CN102411675A - Method and system for monitoring human physiological data on 3D human model - Google Patents

Abstract

Translated fromChinese

本发明公开了在3D人体模型上监控人体生理数据的方法，包括：S1.医学3D人体数据库系统判断用户权限；S2.导出医学人体3D模型图片，医学人体3D模型多个系统分别具有多个标识，所述的标识关联人体解剖结构定位；S3.在用户界面弹出选择监控标识的对话框，根据用户的触发，检测用户的体能，并将测试数据实时上传至医学人体3D模型图片；S4.在用户界面根据所述的测试数据监控医学3D人体。本发明还公开了在3D人体模型上监控人体生理数据的系统。本发明在3D人体模型上监控人体生理数据的方法和系统能仿真直观地呈现人体生理参数。

The present invention discloses a method for monitoring human physiological data on a 3D human body model, including: S1. A medical 3D human body database system determines user authority; S2. A medical 3D human body model image is exported, wherein multiple systems of the medical 3D human body model respectively have multiple identifiers, and the identifiers are associated with the positioning of human anatomical structures; S3. A dialog box for selecting a monitoring identifier is popped up on a user interface, and the user's physical fitness is detected according to the user's trigger, and the test data is uploaded to the medical 3D human body model image in real time; S4. The medical 3D human body is monitored according to the test data on the user interface. The present invention also discloses a system for monitoring human physiological data on a 3D human body model. The method and system for monitoring human physiological data on a 3D human body model of the present invention can simulate and intuitively present human physiological parameters.

Description

Translated fromChinese

一种在3D人体模型上监控人体生理数据的方法和系统A method and system for monitoring human physiological data on a 3D human body model

技术领域technical field

本发明涉及计算机文档处理技术领域，更具体地说，涉及一种在3D人体模型上监控人体生理数据的方法和系统。The invention relates to the technical field of computer document processing, and more specifically, relates to a method and a system for monitoring human physiological data on a 3D human body model.

背景技术Background technique

体能是人类适应生活、工作、学习等活动应具备的一种种身体能力。随着社会进步，生活质量不断提高，人们对于增强体能，掌握个人健康状况的意识越来越强。对于运动员，体能更是创造优异成绩的基础。为了增强体能，运动员会进行一系列的体能训练，平常百姓则选择去健身房锻炼身体，合理的体能训练能使体能得到提高，相反不合理的体能训练则会影响人体健康。并且在医学方面，病人经常在手术完毕或者用药过后出现异常情况，因为没能及时采取措施，造成了严重的后果有的甚至死亡。因此实时掌握和呈现人体生理参数变化非常重要。Physical fitness is a kind of physical ability that human beings should possess to adapt to life, work, study and other activities. With the progress of society and the continuous improvement of the quality of life, people are becoming more and more aware of enhancing their physical fitness and mastering their personal health status. For athletes, physical fitness is the basis for creating excellent performance. In order to enhance physical fitness, athletes will carry out a series of physical training, while ordinary people choose to go to the gym to exercise. Reasonable physical training can improve physical fitness, on the contrary, unreasonable physical training will affect human health. And in medicine, patients often have abnormal conditions after surgery or medication, because they failed to take timely measures, resulting in serious consequences and some even died. Therefore, it is very important to grasp and present the changes of human physiological parameters in real time.

发明内容Contents of the invention

本发明要解决的技术问题在于，提供一种及时掌握和呈现人体生理参数的一种在3D人体模型上监控人体生理数据的方法和系统。The technical problem to be solved by the present invention is to provide a method and system for monitoring human physiological data on a 3D human body model to grasp and present human physiological parameters in time.

