TW201535303A - An method and a system for detecting the off-bed behavior of the humans - Google Patents

An method and a system for detecting the off-bed behavior of the humans Download PDF

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TW201535303A
TW201535303A TW103107272A TW103107272A TW201535303A TW 201535303 A TW201535303 A TW 201535303A TW 103107272 A TW103107272 A TW 103107272A TW 103107272 A TW103107272 A TW 103107272A TW 201535303 A TW201535303 A TW 201535303A
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bed
sensing
human body
server
neural network
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TW103107272A
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Chinese (zh)
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Hsu-Yang Kung
Miao-Han Chang
Mei-Hsien Lin
Yi-Jiun Shih
Pei-Yu Tsai
Yu-Chen Chang
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Univ Nat Pingtung Sci & Tech
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Abstract

This invention discloses a method for detecting the off-bed behavior of the humans to solve the problem of the off-bed behavior is not able to early detecting. The method comprises a sensing step, an analysis step and a warning step. The sensing step is sensing an amount of a movement of a patient by a movement sensing module mounted on the patient and translating the amount of the movement into a movement data. The analysis step is inputting the movement data into a neural network with posture training to get a plurality of continuous human postures and determining weather the human postures satisfies the off-bed behavior of the humans to execute the warning, or not to re-execute the sensing step. The warning step is transmits a warning message to a monitoring end for sending out the warning message. This invention further discloses a system for detecting the off-bed behavior of the humans. Thus, it can actually resolve the said problem.

Description

人體離床感知方法及系統 Human body bed sensing method and system

本發明係關於一種人體離床感知方法及系統;特別是關於一種應用倒傳遞類神經網路之人體離床感知方法及系統。 The invention relates to a human body bed sensing method and system; in particular to a human body bed sensing method and system using an inverted transmission neural network.

近年來,隨著少子化、高齡化情況日趨明顯,健康照護的議題逐漸受到重視。根據統計結果,老年病患在住院治療過程中,約有30%的人曾發生院內跌倒情況,導致病情更加惡化,經探究原因後發現,跌倒情況通常在病患剛離床(off-bed)行走時發生,但是,病患在事前常不知自己離床後會跌倒。是以,為了預防離床跌倒的情況發生,醫療照護人員亟需即時得知病患是否離床,以便從旁給予協助。 In recent years, with the increasing number of children and aging, the issue of health care has gradually received attention. According to the statistical results, about 30% of elderly patients in the hospitalization process have experienced in-hospital falls, which has led to a worsening of the condition. After investigation, it is found that the fall usually occurs when the patient just walks off-bed. It happened, but the patient often did not know that he would fall after leaving the bed. Therefore, in order to prevent the fall from the bed, medical care workers need to know immediately whether the patient has left the bed in order to assist from the side.

為了改善院內跌倒情況,遂有醫療照護院所引進習知人體離床感知設備,例如:影像式離床感知裝置、圍欄式離床感知裝置或床墊式離床感知裝置等,以便輔助醫療照護人員得知病患離床資訊,期能降低老年病患在醫院內跌倒的頻率。 In order to improve the fall in the hospital, the medical care home has introduced the human body bed sensing device, such as: image-type bed-sensing device, fence-type bed-sensing device or mattress-type bed-sensing device, in order to assist medical care workers to learn the disease. Suffering from information on leaving the bed can reduce the frequency of elderly patients falling in the hospital.

然而,習知床墊式離床感知裝置在感知受護者離床時,雖會發送警示訊息(如:床位等)給護理人員,惟在護理人員趕往該受護者床位的過程中,該受護者離床的動作仍持續進行,是以,當護理人員抵達床邊時,受護者常已下床行走而跌倒,或已自行離開床邊;另,習知影像式離床感知裝置常須人力加以判讀,且在夜晚的感測效果不佳;而習知圍欄 式離床感知裝置則易發生失誤情況。由此,顯見上述習知人體離床感知設備的預警功能有限,無法提早感知離床行為,對院內跌倒情況的改善效果不佳;而且,從離床跌倒人次的統計結果亦可知,醫療照護院所引進上述習知人體離床感知設備後,院內跌倒的人次並未明顯下降。 However, the conventional mattress-type bed-away sensing device sends a warning message (such as a bed, etc.) to the caregiver when the care recipient is out of bed, but in the process of the caregiver rushing to the care recipient's bed, The movement of the caregiver from the bed continues, so that when the caregiver arrives at the bedside, the caregiver often walks out of bed and falls, or has left the bed by himself; in addition, the conventional image-type bed-sensing device often requires manpower. Interpreted, and the sensing effect at night is not good; and the custom fence The type of bed-sensing device is prone to error. Therefore, it is obvious that the above-mentioned conventional human body bed-sensing device has limited warning function, and it is impossible to detect the behavior of leaving the bed early, and the improvement effect on the fall of the hospital is not good. Moreover, the statistical result of the fall from the bed can also be known that the medical care institution introduced the above. After knowing that the human body had left the bed to sense the equipment, the number of people falling in the hospital did not drop significantly.

有鑑於此,習知人體離床感知設備及方法實際應用時,除有「無法提早感知離床行為」問題外,另有「感測效果不佳」及「易發生失誤」等疑慮,在實際使用時更衍生諸多限制與缺點,確有不便之處,亟需進一步改良,以提升其實用性。 In view of this, in the practical application of the human body bed-sensing device and method, in addition to the problem of "not being able to detect the problem of leaving the bed early", there are other doubts such as "poor sensing effect" and "prone to error", in actual use. There are many limitations and shortcomings, and there are inconveniences that need further improvement to improve its practicality.

