技术机会识别研究综述与展望

doi:10.13998/j.cnki.issn1002-1248.23-0409

摘要/Abstract

摘要： [目的/意义]技术机会识别对技术创新发展、企业战略布局等具有重大意义,系统梳理现有研究成果,辨析当前局限和未来发展方向,为进一步开展技术机会识别研究与实践提供理论支撑。[方法/过程]首先明晰了技术机会的内涵与类型,然后梳理不同类型技术机会识别的国内外研究现状,总结不同类型技术机会识别的特点,最后剖析现有研究存在问题并提出对未来的展望。[结果/结论]现有研究的局限性：技术机会识别的研究视角和数据源相对单一;对于技术的表征过于宏观或微观,较少考虑词语之间的语义关系;后期评价不足,缺乏综合、系统的评价体系。未来研究展望：跨领域、跨主题的技术机会识别研究,以实现更多技术要素之间的交叉汇聚将会成为发展趋势;开展技术机会识别的数据源、研究方法和内容将会更多元且具有针对性;分析框架和流程将更加规范化,后期评价体系将更加完善。

关键词: 技术机会识别, 技术机会类型, 研究方法, 技术创新, 述评

Abstract: [Purpose/Significance] Identifying potential technological opportunities will help countries and enterprises seize scientific and technological opportunities, which is particularly important for innovation entities to enhance their core competitiveness and gain competitive advantages in scientific and technological innovation and application. A systematic review of existing research is provided on technology opportunity identification, discriminating current limitations and research prospects to provide theoretical support for further research and practice on technology opportunity identification. [Method/Process] This paper first clarifies the connotation and types of technology opportunities, and the research holds that technology opportunities can be divided into three types: emerging technology, blank technology and fusion technology. It then sorts out the research status of three different types of technology opportunity identification at home and abroad through literature review, and focuses on the summary of the characteristics of different types of technology opportunity identification. It includes the core ideas, main methods, representative literature, and each type of data sources, and evaluates the existing research results. Finally, the limitations of the current research, and the development direction of future are discussed. [Results/Conclusions] Diversified types of technology opportunity identification are found and rich research methods are used in the literature, and a relatively standardized and systematic research paradigm has come into being. By analyzing each type of technology opportunity, some common elements can be found, including representative methods, method principles, data sources, knowledge representation units, technology opportunity definitions, technology opportunity evaluation, advantages and disadvantages, and other characteristics. The main limitations of the existing research are summarized as follows. First, the existing research is primarily carried out from a single perspective view, and a complete system of cross-domain technology identification and reference methods has not yet been formed. Second, in terms of data sources, most of the data sources of technology opportunity identification are papers or patent data, and there is a lack of research on the integration of multi-source data and study on multiple relationships. In terms of identification methods, the representative technology is primarily at a macro or micro level, and the semantic relationship between words is seldom considered. Finally, in terms of post-evaluation, there is a lack of a comprehensive and systematic evaluation system. The possible research work in the future may focus on the following aspects: cross-field and cross-topic technology opportunity identification to achieve cross convergence among more technology elements will become the development trend; more diversified and targeted data sources, research methods, and research content are expected; the analysis framework and process will be more standardized, and the post-evaluation system will be improved.

Key words: technology opportunity identification, technology opportunity types, research methods, technological innovation, review

中图分类号:

G353.1

刘婷, 赵亚娟. 技术机会识别研究综述与展望[J]. 农业图书情报学报, 2023, 35(7): 4-17.

LIU Ting, ZHAO Yajuan. Review and Prospect of Research on Technology Opportunity Identification[J]. Journal of Library and Information Science in Agriculture, 2023, 35(7): 4-17.

