Runzhe Zhang , Xiang Yu , Ben Zhang , Qinglan Ren , Yakun Ji
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引用次数: 0
摘要
新兴技术为后来者提供了赶超领先巨头的竞争机会。正如大多数现有文献所指出的,技术机会发现(TOD)研究已经揭示了专利数据中的单维度关系类型。然而,很少有人注意到从专利信息中提取的更复杂的特征,如专利与技术的关系。为了从这一有价值的关系中得出更稳健的结果,本文介绍了一种新颖的 TOD 方法,利用递归图神经网络(RGNN)将这些高维信息转化为衡量内部能力的异质性指标,并将其与竞争力指数评估的外部挑战相结合,从而发现技术机遇。以 2010 年至 2021 年自动驾驶汽车(SDV)行业的 33347 项专利族为初始数据集,与以往类似的 TOD 模型相比,其性能有显著提升。同时,通过近期申请专利数据的检验,其预测的机会与华为等企业一致。本研究以案例探索的方式揭示了全球知名 SDV 企业之间激烈的技术竞争态势,为 TOD 研究和网络分析贡献了理论和实践观点。
Discovering technology opportunities of latecomers based on RGNN and patent data: The example of Huawei in self-driving vehicle industry
Emerging technologies provide competitive opportunities for latecomers to catch up with leading giants. As most of the extant literature indicated, types of single-dimensional relations from patent data have been revealed in technology opportunity discovery (TOD) research. Still, few have been aware of the more complex characteristics extracted from higher-dimensional patent information such as the patentee-technology relation. To derive this valuable relation for more robust results, this article introduces a novel TOD method, utilizing a recursive graph neural network (RGNN) to transform this high-dimensional information into measures of heterogeneity as internal capability, and combining it with external challenges evaluated by the competitiveness index, to identify technological opportunities. Taking the self-driving vehicle (SDV) industry with 33,347 patent families from 2010 to 2021 as the initial dataset, it shows significant performance promotions compared to previous analogous TOD models. Meanwhile, tested by recent filing patent data, the predicted opportunities are consistent with Huawei and other enterprises. Upon illuminating the intense technological competition situation among the preeminent SDV firms worldwide as a case exploration, this research contributes theoretical and practical views to the TOD research and network analysis.
期刊介绍:
Information Processing and Management is dedicated to publishing cutting-edge original research at the convergence of computing and information science. Our scope encompasses theory, methods, and applications across various domains, including advertising, business, health, information science, information technology marketing, and social computing.
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