本發明之主要目的係提供一種人體離床感知方法,可在感知受護者有離床的趨勢時,立即發出警示訊息。 The main object of the present invention is to provide a method for sensing a person's bed-awayness, which can immediately send a warning message when the subject is perceived to have a tendency to get out of bed.

本發明之次一目的係提供一種人體離床感知系統,可在感知受護者有離床的趨勢時,立即發出警示訊息。 A second object of the present invention is to provide a human body bed sensing system that immediately issues a warning message when the subject is perceived to have a tendency to get out of bed.

本發明提出一種人體離床感知方法,包含:一感測步驟,由設於受護者的移動感測模組感測該受護者的空間移動量,由一伺服端將該空間移動量轉為一移動量資料;一分析步驟,由該伺服端將該移動量資料輸入一個已完成姿態訓練的類神經網路,以取得數個連續的人體姿態,依據該些人體姿態判斷是否滿足人體離床的慣性動作,若判斷為是,進行一示警步驟,若判斷為否,重新進行上述感測步驟;及該示警步驟,由該伺服端傳送一警示訊息至一監控端,由該監控端發出該警示訊息。 The present invention provides a method for sensing a human body leaving the bed, comprising: a sensing step of sensing a spatial movement amount of the care recipient by a motion sensing module provided by the care recipient, and converting the spatial movement amount by a servo end to a moving amount data; an analyzing step, the servo end inputting the moving amount data into a neural network of completed posture training, to obtain a plurality of continuous human body postures, and determining whether the human body is out of bed according to the human body postures Inertial action, if the determination is yes, perform an alerting step, if the determination is no, re-perform the sensing step; and in the warning step, the server sends a warning message to a monitoring terminal, and the monitoring terminal sends the warning message.

較佳地,該類神經網路為一倒傳遞類神經網路。 Preferably, the neural network is a reverse transmission type neural network.

本發明另提出一種人體離床感知系統,包含:一移動感測模組,用以感測一人體的空間位置;一伺服端,耦接該移動感測模組,依據該空間位置分析該人體是否有離床的趨勢,並產生一分析結果;及一監控端,用以輸出該分析結果。 The invention further provides a human body departure sensing system, comprising: a mobile sensing module for sensing a spatial position of a human body; a servo end coupled to the mobile sensing module, and analyzing whether the human body is based on the spatial position There is a trend of leaving the bed and an analysis result is generated; and a monitoring terminal is used to output the analysis result.

較佳地,該移動感測模組係具有移動感測及無線通訊功能之裝置。 Preferably, the mobile sensing module is a device having a mobile sensing and wireless communication function.

較佳地,該伺服端包含一第一無線接取器、一姿態數值搜尋引擎、一姿態判別伺服器、一整合服務伺服器、一無線路由器及一第二無線接取器,該第一無線接取器耦接該移動感測模組,並電性連接該姿態數值搜尋引擎,該姿態數值搜尋引擎、該姿態判別伺服器及該整合服務伺服器相互連接,該整合服務伺服器透過該無線路由器及該第二無線接取器耦接該監控端。 Preferably, the server includes a first wireless access device, an attitude value search engine, an attitude determination server, an integrated service server, a wireless router, and a second wireless access device. The sensor is coupled to the motion sensing module and electrically connected to the attitude value search engine. The attitude value search engine, the attitude determination server and the integrated service server are connected to each other, and the integrated service server transmits the wireless The router and the second wireless access device are coupled to the monitoring terminal.

〔本發明〕 〔this invention〕

1‧‧‧移動感測模組 1‧‧‧Mobile sensing module

2‧‧‧伺服端 2‧‧‧Server

21‧‧‧第一無線接取器 21‧‧‧First wireless access device

22‧‧‧姿態數值搜尋引擎 22‧‧‧ pose numerical search engine

23‧‧‧姿態判別伺服器 23‧‧‧ attitude discriminating server

24‧‧‧整合服務伺服器 24‧‧‧Integrated Service Server

25‧‧‧無線路由器 25‧‧‧Wireless Router

26‧‧‧第二無線接取器 26‧‧‧Second wireless accessor

3‧‧‧監控端 3‧‧‧Monitor

F‧‧‧資料格式 F‧‧‧ data format

K‧‧‧感測封包 K‧‧‧Sensing package

P‧‧‧受護者 P‧‧‧ care recipients

R‧‧‧類神經網路 R‧‧‧ class neural network

S1‧‧‧感測步驟 S1‧‧‧Sensing steps

S2‧‧‧分析步驟 S2‧‧‧ Analysis steps

S3‧‧‧示警步驟 S3‧‧‧ warning steps

第1圖係本發明之人體離床感知方法實施例之系統方塊圖。 1 is a system block diagram of an embodiment of a human body bed sensing method of the present invention.

第2圖係本發明之人體離床感知方法實施例之運作流程圖。 2 is a flow chart showing the operation of the embodiment of the human body bed sensing method of the present invention.

第3圖係本發明之人體座標與大地座標之示意圖。 Figure 3 is a schematic view of the human body coordinates and earth coordinates of the present invention.

第4圖係本發明之人體離床感知方法實施例所用的類神經網路示意圖。 Figure 4 is a schematic diagram of a neural network as used in the embodiment of the human body bed sensing method of the present invention.

第5圖係本發明之人體離床模式的示意圖。 Fig. 5 is a schematic view showing the human body leaving mode of the present invention.

為讓本發明之上述及其他目的、特徵及優點能更明顯易懂,下文特舉本發明之較佳實施例,並配合所附圖式,作詳細說明如下:本發明全文所述之「離床」(off-bed),係指人體由床的上表面離開床的過程,係本發明所屬技術領域中具有通常知識者可以理解。 The above and other objects, features and advantages of the present invention will become more <RTIgt; (off-bed) means the process by which the human body leaves the bed from the upper surface of the bed, as will be understood by those of ordinary skill in the art to which the present invention pertains.