参考文献

[1] 李保明. 技术机会与技术创新的决策[J]. 科学管理研究, 1990, 8(5): 61-62.
LI B M.Technological opportunity and technological innovation decision-making[J]. Scientific management research, 1990, 8(5): 61-62.
[2] KLEVORICK A K, LEVIN R C, NELSON R R, et al.On the sources and significance of interindustry differences in technological opportunities[J]. Research policy, 1995, 24(2): 185-205.
[3] 苏娜平, 谭宗颖. 技术机会分析方法研究综述与展望[J]. 情报理论与实践, 2020, 43(11): 179-186.
SU N P, TAN Z Y.Review and vision for the future of the research on technology opportunity analysis methods[J]. Information studies: Theory & application, 2020, 43(11): 179-186.
[4] 李阳, 许培扬. 国内外技术机会研究现状分析[J]. 情报探索, 2013(1): 7-11.
LI Y, XU P Y.Analysis on research status quo of technology opportunity at home and abroad[J]. Information research, 2013(1): 7-11.
[5] PORTER A L, DETAMPEL M J.Technology opportunities analysis[J]. Technological forecasting and social change, 1995, 49(3): 237-255.
[6] 任海英, 王倩. 技术机会发现方法的研究现状、趋势和问题[J]. 情报杂志, 2020, 39(4): 51-59.
REN H Y, WANG Q.Technology opportunity discovery methods: A state-of-the-art review[J]. Journal of intelligence, 2020, 39(4): 51-59.
[7] 王坤, 王京安, 陈天明, 等. 国内外技术机会研究的脉络、流派与趋势[J]. 南京工业大学学报(社会科学版), 2019, 18(2): 98-110, 112.
WANG K, WANG J A, CHEN T M, et al.History, schools and trend in technology opportunity at home and abroad[J]. Journal of Nanjing tech university (social science edition), 2019, 18(2): 98-110, 112.
[8] SCHWARTZ P.Technological innovation opportunities[J]. Comput-ers and people, 1974, 23(5): 33-33.
[9] 李辉, 乔晓东. 基于科技文献的技术机会分析方法初探[J]. 情报杂志, 2007, 26(5): 74-76.
LI H, QIAO X D.The technology opportunity analysis based on science & technology document[J]. Journal of information, 2007, 26(5): 74-76.
[10] 翟东升, 刘鹤, 张杰, 等. 一种基于链路预测的技术机会挖掘方法[J]. 情报学报, 2016, 35(10): 1090-1100.
ZHAI D S, LIU H, ZHANG J, et al.Approach to mining technology opportunity based on link prediction[J]. Journal of the China society for scientific and technical information, 2016, 35(10): 1090-1100.
[11] YOON B, PARK I, YUN D, et al.Exploring promising vacant technol-ogy areas in a technology-oriented company based on bibliometric analysis and visualisation[J]. Technology analysis & strategic man-agement, 2019, 31(4): 388-405.
[12] ZHOU Y, LIN H, LIU Y F, et al.A novel method to identify emerging technologies using a semi-supervised topic clustering model: A case of 3D printing industry[J]. Scientometrics, 2019, 120(1): 167-185.
[13] NOH H, SONG Y K, LEE S.Identifying emerging core technologies for the future: Case study of patents published by leading telecom-munication organizations[J]. Telecommunications policy, 2016, 40(10/11): 956-970.
[14] 伊惠芳, 刘细文, 龙艺璇. 技术创新全视角下技术机会发现研究进展[J]. 图书情报工作, 2021, 65(7): 132-142.
YI H F, LIU X W, LONG Y X.A review of technology opportunity discovery from the full perspective of technology innovation[J]. Library and information service, 2021, 65(7): 132-142.
[15] 宋红燕. 基于专利技术要素的技术机会识别研究[D]. 北京: 中国农业科学院, 2021.
SONG H Y.Technology opportunity identification based on patent elements features[D]. Beijing: Chinese Academy of Agricultural Sciences, 2021.
[16] LEE C Y, LEE G.Technology opportunity analysis based on recombinant search: Patent landscape analysis for idea generation[J]. Scientometrics, 2019, 121(2): 603-632.
[17] 张振刚, 罗泰晔. 基于知识组合理论的技术机会发现[J]. 科研管理, 2020, 41(8): 220-228.
ZHANG Z G, LUO T Y.Technology opportunity discovery based on knowledge combination theory[J]. Science research management, 2020, 41(8): 220-228.
