CN104462765A - Three-dimensional visualization doctor-patient communication platform construction method and system - Google Patents
Three-dimensional visualization doctor-patient communication platform construction method and system Download PDFInfo
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- CN104462765A CN104462765A CN201410616013.1A CN201410616013A CN104462765A CN 104462765 A CN104462765 A CN 104462765A CN 201410616013 A CN201410616013 A CN 201410616013A CN 104462765 A CN104462765 A CN 104462765A
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Abstract
The invention discloses a three-dimensional visualization doctor-patient communication platform construction method and system. Data of skin, muscles, tissue, organs, skeletons, acupuncture points and the like of the human body are constructed into digital information to be input into a three-dimensional human body model processing module, the three-dimensional visualization doctor-patient communication platform construction system simulates running of a real human body physiological system, and meanwhile various lesion data of the portions of the skin, the muscles, the tissue, the organs, the skeletons, the acupuncture points and the like of the human body are input into a pathological file storage module; then, a pathological data search and analysis module is built, health data and the lesion data of the portions of the skin, the muscles, the tissue, the organs, the skeletons, the acupuncture points and the like of the human body form the comparison relation, and the complete system architecture is obtained; human body physiological data are collected to run on a multimedia server and are output through image output equipment. According to the three-dimensional visualization doctor-patient communication platform construction system, a patient can narrate the ailing portions, symptoms and the like to a medical worker by referring to a digital human body model on the image output equipment, and the medical worker can also explain the pathologic condition to the patient through the pathological data search and analysis module.
Description
Technical field
The invention belongs to the technical field such as electronic information, medical treatment & health, relate to the digitizing aid of linking up treatment in a kind of daily life between doctors and patients.
Background technology
Before the present invention program proposes, domestic and international market belongs to space state substantially, in daily life, because medical knowledge difference between doctors and patients, IMPAIRED VERBAL COMMUNICATION, the problems such as the medical inconvenience in strange land cause larger obstacle to linking up between doctors and patients, cause medical personnel promptly and accurately cannot understand and grasp the truth of patient, can hardly be explained when usually occurring that patient describes illness to medical personnel, road is not understood, data is not comprehensive, delay medical opportunity, even occur failing to pinpoint a disease in diagnosis, the problems such as mistaken diagnosis, and this technical scheme mainly utilizes and develops Internet technology rapidly at present, build a Visual Human Body analysis platform, allow between doctors and patients and eliminate medical knowledge difference, IMPAIRED VERBAL COMMUNICATION, strange land go to a doctor inconvenience problem, equal starting line is standard is linked up with Visual Human Body, thoroughly solve the drawback of traditional approach, medical industry is developed in a healthy way and also serves the effect of actively promoting.
Summary of the invention
The object of project of the present invention is to use high end digital technical information technology to combine, analysis platform is linked up for providing a kind of visualization digital human body between doctors and patients, eliminate the problems such as medical knowledge difference between doctors and patients, IMPAIRED VERBAL COMMUNICATION, the medical inconvenience in strange land, thorough solution is because can hardly be explained when patient describes illness to medical personnel, road is not understood, problems such as data is not comprehensive and cause medical treatment the delaying of opportunity, even occur failing to pinpoint a disease in diagnosis, the problem of mistaken diagnosis.
For achieving the above object and adopt technical solution be such: three-dimensional visualization Doctor-patient communication platform construction method, is characterized in that realizing in accordance with the following steps: (1) somatic data process: become numerical information to be entered in the middle of three-dimensional (3 D) manikin processing module the data construct such as the skin of human body, muscle, tissue, organ, bone, acupuncture point; (3) lesion data process: the various lesion data at the positions such as the skin of human body, muscle, tissue, organ, bone, acupuncture point are entered in the middle of pathological data storage module; (4) set up pathological data searching analysis module, make the health data at the position such as the skin of human body, muscle, tissue, organ, bone, acupuncture point and lesion data form comparison relation, realize complete system architecture; (5) adopt any one equipment following to gather human body physiological data: A and utilize Human Physiology sensor, be transferred in system by human body physiological data in real time, B manually inputs human body physiological data; (8) any one method following is adopted to run and store related data: A multimedia server runs native system and stores related data; Also can independently use on an output device when B data volume is less; (9) image output: by image output equipment output display system for content.
