Nominal GNSS pseudorange measurement model for vehicular urban applications

D. Salos, C. Macabiau, Anaïs Martineau, B. Bonhoure, D. Kubrak
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引用次数: 25

Abstract

Certain GNSS applications conceived for road users in urban scenarios must meet some particular integrity requirements to assure the system safety, reliability or credibility. For instance, GNSS-based Road User Charging is one of these applications that recently has attracted special interest. A correct design of such applications needs the knowledge of the GNSS error distribution. Furthermore, the GNSS error model should have been built with overbounding techniques. The user is a vehicle equipped with a GNSS receiver that may track different signals of various systems (GPS, Galileo, SBAS), in a single-or dual-frequency configuration. The different error sources contributing to the total pseudorange error are identified, analyzed and modeled, using overbounding techniques when necessary. Finally the pseudorange measurement error model is obtained and analyzed for different receiver configurations.
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车用城市GNSS伪距测量模型
为城市场景中的道路使用者设计的某些GNSS应用必须满足某些特定的完整性要求,以确保系统的安全性、可靠性或可信度。例如,基于gnss的道路用户收费是最近引起特别关注的应用之一。正确设计此类应用需要了解GNSS误差分布。此外,GNSS误差模型应该用过界技术建立。用户是配备GNSS接收器的车辆,该接收器可以在单频或双频配置中跟踪各种系统(GPS、伽利略、SBAS)的不同信号。在必要时使用过边界技术,识别、分析和建模导致总伪距误差的不同误差源。最后给出了伪距测量误差模型,并对不同接收机配置下的误差进行了分析。
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