Prioritizing Sensor Performance Characteristics for Automotive Seat Weight Sensors in Quality Function Deployment (QFD)

Derya Haroglu, N. Powell, A. Seyam
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引用次数: 3

Abstract

Quality function deployment (QFD), a key tool to convert the customer needs into product features, is generally integrated into the New Product Development (NPD) process at the design stage. Prioritizing customer needs in a QFD process leads to using the resources (time, money, and staffing) effectively by eliminating the unimportant customer needs. The overall goal of the research was to develop a textile-based optical fiber sensor for automotive seat occupancy. The findings of this paper were focused on the design of experiments in our previous publication. In this paper, a research study was conducted to better understand market demands in terms of sensor performance characteristics for automotive seat weight sensors, as a part of the QFD House of Quality (HOQ) analysis. A survey was sent to more than 20 companies operating in the field of automotive seat weight sensors, and Original Equipment Manufacturers (OEM) via e-mail. Only five companies participated in this study due to competitive concerns and confidentiality reasons. However, the companies responded to the survey were of quality relevant to the research and could be perceived as representative of the group of experts. All 5 companies participated in the survey agreed on the first 5 most important sensor characteristics: reproducibility, accuracy, selectivity, aging, and resolution, where The Analytic Hierarchy Process (AHP) was applied to prioritize the sensor characteristics.
质量功能展开(QFD)中汽车座椅重量传感器性能特征的优先排序
质量功能部署(QFD)是将客户需求转化为产品特性的关键工具,通常在设计阶段就被集成到新产品开发(NPD)过程中。在QFD过程中对客户需求进行优先排序,通过消除不重要的客户需求,可以有效地利用资源(时间、金钱和人员)。研究的总体目标是开发一种基于纺织品的汽车座椅占用光纤传感器。本文的发现集中在我们之前发表的实验设计上。本文进行了一项研究,以更好地了解汽车座椅重量传感器在传感器性能特征方面的市场需求,作为QFD质量屋(HOQ)分析的一部分。通过电子邮件向从事汽车座椅重量传感器领域的20多家公司和原始设备制造商(OEM)发送了调查问卷。由于竞争和保密的原因,只有五家公司参与了这项研究。然而,对调查作出回应的公司是与研究相关的质量,可以被视为专家组的代表。所有参与调查的5家公司都同意前5个最重要的传感器特性:再现性、准确性、选择性、老化和分辨率,其中层次分析法(AHP)应用于传感器特性的优先级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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