[18] 石慧, 潘云涛, 苏成. 颠覆性技术及其识别预测方法研究综述[J]. 情报工程, 2019, 5(3): 33-48.
SHI H, PAN Y T, SU C.A review of research on disruptive tech-nology and its recognition and prediction methods[J]. Technology intelligence engineering, 2019, 5(3): 33-48.
[19] COZZENS S, GATCHAIR S, KANG J, et al.Emerging technologies: Quantitative identification and measurement[J]. Technology analysis & strategic management, 2010, 22(3): 361-376.
[20] 罗建, 蔡丽君, 史敏. 新兴技术识别方法研究进展[J]. 科技情报研究, 2019, 1(1): 95-103.
LUO J, CAI L J, SHI M.Research review on the method of identifica-tion of emerging technology[J]. Scientific information research, 2019, 1(1): 95-103.
[21] 王康, 陈悦, 宋超, 等. 颠覆性技术: 概念辨析与特征分析[J]. 科学学研究, 2022, 40(11): 1937-1946.
WANG K, CHEN Y, SONG C, et al.Disruptive technology: Concept discrimination and characteristics analysis[J]. Studies in science of science, 2022, 40(11): 1937-1946.
[22] 周萌, 朱相丽. 新兴技术概念辨析及其识别方法研究进展[J]. 情报理论与实践, 2019, 42(10): 162-169.
ZHOU M, ZHU X L.Discrimination of the concept of emerging technologies and research progress on its identification methods[J]. Information studies: Theory & application, 2019, 42(10): 162-169.
[23] 徐建国, 李孟军, 游翰霖. 新兴技术识别研究进展[J]. 情报杂志, 2018, 37(12): 8-12, 7.
XU J G, LI M J, YOU H L.Literature review on the identification of emerging technologies[J]. Journal of intelligence, 2018, 37(12): 8-12, 7.
[24] BURMAOGLU S, SARTENAER O, PORTER A, et al.Analysing the theoretical roots of technology emergence: An evolutionary perspective[J]. Scientometrics, 2019, 119(1): 97-118.
[25] CHO J, LEE J.Development of a new technology product evaluation model for assessing commercialization opportunities using Delphi method and fuzzy AHP approach[J]. Expert systems with applications, 2013, 40(13): 5314-5330.
[26] LEE S, KIM W, KIM Y M, et al.The prioritization and verification of IT emerging technologies using an analytic hierarchy process and cluster analysis[J]. Technological forecasting and social change, 2014, 87: 292-304.
[27] RAFORD N.Online foresight platforms: Evidence for their impact on scenario planning & strategic foresight[J]. Technological forecasting and social change, 2015, 97: 65-76.
[28] YOON B U, YOON C B, PARK Y T.On the development and application of a self-organizing feature map-based patent map[J]. R&D management, 2002, 32(4): 291-300.
[29] LEE S, YOON B, PARK Y.An approach to discovering new tech-nology opportunities: Keyword-based patent map approach[J].Technovation, 2009, 29(6/7): 481-497.
[30] 龚惠群, 刘琼泽, 黄超. 机器人产业技术机会发现研究——基于专利文本挖掘[J]. 科技进步与对策, 2014, 31(5): 70-74.
GONG H Q, LIU Q Z, HUANG C.The research on discover robotics industry technology opportunities based on patent text mining[J]. Science & technology progress and policy, 2014, 31(5): 70-74.
[31] SON C, SUH Y, JEON J, et al.Development of a GTM-based patent map for identifying patent vacuums[J]. Expert systems with applications, 2012, 39(3): 2489-2500.
[32] 吴菲菲, 陈明, 黄鲁成. 基于GTM的3D生物打印专利技术空白点识别[J]. 情报杂志, 2015, 34(3): 58-64.
WU F F, CHEN M, HUANG L C.Identification of patent vacuums in 3D bioprinting based on GTM[J]. Journal of intelligence, 2015, 34(3): 58-64.
[33] 旷景明, 胡奕, 李蓓, 等. 基于生成式拓扑映射的专利空白挖掘技术[J]. 情报理论与实践, 2015, 38(12): 133-136, 142.
KUANG J M, HU Y, LI B, et al.Patent blank mining technology based on GTM[J]. Information studies: Theory & application, 2015, 38(12): 133-136, 142.
[34] 朱琳, 战洪飞, 余军合, 等. 基于专利数据的企业技术创新机会识别方法研究[J]. 生产力研究, 2019(7): 134-141.
