發明是關於生理監控的技術領域,特別是一種監控穿戴一可攜式監控模組的使用者之生理狀態及/或影像的生理監控系統。 The invention relates to the technical field of physiological monitoring, in particular to a physiological monitoring system for monitoring the physiological state and/or image of a user wearing a portable monitoring module.

傳統的醫療照護系統,係讓病人透過主動的方式,例如拉警鈴呼叫醫生或護理師;然而,這對於該病人而言,是十分不便的,且在其他特殊的情況下,該病人並無法主動的呼救。同樣的情況也出現在居家照護的環境中,雖傳統中可以透過感測裝置得知被照護者的情況,但僅只是數據的傳輸,仍存在許多不便的地方。 The traditional medical care system allows the patient to call a doctor or a caregiver in an active manner, such as pulling a bell; however, this is very inconvenient for the patient, and in other special cases, the patient cannot Proactive calling for help. The same situation also occurs in the environment of home care. Although the condition of the caregiver can be known through the sensing device in the tradition, only the transmission of data is still inconvenient.

另外,傳統通過網路連接的感測裝置與監視裝置之間並未建立彼此以自動或手動搜尋而配對的機制,故傳統通過網路連接的感測裝置與監視裝置之間會發生訊息傳遞錯誤與紊亂的問題。 In addition, a conventional mechanism of pairing between the sensing device and the monitoring device connected through the network does not automatically or manually search for each other, so a message transmission error occurs between the sensing device and the monitoring device that are traditionally connected through the network. With the problem of disorder.

有鑑於此,本發明提出一種生理監控系統,以改良傳統的生理機訊及影像擷取裝置。 In view of this, the present invention proposes a physiological monitoring system for improving the conventional physiological signal and image capturing device.

本發明之第一目的提供一種生理狀態監控系統,包含近端可攜式監控模組與影像感測模組,在一使用者配戴該近端可攜式監控模組之後,該影 像感測模組及/或近端資訊顯示模組可以透過接收該近端可攜式監控模組所傳送的感測資料,以監控該使用者的生理狀態及/或影像,另外,該近端資訊顯示模組可用於搜尋且連接對應之該近端可攜式監控模組。 A first aspect of the present invention provides a physiological condition monitoring system including a near-portable monitoring module and an image sensing module. After a user wears the near-portable monitoring module, the image is The sensing module and/or the near-end information display module can monitor the physiological state and/or image of the user by receiving the sensing data transmitted by the near-portable monitoring module. The end information display module can be used to search and connect the corresponding near-end portable monitoring module.

本發明之第二目的根據前述的監控系統,除近端可攜式監控模組之外,也可以同時透過另一遠端可攜式監控模組監控另一使用者的生理狀態及/或影像,以達到對單一或複數使用者進行生理監控及/或影像監控的目的。 According to the foregoing monitoring system, in addition to the near-end portable monitoring module, the physiological state and/or image of another user can be monitored through another remote portable monitoring module. In order to achieve physiological monitoring and / or image monitoring for single or multiple users.

本發明之第三目的根據前述的監控系統,包含近端資訊顯示模組及/或遠端資訊顯示模組,供顯示該使用者的生理狀態及/或影像,讓該使用者或其他非使用者(例如護理師、看護、照護者)可以透過該等資訊顯示模組監控該使用者。 According to the foregoing monitoring system, the present invention comprises a near-end information display module and/or a remote information display module for displaying the physiological state and/or image of the user for the user or other non-use. The user (such as a caregiver, caregiver, caregiver) can monitor the user through the information display module.

本發明之第四目的根據前述的監控系統,包含警示單元,當該影像與該生理狀態發生異常時,該警示單元可以提示該使用者或其他非使用者。 A fourth object of the present invention is the monitoring system according to the foregoing, comprising a warning unit, wherein the warning unit can prompt the user or other non-users when the image and the physiological state are abnormal.

本發明之第五目的根據前述的監控系統,該近端可攜式監控模組、影像感測模組與近端資訊顯示模組都可利用符合有線通訊或無線通訊規範的通訊單元進行單向或雙向的資料傳遞,以在不同的環境中進行穩定與便利的安裝。 According to the foregoing monitoring system, the near-end portable monitoring module, the image sensing module and the near-end information display module can be unidirectional by using a communication unit conforming to a wired communication or wireless communication specification. Or two-way data transfer for stable and convenient installation in different environments.

本發明之第六目的,可以儲存發生警示訊號時前面某設定時間至警示訊號解除時間的生理狀態及影像,以供近端資訊顯示模組回溯當時與現在警示訊號歷史並瀏覽之,以確認警示訊號之實際情景。 The sixth object of the present invention is to store the physiological state and image of the previous set time to the warning signal release time when the warning signal is generated, so that the near-end information display module can trace back the current and current warning signal history and browse to confirm the warning. The actual situation of the signal.

本發明第七目的根據前述的監控系統,所監控的使用者生理狀態訊號與影像,在影像感測模組中是互為時間同步,不會造成資訊對應的紊亂及錯誤。 According to the foregoing monitoring system, the monitored physiological state signals and images of the user are synchronized with each other in the image sensing module, and the information corresponding to the disorder and error is not caused.

為達上述目的及其它目的,本發明係提供一種監控系統,供監控一使用者的生理狀態、或者生理狀態與第一影像,包含近端可攜式監控模組、 影像感測模組與近端資訊顯示模組。該近端可攜式監控模組包含第一通訊單元與第一感測單元。該近端可攜式監控模組供該使用者配戴。該第一感測單元感測該使用者的該生理狀態以產生一第一感測資料。該第一通訊單元傳輸該感測資料。該影像感測模組包含第二通訊單元與影像擷取單元。該第二通訊單元接收該第一感測資料,且該影像擷取單元擷取該使用者之第一影像,該影像擷取單元藉由該近端可攜式監控模組追蹤該使用者以擷取該第一影像,其中,該影像感測模組將該第一感測資料及該第一影像執行時間同步,以形成第一組合資料。該近端資訊顯示模組包含第三通訊單元與第一顯示單元。該近端資訊顯示模組使用該第三通訊單元透過網際網路連接至雲端伺服器以搜尋且連接對應之該近端可攜式監控模組而接收該第一感測資料,以在該第一顯示單元顯示對應該第一感測資料之從該影像感測模組傳輸之該第一組合資料的畫面,當近端資訊顯示模組判斷該第一感測資料包含警示訊號時,在此警示發生前的第一時間至該警示訊號解除的第二時間內的該第一組合資料係至少利用該第二通訊單元透過網際網路傳送至該雲端伺服器中儲存,並提供該第一時間至該第二時間內的該第一組合資料予該近端資訊顯示模組以顯示該第一組合資料。 To achieve the above and other objects, the present invention provides a monitoring system for monitoring a physiological state or a physiological state of a user and a first image, including a near-end portable monitoring module, Image sensing module and near-end information display module. The near-end portable monitoring module includes a first communication unit and a first sensing unit. The proximal portable monitoring module is worn by the user. The first sensing unit senses the physiological state of the user to generate a first sensing material. The first communication unit transmits the sensing data. The image sensing module includes a second communication unit and an image capturing unit. The second communication unit receives the first sensing data, and the image capturing unit captures the first image of the user, and the image capturing unit tracks the user by using the near-end portable monitoring module The first image is captured, and the image sensing module synchronizes the first sensing data with the first image execution time to form a first combined material. The near-end information display module includes a third communication unit and a first display unit. The near-end information display module uses the third communication unit to connect to the cloud server through the Internet to search for and connect the corresponding near-portable monitoring module to receive the first sensing data, in the first a display unit displays a screen corresponding to the first combined data transmitted by the image sensing module corresponding to the first sensing data, and when the near-end information display module determines that the first sensing data includes a warning signal, The first combined data from the first time before the warning occurs to the second time after the warning signal is released is transmitted to the cloud server through the Internet through at least the second communication unit, and the first time is provided. The first combination of data to the near-end information display module to display the first combination data.

