[1]初佃辉,吴军,刘志中,等.智能化医养融合服务平台关键技术及应用研究[J].智能系统学报,2021,16(5):972-988.[doi:10.11992/tis.202103022]
 CHU Dianhui,WU Jun,LIU Zhizhong,et al.Research on key technologies and applications of intelligent medical and care integration service platform[J].CAAI Transactions on Intelligent Systems,2021,16(5):972-988.[doi:10.11992/tis.202103022]
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智能化医养融合服务平台关键技术及应用研究

《智能系统学报》[ISSN 1673-4785/CN 23-1538/TP] 卷: 16 期数: 2021年第5期 页码: 972-988 栏目: 吴文俊人工智能科技进步奖一等奖 出版日期: 2021-09-05
Title:
Research on key technologies and applications of intelligent medical and care integration service platform
作者:
初佃辉1, 吴军2, 刘志中3, 涂志莹1, 胡鑫1, 李春山1, 苏欢1, 夏勇1, 高希余2
1. 哈尔滨工业大学(威海) 计算机科学与技术学院,山东 威海 264209;
2. 山东众阳健康科技集团有限公司,山东 济南 250101;
3. 河南理工大学 计算机科学与技术学院, 河南 焦作 454003
Author(s):
CHU Dianhui1, WU Jun2, LIU Zhizhong3, TU Zhiying1, HU Xin1, LI Chunshan1, SU Huan1, XIA Yong1, GAO Xiyu2
1. School of Computer Science and Technology, Harbin Institute of Technology(Weihai), Weihai 264209, China;
2. Shandong Zhongyang Health Technology Group Co., Ltd, Jinan 250101, China;
3. School of Computer Science and Technology, Henan Polytechnic University, Jiaozuo 454003, China
关键词:
医疗健康智慧养老服务匹配医养大数据智能诊断诊疗机器人医养服务平台
Keywords:
medical healthintelligent old-age careservices matchmedical and care big dataintelligent diagnosisdiagnosis and treatment robotmedical and care service platform
分类号:
TP183
DOI:
10.11992/tis.202103022
摘要:
近年来,我国医疗健康和养老服务行业存在资源结构不平衡、医养服务智能化水平低、跨域协同难等问题;同时,缺乏应对重大疫情与突发公共卫生事件的信息化体系与机制。针对上述问题,本文基于大数据、人工智能、物联网、服务计算等新一代信息技术,通过服务模式、服务匹配、医养大数据治理、智能化诊疗服务与智能化辅助诊断机器人等关键技术创新以及智能化医养融合服务平台的研发,通过“互联网+医疗健康”和“互联网+养老”服务体系的深度智能化协同,实现了医疗健康与养老服务的深度融合,解决了医养服务资源整合难、多源多模态数据与异构系统治理难、全流程全周期智能辅助诊疗以及医养融合服务供给难等挑战性问题。
Abstract:
Recently, there are some problems in China’s medical health and pension service industry, such as unbalanced resource structure, low level of intelligent medical and pension services and difficulty in cross domain collaboration. At the same time, there is a lack of information system and mechanism to deal with major epidemic and public health emergencies. Based on the new generation of information technology such as big data, artificial intelligence and service computing, through the innovation of key technologies such as service mode, service matching, intelligent diagnosis and treatment service and auxiliary diagnosis robot, through the deep intelligence coordination of “Internet plus medical health” and “Internet plus pension” service system, we has realized the deep integration of medical health and pension services, it solves the challenges of integration of medical and nursing service resources, governance of multi-source, whole process and whole cycle intelligent auxiliary diagnosis and treatment, and supply of medical and nursing integrated services.
参考文献/References:
[1] CHU Dianhui, WANG Zhongjie, XU Xiaofei. A classification framework of service composition issues in BIRIS scenario[C]//Proceedings of 2011 International Joint Conference on Service Sciences. Taipei, China, 2011: 183-187.
[2] CHU Dianhui, WANG Zhongjie, XU Xiaofei, et al. Progressive service value network design for Bi-lateral service applications[J]. Information technology journal, 2013, 12(6): 1152–1159.
[3] 初佃辉, 王显志, 王忠杰, 等. 面向个性化需求的虚拟服务资源整合方法[J]. 计算机学报, 2011, 34(12): 2370–2380
CHU Dianhui, WANG Xianzhi, WANG Zhongjie, et al. Personalized requirement oriented virtual service resource aggregation method[J]. Chinese journal of computers, 2011, 34(12): 2370–2380
[4] 邵明顺. 面向养老服务领域的双边资源整合模式与资源虚拟化技术[D]. 哈尔滨: 哈尔滨工业大学, 2016: 1-105.