本发明公开了一种在3D人体模型上监控人体生理数据的方法，包括：The invention discloses a method for monitoring human physiological data on a 3D human body model, comprising:

S1.医学3D人体数据库系统判断用户权限；若是，则进入S2；若非，则进入步骤S11，反馈失败；S1. The medical 3D human body database system judges the user authority; if so, then enters S2; if not, then enters step S11, and the feedback fails;

S2.导出医学人体3D模型图片，所述的医学人体3D模型图片上具有多个标识，所述的标识关联人体解剖结构定位；S2. exporting a medical human body 3D model picture, the medical human body 3D model picture has a plurality of logos, and the logos are associated with human body anatomical structure positioning;

S3.在用户界面弹出选择监控标识的对话框，根据用户的触发，检测用户的体能，并将测试数据实时上传至医学人体3D模型图片；S3. Pop up a dialog box for selecting the monitoring logo on the user interface, detect the user's physical fitness according to the user's trigger, and upload the test data to the medical human body 3D model picture in real time;

S4.在用户界面根据所述的测试数据监控医学3D人体。S4. Monitor the medical 3D human body on the user interface according to the test data.

在本发明所述的在3D人体模型上监控人体生理数据的方法中，所述步骤S1还包括S0步骤：接收用户输入权限信息。In the method for monitoring human physiological data on a 3D human body model according to the present invention, the step S1 further includes a step S0 of receiving permission information input by a user.

在本发明所述的在3D人体模型上监控人体生理数据的方法中，所述的测试数据包括：心电信号、心率、血氧饱和度、血压、呼吸频率、体温。In the method for monitoring human physiological data on a 3D human body model according to the present invention, the test data includes: electrocardiographic signal, heart rate, blood oxygen saturation, blood pressure, respiratory rate, and body temperature.

在本发明所述的在3D人体模型上监控人体生理数据的方法中，生理信息检测仪将检测到的测试数据实时发送至医学3D人体数据库的发送频率为1ms。In the method for monitoring human physiological data on a 3D human body model of the present invention, the physiological information detector sends the detected test data to the medical 3D human body database in real time at a sending frequency of 1 ms.

在本发明所述的在3D人体模型上监控人体生理数据的方法中，所述的医学3D人体数据库系统包括数据中心及用户界面。In the method for monitoring human physiological data on a 3D human body model of the present invention, the medical 3D human body database system includes a data center and a user interface.

本发明公开了一种在3D人体模型上监控人体生理数据的系统，用于实现上述的方法，包括：The invention discloses a system for monitoring human physiological data on a 3D human body model, which is used to realize the above method, including:

权限判断模块，用于医学3D人体数据库系统判断用户权限；The authority judging module is used for judging user authority in the medical 3D human body database system;

人体导出模块，与所述的权限判断模块相连，用于导出医学人体3D模型图片，所述的医学人体3D模型图片上具有多个标识，所述的标识关联人体解剖结构定位；The human body exporting module is connected with the authority judging module, and is used to export the medical human body 3D model picture, and the medical human body 3D model picture has a plurality of identifications, and the identifications are associated with human body anatomical structure positioning;

监控选择模块，与所述的人体导出模块相连，用于在用户界面弹出选择监控标识的对话框，根据用户的触发，检测用户的体能，并将测试数据实时上传至医学人体3D模型图片；The monitoring selection module is connected with the human body export module, and is used to pop up a dialog box for selecting the monitoring logo on the user interface, and detect the user's physical fitness according to the user's trigger, and upload the test data to the medical human body 3D model picture in real time;

监控显示模块，与所述的监控选择模块相连，用于在用户界面根据所述的测试数据监控医学3D人体。The monitoring display module is connected with the monitoring selection module, and is used to monitor the medical 3D human body on the user interface according to the test data.

在本发明所述的在3D人体模型上监控人体生理数据的系统中，所述的测试数据包括：心电信号、心率、血氧饱和度、血压、呼吸频率、体温。In the system for monitoring human physiological data on a 3D human body model according to the present invention, the test data includes: electrocardiographic signal, heart rate, blood oxygen saturation, blood pressure, respiratory rate, and body temperature.

在本发明所述的在3D人体模型上监控人体生理数据的系统中，生理信息检测仪将检测到的测试数据实时发送至医学3D人体数据库系统的实时发送频率为1ms。In the system for monitoring human physiological data on a 3D human body model according to the present invention, the physiological information detector sends the detected test data to the medical 3D human body database system in real time with a real-time sending frequency of 1 ms.