(2) Reality simulation Human Physiology system cloud gray model also in steps after step (1), makes true reflection by input physiological data, presents actual physiological status.
Realize the three-dimensional visualization doctor patient communication system of described method, it comprises three manikin processing modules, pathological data memory module, pathological data searching analysis module, human body physiological data acquisition system, image output equipment, and:
1.1, the three-dimensional data at the skin of three-dimensional (3 D) manikin processing module major storage human body, muscle, tissue, organ, bone, acupuncture point;
1.2, the various lesion data at the position such as skin, muscle, tissue, organ, bone, acupuncture point of pathological data storage module major storage human body;
1.3, pathological data searching analysis module is mainly used in after user inputs pathological data, and systematic search analyzes the database in pathological data storage module, finds out and intends like case for user's reference;
1.4, human body physiological data acquisition system be following any one: A utilizes Human Physiology sensor, and be transferred in system by human body physiological data in real time, B manually inputs human body physiological data;
1.5, image output equipment: be used for output display system interface, also can independently use when data volume is less on an output device.
Described three-dimensional visualization doctor patient communication system, also has 3 D human body physiological function analog module and intends the operation of real human body physiological system, make true reflection, present the actual physiological status of importer by input physiological data.
Use the inventive method and system, patient's Digital human model that can contrast on image output equipment describes the position of oneself slight illness to medical personnel, symptom etc., medical personnel also can explain pathologic condition by pathology searching analysis module to patient, the physiological data of individual also can be input in system by human body physiological data acquisition system by patient, allow medical personnel's discriminatory analysis, even if far away from thousands of miles away, patient also can utilize this platform the illness of individual to be pointed out on image output equipment accurately, the image output equipment of medical personnel is also seen the operational circumstances of the other side, and medical personnel also can utilize the detailed conditions of patient is judged and explained of this platform, the image output equipment of patient can be seen equally the operational circumstances of the other side, human body physiological data is also transferred in system by human body physiological data acquisition system by patient in real time, the physiological status of oneself input is wherein supplied medical personnel's discriminatory analysis.Achieve remote diagnosis and communication.
Accompanying drawing explanation
Fig. 1 is principle of the invention schematic diagram (the face-to-face communication system of doctors and patients).
Fig. 2 is principle of the invention schematic diagram (the long-range communication system of doctors and patients).
Embodiment
Three-dimensional visualization Doctor-patient communication platform construction method, it realizes in accordance with the following steps: (1) somatic data process: become numerical information to be entered in the middle of three-dimensional (3 D) manikin processing module the data construct such as the skin of human body, muscle, tissue, organ, bone, acupuncture point; (2) Reality simulation Human Physiology system cloud gray model, makes true reflection by input physiological data, presents actual physiological status (preferred version); (3) lesion data process: the various lesion data at the positions such as the skin of human body, muscle, tissue, organ, bone, acupuncture point are entered in the middle of pathological data storage module; (4) set up pathological data searching analysis module, make the health data at the position such as the skin of human body, muscle, tissue, organ, bone, acupuncture point and lesion data form comparison relation, realize complete system architecture; (5) human body physiological data acquisition system: A utilizes Human Physiology sensor, in real time human body physiological data is transferred to (as body temperature, blood pressure, cardiogram, heart rate, electroencephalogram, respiratory rate, physical consumption etc.) in system, B manually inputs human body physiological data (data such as clinical manifestation, analysis data, film making data, methods for the treatment of); (8) run and store related data; (A multimedia server: run native system and store related data; Also can (computing machine, mobile phone, intelligent watch, panel computer, display, touch-screen, projector, hologram instrument etc.) independently use on an output device when B data volume is less; (9) image output: by image output equipment output display system for content (computing machine, mobile phone, intelligent watch, panel computer, display, touch-screen, projector, hologram instrument etc.).