本發明全文所述之「耦接」(coupled connection),係指二裝置之間藉由有線或無線通訊方式相互傳遞資料,如:遵循同一有線或無線通訊協定,係本發明所屬技術領域中具有通常知識者可以理解。 The "coupled connection" as used throughout the present invention refers to the transfer of data between two devices by means of wired or wireless communication, such as following the same wired or wireless communication protocol, which is within the technical field of the present invention. Usually the knowledge person can understand.

本發明全文所述之「倒傳遞類神經網路」(Back-propagation neural network,BPN),係指將多層感知機(MLP)與誤差倒傳遞演算法 (Error Back Propagation,EBP)融合的類神經網路技術(詳參「張斐章,張麗秋,”類神經網路”,東華書局,2005」),其中,倒傳遞類神經網路在學習階段時,會將輸出時所產生的誤差值,自輸出層往回傳遞至隱藏層,再至輸入層,並修正網路間的鍵結值,以求得到更接近所期望的輸出結果。另,倒傳遞類神經網路的學習演算法建立(訓練)過程包含:(1)設定網路參數;(2)以均佈隨機亂數設定加權矩陣及偏權向量初始值;(3)計算隱藏層(Hidden Layer)輸出量;(4)設定輸出層(Output layer)與隱藏層容許差距量;(5)計算輸出層與隱藏層差距量;(6)輸出層與隱藏層差距量是否大於容許差距量,若成立則執行;(7)計算輸出層與隱藏層加權矩陣及偏權值修正量;(8)重新修正輸出層與隱藏層加權矩陣與偏權值;若不滿足步驟(6),重覆(3)~(8),直到輸出層與隱藏層差距量在容許差距量中;(9)找出最佳模式(詳參「葉怡成,”類神經網路模式應用與實作”,儒林圖書有限公司,2004」),係本發明所屬技術領域中具有通常知識者可以理解。 The "Back-propagation neural network" (BPN) described in the full text of the present invention refers to a multi-layer perceptron (MLP) and error inversion algorithm. (Error Back Propagation, EBP) fusion neural network technology (see "Zhang Feizhang, Zhang Liqiu," Neural Network", Donghua Book Company, 2005"), in which the reverse transmission neural network will be in the learning phase. The error value generated at the output is transferred from the output layer back to the hidden layer, to the input layer, and the bond value between the networks is corrected to obtain a closer to the desired output result. In addition, the learning algorithm establishment (training) process of the inverse transfer type neural network includes: (1) setting network parameters; (2) setting the weighting matrix and the initial value of the partial weight vector by uniformly random random numbers; (3) calculating Hidden layer output; (4) set the output layer (Output layer) and hidden layer tolerance; (5) calculate the output layer and hidden layer gap; (6) whether the output layer and hidden layer gap is greater than The allowable gap is executed if it is established; (7) Calculate the output layer and hidden layer weighting matrix and the bias value correction amount; (8) Correct the output layer and hidden layer weight matrix and the partial weight; if the step is not satisfied (6) ), repeat (3) ~ (8) until the gap between the output layer and the hidden layer is within the allowable gap; (9) find the best mode (see "Yi Yicheng," neural network mode application and implementation ", Rulin Books Co., Ltd., 2004") is understood by those of ordinary skill in the art to which the present invention pertains.

請參閱第1圖所示,其係本發明之人體離床感知方法的一實施例之系統方塊圖。其中,一人體離床感知系統包含:一移動感測模組1、一伺服端2及一監控端3,該移動感測模組1係具有移動感測及無線通訊功能之裝置,如:具有移動感測器(如:加速度感測器,Accelerometer,G-sensor)的智慧型手機(smart phone)等,用以感測一人體(human body)的空間位置,如:三軸(X、Y、Z軸)加速度等;該伺服端2係具有資料處理及無線通訊功能之裝置,如:具有無線通訊功能的電腦(computer)、伺服器(server)或提供雲端服務(cloud service)的裝置等,該伺服端2耦接該移動感測模組1及該監控端3,用以執行一軟體程式(software program),以依據該空間位置分析該人體是否有離床的趨勢,並將分析結果傳送至該監控端3;該監控端3係具有資料輸出及無線通訊功能之裝置,如:筆記型電腦(notebook computer)、平板電腦(tablet computer)或行 動電話(mobile phone)等,用以輸出該分析結果,例如:分析畫面、警示訊息及/或聲音等。 Please refer to FIG. 1, which is a system block diagram of an embodiment of the human body bed sensing method of the present invention. The human body departure sensing system comprises: a mobile sensing module 1, a servo terminal 2 and a monitoring terminal 3, wherein the mobile sensing module 1 is a device having a mobile sensing and wireless communication function, such as: having a mobile Sensors (such as: Accelerometer, Accelerometer, G-sensor) smart phones, etc., to sense the spatial position of a human body, such as: three axes (X, Y, Z-axis) acceleration, etc.; the servo terminal 2 is a device having data processing and wireless communication functions, such as a computer having a wireless communication function, a server, or a device providing a cloud service. The mobile terminal 2 is coupled to the mobile sensing module 1 and the monitoring terminal 3 for executing a software program to analyze whether the human body has a tendency to leave the bed according to the spatial position, and transmit the analysis result to the The monitoring terminal 3; the monitoring terminal 3 is a device having data output and wireless communication functions, such as a notebook computer, a tablet computer or a line. A mobile phone or the like for outputting the analysis result, such as an analysis screen, a warning message, and/or a sound.