在本发明所述的在3D人体模型上监控人体生理数据的系统中，所述的人体医学3D人体数据库系统包括数据中心及用户界面。In the system for monitoring human physiological data on a 3D human body model according to the present invention, the human medical 3D human body database system includes a data center and a user interface.

实施本发明的在3D人体模型上监控人体生理数据的方法和系统，具有以下有益的技术效果：Implementing the method and system for monitoring human physiological data on a 3D human body model of the present invention has the following beneficial technical effects:

(1)利用生理信息检测仪实时获取人体生理参数；(1) Use the physiological information detector to obtain human physiological parameters in real time;

(2)通过3D虚拟人技术实时呈现人体生理参数。(2) Real-time display of human physiological parameters through 3D virtual human technology.

附图说明Description of drawings

图1是本发明实施例一种在3D人体模型上监控人体生理数据的方法流程图；Fig. 1 is a flow chart of a method for monitoring human physiological data on a 3D human body model according to an embodiment of the present invention;

图2是本发明实施例一种在3D人体模型上监控人体生理数据的系统功能方框图。Fig. 2 is a functional block diagram of a system for monitoring human physiological data on a 3D human body model according to an embodiment of the present invention.

具体实施方式Detailed ways

为详细说明本发明的技术内容、构造特征、所实现目的及效果，以下结合实施方式并配合附图详予说明。In order to describe the technical content, structural features, achieved goals and effects of the present invention in detail, the following will be described in detail in conjunction with the embodiments and accompanying drawings.

人体是由细胞构成的。细胞是构成人体形态结构和功能的基本单位。心态相似和功能相关的细胞借助细胞间质结合起来构成起来的结构成为组织。几种组织结合起来，共同执行某一种特定功能，并具有一定形态特点，就构成了器官。若干个功能相关的器官联合起来，共同完成某一特定的连续性生理功能，及形成系统。人体有九大系统组成，及运动系统、消化系统、呼吸系统、泌尿系统、生殖系统、内分泌系统、脉管系统、神经系统和感觉系统。The human body is made up of cells. Cells are the basic unit that constitutes the structure and function of the human body. Cells with similar mentality and functions are combined to form a structure with the aid of the intercellular matrix. Several tissues are combined to perform a specific function and have certain morphological characteristics to form an organ. A number of functionally related organs are combined to complete a specific continuous physiological function and form a system. The human body is composed of nine major systems, including the motor system, digestive system, respiratory system, urinary system, reproductive system, endocrine system, vascular system, nervous system and sensory system.

请参阅图1，一种在3D人体模型上监控人体生理数据的方法，包括：Please refer to Figure 1, a method of monitoring human physiological data on a 3D human body model, including:

S0.接收用户输入权限信息。S0. Receive permission information input by the user.

当用户登录医学3D人体数据库系统时，系统会接收用户输入的登录信息，依公知常识可知，登录信息其实也有用户权限的另一种形式，所述的医学3D人体数据库系统包括数据中心及用户界面，所述的数据中心具有多个系统，具体是：运动系统、消化系统、呼吸系统、神经系统、生殖系统、泌尿系统、脉管系统、内分泌系统、感觉系统。When a user logs into the medical 3D human body database system, the system will receive the login information input by the user. According to common knowledge, the login information actually has another form of user authority. The medical 3D human body database system includes a data center and a user interface. , the data center has multiple systems, specifically: motor system, digestive system, respiratory system, nervous system, reproductive system, urinary system, vascular system, endocrine system, and sensory system.

S1.医学3D人体数据库系统判断用户权限；若是，则进入S2；若非，则进入步骤S11，反馈失败；S1. The medical 3D human body database system judges the user authority; if so, then enters S2; if not, then enters step S11, and the feedback fails;

系统会从数据库中抓取用户信息进行配比，以保证必要的安全性和保密性，所述的数据库可放于服务器中，也可放入硬盘以及一切可保存用户信息的移动存储设备中。只有在权限存在的情况下，程序才可以继续执行，进入步骤S2，如果权限不存在，系统会进入步骤S11，提醒用户权限不存在，反馈失败，不可以进行监控数据。The system will capture user information from the database for matching to ensure the necessary security and confidentiality. The database can be placed in the server, hard disk or any mobile storage device that can store user information. Only when the authority exists, the program can continue to execute and enter step S2. If the authority does not exist, the system will enter step S11 to remind the user that the authority does not exist, the feedback fails, and the monitoring data cannot be performed.