In the middle of practical application, first numerical information is become to be entered in the middle of three-dimensional (3 D) manikin processing module the data construct such as the skin of human body, muscle, tissue, organ, bone, acupuncture point by developer's (being jointly made up of with medical speciality mechanism digital technology development teams), Reality simulation Human Physiology system cloud gray model, make true reflection by input physiological data, present actual physiological status (preferred version); The various lesion data at the positions such as the skin of human body, muscle, tissue, organ, bone, acupuncture point are entered in the middle of pathological data storage module, next sets up pathological data searching analysis module, make the health data at the position such as the skin of human body, muscle, tissue, organ, bone, acupuncture point and lesion data form comparison relation, realize complete system architecture; Gather human body physiological data: A and utilize Human Physiology sensor, in real time human body physiological data is transferred to (as body temperature, blood pressure, cardiogram, heart rate, electroencephalogram, respiratory rate, physical consumption etc.) in system, B manually inputs human body physiological data (data such as clinical manifestation, analysis data, film making data, methods for the treatment of); System is installed on multimedia server and runs, realize exporting by image output equipment (computing machine, mobile phone, intelligent watch, panel computer, display, touch-screen, projector, hologram instrument etc.).
Patient's Digital human model that can contrast on image output equipment describes the position of oneself slight illness to medical personnel, symptom etc., medical personnel also can explain pathologic condition by pathology searching analysis module to patient, the physiological data of individual also can be input in system by human body physiological data acquisition system by patient, allow medical personnel's discriminatory analysis, even if far away from thousands of miles away, patient also can utilize this platform the illness of individual to be pointed out on image output equipment accurately, the image output equipment of medical personnel is also seen the operational circumstances of the other side, and medical personnel also can utilize the detailed conditions of patient is judged and explained of this platform, the image output equipment of patient can be seen equally the operational circumstances of the other side, patient also utilizes Human Physiology sensor by human body physiological data acquisition system: A, in real time human body physiological data is transferred in system (as body temperature, blood pressure, cardiogram, heart rate, electroencephalogram, respiratory rate, physical consumption etc.), B manually inputs human body physiological data (clinical manifestation, analysis data, film making data, the data such as methods for the treatment of), the physiological status of oneself input is wherein supplied medical personnel's discriminatory analysis.
Claims (5)
1. three-dimensional visualization Doctor-patient communication platform construction method, is characterized in that realizing in accordance with the following steps: (1) somatic data process: become numerical information to be entered in the middle of three-dimensional (3 D) manikin processing module the data construct such as the skin of human body, muscle, tissue, organ, bone, acupuncture point; (3) lesion data process: the various lesion data at the positions such as the skin of human body, muscle, tissue, organ, bone, acupuncture point are entered in the middle of pathological data storage module; (4) set up pathological data searching analysis module, make the health data at the position such as the skin of human body, muscle, tissue, organ, bone, acupuncture point and lesion data form comparison relation, realize complete system architecture; (5) adopt any one equipment following to gather human body physiological data: A and utilize Human Physiology sensor, be transferred in system by human body physiological data in real time, B manually inputs human body physiological data; (6) any one method following is adopted to run and store related data: A multimedia server runs native system and stores related data; Also can independently use on an output device when B data volume is less; (7) image output: by image output equipment output display system for content.
2. three-dimensional visualization Doctor-patient communication platform construction method according to claim 1, to it is characterized in that after step (1) (2) Reality simulation Human Physiology system cloud gray model also in steps, make true reflection by input physiological data, present actual physiological status.
3. three-dimensional visualization Doctor-patient communication platform construction method according to claim 1, is characterized in that image output can export on an output device, more than two the output device synchronism output that network also can be adopted to connect.