相較於習知技術,本發明提供的監控系統可監控配戴著可攜式監控模組的一個或複數使用者,且透過影像感測模組除接收前述使用者的生理狀態之外,更可以選擇性擷取該使用者的影像,並透過顯示模組顯示相關的該生理狀態與該影像,另外,本發明還可應用自動配對監控而避免顯示錯誤使用者之資訊,且本發明可進一步儲存正確使用者於異常前後的時間段落中之感測資料,及與該感測資料相同步對應的影像,因而本發明可應用在更多的領域,例如安全監控、寵物監控、居家照護或醫療院所等應用領域。 Compared with the prior art, the monitoring system provided by the present invention can monitor one or a plurality of users wearing the portable monitoring module, and in addition to receiving the physiological state of the user through the image sensing module, The image of the user can be selectively captured, and the related physiological state and the image are displayed through the display module. In addition, the present invention can also apply automatic pairing monitoring to avoid displaying information of the wrong user, and the present invention can further Storing the sensing data of the correct user in the time period before and after the abnormality, and the image corresponding to the sensing data, so the invention can be applied in more fields, such as security monitoring, pet monitoring, home care or medical treatment. Applications such as institutions.

2、2'‧‧‧使用者 2, 2'‧‧‧ users

10、10'、10"、10’’’、10’’’’‧‧‧生理監控系統 10, 10', 10", 10''', 10'''' ‧ ‧ ‧ physiological monitoring system

12、12’‧‧‧近端可攜式監控模組 12, 12'‧‧‧ Near-end portable monitoring module

122‧‧‧第一通訊單元 122‧‧‧First communication unit

124‧‧‧第一感測單元 124‧‧‧First sensing unit

14‧‧‧影像感測模組 14‧‧‧Image Sensing Module

142‧‧‧第二通訊單元 142‧‧‧Second communication unit

144‧‧‧影像擷取單元 144‧‧‧Image capture unit

16、16’‧‧‧近端資訊顯示模組 16, 16'‧‧‧ Near-end information display module

162‧‧‧第三通訊單元 162‧‧‧3rd communication unit

164‧‧‧第一顯示單元 164‧‧‧First display unit

18‧‧‧網通單元 18‧‧‧Netcom unit

20‧‧‧雲端伺服器 20‧‧‧Cloud Server

201‧‧‧儲存單元 201‧‧‧ storage unit

22‧‧‧遠端資訊顯示模組 22‧‧‧Remote information display module

222‧‧‧第四通訊單元 222‧‧‧fourth communication unit

224‧‧‧第二顯示單元 224‧‧‧Second display unit

24‧‧‧遠端可攜式監控模組 24‧‧‧Remote Portable Monitoring Module

242‧‧‧第五通訊單元 242‧‧‧Fifth Communication Unit

244‧‧‧第二感測單元 244‧‧‧Second sensing unit

26‧‧‧警示單元 26‧‧‧Warning unit

圖1係本發明第一實施例之生理監控系統的方塊示意圖。 1 is a block diagram showing a physiological monitoring system according to a first embodiment of the present invention.

圖2係本發明第二實施例之生理監控系統的方塊示意圖。 2 is a block diagram showing a physiological monitoring system according to a second embodiment of the present invention.

圖3係本發明第二實施例之生理監控系統以雲端伺服器配對且至少儲存感測資料的示意圖。 3 is a schematic diagram of a physiological monitoring system according to a second embodiment of the present invention paired with a cloud server and storing at least sensing data.

圖4係本發明第二實施例之生理監控系統以雲端伺服器配對及該生理監控系統儲存感測資料的流程圖。 4 is a flow chart of the physiological monitoring system according to the second embodiment of the present invention, which is paired by the cloud server and the physiological monitoring system stores the sensing data.

圖5係本發明第二實施例之生理監控系統以雲端伺服器配對且自動維持自我組織能力的搜尋之示意圖。 FIG. 5 is a schematic diagram of a physiological monitoring system according to a second embodiment of the present invention, which is paired by a cloud server and automatically maintains self-organizing ability.

圖6係本發明第三實施例之生理監控系統的方塊示意圖。 Fig. 6 is a block diagram showing the physiological monitoring system of the third embodiment of the present invention.

圖7係本發明第四實施例之生理監控系統的方塊示意圖。 Figure 7 is a block diagram showing a physiological monitoring system according to a fourth embodiment of the present invention.

圖8係本發明第五實施例之生理監控系統的方塊示意圖。 Figure 8 is a block diagram showing a physiological monitoring system according to a fifth embodiment of the present invention.

為充分瞭解本發明之目的、特徵及功效,茲藉由下述具體之實施例,並配合所附之圖式,對本發明做一詳細說明,說明如後:請參考圖1,係本發明第一實施例之生理監控系統的方塊示意圖。於圖1中,該生理監控系統10包含近端可攜式監控模組12、影像感測模組14與近端資訊顯示模組16,該生理監控系統10供監控一使用者2的生理狀態BIOIFO、或者生理狀態BIOIFO與第一影像FIMG。 In order to fully understand the object, features and advantages of the present invention, the present invention will be described in detail by the following specific embodiments and the accompanying drawings, which are illustrated as follows: A block diagram of a physiological monitoring system of an embodiment. In FIG. 1 , the physiological monitoring system 10 includes a near-portable monitoring module 12 , an image sensing module 14 and a near-end information display module 16 . The physiological monitoring system 10 monitors the physiological state of a user 2 . BIOIFO, or physiological state BIOIFO and first image FIMG.