在此實施例中,該移動感測模組1較佳固定於一受護者P的胸部位置(如第1圖所示),以便偵測該受護者P的姿態變化;該伺服端2包含一第一無線接取器(wireless access point)21、一姿態數值搜尋引擎(sensors value assemble engine)22、一姿態判別伺服器(intelligent human body posture determine server)23、一整合服務伺服器(integrated service server)24、一無線路由器(wireless router)25及一第二無線接取器26,該第一無線接取器21耦接該移動感測模組1,並電性連接該姿態數值搜尋引擎22,用以將該移動感測模組1的感測訊號傳送至該姿態數值搜尋引擎22,該姿態數值搜尋引擎22、姿態判別伺服器23及整合服務伺服器24可透過網際網路N相互連接,該姿態數值搜尋引擎22用以收集該感測訊號並封裝成感測封包(packet),如:含有封包編號、感測模組編號、封包種類、通訊頻道編號及感測資料等的封包,其中,該感測封包可採習知通訊封包格式,其封裝方式係熟知該項技藝者可以理解,在此容不贅述。 In this embodiment, the motion sensing module 1 is preferably fixed to a chest position of the care receiver P (as shown in FIG. 1) to detect a change in posture of the care recipient P; the servo end 2 The invention includes a first wireless access point 21, a sensor value assembly engine 22, an intelligent human body posture determine server 23, and an integrated service server (integrated) The service server 24, a wireless router 25 and a second wireless accessor 26, the first wireless accessor 21 is coupled to the mobile sensing module 1 and electrically connected to the attitude value search engine 22, the sensing signal of the mobile sensing module 1 is transmitted to the attitude value search engine 22, and the posture value search engine 22, the posture determination server 23, and the integrated service server 24 can communicate with each other through the Internet N. The gesture value search engine 22 is configured to collect the sensing signal and package the packet into a sensing packet, such as a packet including a packet number, a sensing module number, a packet type, a communication channel number, and a sensing data. , In the sensing recoverable conventional packet communication packet format, which is well known in the art that encapsulation system can be appreciated, this capacity is not repeated here.

承上,該姿態判別伺服器23用以解析封包,並利用資料探勘(data mining)技術分析該感測資料所代表的人體姿態,例如:利用倒傳遞類神經網路(BPN)分析該受護者P是否有〝坐〞、〝站〞、〝躺〞、〝坐到躺〞、〝躺到坐〞、〝右翻身〞、〝右翻後起身〞、〝左翻身〞、〝左翻後起身〞等姿態(posture),以判別該受護者P是否有離床的趨勢(如:離床行為的連續姿態),其中,資料分析方法可採習知資料分析演算法,為熟知該項技藝者可以理解,在此容不贅述;該整合服務伺服器24可預存病患個資及病床資訊等資料,並透過該網際網路N、無線路由器25及第二無線接取器26耦接該監控端3,以便在該受護者P有離床趨勢時,先行將該受護者P的病床資訊發送至該監控端3(如:護理人員附近的影音設備),以發出警 示訊息,如:〝以不同燈號表示離床意願〞或〝廣播xxx即將離床〞等,使護理人員能提早前往該受護者P的床位,或用通話器提醒該受護者P暫緩離床,以降低院內跌倒的發生次數,其中,該整合服務伺服器24可執行一資料伺服程式以完成上述功能,係熟知該項技藝者可以理解,在此容不贅述。 The gesture discriminating server 23 is configured to parse the packet and analyze the human body posture represented by the sensing data by using a data mining technique, for example, analyzing the victim by using a reverse transmission neural network (BPN). Does P have a squat, squat, lie down, sit down to lie down, lie down to sit, turn right, turn right and then get up, turn left and turn left, then turn left and get up Posture, to determine whether the caregiver P has a tendency to get out of bed (eg, a continuous posture of the bed-away behavior), wherein the data analysis method can be used to analyze the algorithm, so that those skilled in the art can It is understood that the integrated service server 24 can pre-store information such as patient information and bed information, and is coupled to the monitoring terminal through the Internet N, the wireless router 25, and the second wireless accessor 26. 3, in order to send the caregiver P's bed information to the monitoring terminal 3 (such as: audio-visual equipment near the nursing staff) to issue an alarm when the care recipient P has a tendency to get out of bed The message, such as: 〝 indicates the willingness to leave the bed with different lights, or the broadcast xxx is about to leave the bed, so that the nursing staff can go to the bed of the care recipient P early, or use the talker to remind the care recipient P to stay out of bed. In order to reduce the number of occurrences of falls in the hospital, the integrated service server 24 can execute a data server to perform the above functions, which is well understood by those skilled in the art and will not be described herein.

請參閱第2圖所示,其係本發明之人體離床感知方法的一實施例之運作流程圖,其中,該人體離床感知方法包含一感測步驟S1、一分析步驟S2及一示警步驟S3,分別說明如後,請一併參閱第1圖。 Referring to FIG. 2, it is an operational flowchart of an embodiment of the method for sensing a human body leaving the bed according to the present invention, wherein the human body bed sensing method includes a sensing step S1, an analyzing step S2, and an alerting step S3. For a description of each, please refer to Figure 1 together.

該感測步驟S1,係由設於上述受護者的移動感測模組感測該受護者的空間移動量,上述伺服端將該空間移動量轉為一移動量資料。在此實施例,首先,將該移動感測模組1固定於該受護者P的上半身,以便由該移動感測模組1持續(如:每10秒)感測該受護者P的三軸位置,如:利用加速度的X、Y、Z分量,並將加速度的X、Y、Z分量轉換為地心引力(g)值,以計算人體座標與大地座標之間的夾角,並以封包形式傳送至該伺服端2。 In the sensing step S1, the motion sensing module provided in the care recipient senses the spatial movement amount of the care recipient, and the servo end converts the spatial movement amount into a movement amount data. In this embodiment, first, the motion sensing module 1 is fixed to the upper body of the care receiver P, so that the motion sensing module 1 continues (eg, every 10 seconds) to sense the caret P. The three-axis position, such as: using the X, Y, and Z components of the acceleration, and converting the X, Y, and Z components of the acceleration into the gravitational (g) value to calculate the angle between the human body coordinates and the earth coordinates, and The packet form is transmitted to the server terminal 2.