SHAO Mingshun. Bilateral resource integration mode in the field of elderly care service and resource virtualization technology[D]. Harbin: Harbin Institute of Technology, 2016: 1-105.
[5] 耿楚惠. 基于情境感知的养老服务需求发现方法研究[D]. 哈尔滨: 哈尔滨工业大学, 2019: 1-80.
GENG Chuhui. Research on context awaerness based demand discovery method for pension service[D]. Harbin: Harbin Institute of Technology, 2019: 1-80.
[6] 甄卓然. 基于知识图谱的养老服务需求感知系统设计与实现[D]. 哈尔滨: 哈尔滨工业大学, 2018: 1-81.
ZHEN Zhuoran. Design and implementation of demand awareness system for pension service based on knowledge graph[D]. Harbin: Harbin Institute of Technology, 2018: 1-81.
[7] 卜云飞. 面向养老服务的推荐方法研究及应用[D]. 哈尔滨: 哈尔滨工业大学, 2017: 1-77.
BU Yunfei. Research and application of recommendation methods on elderly care services[D]. Harbin: Harbin Institute of Technology, 2017: 1-77.
[8] DONG Xinxin, LI Chunshan, CHU Dianhui. A recommendation of pension service based on trusted network[C]//Proceedings of 2017 IEEE International Symposium on Parallel and Distributed Processing with Applications and 2017 IEEE International Conference on Ubiquitous Computing and Communications (ISPA/IUCC). Guangzhou, China, 2017: 1251-1255.
[9] 张恺琪. 基于深度学习与多目标优化的养老服务推荐方法及实现[D]. 哈尔滨: 哈尔滨工业大学, 2019: 1-75.
ZHANG Kaiqi. Recommendation method and implementation of old-age service based on deep learning and multi-objective optimization[D]. Harbin: Harbin Institute of Technology, 2019: 1-75.
[10] WANG Z, CHU D, XU X. Personal service sco-snvironment (PSE 2): a user-centric services computing paradigm[C]//International Conference on Exploring Services Science. Springer, Cham, 2016: 141-154.
[11] 张恺琪. 基于深度学习与多目标优化的医养服务推荐方法[D]. 哈尔滨: 哈尔滨工业大学, 2019: 1–75.
ZHANG Kaiqi. Recommendation method and implementation of old-age service based on deep learning and multi-objective optimization[D]. Harbin: Harbin Institute of Technology, 2019: 1–75.
[12] WANG Zhongjie, CHU Dianhui, XU Xiaofei. Personal service eco-environment (PSE2): a user-centric services computing paradigm[C]//Proceedings of the 7th International Conference on Exploring Services Science. Bucharest, Romania, 2016: 141-154.
[13] 刘志中, 王俊峰, 张维怡, 等. 一种资源与QoS感知的服务优化组合方法[P]. 中国: 201710091325.9, 2017-02-21.
LIU Zhizhong, WANG Junfeng, ZHANG Weiyi, et al. Service optimal combination method for resources and QoS (Quality of Service) perception[P]. CN: 201710091325.9, 2017-02-21.
[14] LIU Zhizhong, JIA Zongpu, XUE Xiao, et al. Reliable Web service composition based on QoS dynamic prediction[J]. Soft computing, 2015, 19(5): 1409–1425.
[15] LIU Zhizhong, CHU Dianhui, SONG Cheng, et al. Social learning optimization (SLO) algorithm paradigm and its application in QoS-aware cloud service composition[J]. Information sciences, 2016, 326: 315–333.
[16] 刘志中, 赵珊, 张维怡, 等. 一种基于改进社会学习算法的云任务调度方法[P]. 中国: 201710387503.2, 2017-05-25.
LIU Zhizhong, ZHAO Shan, ZHANG Weiyi, et al. Cloud task scheduling method based on improved social learning algorithm[P]. CN: 201710387503.2, 2017-05-25.
[17] LIU Zhizhong, CHU Dianhui, JIA Zongpu, et al. Two-stage approach for reliable dynamic Web service composition[J]. Knowledge-based systems, 2016, 97: 123–143.
[18] 吴军, 高希余, 桑波, 等. 众阳居民电子健康档案信息管理系统[P]. 中国: V1.0.2015SR058242, 2015-04-01.WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang Residents electronic health record information management system[P]. CN: V1.0.2015SR058242, 2015-04-01.