該近端可攜式監控模組12更包含第一通訊單元122與第一感測單元124。該近端可攜式監控模組12供該使用者2配戴,以感測該使用者2的該生理狀態BIOIFO以產生一第一感測資料FSD,例如該第一感測單元122為溫度感測、 音頻感測、聲響感測、濕度感測、亮度感測、移動感測、生命徵象感測、生理訊號感測與距離感測之至少其中一者。該第一通訊單元122可供傳輸該第一感測資料FSD,例如該近端可攜式監控模組12可為手錶型態與首飾型態等。其中該第一通訊單元122為符合無線通訊規範與有線通訊規範之至少其中一者。以無線通訊規範為例,該無線通訊規範可以包含短距離通訊協定與長距離通訊協定。該短距離通訊協定可為近場通訊(Near Field Communication)協定、藍芽(Bluetooth)通訊協定、紫蜂(ZigBee)通訊協定、數位增強無線(Digital Enhanced Cordless Telecommunications)通訊協定或無線通用序列匯流排(Wireless Universal Serial Bus)通訊協定;以及,長距離通訊協定可為無線保真(Wi-Fi)通訊協定、市辦無線(Municipal Wireless)通訊協定、通用封包無線服務(General Packet Radio Service)、無線寬頻(Wireless Broadband)通訊協定、全球互通微波存取(Worldwide Interoperability for Microwave Access)通訊協定、時分雙工(Time Division Duplexing)通訊協定、高速分組接入(High Speed Packet Access)通訊協定、高速下行封包接入(High Speed Downlink Packet Access)通訊協定或長期演進技術(Long Term Evolution)。 The near-end portable monitoring module 12 further includes a first communication unit 122 and a first sensing unit 124. The first portable sensing module 12 is configured to be used by the user 2 to sense the physiological state BIOIFO of the user 2 to generate a first sensing data FSD. For example, the first sensing unit 122 is a temperature. Sensing, At least one of audio sensing, acoustic sensing, humidity sensing, brightness sensing, motion sensing, vital sign sensing, physiological signal sensing, and distance sensing. The first communication unit 122 can transmit the first sensing data FSD. For example, the near-portable monitoring module 12 can be a watch type and a jewelry type. The first communication unit 122 is configured to comply with at least one of a wireless communication specification and a wired communication specification. Taking the wireless communication specification as an example, the wireless communication specification may include a short-range communication protocol and a long-distance communication protocol. The short-range communication protocol may be a Near Field Communication protocol, a Bluetooth communication protocol, a ZigBee communication protocol, a Digital Enhanced Cordless Telecommunications protocol, or a wireless universal sequence bus. (Wireless Universal Serial Bus) protocol; and long-distance communication protocol for wireless fidelity (Wi-Fi) protocol, Municipal Wireless protocol, General Packet Radio Service, wireless Broadband (Wireless Broadband) protocol, Worldwide Interoperability for Microwave Access protocol, Time Division Duplexing protocol, High Speed Packet Access protocol, high speed downlink High Speed Downlink Packet Access protocol or Long Term Evolution.

該影像感測模組14包含第二通訊單元142與影像擷取單元144。該第二通訊單元142接收該第一感測資料FSD,其中該第二通訊單元142同前該第一通訊單元122的描述。該影像擷取單元144選擇性地擷取該使用者2之第一影像FIMG,例如該影像擷取單元144可為CCD元件或是CMOS元件,且解析度可為標準畫質(SD)與高密度畫質(HD)之至少其中一者。其中該影像擷取單元144藉由該近端可攜式監控模組12追蹤該使用者2以取得該第一影像FIMG。 The image sensing module 14 includes a second communication unit 142 and an image capturing unit 144. The second communication unit 142 receives the first sensing data FSD, wherein the second communication unit 142 is the same as the description of the first communication unit 122. The image capturing unit 144 can selectively capture the first image FIMG of the user 2. For example, the image capturing unit 144 can be a CCD component or a CMOS component, and the resolution can be standard image quality (SD) and high. At least one of density image quality (HD). The image capturing unit 144 tracks the user 2 by the near-end portable monitoring module 12 to obtain the first image FIMG.

該近端資訊顯示模組16包含第三通訊單元162與第一顯示單元164。該第三通訊單元162可接收該第一感測資料FSD及與之對應同步的第一影 像FIMG。其中該第三通訊單元162同前該第一通訊單元122的描述。再者,該第一顯示單元164能夠顯示對應該第一感測資料FSD及與之對應同步的第一影像FIMG的一畫面FR。舉例而言,在該畫面FR中可以顯示該生理特徵與該影像之至少其中一者,供該使用者2或該非使用者監控。 The near-end information display module 16 includes a third communication unit 162 and a first display unit 164. The third communication unit 162 can receive the first sensing data FSD and the first shadow synchronized with the corresponding Like FIMG. The third communication unit 162 is the same as the description of the first communication unit 122. Furthermore, the first display unit 164 can display a picture FR corresponding to the first sensing data FSD and the first image FIMG synchronized with it. For example, at least one of the physiological feature and the image may be displayed in the screen FR for monitoring by the user 2 or the non-user.

值得注意的是,該近端可攜式監控模組12、該影像感測模組14與該近端資訊顯示模組16之間除前述的單向傳輸之外,亦可進行另一傳輸方向的命令/控制訊號傳輸。 It should be noted that the near-end portable monitoring module 12, the image sensing module 14 and the near-end information display module 16 can perform another transmission direction in addition to the unidirectional transmission. Command/control signal transmission.

請參考圖2,係本發明第二實施例之生理監控系統的方塊示意圖。於圖2中,該生理監控系統10’除第一實施例中的該近端可攜式監控模組12、該影像感測模組14與該近端資訊顯示模組16之外,更包含網通單元18。 Please refer to FIG. 2, which is a block diagram of a physiological monitoring system according to a second embodiment of the present invention. In addition to the near-end portable monitoring module 12, the image sensing module 14 and the near-end information display module 16, the physiological monitoring system 10' includes Netcom unit 18.

該網通單元18透過一網際網路連接至雲端伺服器20。該網通單元18符合一通訊規範,該通訊規範同樣符合前述無線通訊規範與有線通訊規範之至少其中一者。藉由該網通單元18,該第一感測資料FSD可透過該網際網路在該雲端伺服器20、該近端可攜式監控模組12、該影像感測模組14與該近端資訊顯示模組16之間傳遞。該雲端伺服器20可為雲端計算、分散式系統、伺服器等具網路運算及/或網路控制能力之網際網路。 The network communication unit 18 is connected to the cloud server 20 via an internet connection. The Netcom unit 18 conforms to a communication specification that also conforms to at least one of the aforementioned wireless communication specifications and wired communication specifications. The first sensing data FSD can be transmitted through the Internet to the cloud server 20, the near-end portable monitoring module 12, the image sensing module 14 and the near-end information. The display module 16 is passed between. The cloud server 20 can be an internetwork with network computing and/or network control capabilities such as cloud computing, distributed systems, and servers.