舉例而言,加速度感測器具有X、Y、Z三個軸度(直角座標),共六個方向的感測功能,同一個軸度可分為兩個方向,使用“+”及“-”做方向辨別。當X軸、Y軸與大地平行,並且在沒有任何外力作用下,X軸與Y軸輸出0g,Z軸將會受到1g的地心引力影響;若將X軸與Z軸與大地平行,則Y軸會受到1g的地心引力作用。 For example, the acceleration sensor has X, Y, and Z axes (orthogonal coordinates), and the sensing function is six directions. The same axis can be divided into two directions, using “+” and “- "Do the direction to distinguish. When the X axis and the Y axis are parallel to the earth, and the X axis and the Y axis output 0g without any external force, the Z axis will be affected by the gravitation of 1g; if the X axis and the Z axis are parallel to the earth, then The Y axis will be subjected to 1 g of gravity.

請一併參閱第3圖所示,其係本發明之人體座標與大地座標之示意圖。其中,若設該人體座標為{X’,Y’,Z’},該大地座標為{X,Y,Z},X與X’的夾角為α,Y與Y’的夾角為β,Z與Z’的夾角為γ。其中,由於該加速度感測器所取得的值是X、Y、Z三軸之加速度分量(,,),因此,在計算夾角角度α、β、γ前,需先利用歐幾里德距離公式求算一加速度, 計算式如公式(1)所示: 接著,計算該人體座標與大地座標的夾角角度α、β、γ,如下式(2a)、(2b)、(2c)所示: Please refer to FIG. 3 together, which is a schematic diagram of the human body coordinates and the earth coordinates of the present invention. Wherein, if the human body coordinates are {X', Y', Z'}, the earth coordinates are {X, Y, Z}, the angle between X and X' is α, and the angle between Y and Y' is β, Z. The angle with Z' is γ. Wherein, the value obtained by the acceleration sensor is an acceleration component of three axes of X, Y, and Z ( , , Therefore, before calculating the angles α, β, γ, we need to calculate the acceleration by using the Euclidean distance formula. , the calculation formula is as shown in formula (1): Next, the angles α, β, and γ of the human body coordinates and the earth coordinates are calculated as shown in the following formulas (2a), (2b), and (2c):

在此實施例中,設大地座標{X,Y,Z}軸方向為0度,根據上式(2a)、(2b)、(2c)所求得之夾角角度可知,該夾角角度或人體座標{X’,Y’,Z’}皆可當作上述移動量資料,作為後續評估人體姿態的依據,以夾角角度為例,該三軸的角度範圍可正規化於0~+90以及0~-90之間,使用此定義可得知該受護者的目前空間座標,惟不以此為限。 In this embodiment, the axis coordinates {X, Y, Z} are 0 degrees in the axial direction, and the angle angle or the human body coordinates can be known from the angles obtained by the above equations (2a), (2b), and (2c). {X', Y', Z'} can be used as the above-mentioned movement data, as a basis for subsequent evaluation of the human body posture. Taking the angle of the angle as an example, the angle range of the three axes can be normalized to 0~+90 and 0~ Between -90, use this definition to know the current space coordinates of the care recipient, but not limited to this.

該分析步驟S2,係由該伺服端2將上述移動量資料輸入一個已完成姿態訓練的類神經網路,以取得數個連續的人體姿態,依據該些人體姿態判斷是否滿足人體離床的慣性動作,若判斷為「是」,進行上述示警步驟S3,若判斷為「否」,重新進行上述感測步驟S1。在此實施例,請一併參閱第4圖所示,由於各感測封包K中僅含有該受護者P所屬姿態的部分資料,因此,該伺服端2可先收集封包中的姿態資料,如:[T1,X1,Y1,Z1]、[T2,X2,Y2,Z2]、[T3,X3,Y3,Z3]、[T4,X4,Y4,Z4]、…、[Tj,Xj,Yj,Zj],直到該伺服端2判斷所收集的姿態資料足以分析一個人體姿態(如:40個封包中所含資料或100筆資料等),再將該姿態資料轉為類神經網路所需的資料格式F,用以輸入一個已訓練完成的類神經網路R。例如:採用Matlab軟體函式庫實現倒傳遞類神經網路(BPN),預先輸入人體姿態的資料進行類神經網路的權重訓練與調整,訓練完成後,即可判別上述姿態資料所代 表的人體姿態是否屬於一離床模式資料庫中所含的離床姿態,如下表一所示: In the analyzing step S2, the servo terminal 2 inputs the movement amount data into a neural network of completed posture training to obtain a plurality of continuous human body postures, and according to the human body postures, determine whether the inertia movement of the human body to the bed is satisfied. If the determination is YES, the above-described warning step S3 is performed, and if the determination is "NO", the above-described sensing step S1 is performed again. In this embodiment, as shown in FIG. 4, since each sensing packet K contains only part of the profile of the posture of the care recipient P, the server 2 can first collect the posture data in the packet. Such as: [T 1 , X 1 , Y 1 , Z 1 ], [T 2 , X 2 , Y 2 , Z 2 ], [T 3 , X 3 , Y 3 , Z 3 ], [T 4 , X 4 , Y 4 , Z 4 ], ..., [T j , X j , Y j , Z j ], until the servo terminal 2 judges that the collected posture data is sufficient to analyze a human body posture (eg, information contained in 40 packets) Or 100 pieces of data, etc., and then convert the posture data into a data format F required for the neural network to input a trained neural network R. For example, the Matlab software library is used to implement the inverse transfer neural network (BPN), and the data of the human body posture is input in advance to perform the weight training and adjustment of the neural network. After the training is completed, the human body represented by the posture data can be discriminated. Whether the posture belongs to the off-bed posture contained in a bed-away mode database, as shown in the following Table 1:

