基于技术-功效的专利信息分析范式——以中国矿用风机为例

总结了基于技术—功效的专利信息分析方法和分析流程,在专利信息检索的基础上,以中国矿用风机专利为研究样本,探讨了专利标引和专利—技术功效矩阵的构建,进而从申请人、发明人、年度趋势和区域等角度,研究了技术—功效专利信息分析范式的实现,最后归纳了与现有常用的专利信息分析方法相比,文章所探讨的技术—功效专利信息分析范式具有研究的深度大、维度广、分析结论更加贴合技术人员的研发实际、分析图表的可读性和指导性更强等优势。

技术-功效分析视域下的高校专利转移对象识别研究--以石墨烯领域为例

[目的/意义]专利转移对象识别对促进高校专利转移、实现科技创新驱动经济发展具有重要意义。[方法/过程]研究立足于企业成本控制及延续性创新需求,首先采用文本挖掘方法,抽取校企专利说明书中发明内容部分的技术方案及其功效信息,然后通过技术方案相似度计算并辅以阈值筛选,建立双方的技术关联关系,最后构建由发明内容语义信息推导得出的技术-功效图,从技术方案相似度和功效优化程度两个维度评估专利的可转移价值,识别专利转移对象,并以我国高校石墨烯领域专利对识别效果进行验证。[结果/结论]该方法首次将高校专利技术与企业的延续性创新需求进行科学关联对比,更加兼顾企业减少学习成本、提高产品性能的目的性,提升了识别方法的科学性和有效性。

基于领域本体的专利技术-功效文本挖掘方法——以MOCVD技术为例

专利技术-功效图是专利地图的一种。通过制作专利技术-功效图,可以有效识别相关技术空白点和突破点,有助于加强专利战略部署。本文以MOCVD(金属有机化合物化学气相沉淀)技术为例,首先通过技术骨架的搭建确定技术-功效词,构建了一个技术-功效导向的基于叙词表的领域本体。进而借助文本挖掘技术通过专利摘要分析初步实现了对文本语义的理解,完成了技术-功效图的半自动制作。通过将研究结果与某公司人工制作的技术-功效图进行对比,验证了此方法的准确性和有效性,并对二者的差异进行了解释。

“技术-功效”视角下的专利布局形势揭示与风险判定

[目的/意义]掌握专利布局形势并判定当前面临的风险,对于有策略地进行专利布局和规避研发风险、抢占技术创新和产业升级竞争优势具有重要的意义。[方法/过程]基于"技术-功效"矩阵,建立专利布局形势识别综合指标表达。通过综合判断与案例验证,形成普适的风险指标判断规则,以及当前专利布局风险的分析流程。基于"技术-功效"矩阵的专利布局形势图标可视化以及风险等级可视化的复合展现形式,直观展现专利布局形势与风险。[结果/结论]落脚技术中观层面,形成基于"技术-功效"矩阵的专利布局形势的风险判定方法,有效揭示专利布局优势区、专利布局机会区、专利布局壁垒区和专利布局空白区,并进行应对策略探讨。该方法可从国家、区域、行业、机构、项目组、研发团队、个人等多个层面展开分析,支撑技术生命全周期的专利布局风险监测。

基于专利视角的中国动漫产业技术创新态势研究

[目的/意义]为了了解中国动漫产业技术创新活动中主要利用的技术手段和解决的技术问题,探讨产业技术创新和专利保护的态势。[方法/过程]在文献综述和专利信息检索的基础上,根据"技术-功效"分解表对专利信息进行标引,然后从多个维度对中国动漫产业技术创新的态势进行了分析。[结果/结论]中国动漫产业技术创新及其专利保护在国家政策推动下取得了较快的发展;北京、长三角和珠三角等地区聚集了我国较多的动漫创新资源;浙江大学、腾讯和中科院在动漫产业技术创新领域拥有明显的优势;中国动漫产业的专利申请主要集中于G06T、H04N和G06F等领域,即图像处理、运动控制和3D渲染等技术领域。