請參考圖3,係本發明第二實施例之生理監控系統10’的近端資訊顯示模組16搜尋且連接對應之近端可攜式監控模組12及該生理監控系統10’至少儲存感測資料的示意圖。該圖係表示近端資訊顯示模組16使用第三通訊單元162搜尋且連接對應之近端可攜式監控模組12而接收第一感測資料FSD,以在第一顯示單元164顯示對應之第一感測資料FSD的一畫面。詳細而言,近端資訊顯示模組16可包含記憶單元或儲存單元,例如快閃記憶體、硬碟等,且近端資訊顯示模組16使用第三通訊單元162搜尋且連接對應之近端可攜式監控模組12而 接收第一感測資料FSD及該生理監控系統10’至少儲存感測資料之方式係首先將近端可攜式監控模組12之位址儲存在該記憶單元或儲存單元中,如圖4之步驟S401所示。 Referring to FIG. 3, the near-end information display module 16 of the physiological monitoring system 10' of the second embodiment of the present invention searches for and connects the corresponding near-end portable monitoring module 12 and the physiological monitoring system 10' to at least store the sense of storage. Schematic diagram of the measured data. The figure indicates that the near-end information display module 16 searches for and connects the corresponding near-portable monitoring module 12 to receive the first sensing data FSD to display the corresponding information in the first display unit 164. A picture of the first sensing data FSD. In detail, the near-end information display module 16 can include a memory unit or a storage unit, such as a flash memory, a hard disk, etc., and the near-end information display module 16 searches for and connects the corresponding near end using the third communication unit 162. Portable monitoring module 12 The method of receiving the first sensing data FSD and the physiological monitoring system 10 ′ at least storing the sensing data is first storing the address of the near-portable monitoring module 12 in the memory unit or the storage unit, as shown in FIG. 4 . S401 is shown.

特定而言,可利用二維條碼(QR code)掃描近端可攜式監控模組12之媒體存取控制位址(MAC address),並儲存在近端資訊顯示模組16之該記憶單元或儲存單元中,惟本發明儲存媒體存取控制位址之方式不限於此。 Specifically, the media access control address (MAC address) of the near-end portable monitoring module 12 can be scanned by using a QR code, and stored in the memory unit of the near-end information display module 16 or In the storage unit, the manner in which the storage medium access control address of the present invention is stored is not limited thereto.

其次,如圖4之步驟S402所示,近端資訊顯示模組16基於該位址透過該雲端伺服器20搜尋且連接對應之近端可攜式監控模組12。近端資訊顯示模組16及近端可攜式監控模組12可為例如具有行動通訊能力之手機、平板電腦、筆記型電腦等。特定而言,近端資訊顯示模組16可於開啟時以例如自動輸入或手動輸入之方式而利用儲存在該記憶單元或儲存單元中的近端可攜式監控模組12之媒體存取控制位址透過該雲端伺服器20搜尋對應該媒體存取控制位址的近端可攜式監控模組12,當然,近端資訊顯示模組16也利用儲存在該記憶單元或儲存單元中所分配給近端可攜式監控模組12的唯一辨識碼來與近端可攜式監控模組12進行連線。 Next, as shown in step S402 of FIG. 4, the near-end information display module 16 searches for and connects the corresponding near-end portable monitoring module 12 through the cloud server 20 based on the address. The near-end information display module 16 and the near-end portable monitoring module 12 can be, for example, a mobile phone with a mobile communication capability, a tablet computer, a notebook computer, and the like. In particular, the near-end information display module 16 can utilize the media access control of the near-end portable monitoring module 12 stored in the memory unit or the storage unit when the system is turned on, for example, by automatic input or manual input. The address is searched by the cloud server 20 for the near-end portable monitoring module 12 corresponding to the media access control address. Of course, the near-end information display module 16 is also allocated by being stored in the memory unit or the storage unit. The unique identification code of the near-end portable monitoring module 12 is connected to the near-end portable monitoring module 12.

接著,如圖4之步驟S403所示,該雲端伺服器建立近端資訊顯示模組16與近端可攜式監控模組12之連接。特定而言,雲端計算可透過收發單元(receiver/transponder)尋找具有已經事先配對的近端可攜式監控模組12,並透過雲端計算來建立近端可攜式監控模組12與近端資訊顯示模組16的連線綁定(binding)。 Then, as shown in step S403 of FIG. 4, the cloud server establishes a connection between the near-end information display module 16 and the near-end portable monitoring module 12. In particular, the cloud computing can find the near-end portable monitoring module 12 that has been paired in advance through the transceiver/transponder, and establish the near-end portable monitoring module 12 and the near-end information through the cloud computing. The connection binding of the module 16 is displayed.

特定而言,當雲端計算綁定配對的可攜式監控模組12與近端資訊顯示模組16時,則雲端計算之收發單元會與近端資訊顯示模組16之間建立P2P的通道或是能使配對者之間連接的唯一通訊波道,從而讓近端資訊顯示模 組16與可攜式監控模組12互相通訊並在近端資訊顯示模組16端顯示相關生理訊息。再者,如圖4之步驟S404所示,該影像感測模組14可將該第一感測資料FSD及該第一影像FIMG執行時間同步,以形成第一組合資料FCD。第一組合資料FCD可傳予第二通訊單元142,且值得注意的是該第一組合資料FCD可為該第一感測資料FSD及該第一影像FIMG,或者可為該第一感測資料FSD與該第一影像FIMG之組合。 In particular, when the cloud computing binds the paired portable monitoring module 12 and the near-end information display module 16, the transceiver unit of the cloud computing establishes a P2P channel with the near-end information display module 16 or Is the only communication channel that enables the connection between the partners, so that the near-end information display mode The group 16 communicates with the portable monitoring module 12 and displays relevant physiological messages at the near-end information display module 16 end. Furthermore, as shown in step S404 of FIG. 4, the image sensing module 14 can perform time synchronization between the first sensing data FSD and the first image FIMG to form a first combined data FCD. The first combination data FCD can be transmitted to the second communication unit 142, and it is worth noting that the first combination data FCD can be the first sensing data FSD and the first image FIMG, or can be the first sensing data. The combination of the FSD and the first image FIMG.