藉此,該伺服端2可由該受護者的姿態判斷是否屬於離床模式。請參閱第5圖所示,其係本發明之人體離床模式的示意圖,其中,(a)~(f)分別表示「坐於床沿(離床前)」、「雙腳著地(離床中)」、「單腳著地(離床中)」、「翻身下床(離床中)」、「離床跌倒(離床後)」、「離床行走(離床後)」等離床模式。 Thereby, the servo end 2 can judge whether or not it belongs to the bed-away mode by the posture of the care recipient. Please refer to FIG. 5, which is a schematic diagram of the human body bed-away mode of the present invention, wherein (a)-(f) respectively indicate "sitting on the edge of the bed (before the bed)" and "sitting on the feet (out of the bed)" , "Single-footed (out of bed)", "turning out of bed (out of bed)", "falling from bed (after leaving the bed)", "walking away from bed (after leaving the bed)" and other bed-away mode.

此外,為了避免誤判人體姿態,較佳收集數個連續發生的姿態資料(如:3個姿態資料),以便藉由人體離床時的慣性動作判讀該受護者是否離床,更可判斷該受護者的離床意願強度,以便提早發出警示訊息。舉例而言,若該受護者無意離床時,在床上的動作以〝躺〞、〝左翻身〞及〝右翻身〞為主,且行動不便者少有俯睡姿態;另外,當該受護者的姿態 趨勢係為〝左翻後起身〞或〝右翻後起身〞等連續性動作,表示該受護者可能有意願離床。 In addition, in order to avoid misjudging the posture of the human body, it is preferable to collect a plurality of continuously occurring posture data (for example, three posture data), so as to judge whether the care recipient is out of the bed by the inertial action when the human body is out of bed, and to judge the protection. The strength of the person's willingness to leave the bed, in order to issue a warning message early. For example, if the caregiver does not intend to leave the bed, the action on the bed is mainly lie down, 〝 left turn over and 〝 right turn over, and the person with mobility is less likely to fall asleep; in addition, when the guard Gesture The trend is a continuous movement such as a left turn to the back or a right turn and a right turn, indicating that the care recipient may be willing to leave the bed.

又,當該受護者起身後再躺回床上,表示該受護者沒有離床意圖,而不需發出警示訊息(如:xxx無意離床或於其床位位置顯示綠色燈號等);但若經過一段時間仍未躺回床上,表示該受護者將要離床的可能性很高,可進一步發出警示訊息(如:xxx即將離床或於其床位位置顯示黃色燈號等);另,若該受護者的姿態為〝站〞(已離床),則可能為正常行走(Y軸角度變化不大),也可能在3~5步後跌倒(Y軸角度變化很大),而進一步發出警示訊息(如:xxx已經跌倒或於其床位位置顯示紅色燈號等)。其中,若不需發出警示訊息,則重新執行上述感測步驟S1;若需發出警示訊息,則進一步執行上述示警步驟S3。 Moreover, when the care recipient gets up and then lie back on the bed, indicating that the care recipient has no intention to leave the bed, and does not need to issue a warning message (eg, xxx does not intend to leave the bed or display a green light number in the position of the bed); If you have not been lying back on the bed for a while, it means that the caregiver is likely to leave the bed, and can send further warning messages (such as: xxx is about to leave the bed or display a yellow light at the bed position); If the posture of the person is 〝站〞 (has left the bed), it may be normal walking (the angle of the Y-axis does not change much), or it may fall after 3~5 steps (the angle of the Y-axis changes greatly), and further warning messages are sent ( Such as: xxx has fallen or displayed a red light in its bed position, etc.). If the warning message is not required, the sensing step S1 is re-executed; if the warning message is to be sent, the warning step S3 is further performed.

該示警步驟S3,係由上述伺服端依據滿足該慣性動作的人體姿態傳送一警示訊息至上述監控端,由該監控端發出該警示訊息。詳言之,若該伺服端2感知某一受護者有離床的意願時,則產生該警示訊息並傳送至該監控端3,由該監控端3發出該警示訊息,讓護理人員得知有意願離床的受護者位置,以便及時提供協助,或以通話器提醒該受護者。此外,該伺服端2還可依上述離床意願強度產生一警示數值,如:無意離床為0、有意離床為1、已經離床為2、正常行走為3、已經跌倒為4等,並將該警示數值配合病床資訊傳送至該監控端3,由該監控端3輸出該警示數值,如:以不同顏色顯示所有受護者的離床意願強度,以便照護人員辨識,惟不以此為限。 In the warning step S3, the server sends a warning message to the monitoring terminal according to the human body posture satisfying the inertia action, and the monitoring terminal sends the warning message. In detail, if the server 2 senses that a certain insured person has a willingness to leave the bed, the warning message is generated and transmitted to the monitoring terminal 3, and the monitoring terminal 3 sends the warning message to let the nursing staff know that there is The position of the care recipient who wishes to leave the bed in order to provide timely assistance or to remind the care recipient with a talker. In addition, the servo end 2 can also generate a warning value according to the above-mentioned strength of the intention to leave the bed, such as: unintentional departure from the bed is 0, intentional departure from the bed 1, departure from the bed 2, normal walking to 3, having fallen to 4, etc., and the warning The value is transmitted to the monitoring terminal 3, and the warning value is outputted by the monitoring terminal 3, for example, the intensity of the willingness of all the insured persons is displayed in different colors for the caregiver to recognize, but not limited thereto.

