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    <title language="eng">Reinforcement Learning for Traffic Signal Control Optimization: A Concept for Real-World Implementation</title>
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    <title language="eng">Temporal Enhanced Floating Car Observers</title>
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      <first_name>Jeremias</first_name>
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      <first_name>Klaus</first_name>
      <last_name>Bogenberger</last_name>
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    <title language="eng">Autonomous Vehicles as Sensors: Traffic State Estimation</title>
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      <first_name>Jeremias</first_name>
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      <first_name>Mario</first_name>
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    <publishedYear>2024</publishedYear>
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    <pageNumber>7</pageNumber>
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    <title language="eng">Unlocking Past Information: Temporal Embeddings in Cooperative Bird’s Eye View Prediction</title>
    <abstract language="eng">Accurate and comprehensive semantic segmentation of Bird's Eye View (BEV) is essential for ensuring safe and proactive navigation in autonomous driving. Although cooperative perception has exceeded the detection capabilities of single-agent systems, prevalent camera-based algorithms in cooperative perception neglect valuable information derived from historical observations. This limitation becomes critical during sensor failures or communication issues as cooperative perception reverts to single-agent perception, leading to degraded performance and incomplete BEV segmentation maps. This paper introduces TempCoBEV, a temporal module designed to incorporate historical cues into current observations, thereby improving the quality and reliability of BEV map segmentations. We propose an importance-guided attention architecture to effectively integrate temporal information that prioritizes relevant properties for BEV map segmentation. TempCoBEV is an independent temporal module that seamlessly integrates into state-of-the-art camera-based cooperative perception models. We demonstrate through extensive experiments on the OPV2V dataset that TempCoBEV performs better than non-temporal models in predicting current and future BEV map segmentations, particularly in scenarios involving communication failures. We show the efficacy of TempCoBEV and its capability to integrate historical cues into the current BEV map, improving predictions under optimal communication conditions by up to 2% and under communication failures by up to 19%. The code will be published on GitHub.</abstract>
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      <first_name>Klaus</first_name>
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      <first_name>Daniel</first_name>
      <last_name>Cremers</last_name>
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      <first_name>Stefanie</first_name>
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      <first_name>Torsten</first_name>
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    <title language="eng">User-Centric Green Light Optimized Speed Advisory with Reinforcement Learning</title>
    <parentTitle language="eng">2023 IEEE 26th International Conference on Intelligent Transportation Systems (ITSC)</parentTitle>
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      <first_name>Anna-Lena</first_name>
      <last_name>Schlamp</last_name>
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      <first_name>Jeremias</first_name>
      <last_name>Gerner</last_name>
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    <author>
      <first_name>Klaus</first_name>
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      <first_name>Stefanie</first_name>
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    <completedDate>2024-01-12</completedDate>
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    <title language="eng">Enhancing Realistic Floating Car Observers in Microscopic Traffic Simulation</title>
    <parentTitle language="eng">2023 IEEE 26th International Conference on Intelligent Transportation Systems (ITSC)</parentTitle>
    <identifier type="isbn">979-8-3503-9946-2</identifier>
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      <first_name>Jeremias</first_name>
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      <first_name>Dominik</first_name>
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      <first_name>Daniel</first_name>
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      <first_name>Klaus</first_name>
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      <first_name>Torsten</first_name>
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      <first_name>Stefanie</first_name>
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    <publisherName>Taylor &amp; Francis</publisherName>
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    <title language="eng">First steps towards real-world traffic signal control optimisation by reinforcement learning</title>
    <abstract language="eng">Enhancing traffic signal optimisation has the potential to improve urban traffic flow without the need for expensive infrastructure modifications. While reinforcement learning (RL) techniques have demonstrated their effectiveness in simulations, their real-world implementation is still a challenge. Real-world systems need to be developed that guarantee a deployable action definition for real traffic systems while prioritising safety constraints and robust policies. This paper introduces a method to overcome this challenge by introducing a novel action definition that optimises parameter-level control programmes designed by traffic engineers. The complete proposed framework consists of a traffic situation estimation, a feature extractor, and a system that enables training on estimates of real-world traffic situations. Further multimodal optimisation, scalability, and continuous training after deployment could be achieved. The first simulative tests using this action definition show an average improvement of more than 20% in traffic flow compared to the baseline – the corresponding pre-optimised real-world control.</abstract>
    <parentTitle language="eng">Journal of Simulation</parentTitle>
    <identifier type="issn">1747-7778</identifier>
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