UniTE—The Best of Both Worlds: Unifying Function-fitting and Aggregation-based Approaches to Travel Time and Travel Speed Estimation

IF 1.2 Q4 REMOTE SENSING
T. S. Jepsen, Christian S. Jensen, Thomas D. Nielsen
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引用次数: 2

Abstract

Travel time and speed estimation are part of many intelligent transportation applications. Existing estimation approaches rely on either function fitting or data aggregation and represent different tradeoffs between generalizability and accuracy. Function-fitting approaches learn functions that map feature vectors of, e.g., routes to travel time or speed estimates, which enables generalization to unseen routes. However, mapping functions are imperfect and offer poor accuracy in practice. Aggregation-based approaches instead form estimates by aggregating historical data, e.g., traversal data for routes. This enables very high accuracy given sufficient data. However, they rely on simplistic heuristics when insufficient data is available, yielding poor generalizability. We present a Unifying approach to Travel time and speed Estimation (UniTE) that combines function-fitting and aggregation-based approaches into a unified framework that aims to achieve the generalizability of function-fitting approaches and the accuracy of aggregation-based approaches when data is available. We demonstrate empirically that an instance of UniTE can improve the accuracies of travel speed and travel time estimation by 40–64% and 3–23%, respectively, compared to using only function fitting or data aggregation.
UniTE——两全其美:统一基于函数拟合和聚合的行程时间和行程速度估计方法
行程时间和速度估计是许多智能交通应用的一部分。现有的估计方法要么依赖于函数拟合,要么依赖于数据聚合,并在概括性和准确性之间做出了不同的权衡。函数拟合方法学习映射特征向量的函数,例如,将路线映射到旅行时间或速度估计,这可以泛化到看不见的路线。然而,在实际应用中,映射函数并不完善,精度较差。基于聚合的方法通过聚合历史数据(例如,路由的遍历数据)来形成估计。在数据充足的情况下,这可以实现非常高的准确性。然而,当可用的数据不足时,它们依赖于简单的启发式,产生较差的泛化性。我们提出了一种统一的旅行时间和速度估计方法(UniTE),该方法将函数拟合和基于聚合的方法结合到一个统一的框架中,旨在实现函数拟合方法的通用性和基于聚合的方法在数据可用时的准确性。我们的经验证明,与仅使用函数拟合或数据聚合相比,UniTE实例可以将旅行速度和旅行时间的估计精度分别提高40-64%和3-23%。
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来源期刊
CiteScore
4.40
自引率
5.30%
发文量
43
期刊介绍: ACM Transactions on Spatial Algorithms and Systems (TSAS) is a scholarly journal that publishes the highest quality papers on all aspects of spatial algorithms and systems and closely related disciplines. It has a multi-disciplinary perspective in that it spans a large number of areas where spatial data is manipulated or visualized (regardless of how it is specified - i.e., geometrically or textually) such as geography, geographic information systems (GIS), geospatial and spatiotemporal databases, spatial and metric indexing, location-based services, web-based spatial applications, geographic information retrieval (GIR), spatial reasoning and mining, security and privacy, as well as the related visual computing areas of computer graphics, computer vision, geometric modeling, and visualization where the spatial, geospatial, and spatiotemporal data is central.
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