4. realize the three-dimensional visualization doctor patient communication system of method as described in claim 1-3, it is characterized in that comprising three manikin processing modules, pathological data memory module, pathological data searching analysis module, human body physiological data acquisition system, image output equipment, and:
1.1, the three-dimensional data at the skin of three-dimensional (3 D) manikin processing module major storage human body, muscle, tissue, organ, bone, acupuncture point;
1.2, the various lesion data at the position such as skin, muscle, tissue, organ, bone, acupuncture point of pathological data storage module major storage human body;
1.3, pathological data searching analysis module is mainly used in after user inputs pathological data, and systematic search analyzes the database in pathological data storage module, finds out and intends like case for user's reference;
1.4, human body physiological data acquisition system be following any one: A utilizes Human Physiology sensor, and be transferred in system by human body physiological data in real time, B manually inputs human body physiological data;
1.5, image output equipment: be used for output display system interface, also can independently use when data volume is less on an output device.
5. three-dimensional visualization doctor patient communication system as claimed in claim 4, its feature also has 3 D human body physiological function analog module and intends the operation of real human body physiological system, makes true reflection, present the actual physiological status of importer by input physiological data.
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Cited By (8)
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CN105574327A (en) * | 2015-12-14 | 2016-05-11 | 傅军 | Doctor-patient interactive demonstration method and system |
CN105912838A (en) * | 2016-04-01 | 2016-08-31 | 深圳市菲森科技有限公司 | Display method, and system for dental examination results and medical equipment |
CN111028921A (en) * | 2019-12-09 | 2020-04-17 | 中国科学院上海技术物理研究所 | Visualization method and system for patient information |
CN112201353A (en) * | 2020-09-16 | 2021-01-08 | 广东瑞昊生物技术有限公司 | Health management system based on gene data analysis and virtual reality technology |
CN112466479A (en) * | 2020-12-07 | 2021-03-09 | 上海梅斯医药科技有限公司 | Patient model creation method, system, device and medium based on virtual reality |
CN112992380A (en) * | 2021-02-09 | 2021-06-18 | 佛山博智医疗科技有限公司 | Virtual workbench |
CN113080903A (en) * | 2021-05-11 | 2021-07-09 | 延安大学附属医院 | Intelligent nursing monitoring system for cardiovascular department |
CN115762688A (en) * | 2022-06-13 | 2023-03-07 | 人民卫生电子音像出版社有限公司 | Super-simulation virtual standardized patient construction system and diagnosis method |
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2014
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105574327A (en) * | 2015-12-14 | 2016-05-11 | 傅军 | Doctor-patient interactive demonstration method and system |
CN105574327B (en) * | 2015-12-14 | 2018-10-19 | 傅军 | A kind of doctors and patients' interactive demonstration method and system |
CN105912838A (en) * | 2016-04-01 | 2016-08-31 | 深圳市菲森科技有限公司 | Display method, and system for dental examination results and medical equipment |
CN105912838B (en) * | 2016-04-01 | 2019-01-18 | 深圳市菲森科技有限公司 | Methods of exhibiting, system and the Medical Devices of tooth detection result |
CN111028921A (en) * | 2019-12-09 | 2020-04-17 | 中国科学院上海技术物理研究所 | Visualization method and system for patient information |
CN112201353A (en) * | 2020-09-16 | 2021-01-08 | 广东瑞昊生物技术有限公司 | Health management system based on gene data analysis and virtual reality technology |
CN112466479A (en) * | 2020-12-07 | 2021-03-09 | 上海梅斯医药科技有限公司 | Patient model creation method, system, device and medium based on virtual reality |
CN112992380A (en) * | 2021-02-09 | 2021-06-18 | 佛山博智医疗科技有限公司 | Virtual workbench |
CN113080903A (en) * | 2021-05-11 | 2021-07-09 | 延安大学附属医院 | Intelligent nursing monitoring system for cardiovascular department |
CN115762688A (en) * | 2022-06-13 | 2023-03-07 | 人民卫生电子音像出版社有限公司 | Super-simulation virtual standardized patient construction system and diagnosis method |
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