之後,如圖4之步驟S405所示,該近端資訊顯示模組16接收該第一感測資料FSD,以在該第一顯示單元164顯示對應該第一感測資料FSD之從該影像感測模組14傳輸之該第一組合資料FCD的畫面FR,且當該近端資訊顯示模組16判斷該第一感測資料FSD包含警示訊號時,在此警示發生前的第一時間至該警示訊號解除的第二時間內的該第一組合資料FCD係至少利用該第二通訊單元142透過該網際網路傳送至該雲端伺服器20儲存,並提供該第一時間至該第二時間內的該第一組合資料FCD予該近端資訊顯示模組16以顯示該第一組合資料FCD。 Then, as shown in step S405 of FIG. 4, the near-end information display module 16 receives the first sensing data FSD to display the image sense corresponding to the first sensing data FSD at the first display unit 164. The screen FR of the first combined data FCD transmitted by the test module 14 and when the near-end information display module 16 determines that the first sensing data FSD includes an alert signal, the first time before the alert occurs to the The first combination data FCD in the second time period after the warning signal is released is transmitted to the cloud server 20 through the Internet through the second communication unit 142, and the first time to the second time is provided. The first combined data FCD is applied to the near-end information display module 16 to display the first combined data FCD.

另外,近端資訊顯示模組16至少顯示其與雲端伺服器20之間及近端可攜式監控模組12與雲端伺服器20之間的連接狀態。舉例而言,當近端資訊顯示模組16與雲端伺服器20之間連線或斷線時,近端資訊顯示模組16之第三通訊單元162可令近端資訊顯示模組16顯示近端資訊顯示模組16與雲端伺服器20之間為連線或斷線,而在近端資訊顯示模組16與雲端伺服器20之間連線時,雲端伺服器20亦可令近端資訊顯示模組16顯示近端資訊顯示模組16與雲端伺服器20之間為連線。而當近端可攜式監控模組12與雲端伺服器20之間連線或斷線時,雲端伺服器20可令近端資訊顯示模組16顯示近端可攜式監控模組12與雲端伺服器20之間為連線或斷線。 In addition, the near-end information display module 16 displays at least the connection state between the cloud server 20 and the near-end portable monitoring module 12 and the cloud server 20. For example, when the near-end information display module 16 and the cloud server 20 are connected or disconnected, the third communication unit 162 of the near-end information display module 16 can cause the near-end information display module 16 to display near The terminal information display module 16 and the cloud server 20 are connected or disconnected, and when the near-end information display module 16 is connected to the cloud server 20, the cloud server 20 can also make the near-end information. The display module 16 displays a connection between the near-end information display module 16 and the cloud server 20. When the near-end portable monitoring module 12 and the cloud server 20 are connected or disconnected, the cloud server 20 can enable the near-end information display module 16 to display the near-end portable monitoring module 12 and the cloud. The servers 20 are connected or disconnected.

再者,如圖3所示,雲端伺服器20可包含儲存單元201,以至少儲存該第一時間至該第二時間內的該第一組合資料FSD。特定而言,雲端計算之收發單元不僅傳送資料,同時也可以將第一感測資料FSD與第一影像FIMG及聲音相結合,且在時間上互為同步,並且該生理狀態有問題的時間點前的某段時刻至該問題尚未解決的這段時間內之所有訊息均會傳至雲端計算儲存,以供日後追蹤查詢。 Moreover, as shown in FIG. 3, the cloud server 20 can include a storage unit 201 to store at least the first combined data FSD from the first time to the second time. In particular, the transceiver unit of the cloud computing not only transmits the data, but also combines the first sensing data FSD with the first image FIMG and the sound, and is synchronized with each other in time, and the physiological state has a problematic time point. All messages from a certain period of time to the time when the problem has not been resolved will be transferred to the cloud computing storage for future tracking.

如圖5所示,所有裝置(例如近端可攜式監控模組12、近端資訊顯示模組16等)均為可移動,且在移動下,只要是在可傳輸距離內,裝置之間均會自動維持自我組織能力的搜尋,而不會造成監控間斷。在圖5中,戴在使用者2身上的近端可攜式監控模組12可以與網際網路20之收發單元分開,但需維持在至少近端可攜式監控模組12是可以與雲端伺服器20之收發單元正常通訊下,且近端資訊顯示模組16亦可與雲端伺服器20之收發單元正常通訊下,即移動後之近端可攜式監控模組12’及近端資訊顯示模組16’均可與雲端伺服器20之收發單元正常通訊。在圖5中,因為近端資訊顯示模組16與收發單元分別與雲端計算之設備的鏈接,只要它們的通訊距離是在可以與3G/4G/5G或日後發展長距離通訊基地台通訊下,即可與雲端計算鏈接。當然無線行動通訊也可以通過衛星來加以完成。 As shown in FIG. 5, all devices (such as the near-end portable monitoring module 12, the near-end information display module 16, etc.) are all movable, and under the movement, as long as they are within the transmittable distance, between the devices Both will automatically maintain a search for self-organizing capabilities without causing monitoring interruptions. In FIG. 5, the near-portable monitoring module 12 worn on the user 2 can be separated from the transceiver unit of the Internet 20, but needs to be maintained at least at the near end. The portable monitoring module 12 can be connected to the cloud. The transceiver unit of the server 20 is in normal communication, and the near-end information display module 16 can also communicate with the transceiver unit of the cloud server 20, that is, the mobile proximal monitoring module 12' and the near-end information. The display module 16' can normally communicate with the transceiver unit of the cloud server 20. In FIG. 5, because the near-end information display module 16 and the transceiver unit are respectively linked with the cloud computing device, as long as their communication distance is in communication with the 3G/4G/5G or the future development long-distance communication base station, You can link to cloud computing. Of course, wireless mobile communication can also be done by satellite.

請參考圖6,係本發明第三實施例之生理監控系統的方塊示意圖。於圖6中,該生理監控系統10’’除第二實施例中的該近端可攜式監控模組12、該影像感測模組14、該近端資訊顯示模組16、網通單元18與雲端伺服器20之外,更包含遠端資訊顯示模組22。 Please refer to FIG. 6, which is a block diagram of a physiological monitoring system according to a third embodiment of the present invention. In FIG. 6 , the physiological monitoring system 10 ′′ includes the near-end portable monitoring module 12 , the image sensing module 14 , the near-end information display module 16 , and the Netcom unit 18 in the second embodiment. In addition to the cloud server 20, the remote information display module 22 is further included.

該遠端資訊顯示模組22包含第四通訊單元222與第二顯示單元224。該第四通訊單元222透過該雲端伺服器20接收該第一感測資料FSD及與之對應同 步的第一影像FIMG,以在該第二顯示單元224顯示對應該第一感測資料FSD及與之對應同步的第一影像FIMG的該畫面FR。其中該第四通訊單元222同樣符合前述無線通訊規範與有線通訊規範之至少其中一者。 The remote information display module 22 includes a fourth communication unit 222 and a second display unit 224. The fourth communication unit 222 receives the first sensing data FSD and corresponding thereto through the cloud server 20 The first image FIMG of the step displays the screen FR of the first image FIMG corresponding to the first sensing data FSD and corresponding thereto in the second display unit 224. The fourth communication unit 222 also conforms to at least one of the foregoing wireless communication specifications and wired communication specifications.

