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引用次数: 0
摘要
如今,准确可靠的交通流量预测对于车辆环境中的交通管理系统做出正确决策意义重大。然而,在车载 Ad Hoc 网络(VANET)中,交通流量预测是一项重大挑战,备受关注。因此,在本文中,我们提出了一种基于先知模型和长短期记忆神经网络(LSTM)的混合交通预测模型,称为 Hyper-Flophet,用于预测下一个交通流。Hyper-Flophet 模型采用了传统的神经先知模型,但对参数进行了重大调整。首先,我们提出了一种预测交通流趋势的高效算法,然后开发了一种用于自动回归组件的交互式 LSTM(I-LSTM)模型。之后,我们实施了一个名为网络流动性的新未来回归组件,最后,我们通过引入指数增长项增强了事件和假日组件。通过对真实 VANET 数据的仿真,我们发现所提出的混合方法可以实现优于其他模型的预测性能。
Hyper-Flophet: A neural Prophet-based model for traffic flow forecasting in transportation systems
Nowadays, an accurate and reliable traffic forecast is meaningful in making the right decisions for traffic management systems in vehicular environments. Nevertheless, traffic flow prediction is a significant challenge in Vehicular Ad Hoc Networks (VANETs) that has taken much attention. Therefore, in this paper, we propose a hybrid traffic prediction model based on Prophet model and Long Short-Term Memory neural network (LSTM), called Hyper-Flophet, to predict next traffic flow. Hyper-Flophet model adopts the traditional neural prophet model but with major parameter tuning. First, we propose an efficient algorithm for predicting the traffic flow trend then, we develop an interactive LSTM (I-LSTM) model for auto-regression components. After that, we implement a new future regressor component called network mobility and finally, we enhance the event and holiday component by introducing exponential growth term. Through simulations with real VANET data, we show that the proposed hybrid approach can achieve superior forecasting performance over other models.
期刊介绍:
The journal Simulation Modelling Practice and Theory provides a forum for original, high-quality papers dealing with any aspect of systems simulation and modelling.
The journal aims at being a reference and a powerful tool to all those professionally active and/or interested in the methods and applications of simulation. Submitted papers will be peer reviewed and must significantly contribute to modelling and simulation in general or use modelling and simulation in application areas.
Paper submission is solicited on:
• theoretical aspects of modelling and simulation including formal modelling, model-checking, random number generators, sensitivity analysis, variance reduction techniques, experimental design, meta-modelling, methods and algorithms for validation and verification, selection and comparison procedures etc.;
• methodology and application of modelling and simulation in any area, including computer systems, networks, real-time and embedded systems, mobile and intelligent agents, manufacturing and transportation systems, management, engineering, biomedical engineering, economics, ecology and environment, education, transaction handling, etc.;
• simulation languages and environments including those, specific to distributed computing, grid computing, high performance computers or computer networks, etc.;
• distributed and real-time simulation, simulation interoperability;
• tools for high performance computing simulation, including dedicated architectures and parallel computing.
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