舉例而言,為了確認各姿態的正確判斷率,共分為〝坐〞、〝站〞、〝躺〞、〝躺到坐〞、〝坐到躺〞、〝右翻身後起身〞及〝左翻身後起身〞七個動作進行實驗,每個姿態各取得100多筆資料,在篩選過程中,將坐與站合併為一個姿態,並將部份無效值丟棄,接著再將每個姿態的資料分 為A、B兩組,A組資料用於訓練類神經網路,每個姿態輸入50筆值做訓練;B組資料用於測試,兩組所使用的資料數量如下列表二所示: For example, in order to confirm the correct judgment rate of each posture, it is divided into a squat, a squat, a lie, a lie down to a sitting squat, a squat to a lie, a squat and a squat, and a left turn over. After getting up and doing seven experiments, each pose gets more than 100 pieces of data. During the screening process, the sitting and the station are merged into one pose, and some invalid values are discarded, and then the data of each pose is divided. For the A and B groups, the data of the A group is used to train the neural network, and 50 pen values are input for each posture. The B group data is used for testing. The amount of data used by the two groups is as shown in the second list:

因此,將B組資料也依照A組資料的修剪模式,將每筆100個封包的資料修剪為40個封包的資料後,再輸入類神經網路進行分類,得出結果如下列表三所示: Therefore, the data of Group B is also pruned into 40 packets of data according to the pruning mode of Group A data, and then input into the neural network for classification. The results are shown in Table 3 below:

承上,在靜態動作中,將坐與站歸類為「上身直立」,並以人體慣性動作判斷要分辨姿態為站或坐,在表三中,靜態動作的辨識率高達100%,動態動作的動作辨識率平均為95.3%。屬於高辨識率,藉此可知,本發明之類神經網路的訓練以及權重調整正確,具有辨識率高及可避免誤判情況發生等功效。 In the static action, the seat and the station are classified as "upper body upright", and the body inertia action is judged to distinguish the posture as a station or a seat. In the third table, the recognition rate of the static action is as high as 100%, and the dynamic action The average recognition rate of action is 95.3%. It belongs to a high recognition rate, and it can be seen that the training and weight adjustment of the neural network such as the present invention are correct, and the recognition rate is high and the occurrence of misjudgment can be avoided.

另舉一例,針對動態動作,將B組的原始資料皆為100封包 之動作資料再分為兩組,B1,每一筆資料,將100個封包以40-40-20的方式分割;B2,每筆資料,100個封包以20-40-40的方式分割,分割數量如表四所示。 As another example, for the dynamic action, the original data of the B group is 100 packets. The action data is further divided into two groups, B1, each piece of data, 100 packets are divided by 40-40-20; B2, each piece of data, 100 packets are divided by 20-40-40, the number of divisions As shown in Table 4.

因此,每筆資料各可取得兩個40封包,其中亦包含了靜態資料部份,以躺到坐來說,B1的100封包資料所包含的動作應為「躺→躺到坐→坐」;以右翻起身來說,資料應為「躺→右翻起身→坐」,因此,以躺到坐來說,依照B1以及B2的資料分割方式,B1的分類應會出現“躺”,以及“躺到坐”;B2的分類應會取得“躺到坐”以及“坐”的人體姿態,分類以及數量如表五所示。 Therefore, each piece of information can obtain two 40 packets, including the static data part. To sit down and sit down, the action of the 100 packets of B1 should be "lie down, lie down to sit → sit"; In order to turn right up, the information should be “lie down → right turn up → sit”, therefore, in terms of lying down, according to the data splitting methods of B1 and B2, the classification of B1 should appear “lie” and “ Lying down to sit"; the classification of B2 should take the posture of "lying to sit" and "sit", the classification and quantity are shown in Table 5.

依照上述所指,將100個封包的資料做切割,觀察封包內容,可得知動作資料大約在100個封包資料的中段,經過切割後,40個封包可能只包含大部份的動作,切割後的資料,不似上述例子般完全確定40個封包定含有完整動作。 According to the above, the data of 100 packets is cut and the contents of the package are observed. It can be known that the action data is in the middle of 100 packets. After cutting, 40 packets may only contain most of the movements. After cutting, The information is not exactly as the above example is completely determined that 40 packets contain complete actions.

如表六所示,在靜態動作的辨識上有幾乎都有90%的正確率。另,如表七所示,在動作完成度上,也就是躺到坐這樣的動作時,在B1時,可確實辨識出「躺→躺到坐」,或是在B2時,可確實辨識出「躺到 坐→坐」的完整度上。其中,在動作完整度上,坐到躺會呈現較高的辨識率可能是因為坐到躺動作較為緩慢,因此在辦識坐到躺時有較好的效果。 As shown in Table 6, almost 90% of the correctness is found in the identification of static actions. In addition, as shown in Table 7, when the action completion degree, that is, the action of lying down, the B1 can surely recognize "lie down, lie down to sit", or at B2, it can be surely recognized. "lie down Sitting → sitting on the integrity. Among them, in the completeness of the action, sitting and lying down will present a higher recognition rate because the sitting and lying movements are slower, so it has a better effect when sitting and lying down.