基于布局和引证视角的微电网技术专利信息实证研究

[目的/意义]为了掌握中国授权的微电网技术领域专利在时间、空间、技术的布局特点以及重要专利引证状况,总结微电网技术专利布局规律,对中国微电网技术发展趋势进行预测,为微电网技术领域专利的科学布局提供参考。[方法/过程]整理专利查询系统SooPAT检索中国授权的微电网技术领域的专利数据,并通过智慧牙专利检索平台绘制微电网专利技术-功效、技术-地区、时间-功效表格、重要专利引证与被引证关系图,同时对中国微电网技术专利布局以及引证的特点进行实证分析。[结果/结论]研究结果发现:微电网研发重点集中在运行控制-安全稳定以及电力电子-协调控制等技术领域,信息通信-通讯处理以及智能微网-继电保护等技术领域研究不足;中国东部地区对微电网技术的研发水平远高于中西部;国家电网和中国电力科学研究院对微电网的研究具有明显优势;日本权利人在中国获得授权的微电网相关专利引证指数优于中国专利权人获得的专利。

核心专利群及规避目标的确定方法与应用

为了解决在知识经济时代突破专利壁垒的问题,通过分析目标技术并搜索专利得到专利群数据,结合技术成熟度预测作出相应的专利规避策略;利用国际专利分类(IPC)-技术-功效三维图分析核心专利群,缩小核心专利范围,在圈定的专利范围内选取与目标技术侧重点一样的专利作为核心专利;通过组件功能得分法确定核心专利群中的目标组件,并结合发明问题解决理论(TRIZ)进行专利规避设计新方案的设计;以辐射井水平钻机专利群为例,应用IPC-技术-功效三维图和组件功能得分法确定目标组件,结合TRIZ进行新方案的设计,以验证设计方法的有效性。结果表明,通过IPC-技术-功效分析法和组件功能得分法分别提高了核心专利和目标组件确定的准确率。

新能源汽车动力电池专利分析

对"世界七国两组织"1972—2012年关于新能源汽车动力系统的专利数据进行检索。从宏观和微观层面针对新能源汽车动力电池的专利布局、专利功效手段等内容进行专利数据分析,从而对新能源汽车动力电池的关键技术热点和发展趋势进行预测。

Urban Water Resource Utilization Efficiency in China

The efficient use of water resources directly affects environmental, social, and economic development; therefore, it has a significant impact on urban populations. A slacks-based measure for data envelopment analysis （SBM-DEA） has been widely used in energy efficiency and environmental efficiency analyses in recent years. Based on this model, data from 316 cities were examined and a category method was employed involving three different sorting techniques to empirically evaluate the efficiency of urban water re- source utilization in China between 2000 and 2012. The overall efficiency （OE） of urban water resource utilization in China was initially low, but has improved over the past decade. The scale efficiency （SE） was higher than the pure technological efficiency （PTE）; PTE is a major determining factor of OE, and has had an increasingly significant effect. The efficiency of water resource utilization varied ac- cording to the region, urban scale, and economic function. The OE score for the eastern China was higher than for the rest of the region, and the OE score for the western China was higher than for the central China. The OE score for urban water resource utilization has improved with urban expansion, except in the case of small cities. The SE showed an inverted U-shaped＇ trend with increasing urban expansion. The OE of urban water utilization in comprehensive functional cities was greater than in economic specialization cities, and was greater in heavy industry specialization cities than in other specialization cities. This study contributes to the field of urban water resource management by examining variations in efficiency with urban ~ezle

Exhaust gas energy recovery system of pneumatic driving automotive engine

Almost the same quantity to net output work of energy has been carried out and wasted by exhaust gas in typical automotive engine. Recovering the energy from exhaust gas and converting to mechanical energy will dramatically increase the heat efficiency and decrease the fuel consumption. With the increasing demand of fuel conservation, exhaust gas energy recovery technologies have been a hot topic. At present, many researches have been focused on heating or cooling the cab, mechanical energy using and thermo-electronic converting. Unfortunately, the complicated transmission of mechanical energy using and the depressed efficiency of thermo-electronic converting restrict their widely applying. In this paper, a kind of exhaust gas energy recovery system of pneumatic driving automotive engine, in which highly compressed air acts as energy storing and converting carrier, has been established. Pneumatic driving motor can produce moderate speed and high torque output, which is compatible for engine using. The feasibility has been certificated by GT-Power simulation and laboratory testes. The technologies about increasing recovery efficiency have been discussed in detail. The results demonstrated that the in parallel exhaust gas energy recovery system, which is similar to the compound turbo-charger structure can recovery 8 to 10 percent of rated power output. At last, a comprehensive system, which includes Rankine cycle based power wheel cycle unit etc., has been introduced.