Efficient design and modeling methodologies for filters and multiplexing networks

滤波器和复用网络的高效设计和建模方法

• 批准号: 463235-2014
• 负责人: Wang, Ying
• 金额: $ 2.08万
• 依托单位: University of Ontario Institute of Technology
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=577031
• 关键词: Efficient; design; modeling; methodologies; filters

In the proposed project, efficient and accurate design and modeling techniques will be developed for advanced filters and multiplexers, which find wide applications in space and ground based communications systems. Canadian wireless and satellite industry is facing intense competition worldwide. The advancement of computer aided design (CAD) technologies is vital for the industry to stay competitive and keep pace with technology innovations. The proposed research project targets the latest developments in advanced filter technologies, which play an important role in current and future generation satellite systems. The outcomes are expected to be fully automated design process capable of shorting the design cycle, which is indispensable for manufacture-oriented large-scale design problems; efficient modeling techniques that enables iterative optimization of designs and accurate characterization of the filter/multiplexer behavior, which is critical in ensuring success on the hardware level, shortening production cycle and cost reduction; systematic multiplexer design approach to facilitate the design of multiplexers with significant performance enhancement, which provides the industrial partner with a competitive edge against its non-Canadian competitors. The proposed research is expected to make significant contributions in the field of CAD and RF/microwave filter/multiplexer technologies, both from theoretical point of view, and from practical applications in solving product design and manufacture problems faced by the industry. The design tools and methodologies developed in the project will be instrumental to ensure first-pass success, speed up design and production cycles, and achieve designs with much improved performance. The outcome from the project will therefore enhance competitiveness and capability of the Canadian high-tech telecommunications industry, including the industrial sponsor, in the global market.

在拟议的项目中，将为在空间和地面通信系统中广泛应用的先进滤波器和多路复用器开发高效和准确的设计和建模技术。 加拿大无线和卫星产业正面临着全球范围内的激烈竞争。计算机辅助设计(CAD)技术的进步对该行业保持竞争力和跟上技术创新的步伐至关重要。拟议的研究项目着眼于先进滤波技术的最新发展，这些技术在当前和未来一代卫星系统中发挥着重要作用。预期的成果将是：能够缩短设计周期的全自动化设计过程，这对于面向制造的大规模设计问题是不可或缺的；高效的建模技术，实现设计的迭代优化和滤波器/复用器行为的准确表征，这对确保硬件层面的成功、缩短生产周期和降低成本至关重要；系统化的复用器设计方法，有助于设计性能显著提高的复用器，这为工业合作伙伴提供了相对于非加拿大竞争对手的竞争优势。 无论是从理论角度，还是从解决行业面临的产品设计和制造问题的实际应用来看，拟议中的研究都有望在CAD和RF/微波滤波器/多路复用器技术领域做出重大贡献。在该项目中开发的设计工具和方法将有助于确保首次通过成功，加快设计和生产周期，并实现性能大幅提高的设计。因此，该项目的成果将提高加拿大高科技电信行业，包括行业赞助商，在全球市场上的竞争力和能力。