藉由前揭之技術手段,本發明之人體離床感知方法及系統實施例的主要特點列舉如下:首先,由上述移動感測模組感測上述受護者的人體座標,並由上述伺服端計算該人體座標與一大地座標的夾角角度;接著,由該伺服端將該夾角角度輸入上述類神經網路,以取得數個連續的人體姿態,依據該些人體姿態判斷是否滿足人體離床的慣性動作,若判斷為「是」,進行上述示警步驟,若判斷為「否」,重新進行上述感測步驟;之後,由該伺服端依據滿足該慣性動作的人體姿態傳送一警示訊息至上述監控端,由該監控端發出該警示訊息。藉此,本發明可有效感知該受護者有離床的趨勢,並於判斷該受護者有離床的意願時,提早發出警示訊息,通知護理人員進行相關處置,以預防受護者離床而跌倒,達到「有效降低受護者跌倒」功效。 The main features of the human body bed sensing method and system embodiment of the present invention are as follows: First, the human body coordinate of the care recipient is sensed by the mobile sensing module, and is calculated by the server. The angle between the human body coordinates and the coordinates of the earth's earth; then, the servo end inputs the angle of the angle into the neural network of the above-mentioned neural network to obtain a plurality of continuous human body postures, and according to the postures of the human body, determine whether the inertia of the human body is removed from the bed. If the determination is "Yes", the above warning step is performed, and if the determination is "No", the sensing step is performed again; after that, the servo end transmits a warning message to the monitoring terminal according to the human body posture satisfying the inertial motion. The alert message is sent by the monitoring terminal. Thereby, the invention can effectively perceive the tendency of the care recipient to leave the bed, and when determining that the care recipient has the willingness to leave the bed, early issue a warning message to notify the nursing staff to perform relevant treatment to prevent the care recipient from falling out of bed and falling down. , to achieve the "effectively reduce the fall of the care recipient" effect.

雖然本發明已利用上述較佳實施例揭示,然其並非用以限定本發明,任何熟習此技藝者在不脫離本發明之精神和範圍之內,相對上述實施例進行各種更動與修改仍屬本發明所保護之技術範疇,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。 While the invention has been described in connection with the preferred embodiments described above, it is not intended to limit the scope of the invention. The technical scope of the invention is protected, and therefore the scope of the invention is defined by the scope of the appended claims.

S1‧‧‧感測步驟 S1‧‧‧Sensing steps

S2‧‧‧分析步驟 S2‧‧‧ Analysis steps

S3‧‧‧示警步驟 S3‧‧‧ warning steps

Claims (5)

一種人體離床感知方法,包含:一感測步驟,由設於受護者的移動感測模組感測該受護者的空間移動量,由一伺服端將該空間移動量轉為一移動量資料;一分析步驟,由該伺服端將該移動量資料輸入一個已完成姿態訓練的類神經網路,以取得數個連續的人體姿態,依據該些人體姿態判斷是否滿足人體離床的慣性動作,若判斷為是,進行一示警步驟,若判斷為否,重新進行上述感測步驟;及該示警步驟,由該伺服端傳送一警示訊息至一監控端,由該監控端發出該警示訊息。 A human body bed sensing method includes: a sensing step of sensing a spatial movement amount of the care recipient by a motion sensing module provided by the care recipient, and converting the spatial movement amount to a movement amount by a servo end Data; an analysis step, the server inputs the movement amount data into a neural network of completed posture training, to obtain a plurality of continuous human body postures, and according to the human body postures, whether or not the inertia movement of the human body to the bed is satisfied is determined. If the determination is yes, an alarming step is performed. If the determination is no, the sensing step is performed again; and in the warning step, the server transmits a warning message to a monitoring terminal, and the monitoring terminal sends the warning message. 根據申請專利範圍第1項所述之人體離床感知方法,其中該類神經網路為一倒傳遞類神經網路。 The human body bed sensing method according to claim 1, wherein the neural network is a reverse transmission type neural network. 一種人體離床感知系統,包含:一移動感測模組,用以感測一人體的空間位置;一伺服端,耦接該移動感測模組,依據該空間位置分析該人體是否有離床的趨勢,並產生一分析結果;及一監控端,用以輸出該分析結果。 A human body departure sensing system comprises: a mobile sensing module for sensing a spatial position of a human body; a servo end coupled to the mobile sensing module, and analyzing whether the human body has a tendency to leave the bed according to the spatial position And generating an analysis result; and a monitoring end for outputting the analysis result. 根據申請專利範圍第3項所述之人體離床感知系統,其中該移動感測模組係具有移動感測及無線通訊功能之裝置。 The human body bed sensing system according to claim 3, wherein the mobile sensing module is a device having a mobile sensing and wireless communication function. 根據申請專利範圍第3項所述之人體離床感知系統,其中該伺服端包含一第一無線接取器、一姿態數值搜尋引擎、一姿態判別伺服器、一整合服務伺服器、一無線路由器及一第二無線接取器,該第一無線接取器耦接該移動感測模組,並電性連接該姿態數值搜尋引擎,該姿態數值搜尋引擎、該姿態判別伺服器及該整合服務伺服器相互連接,該整合服務伺服器透過該無線路由器及該第二無線接取 器耦接該監控端。 The human body bed sensing system according to claim 3, wherein the server includes a first wireless access device, a pose value search engine, a gesture determination server, an integrated service server, a wireless router, and a second wireless access device, the first wireless access device is coupled to the motion sensing module, and electrically connected to the attitude value search engine, the attitude value search engine, the attitude determination server, and the integrated service servo Connected to each other, the integrated service server accesses the wireless router and the second wireless The device is coupled to the monitoring terminal.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI572348B (en) * 2016-06-02 2017-03-01 李光輝 Bed cloud
CN114038161A (en) * 2021-10-28 2022-02-11 上海深豹智能科技有限公司 Intelligent nursing scientific method and system for night bed leaving detection

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI572348B (en) * 2016-06-02 2017-03-01 李光輝 Bed cloud
CN114038161A (en) * 2021-10-28 2022-02-11 上海深豹智能科技有限公司 Intelligent nursing scientific method and system for night bed leaving detection

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