ZHU L, ZHAN H F, YU J H, et al.Research on identification method of enterprise technological innovation opportunities based on patent data[J]. Productivity research, 2019(7): 134-141.
[35] YOON B, PARK I, COH B Y.Exploring technological opportunities by linking technology and products: Application of morphology analysis and text mining[J]. Technological forecasting and social change, 2014, 86: 287-303.
[36] YOON B C, PARK Y T.Morphology analysis approach for technology forecasting[C]// 2004 IEEE International Engineering Management Conference (IEEE Cat. No.04CH37574). Piscataway, New Jersey: IEEE, 2005: 566-570.
[37] YOON B, PARK Y.A systematic approach for identifying technology opportunities: Keyword-based morphology analysis[J]. Technological forecasting and social change, 2005, 72(2): 145-160.
[38] YOON B, PARK Y.Development of new technology forecasting algo-rithm: Hybrid approach for morphology analysis and conjoint analysis of patent information[J]. IEEE transactions on engineering manage-ment, 2007, 54(3): 588-599.
[39] 冷伏海, 王林, 王立学. 基于文本挖掘的形态分析方法的关键问题[J]. 图书情报工作, 2012, 56(4): 27-30.
LENG F H, WANG L, WANG L X.Key issues in morphology analysis based on text mining[J]. Library and information service, 2012, 56(4): 27-30.
[40] 王金凤, 吴敏, 岳俊举, 等. 创新过程的技术机会识别路径研究——基于专利挖掘和形态分析[J]. 情报理论与实践, 2017, 40(8): 82-86.
WANG J F, WU M, YUE J J, et al.Research on the path of technology opportunity identification in the innovation process[J]. Information studies: Theory & application, 2017, 40(8): 82-86.
[41] 郭俊芳, 汪雪锋, 李乾瑞, 等. 一种新型的技术形态识别方法——基于SAO语义挖掘方法[J]. 科学学研究, 2016, 34(1): 13-21.
GUO J F, WANG X F, LI Q R, et al.A new method to identify technology morphology: SAO-based semantic analysis approach[J]. Studies in science of science, 2016, 34(1): 13-21.
[42] WANG X F, MA P P, HUANG Y, et al.Combining SAO semantic analysis and morphology analysis to identify technology opportunities[J]. Scientometrics, 2017, 111(1): 3-24.
[43] 李乾瑞, 郭俊芳, 朱东华. 基于形态分析和模糊一致矩阵识别技术机会[J]. 科研管理, 2020, 41(7): 33-41.
LI Q R, GUO J F, ZHU D H.An analysis of technology opportunities based on morphology analysis and fuzzy consistent matrix identification method[J]. Science research management, 2020, 41(7): 33-41.
[44] 史璇. 基于科技文献的燃料电池汽车企业技术机会研究[D]. 太原: 山西大学, 2020.
SHI X.Research on technology opportunities of fuel cell vehicle firms based on scientific and technological text[D]. Taiyuan: Shanxi University, 2020.
[45] CHOI S W, YOU Y Y, NA K S.Forecasting promising technology using analysis of patent information: Focused on next generation mobile communications[J]. Journal of central south university, 2014, 21(11): 4303-4310.
[46] SHANE S.Technological opportunities and new firm creation[J]. Management science, 2001, 47(2): 205-220.
[47] SONG K, KIM K, LEE S.Identifying promising technologies using patents: A retrospective feature analysis and a prospective needs analysis on outlier patents[J]. Technological forecasting and social change, 2018, 128: 118-132.
[48] ROTOLO D, HICKS D, MARTIN B R.What is an emerging technology?[J]. Research policy, 2015, 44(10): 1827-1843.
[49] CARLEY S F, NEWMAN N C, PORTER A L, et al.An indicator of technical emergence[J]. Scientometrics, 2018, 115(1): 35-49.
[50] 关杏彬. 基于离群专利的技术机会分析研究[D]. 广州: 华南理工大学, 2018.
GUAN X B.Research on technology opportunity analysis method based on outlier patents[D]. Guangzhou: South China University of Technology, 2018.