該遠端資訊顯示模組22可透過該網通單元18或是直接透過網際網路連上雲端伺服器20,以接收該第一感測資料FSD及與之對應同步的第一影像FIMG。 The remote information display module 22 can connect to the cloud server 20 through the network communication unit 18 or directly through the Internet to receive the first sensing data FSD and the first image FIMG synchronized with the corresponding image.

請參考圖7,係本發明第四實施例之生理監控系統的方塊示意圖。於圖7中,該生理監控系統10’’’除第二實施例中的該近端可攜式監控模組12、該影像感測模組14、該近端資訊顯示模組16、網通單元18與雲端伺服器20之外,更包含遠端可攜式監控模組24與警示單元26。該生理監控系統10’’’除監控一使用者2的生理狀態BIOIFO與第一影像FIMG之至少其中一者之外,更可以監控另一使用者2’的生理狀態BIOIFO’與第二影像SIMG之至少其中一者。 Please refer to FIG. 7, which is a block diagram of a physiological monitoring system according to a fourth embodiment of the present invention. In FIG. 7 , the physiological monitoring system 10′′′ includes the near-portable monitoring module 12 , the image sensing module 14 , the near-end information display module 16 , and the Netcom unit in the second embodiment. In addition to the cloud server 20, the remote host includes a remote portable monitoring module 24 and an alert unit 26. The physiological monitoring system 10"" can monitor the physiological state BIOIFO' of the other user 2' and the second image SIMG in addition to monitoring at least one of the physiological state BIOIFO of the user 2 and the first image FIMG. At least one of them.

該遠端可攜式監控模組24包含第五通訊單元242與第二感測單元244。該遠端可攜式監控模組24供該另一使用者2’配戴。該第二感測單元244感測另一使用者2’的生理狀態BIOIFO’以產生一第二感測資料SSD,於另一實施例中,遠端可攜式監控模組24也可提供如同第一實施例所提及的影像擷取單元144擷取第二影像SIMG,以產生該第二感測資料SSD。該第五通訊單元242將該第二感測資料SSD、或者該第二感測資料SSD與第二影像SIMG透過網際網路傳送至該雲端伺服器20。其中該第二感測單元244為溫度感測、音頻感測、聲響感測、濕度感測、亮度感測、移動感測、生命徵象感測、生理訊號感測與距離感測之至少其中一者。 The remote portable monitoring module 24 includes a fifth communication unit 242 and a second sensing unit 244. The remote portable monitoring module 24 is worn by the other user 2'. The second sensing unit 244 senses the physiological state BIOIFO' of the other user 2' to generate a second sensing data SSD. In another embodiment, the remote portable monitoring module 24 can also provide the same. The image capturing unit 144 mentioned in the first embodiment captures the second image SIMG to generate the second sensing data SSD. The fifth communication unit 242 transmits the second sensing data SSD or the second sensing data SSD and the second image SIMG to the cloud server 20 via the Internet. The second sensing unit 244 is at least one of temperature sensing, audio sensing, sound sensing, humidity sensing, brightness sensing, motion sensing, vital sign sensing, physiological signal sensing, and distance sensing. By.

該警示單元26包含第六通訊單元262與第一處理單元264。該第六通 訊單元262接收該第二感測資料SSD,該第一處理單元264根據該第二感測資料SSD選擇性產生一警示訊號WS。該警示訊號WS可以警示該使用者2及/或該使用者2’的異常狀態。 The alert unit 26 includes a sixth communication unit 262 and a first processing unit 264. The sixth pass The signal processing unit 264 receives the second sensing data SSD, and the first processing unit 264 selectively generates an alert signal WS according to the second sensing data SSD. The alert signal WS can alert the user 2 and/or the abnormal state of the user 2'.

在雲端伺服器20更包含儲存單元201的情況下,儲存單元201至少儲存警示訊號WS,更進一步地,儲存單元201至少儲存警示訊號WS之前及之後的時間段落中之第一感測資料FSD及與之對應同步的第一影像FIMG。 In the case that the cloud server 20 further includes the storage unit 201, the storage unit 201 stores at least the warning signal WS, and further, the storage unit 201 stores at least the first sensing data FSD in the time period before and after the warning signal WS and The first image FIMG synchronized with it.

在雲端伺服器20更包含儲存單元201的情況下,近端資訊顯示模組16顯示使用者2及/或使用者2’的該生理狀態之歷史追蹤。並且由於雲端伺服器20具有裝置配對之功能,故該生理狀態之歷史追蹤的訊息傳遞可避免錯誤與紊亂。 In the case where the cloud server 20 further includes the storage unit 201, the near-end information display module 16 displays the history tracking of the physiological state of the user 2 and/or the user 2'. And since the cloud server 20 has the function of device pairing, the message tracking of the history tracking of the physiological state can avoid errors and disorders.

請參考圖8,係本發明第五實施例之生理監控系統的方塊示意圖。於圖8中,該生理監控系統10’’’’除第四實施例中的該近端可攜式監控模組12、該影像感測模組14、該近端資訊顯示模組16、網通單元18、雲端伺服器20遠端可攜式監控模組24與警示單元26之外,更包含伺服主機28。 Please refer to FIG. 8, which is a block diagram of a physiological monitoring system according to a fifth embodiment of the present invention. In FIG. 8, the physiological monitoring system 10"" except the fourth embodiment of the near-portable monitoring module 12, the image sensing module 14, the near-end information display module 16, Netcom The unit 18, the cloud server 20, and the remote portable monitoring module 24 and the warning unit 26 further include a servo host 28.

該伺服主機28包含第七通訊單元282與第二主機單元284。該第七通訊單元282接收該第一感測資料FSD、該第一影像FIMG、該第二感測資料SSD與該第二影像SIMG之至少其中一者,該第二主機單元284根據該第一影像FIMG與該第二影像SIMG產生至少一畫面FR。再者,該第二主機單元284根據該第一感測資料FSD與該第二感測資料SSD之至少其中一者產生一警示訊號WS。 The servo host 28 includes a seventh communication unit 282 and a second host unit 284. The seventh communication unit 282 receives at least one of the first sensing data FSD, the first image FIMG, the second sensing data SSD, and the second image SIMG, and the second host unit 284 is configured according to the first The image FIMG and the second image SIMG generate at least one picture FR. Moreover, the second host unit 284 generates an alert signal WS according to at least one of the first sensing data FSD and the second sensing data SSD.

值得注意的是,本發明第二實施例之生理監控系統10’的近端資訊顯示模組16搜尋且連接對應之近端可攜式監控模組12及該生理監控系統10’至少儲存感測資料的方式可應用於本發明第三至第五實施例中。 It should be noted that the near-end information display module 16 of the physiological monitoring system 10' of the second embodiment of the present invention searches for and connects the corresponding near-end portable monitoring module 12 and the physiological monitoring system 10' to store at least the sensing. The manner of the data can be applied to the third to fifth embodiments of the present invention.