S2.导出医学人体3D模型图片，所述的医学人体3D模型图片上具有多个标识，所述的标识关联人体解剖结构定位；S2. exporting a medical human body 3D model picture, the medical human body 3D model picture has a plurality of logos, and the logos are associated with human body anatomical structure positioning;

S3.在用户界面弹出选择监控标识的对话框，根据用户的触发，检测用户的体能，并将测试数据实时上传至医学人体3D模型图片；S3. Pop up a dialog box for selecting the monitoring logo on the user interface, detect the user's physical fitness according to the user's trigger, and upload the test data to the medical human body 3D model picture in real time;

所述的测试数据包括：心电信号、心率、血氧饱和度、血压、呼吸频率、体温，生理信息检测仪将检测到的测试数据实时发送至3D虚拟人系统中3D虚拟人的实时发送频率为1ms，所述的传送包括有线方式，如局域网，也可以无线方式，如GPRS、3G。The test data includes: ECG signal, heart rate, blood oxygen saturation, blood pressure, respiratory rate, body temperature, and the physiological information detector sends the detected test data to the real-time sending frequency of the 3D virtual human in the 3D virtual human system in real time It is 1 ms, and the transmission includes wired methods, such as local area network, or wireless methods, such as GPRS and 3G.

S4.在用户界面根据所述的测试数据监控医学3D人体。S4. Monitor the medical 3D human body on the user interface according to the test data.

所述的监控医学3D人体为静止/动画即为实时仿真“再现”医学3D人体。The monitoring medical 3D human body is static/animated, that is, the real-time simulation "reappears" the medical 3D human body.

请参阅图2，一种在3D人体模型上监控人体生理数据的系统，用于实现图1所述的方法，包括：权限判断模块10、人体导出模块20、监控选择模块30、监控显示模块40。权限判断模块10，用于医学3D人体数据库系统判断用户权限；人体导出模块20，与权限判断模块10相连，用于导出医学人体3D模型图片，所述的医学人体3D模型图片上具有多个标识，所述的标识关联人体解剖结构定位；监控选择模块30，与人体导出模块20相连，用于在用户界面弹出选择监控标识的对话框，根据用户的触发，检测用户的体能，并将测试数据实时上传至医学人体3D模型图片；监控显示模块40，与监控选择模块30相连，用于在用户界面根据所述的测试数据监控医学3D人体。Please refer to FIG. 2, a system for monitoring human physiological data on a 3D human body model, which is used to implement the method described in FIG. . The authority judging module 10 is used for judging user authority by the medical 3D human body database system; the human body export module 20 is connected with the authority judging module 10 and is used to export the medical human body 3D model picture, and the medical human body 3D model picture has multiple identifications , the identification is associated with the positioning of the human body anatomy; the monitoring selection module 30 is connected to the human body export module 20, and is used to pop up a dialog box for selecting the monitoring identification on the user interface, and detect the user's physical fitness according to the user's trigger, and send the test data Upload to the medical human body 3D model picture in real time; the monitoring display module 40 is connected with the monitoring selection module 30, and is used to monitor the medical 3D human body on the user interface according to the test data.

进一步地，所述的测试数据包括：心电信号、心率、血氧饱和度、血压、呼吸频率、体温，生理信息检测仪将检测到的测试数据实时发送至医学3D人体数据库系统的实时发送频率为1ms，所述的人体医学3D人体数据库系统包括数据中心及用户界面。Further, the test data includes: ECG signal, heart rate, blood oxygen saturation, blood pressure, respiration rate, body temperature, and the real-time transmission frequency at which the physiological information detector sends the detected test data to the medical 3D human body database system in real time The 3D human body database system for human medicine includes a data center and a user interface.