[19] 吴军, 高希余, 赵华桥, 等. 数据路由方法、数据路由网络及其数据访问方法、系统[P]. 中国: 201810879917.1, 2018-11-13.
WU Jun, GAO Xiyu, ZHAO Huaqiao, et al. Data routing method, data routing network and data access method and system[P]. CN: 201810879917.1, 2018-11-13.
[20] 吴军, 高希余, 赵华桥, 等. 一种数据加密、数据验证方法及其系统[P]. 中国: 201811295947.4, 2018-11-01.
WU Jun, GAO Xiyu, ZHAO Huaqiao, et al. Data encryption and data verification method and system[P]. CN: 201811295947.4, 2018-11-01.
[21] 吴军, 宋伟, 高希余, 等. 基于原始诊断数据的疾病分类编码方法及系统[P]. 中国: 201711013514.0, 2017-10-25.
WU Jun, SONG Wei, GAO Xiyu, et al. Disease classification encoding method and system based on original diagnosis data[P]. CN: 201711013514.0, 2017-10-25.
[22] 吴军, 宋伟, 高希余, 等. 基于原始诊断数据和病历文件数据的疾病编码方法及系统[P]. 中国: 201711008899.1, 2018-02-23.
WU Jun, SONG Wei, GAO Xiyu, et al. Disease coding method and system based on original diagnosis data and case history file data[P]. CN: 201711008899.1, 2018-02-23.
[23] 吴军, 宋伟, 高希余, 等. 疾病自动编码方法及系统[P]. 中国: 201711013515.5, 2017-10-25.
WU Jun, SONG Wei, GAO Xiyu, et al. Automatic disease coding method and system[P]. CN: 201711013515.5, 2017-10-25.
[24] 张述睿, 吴军, 樊昭磊, 等. 一种基于深度学习的ICD手术与操作编码自动匹配方法[P]. 中国: 201911271626.5, 2019-12-12.
ZHANG Shurui, WU Jun, FAN Zhaolei, et al. ICD surgery and operation code automatic matching method based on deep learning[P]. CN: 201911271626.5, 2019-12-12.
[25] HU Xin, LI Zhengzuo, DAI Ruixuan, et al. Coarse-to-fine activity annotation and recognition algorithm for solitary older adults[J]. IEEE access, 2019, 8: 4051–4064.
[26] DING Renjie, LI Xue, NIE Lanshun, et al. Empirical study and improvement on deep transfer learning for human activity recognition[J]. Sensors, 2018, 19(1): 57.
[27] LIU Xingkun, TU Zhiying, WANG Zhongjie, et al. A crowdsourcing-based knowledge graph construction platform[C]//Proceedings of 2020 AIOps, CFTIC, STRAPS, AI-PA, AI-IOTS, and Satellite Events, Dubai, United Arab Emirates Service-Oriented Computing. Dubai, United Arab Emirates, 2020: 1-8.
[28] TU Zhiying, XU Xiaofei, ZHANG Qian, et al. Gig services recommendation method for fuzzy requirement description[C]//Proceedings of 2017 IEEE International Conference on Web Services. Honolulu, HI, USA, 2017: 620-627.
[29] TIAN Junrui, TU Zhiying, WANG Zhongjie, et al. User intention recognition and requirement elicitation method for conversational AI services[C]//Proceedings of 2020 IEEE International Conference on Web Services (ICWS). Beijing, China, 2020: 273-280.
[30] 晁浩, 智慧来, 刘志中, 等. 一种基于声效模式检测的语音识别方法[P]. 中国: 201610299376.6, 2016-05-05.
CHAO Hao, ZHI Huilai, LIU Zhizhong, et al. Voice identification method based on sound effect mode detection[P]. CN: 201610299376.6, 2016-05-05.
[31] 晁浩, 智慧来, 刘永利, 等. 一种基于特征融合的语音声效模式检测方法[P]. 中国: 201710172671.X, 2017-03-21.
CHAO Hao, ZHI Huilai, LIU Yongli, et al. Voice sound effect mode detection method based on characteristic fusion[P]. CN: 201710172671.X, 2017-03-21.
[32] CHENG Yuanzhi, HU Xin, WANG Ji, et al. Accurate vessel segmentation with constrained B-snake[J]. IEEE transactions on image processing, 2015, 24(8): 2440–2455.