[51] YOON J, KIM K.Detecting signals of new technological opportunities using semantic patent analysis and outlier detection[J]. Scientometrics, 2012, 90(2): 445-461.
[52] LEE C Y, KANG B, SHIN J.Novelty-focused patent mapping for technology opportunity analysis[J]. Technological forecasting and social change, 2015, 90: 355-365.
[53] 李登杰. 基于异常检测的专利技术机会识别[D]. 北京: 北京工业大学, 2016.
LI D J.The patent technology opportunity recognition based on the outlier detection[D]. Beijing: Beijing University of Technology, 2016.
[54] 翟东升, 郭程, 张杰, 等. 采用异常检测的技术机会识别方法研究[J]. 现代图书情报技术, 2016(10): 81-90.
ZHAI D S, GUO C, ZHANG J, et al.Identifying technology opportu-nities with anomaly detection technique[J]. New technology of library and information service, 2016(10): 81-90.
[55] 孔德婧, 董放, 陈子婧, 等. 离群专利视角下的新兴技术预测——基于BERT模型和深度神经网络[J]. 图书情报工作, 2021, 65(17): 131-141.
KONG D J, DONG F, CHEN Z J, et al.Prediction of emerging technologies from the perspective of outlier patents - Based on bert model and deep neural networks[J]. Library and information service, 2021, 65(17): 131-141.
[56] 李欣, 王静静, 杨梓, 等. 基于SAO结构语义分析的新兴技术识别研究[J]. 情报杂志, 2016, 35(3): 80-84.
LI X, WANG J J, YANG Z, et al.Identifying emerging technologies based on subject - action-object[J]. Journal of intelligence, 2016, 35(3): 80-84.
[57] 黄鲁成, 王静静, 李欣, 等. 基于论文和专利的钙钛矿太阳能电池的技术机会分析[J]. 情报学报, 2016, 35(7): 686-695.
HUANG L C, WANG J J, LI X, et al.Detecting technology opportunities based on papers and patents for perovskite solar cells[J]. Journal of the China society for scientific and technical information, 2016, 35(7): 686-695.
[58] 李乾瑞, 郭俊芳, 朱东华. 新兴技术创新机会识别方法研究[J]. 中国软科学, 2018(11): 138-147.
LI Q R, GUO J F, ZHU D H.Identification of technology innovation opportunity for emerging technology[J]. China soft science, 2018 (11): 138-147.
[59] MOEHRLE M G, WALTER L, GERITZ A, et al.Patent-based inventor profiles as a basis for human resource decisions in research and development[J]. R and D management, 2005, 35(5): 513-524.
[60] National Academy of Sciences, National Academy of Engineering, Institute of Medicine. Facilitating interdisciplinary research[M]. Washington, D.C.: National Academies Press, 2005.
[61] 黄鲁成, 蔡爽. 基于专利的判断技术机会的方法及实证研究[J]. 科学学研究, 2010, 28(2): 215-220.
HUANG L C, CAI S.An empirical study on the evaluation of the technical opportunity based on the patents[J]. Studies in science of science, 2010, 28(2): 215-220.
[62] 唐晗, 李睿. 基于A类专利引文分析的中国和印度创新合作机会发现[J]. 农业图书情报学报, 2021, 33(2): 35-43.
TANG H, LI R.Discovery of innovation cooperation opportunities between China and India based on the analysis of patent citations of category A[J]. Journal of library and information science in agriculture, 2021, 33(2): 35-43.
[63] GEUM Y.Technological convergence of IT and BT: Evidence from patent analysis[J]. ETRI journal, 2012, 34(3): 439-449.
[64] KIM E, CHO Y, KIM W.Dynamic patterns of technological convergence in printed electronics technologies: Patent citation network[J]. Scientometrics, 2014, 98(2): 975-998.
[65] PASSING F, MOEHRLE M G.Measuring technological convergence in the field of smart grids: A semantic patent analysis approach using textual corpora of technologies[C]// 2015 Portland International Conference on Management of Engineering and Technology (PICMET). Piscataway, New Jersey: IEEE, 2015: 559-570.
[66] GETOOR L, DIEHL C P.Link mining[J]. ACM SIGKDD explo-rations newsletter, 2005, 7(2): 3-12.