实施本发明的在3D人体模型上监控人体生理数据的方法和系统，具有以下有益的技术效果：Implementing the method and system for monitoring human physiological data on a 3D human body model of the present invention has the following beneficial technical effects:

(1)利用生理信息检测仪实时获取人体生理参数；(1) Use the physiological information detector to obtain human physiological parameters in real time;

(2)通过3D虚拟人技术实时呈现人体生理参数。(2) Real-time display of human physiological parameters through 3D virtual human technology.

上面结合附图对本发明的实施例进行了描述，但是本发明并不局限于上述的具体实施方式，上述的具体实施方式仅仅是示意性的，而不是限制性的，本领域的普通技术人员在本发明的启示下，在不脱离本发明宗旨和权利要求所保护的范围情况下，还可做出很多形式，这些均属于本发明的保护之内。Embodiments of the present invention have been described above in conjunction with the accompanying drawings, but the present invention is not limited to the above-mentioned specific implementations, and the above-mentioned specific implementations are only illustrative, rather than restrictive, and those of ordinary skill in the art will Under the enlightenment of the present invention, many forms can also be made without departing from the gist of the present invention and the protection scope of the claims, and these all belong to the protection of the present invention.

Claims (9)

1. the method for a monitoring human body physiological data on the 3D manikin is characterized in that, comprising:

S1. medical science 3D somatic data storehouse system judges authority; If then get into S2; If not, then get into step S11, feeding back unsuccessful;

S2. derive medical science human body 3D model picture, have a plurality of signs on the described medical science human body 3D model picture, the related human anatomic structure of described sign location;

S3. eject the dialog box of selecting the monitoring sign in user interface, according to user's triggering, the physiologic information detector detects user's physical efficiency, and test data is uploaded to medical science human body 3D model picture in real time;

S4. monitor the human body physiological data in user interface according to described test data.

2. the method for on the 3D manikin, monitoring the human body physiological data according to claim 1 is characterized in that, also comprises the S0 step before the said step S1: receive the user and import authority information.

3. the method for on the 3D manikin, monitoring the human body physiological data according to claim 1 is characterized in that described test data comprises: electrocardiosignal, heart rate, blood oxygen saturation, blood pressure, respiratory rate, body temperature.

4. the method for on the 3D manikin, monitoring the human body physiological data according to claim 1 is characterized in that the physiologic information detector is 1ms with the transmission frequency that detected test data is sent to medical science 3D somatic data storehouse in real time.

5. the method for on the 3D manikin, monitoring the human body physiological data according to claim 1 is characterized in that described medical science 3D somatic data storehouse system comprises data center and user interface.

6. the system of a monitoring human body physiological data on the 3D manikin is used to realize the described method of claim 1, it is characterized in that, comprising:

The authority judge module is used for medical science 3D somatic data storehouse system judges authority;

Human body is derived module, links to each other with described authority judge module, is used to derive medical science human body 3D model picture, has a plurality of signs on the described medical science human body 3D model picture, the related human anatomic structure of described sign location;

Module is selected in monitoring, derives module with described human body and links to each other, and is used for ejecting the dialog box of selecting the monitoring sign in user interface, according to user's triggering, detects user's physical efficiency, and test data is uploaded to medical science human body 3D model picture in real time;

The monitoring display module selects module to link to each other with described monitoring, is used in user interface according to described test data monitoring monitoring human body physiological data.

7. the system that on the 3D manikin, monitors the human body physiological data according to claim 6 is characterized in that described test data comprises: electrocardiosignal, heart rate, blood oxygen saturation, blood pressure, respiratory rate, body temperature.

8. the system that on the 3D manikin, monitors the human body physiological data according to claim 6 is characterized in that the physiologic information detector is 1ms with the real-time transmission frequency that detected test data is sent to medical science 3D somatic data storehouse system in real time.

9. the system that on the 3D manikin, monitors the human body physiological data according to claim 6 is characterized in that described human medical 3D somatic data storehouse system comprises data center and user interface.

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