[33] XIA Yong, WULAN Naren, WANG Kuanquan, et al. Detecting atrial fibrillation by deep convolutional neural networks[J]. Computers in biology and medicine, 2018(93): 84–92.
[34] 夏勇, 乌兰娜仁, 王宽全, 等. 基于深度卷积神经网络的心电数据数字信号处理方法[P]. 中国: 201710321707.6, 2017-05-09.
XIA Yong, WULAN Naren, WANG Kuanquan, et al. Digital signal processing method of ECG data based on deep convolutional neural network[P]. CN: 201710321707.6, 2017-05-09.
[35] YU Shui, ZHANG Shanzhuo, WANG Kuanquan, et al. An efficient and fast GPU-based algorithm for visualizing large volume of 4D data from virtual heart simulations[J]. Biomedical signal processing and control, 2017(35): 8–18.
[36] 吴军, 高希余, 桑波, 等. 众阳医疗影像辅助诊断系统[P]. 中国: V1.0.2018SR965448, 2018-12-03.
WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang medical imaging aided diagnosis system[P]. CN: V1.0.2018SR965448, 2018-12-03.
[37] LI Guoru, ZHENG Hongzhen, CHU Dianhui, et al. IEDPS: intelligent elderly disease prediction system[J]. International journal of internet manufacturing and services, 2018, 5(2/3): 232–244.
[38] 王瑶. 糖尿病健康数据分析方法及应用[D]. 哈尔滨: 哈尔滨工业大学, 2017: 1-71.
WANG Yao. Diabetes health data analytic methodology and application[D]. Harbin: Harbin Institute of Technology, 2017: 1-71.
[39] 吴军, 高希余, 桑波, 巩玉强, 樊昭磊. 众阳医学影像云三维重建系统[P].中国:V1.0. 2016SR204533. 2016-06-16.WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang medical image cloud 3D reconstruction system[P].CN: V1.0. 2016SR204533. 2016-06-16.
[40] 初佃辉, 孟凡超, 战德臣, 等. 基于有限自动机的多层次构件行为匹配模型[J]. 软件学报, 2011, 22(11): 2668–2683
CHU Dianhui, MENG Fanchao, ZHAN Dechen, et al. Multi-level component behavior matching model based on finite automata[J]. Journal of software, 2011, 22(11): 2668–2683
[41] ZHANG Xiaodong, ZHAN Dechen, CHU Dianhui. SaaS resource management model and architecture research[J]. The open cybernetics & systemics journal, 2015, 9(1): 433–442.
[42] QIAN Bin, MENG Fanchao, CHU Dianhui. A cost-driven multi-objective optimization algorithm for SaaS applications placement[C]//Proceedings of 2015 IEEE International Conference on Smart City/SocialCom/SustainCom (SmartCity). Chengdu, China, 2015: 1086-1091.
[43] 初佃辉, 涂志莹, 胡鑫, 等. HIT-ICES云服务平台服务构件管理系统[P]. 中国: 2016SR214215, 2016-01-30.
CHU Dianhui, TU Zhiying, HU Xin, et al. HIT-ICES cloud service platform service component management system[P]. CN: 2016SR214215, 2016-01-30.
[44] 吴军, 高希余, 桑波, 等. 智慧医养服务平台[P]. 中国: V1.0.2017SR488952, 2017-09-05.
WU Jun, GAO Xiyu, SANG Bo, et al. Smart medical care service platform[P]. CN: V1.0.2017SR488952, 2017-09-05.
[45] 吴军, 高希余, 桑波, 等. 众阳健康服务平台[P]. 中国: V1.0.2017SR675136, 2017-12-08.
WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang health service platform[P]. CN: V1.0.2017SR675136, 2017-12-08.
[46] 初佃辉, 涂志莹, 胡鑫, 等. HIT-ICES智慧养老服务平台系统软件[P]. 中国: 2018SR329787, 2018-05-11.
CHU Dianhui, TU Zhiying, HU Xin, et al. HIT-ICES smart elderly care service platform system software[P]. CN: 2018SR329787, 2018-05-11.
[47] 初佃辉, 涂志莹, 胡鑫, 等. HIT-ICES老年人健康电子数据管理分析系统软件[P]. 中国: 2017SR192935, 2017-05-22.
CHU Dianhui, TU Zhiying, HU Xin, et al. HIT-ICES elderly health electronic data management and analysis system software[P]. CN: 2017SR192935, 2017-05-22.
