Human motion trajectory prediction: a survey

Rudenko, Andrey; Palmieri, Luigi; Herman, Michael; Kitani, Kris M.; Gavrila, Dariu M.; Arras, Kai O.

doi:10.1177/0278364920917446

Cited by 578 publications

(354 citation statements)

References 261 publications

(1,056 reference statements)

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“…One part of this general problem is to predict the behaviour of pedestrians (or generally speaking, the vulnerable road-users), which is well-studied in computer vision literature [2], [3], [4], [5]. There are also several review papers on pedestrian behaviour prediction such as [6], [7], [8]. Another equally important part of the problem is prediction of the intended behaviour of other vehicles on the road.…”

Section: Introductionmentioning

confidence: 99%

Deep Learning-Based Vehicle Behavior Prediction for Autonomous Driving Applications: A Review

Mozaffari

Al-Jarrah

Dianati

et al. 2022

IEEE Trans. Intell. Transport. Syst.

391

191

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Section: Introductionmentioning

confidence: 99%

Deep Learning-Based Vehicle Behavior Prediction for Autonomous Driving Applications: A Review

Mozaffari

Al-Jarrah

Dianati

et al. 2022

IEEE Trans. Intell. Transport. Syst.

391

191

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“…Therefore, in this work, we propose to model the interactions between all the neighboring vehicles to represent the most relevant information about the social context with a focus on learning to capture long-range relations. In our approach, we attempt to mimic human reasoning, which pays a selective attention to a subset of surrounding vehicles in order to extract 1 Inria Paris, 2 rue Simone Iff 75012 Paris FRANCE {kaouther.messaoud,anne.verroust,fawzi.nashashibi}@inria.fr 2 CReSTIC, Université de Reims Champagne-Ardenne, Reims, FRANCE itheri.yahiaoui@univ-reims.fr the elements that most influence the target vehicle's future trajectories while paying less attention to other vehicles. For example, a vehicle performing a lane change maneuver will pay more attention to the vehicles in the target lane than those in the other lanes.…”

Section: Introductionmentioning

confidence: 99%

Attention Based Vehicle Trajectory Prediction

Messaoud

Yahiaoui

Verroust-Blondet

et al. 2021

IEEE Trans. Intell. Veh.

199

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Self-driving vehicles need to continuously analyse the driving scene, understand the behavior of other road users and predict their future trajectories in order to plan a safe motion and reduce their reaction time. Motivated by this idea, this paper addresses the problem of vehicle trajectory prediction over an extended horizon. On highways, human drivers continuously adapt their speed and paths according to the behavior of their neighboring vehicles. Therefore, vehicles' trajectories are very correlated and considering vehicle interactions makes motion prediction possible even before the start of a clear maneuver pattern. To this end, we introduce and analyze trajectory prediction methods based on how they model the vehicles interactions. Inspired by human reasoning, we use an attention mechanism that explicitly highlights the importance of neighboring vehicles with respect to their future states. We go beyond pairwise vehicle interactions and model higher order interactions. Moreover, the existence of different goals and driving behaviors induces multiple potential futures. We exploit a combination of global and partial attention paid to surrounding vehicles to generate different possible trajectory. Experiments on highway datasets show that the proposed model outperforms the state-of-the-art performances.

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“…We believe that data-driven strategies using machine learning represent a complementary approach to analytical models of movement learning. Recent results in machine learning have shown impressive advances in movement modeling, such as action recognition or movement prediction (Rudenko et al, 2019). However, it is still difficult to apply such approaches to motor learning support systems.…”

Section: Introductionmentioning

confidence: 99%

Machine Learning Approaches for Motor Learning: A Short Review

Caramiaux

Françoise

Liu

et al. 2020

Front. Comput. Sci.

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Machine learning approaches have seen a considerable number of applications in human movement modeling but remain limited for motor learning. Motor learning requires that motor variability be taken into account and poses new challenges because the algorithms need to be able to differentiate between new movements and variation in known ones. In this short review, we outline existing machine learning models for motor learning and their adaptation capabilities. We identify and describe three types of adaptation: Parameter adaptation in probabilistic models, Transfer and meta-learning in deep neural networks, and Planning adaptation by reinforcement learning. To conclude, we discuss challenges for applying these models in the domain of motor learning support systems.

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Human motion trajectory prediction: a survey

Cited by 578 publications

References 261 publications

Deep Learning-Based Vehicle Behavior Prediction for Autonomous Driving Applications: A Review

Deep Learning-Based Vehicle Behavior Prediction for Autonomous Driving Applications: A Review

Attention Based Vehicle Trajectory Prediction

Machine Learning Approaches for Motor Learning: A Short Review

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