[67] PARK I, YOON B.Technological opportunity discovery for technological convergence based on the prediction of technology knowledge flow in a citation network[J]. Journal of informetrics, 2018, 12(4): 1199-1222.
[68] LEE W S, HAN E J, SOHN S Y.Predicting the pattern of technology convergence using big-data technology on large-scale triadic patents[J]. Technological forecasting and social change, 2015, 100: 317-329.
[69] 任海英, 于立婷, 黄鲁成. 基于链接预测的科学研究机会发现方法研究[J]. 情报杂志, 2016, 35(10): 53-58, 36.
REN H Y, YU L T, HUANG L C.A method for discovering scientific research opportunities based on link prediction[J]. Journal of intelli-gence, 2016, 35(10): 53-58, 36.
[70] 任海英, 赵育慧, 于立婷. 基于知识网络的科学研究机会发现的机理和应用[J]. 情报理论与实践, 2018, 41(11): 89-95.
REN H Y, ZHAO Y H, YU L T.Mechanisms and applications of scientific research opportunities discovery based on knowledge network[J]. Information studies: Theory & application, 2018, 41(11): 89-95.
[71] 李兰茜. 基于复杂网络结构的链路预测技术研究[D]. 北京: 北京邮电大学, 2019.
LI L Q.Link prediction based on the structure of complex networks[D]. Beijing: Beijing University of Posts and Telecommunications, 2019.
[72] 韩燕, 彭爱东. 基于技术形成三要素的技术机会识别研究——以医疗服务机器人领域技术为例[J]. 情报理论与实践, 2020, 43(5): 156-162.
HAN Y, PENG A D.Study on technology opportunity identification based on elements of technology formation: A case of the technology of medical service robot[J]. Information studies: Theory & application, 2020, 43(5): 156-162.
[73] 慎金花, 闫倩倩, 孙乔宣, 等. 基于专利数据挖掘的技术融合识别与技术机会预测研究——以电动汽车产业为例[J]. 图书馆杂志,2019, 38(10): 95-106.
SHEN J H, YAN Q Q, SUN Q X, et al.Research on technology fusion recognition and technology opportunity prediction based on patent data mining[J]. Library journal, 2019, 38(10): 95-106.
[74] 娄岩, 杨培培, 黄鲁成, 等. 基于专利的技术融合测度方法——以信息技术与电动汽车技术的融合为例[J]. 现代情报, 2017, 37(8): 142-153.
LOU Y, YANG P P, HUANG L C, et al.Method of measuring technology convergence based on patent - Taking the convergence of information technology and electric vehicle technology as an example[J]. Journal of modern information, 2017, 37(8): 142-153.
[75] 翟东升, 张京先. 基于专利技术共现网络的无人驾驶汽车技术融合演化研究[J]. 情报杂志, 2020, 39(4): 60-66, 19.
ZHAI D S, ZHANG J X.Research on technology convergence evolution of unmanned vehicle based on patent technology co-occurrence network[J]. Journal of intelligence, 2020, 39(4): 60-66, 19.
[76] 李树刚, 刘颖, 郑玲玲. 基于专利挖掘的感知人工智能技术融合趋势分析[J]. 科技进步与对策, 2019, 36(23): 28-35.
LI S G, LIU Y, ZHENG L L.Analysis of technology integration trend of perceptual artificial intelligence based on patent mining[J]. Science & technology progress and policy, 2019, 36(23): 28-35.
[77] 苗红, 赵润博, 黄鲁成, 等. 基于LDA-SVM分类算法的技术融合测度研究[J]. 科学学与科学技术管理, 2018, 39(10): 13-29.
MIAO H, ZHAO R B, HUANG L C, et al.Research on technology convergence measurement based on LDA-SVM classification algorithm[J]. Science of science and management of S& T, 2018, 39(10): 13-29.
[78] 李丫丫, 赵玉林. 基于专利的技术融合分析方法及其应用[J]. 科学学研究, 2016, 34(2): 203-211.
LI Y Y, ZHAO Y L.Method and application of technological con-vergence analysis base on patents[J]. Studies in science of science, 2016, 34(2): 203-211.
[79] 吕璐成, 赵亚娟. 基于专利数据的技术融合研究综述[J]. 图书情报工作, 2021, 65(6): 138-148.
Lü L C, ZHAO Y J.Research review on technology convergence based on patent data[J]. Library and information service, 2021, 65, (6): 138-148.
[80] 黄鲁成, 黄斌, 吴菲菲, 等. 基于专利共类的信息与生物技术融合趋势分析[J]. 情报杂志, 2014, 33(8): 59-63.
HUANG L C, HUANG B, WU F F, et al.Analysis on the trend of convergence of IT and BT based on patent co-classification[J]. Journal of intelligence, 2014, 33(8): 59-63.