本發明在上文中已以較佳實施例揭露,然熟習本項技術者應理解 的是,該實施例僅用於描繪本發明,而不應解讀為限制本發明之範圍。應注意的是,舉凡與該實施例等效之變化與置換,均應設為涵蓋於本發明之範疇內。因此,本發明之保護範圍當以申請專利範圍所界定者為準。 The present invention has been disclosed in the above preferred embodiments, but those skilled in the art should understand The examples are intended to depict the invention only, and are not to be construed as limiting the scope of the invention. It should be noted that variations and permutations equivalent to those of the embodiments are intended to be included within the scope of the present invention. Therefore, the scope of protection of the present invention is defined by the scope of the patent application.

Claims (15)

一種生理監控系統,供監控一使用者的生理狀態、或者生理狀態與第一影像,該生理監控系統包含:近端可攜式監控模組,具有第一通訊單元與第一感測單元,供該使用者配戴,該第一感測單元感測該使用者的該生理狀態以產生一第一感測資料,該第一通訊單元傳輸該感測資料;影像感測模組,具有第二通訊單元與影像擷取單元,該第二通訊單元接收該第一感測資料,且該影像擷取單元擷取該使用者之第一影像,該影像擷取單元藉由該近端可攜式監控模組追蹤該使用者以擷取該第一影像,其中,該影像感測模組將該第一感測資料及該第一影像執行時間同步,以形成第一組合資料;以及近端資訊顯示模組,具有第三通訊單元與第一顯示單元,該近端資訊顯示模組使用該第三通訊單元透過網際網路連接至一雲端伺服器以搜尋且連接對應之該近端可攜式監控模組而接收該第一感測資料,以在該第一顯示單元顯示對應該第一感測資料之從該影像感測模組傳輸之該第一組合資料的畫面,當該近端資訊顯示模組判斷該第一感測資料包含警示訊號時,在此警示發生前的第一時間至該警示訊號解除的第二時間內的該第一組合資料係至少利用該第二通訊單元透過網際網路傳送至該雲端伺服器中儲存,並提供該第一時間至該第二時間內的該第一組合資料予該近端資訊顯示模組以顯示該第一組合資料。 A physiological monitoring system for monitoring a physiological state or a physiological state of a user and a first image, the physiological monitoring system comprising: a proximal portable monitoring module, having a first communication unit and a first sensing unit, The first sensing unit senses the physiological state of the user to generate a first sensing data, the first communication unit transmits the sensing data, and the image sensing module has a second The communication unit and the image capturing unit, the second communication unit receives the first sensing data, and the image capturing unit captures the first image of the user, and the image capturing unit is configured by the near-end portable The monitoring module tracks the user to capture the first image, wherein the image sensing module synchronizes the first sensing data with the first image execution time to form a first combined data; and the near-end information The display module has a third communication unit and a first display unit, and the near-end information display module uses the third communication unit to connect to a cloud server through the Internet to search for and connect the corresponding near-portable The control module receives the first sensing data to display, on the first display unit, a picture corresponding to the first combined data transmitted by the image sensing module of the first sensing data, when the near-end information When the display module determines that the first sensing data includes the warning signal, the first combination data in the second time before the warning occurs and the second time after the warning signal is released is at least the second communication unit is used to access the Internet. The network is sent to the cloud server for storage, and the first combination data from the first time to the second time is provided to the near-end information display module to display the first combination data. 如申請專利範圍第1項所述之生理監控系統,其中該第一感測單元為溫度感測、音頻感測、聲響感測、濕度感測、亮度感測、移動感測、生命徵象感測、生理訊號感測與距離感測之至少其中一者。 The physiological monitoring system of claim 1, wherein the first sensing unit is temperature sensing, audio sensing, acoustic sensing, humidity sensing, brightness sensing, motion sensing, and vital sign sensing. At least one of physiological signal sensing and distance sensing. 如申請專利範圍第1項所述之生理監控系統,更包含一網通單元,供連接至該雲端伺服器,該網通單元符合一通訊規範,該第一通訊單元、該第二通訊單元與該第三通訊單元之至少其中一者也符合該通訊規範,讓該第一感測資料透過該雲端伺服器在該近端可攜式監控模組、該影像感測模組與該近端資訊顯示模組之間傳遞。 The physiological monitoring system of claim 1, further comprising a network communication unit for connecting to the cloud server, the network communication unit conforming to a communication specification, the first communication unit, the second communication unit, and the first At least one of the three communication units also conforms to the communication specification, and the first sensing data is transmitted to the near-end portable monitoring module, the image sensing module, and the near-end information display module through the cloud server. Pass between groups. 如申請專利範圍第3項所述之生理監控系統,其中,該近端資訊顯示模組包含記憶單元或儲存單元,且該近端資訊顯示模組搜尋且連接對應之近端可攜式監控模組及該生理監控系統至少儲存感測資料係包含以下步驟:1)將該近端可攜式監控模組之位址儲存在該記憶單元或儲存單元中,2)該近端資訊顯示模組基於該位址透過該雲端伺服器搜尋且連接對應之該近端可攜式監控模組,3)該雲端伺服器建立該近端資訊顯示模組與該近端可攜式監控模組之連接,4)該影像感測模組將該第一感測資料及該第一影像執行時間同步,以形成第一組合資料,5)該近端資訊顯示模組接收該第一感測資料,以在該第一顯示單元顯示對應該第一感測資料之從該影像感測模組傳輸之該第一組合資料的畫面,且當該第一感測資料包含警示訊號時,在此警示發生前的第一時間至該警示訊號解除的第二時間內的該第一組合資料可至少利用該第二通訊單元傳送至該雲端伺服器中儲存,並提供該第一時間至該第二時間內的該第一組合資料予該近端資訊顯示模組以顯示該第一組合資料。 The physiological monitoring system of claim 3, wherein the near-end information display module comprises a memory unit or a storage unit, and the near-end information display module searches for and connects the corresponding near-end portable monitoring module. The group and the physiological monitoring system at least storing the sensing data includes the following steps: 1) storing the address of the near-end portable monitoring module in the memory unit or the storage unit, and 2) the near-end information display module Searching and connecting the corresponding near-end portable monitoring module through the cloud server based on the address, and 3) establishing, by the cloud server, the connection between the near-end information display module and the near-end portable monitoring module 4) the image sensing module synchronizes the first sensing data and the first image execution time to form a first combined data, and 5) the near-end information display module receives the first sensing data, Displaying, by the first display unit, a screen corresponding to the first combined data transmitted by the image sensing module of the first sensing data, and when the first sensing data includes a warning signal, before the warning occurs The first time to the warning The first combination data of the second time period can be transmitted to the cloud server by using the second communication unit, and the first combination data of the first time to the second time is provided to the The near-end information display module displays the first combined data. 