[48] 初佃辉, 涂志莹, 胡鑫, 等. HIT-ICES社区养老服务质量评价系统[P]. 中国: 2017SR462110, 2017-08-22.
CHU Dianhui, TU Zhiying, HU Xin, et al. HIT-ICES community elderly care service quality evaluation system[P]. CN: 2017SR462110, 2017-08-22.
[49] 吴军, 高希余, 桑波, 等. 远程智慧医学平台系统[P]. 中国: V1.0.2016SR013471, 2016-01-19.
WU Jun, GAO Xiyu, SANG Bo, et al. Remote smart medical platform system[P]. CN: V1.0.2016SR013471, 2016-01-19.
[50] 吴军, 高希余, 桑波, 等. 众阳基于大数据的医院管控平台院长管控系统[P]. 中国: V1.0.2016SR323452, 2016-09-02.
WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang hospital control platform dean control system[P]. CN:V1.0.2016SR323452,2016-09-02.
[51] 吴军, 高希余, 桑波, 等. 众阳基于大数据的医院管控平台临床科室主任管控系统[P]. 中国: V1.0.2016SR327648, 2016-07-05.
WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang hospital control platform clinical department director control system[P]. CN: V1.0.2016SR327648, 2016-07-05.
[52] 吴军, 高希余, 桑波, 等. 众阳全科医生诊疗机器人系统[P]. 中国: V1.0.2018SR967459, 2018-12-03.
WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang general practitioner medical robot system[P]. CN: V1.0.2018SR967459, 2018-12-03.
[53] 吴军, 高希余, 巩玉强. 众阳临床路径管理系统[P]. 中国: V1.0.2011SR070884, 2011-09-29.
WU Jun, GAO Xiyu, GONG Yuqiang. Zhongyang clinical path management system[P]. CN: V1.0.2011SR070884, 2011-09-29.
[54] 吴军, 高希余, 桑波, 等. 众阳医疗质量追溯管理系统[P]. 中国: V1.0.2013SR085875, 2013-08-16.
WU Jun, GAO Xiyu, SANG Bo, et al. Zhongyang medical quality traceability management system[P]. CN: V1.0.2013SR085875, 2013-08-16.
[55] 吴军, 高希余, 桑波, 等. 慢病管控平台系统[P]. 中国:V1.0. 2016SR330216, 2016-11-15.
WU Jun, GAO Xiyu, SANG Bo, et al. Chronic disease management and control platform system[P]. CN: V1.0. 2016SR330216, 2016-11-15.

备注/Memo

收稿日期:2021-03-18。
基金项目:国家自然科学基金项目(61772159,61872126,61902090,61802089);国家发改委高技术服务业专项、国家科技支撑计划项目(2013BAH05F02);国家区域创新中心科技专项(2017QYCX12);山东省科技重大专项(2015ZDXX0201B02, 2014CGZH1103);山东省重大科技创新工程(2019JZZY020125);山东省自然科学基金项目(ZR2017MF026)
作者简介:初佃辉,教授,博士生导师,主要研究方向为服务计算、智慧养老、人工智能、云计算、工业互联网。荣获第十届吴文俊人工智科技进步一等奖、航天工业总公司科技进步三等奖、获“威海市优秀青年科技人才”称号。主持国家863计划项目、山东省重大科技攻关、山东省自然科学基金项目、山东省自主创新工程重大专项等10余项。发表学术论文50余篇;吴军,山东众阳健康科技集团董事长,主要研究方向为智能化医疗服务系统、智能化医疗诊断技术。获“山东省优秀企业家”称号,医养健康数字经济领域领军人物,获山东省科技进步奖一等奖、吴文俊人工智能科技进步一等奖,所在的山东众阳健康科技集团有限公司,先后获评国家级“智慧健康养老示范企业”、山东省医养健康产业龙头企业、山东省“十强”产业集群领军企业、山东省十佳“瞪羚企业”等;带领企业打造了智慧健康的“平阴模式”“淄博模式”,成为国家级示范工程。获授权发明专利 10 余项、获软件著作权30余项;刘志中,副教授,博士,主要研究方向为服务计算、智能服务、人工智能。获吴文俊人工智能科技进步一等奖 (名次 3/14)、河南省自然科学二等奖 (名次 5/5)。主持及参与国家自然科学基金项目6项,主持山东省自然科学基金重点项目1项,获发明专利授权 6 项。发表学术论文30余篇。
通讯作者:初佃辉.E-mail:cdh@hitwh.edu.cn

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