如申請專利範圍第3項所述之生理監控系統,其中,該雲端伺服器包含儲存單元,以至少儲存該第一時間至該第二時間內的該第一組合資料。 The physiological monitoring system of claim 3, wherein the cloud server comprises a storage unit to store at least the first combined data from the first time to the second time. 如申請專利範圍第3項所述之生理監控系統,其中,該近端資訊顯示 模組至少顯示其與該雲端伺服器之間及該近端可攜式監控模組與該雲端伺服器之間的連接狀態。 The physiological monitoring system according to claim 3, wherein the near-end information display The module displays at least the connection state between the cloud server and the near-portable monitoring module and the cloud server. 如申請專利範圍第3項所述之生理監控系統,更包含一遠端資訊顯示模組,具有第四通訊單元與第二顯示單元,該第四通訊單元透過該雲端伺服器接收該第一感測資料,以在該第二顯示單元顯示對應該第一感測資料的該畫面,其中該第四通訊單元符合該通訊規範。 The physiological monitoring system of claim 3, further comprising a remote information display module, having a fourth communication unit and a second display unit, the fourth communication unit receiving the first sense through the cloud server Detecting data to display the screen corresponding to the first sensing material in the second display unit, wherein the fourth communication unit conforms to the communication specification. 如申請專利範圍第3項所述之生理監控系統,更包含遠端可攜式監控模組,具有第五通訊單元與第二感測單元,供該使用者配戴,該第二感測單元感測另一使用者的生理狀態,以產生一第二感測資料,該第五通訊單元將該第二感測資料透過網際網路傳送至該雲端伺服器。 The physiological monitoring system of claim 3, further comprising a remote portable monitoring module, having a fifth communication unit and a second sensing unit for the user to wear, the second sensing unit The physiological state of the other user is sensed to generate a second sensing data, and the fifth communication unit transmits the second sensing data to the cloud server via the Internet. 如申請專利範圍第8項所述之生理監控系統,其中該第二感測單元為溫度感測、音頻感測、聲響感測、濕度感測、亮度感測、移動感測、生命徵象感測、生理訊號感測與距離感測之至少其中一者。 The physiological monitoring system of claim 8, wherein the second sensing unit is temperature sensing, audio sensing, sound sensing, humidity sensing, brightness sensing, motion sensing, and vital sign sensing. At least one of physiological signal sensing and distance sensing. 如申請專利範圍第8項所述之生理監控系統,更包含警示單元,該警示單元具有第六通訊單元與第一處理單元,該第六通訊單元接收該第二感測資料,該第一處理單元根據該第二感測資料選擇性產生一警示訊號。 The physiological monitoring system of claim 8, further comprising a warning unit, the warning unit having a sixth communication unit and a first processing unit, the sixth communication unit receiving the second sensing data, the first processing The unit selectively generates an alert signal according to the second sensing data. 如申請專利範圍第10項所述之生理監控系統,其中,該雲端伺服器更包含儲存單元,以至少儲存該警示訊號。 The physiological monitoring system of claim 10, wherein the cloud server further comprises a storage unit to store at least the warning signal. 如申請專利範圍第8項所述之生理監控系統,其中,該雲端伺服器更包含儲存單元,且該近端資訊顯示模組顯示該另一使用者的生理狀態之歷史追蹤。 The physiological monitoring system of claim 8, wherein the cloud server further comprises a storage unit, and the near-end information display module displays a historical tracking of the physiological state of the other user. 如申請專利範圍第8項所述之生理監控系統,更包含伺服主機,該伺服主機具有第七通訊單元與第二主機單元,該第七通訊單元接收該第一感測資料、該第一影像、該第二感測資料與該第二影像之至少其中一者,該第二主機單元根據該第一影像與該第二影像產生至少一畫面,以及該第二主機單元根據該第一感測資料與該第二感測資料之至少其中一者產生一警示訊號。 The physiological monitoring system of claim 8, further comprising a servo host, the servo host having a seventh communication unit and a second host unit, wherein the seventh communication unit receives the first sensing data, the first image At least one of the second sensing unit and the second image, the second host unit generates at least one picture according to the first image and the second image, and the second host unit is configured according to the first sensing At least one of the data and the second sensing data generates a warning signal. 如申請專利範圍第1項所述之生理監控系統,更包含警示單元,該警示單元具有第六通訊單元與第一處理單元,該第六通訊單元接收該第一感測資料,該處理單元根據該第一感測資料選擇性產生一警示訊號。 The physiological monitoring system of claim 1, further comprising a warning unit, the warning unit having a sixth communication unit and a first processing unit, the sixth communication unit receiving the first sensing data, the processing unit is The first sensing data selectively generates a warning signal. 如申請專利範圍第1項所述之生理監控系統,更包含伺服主機,該伺服主機具有第七通訊單元與第二主機單元,該第七通訊單元接收該第一感測資料與該影像之至少其中一者,該第二主機單元與根據該影像產生一畫面,以及該第二主機單元根據該第一感測資料與該影像之至少其中一者產生一警示訊號。 The physiological monitoring system of claim 1, further comprising a servo host, the servo host having a seventh communication unit and a second host unit, the seventh communication unit receiving the first sensing data and the image at least The second host unit generates a picture according to the image, and the second host unit generates an alert signal according to at least one of the first sensing data and the image.
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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009136675A (en) * 2001-05-18 2009-06-25 Volcano Corp A signal conditioning device for interfacing intravascular sensors having varying operational characteristics to physiology monitor
CN102663873A (en) * 2010-12-21 2012-09-12 通用电气公司 Alarm control method, physiological monitoring apparatus, and computer program product for a physiological monitoring apparatus
TW201308262A (en) * 2011-08-05 2013-02-16 Care System Inc Physiological measurement device with remote control and measurement monitoring system having the same
US20130317319A1 (en) * 2012-05-23 2013-11-28 National Cheng Kung University Physiology monitoring system and physiology monitoring method
TWM508082U (en) * 2015-05-18 2015-09-01 Yan Lian Physiology monitoring system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009136675A (en) * 2001-05-18 2009-06-25 Volcano Corp A signal conditioning device for interfacing intravascular sensors having varying operational characteristics to physiology monitor
CN102663873A (en) * 2010-12-21 2012-09-12 通用电气公司 Alarm control method, physiological monitoring apparatus, and computer program product for a physiological monitoring apparatus
TW201308262A (en) * 2011-08-05 2013-02-16 Care System Inc Physiological measurement device with remote control and measurement monitoring system having the same
US20130317319A1 (en) * 2012-05-23 2013-11-28 National Cheng Kung University Physiology monitoring system and physiology monitoring method
TWM508082U (en) * 2015-05-18 2015-09-01 Yan Lian Physiology monitoring system

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