A Real-Time Approach for Chance-Constrained Motion Planning With Dynamic Obstacles

Castillo-Lopez, Manuel; Ludivig, Philippe; Sajadi-Alamdari, Seyed Amin; Sánchez-López, José Luis; Olivares-Méndez, Miguel A.; Voos, Holger

doi:10.1109/lra.2020.2975759

Cited by 61 publications

(40 citation statements)

References 27 publications

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“…Examples of tasks and applications of UAVs that require situational awareness, where the use of an object detector is either essential or it substantially improves its performance (see Figure 2 ), are the following: Path planning or obstacle avoidance: consist on the generation of collision-free trajectories and motion commands based on the available knowledge of the existing obstacles of the environment [ 36 ]. Although it can be based on pure metric maps [ 43 ], its performance can be increased when having semantic information such as the kind of objects of the environment [ 44 , 45 ]. Object or person tracking (following or servoing): consist on the generation of trajectories and motion commands that ensure that a particular targeted object (or person) are followed while they move [ 46 , 47 ].…”

Section: Background On Uavsmentioning

confidence: 99%

A Survey of Computer Vision Methods for 2D Object Detection from Unmanned Aerial Vehicles

et al. 2020

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The spread of Unmanned Aerial Vehicles (UAVs) in the last decade revolutionized many applications fields. Most investigated research topics focus on increasing autonomy during operational campaigns, environmental monitoring, surveillance, maps, and labeling. To achieve such complex goals, a high-level module is exploited to build semantic knowledge leveraging the outputs of the low-level module that takes data acquired from multiple sensors and extracts information concerning what is sensed. All in all, the detection of the objects is undoubtedly the most important low-level task, and the most employed sensors to accomplish it are by far RGB cameras due to costs, dimensions, and the wide literature on RGB-based object detection. This survey presents recent advancements in 2D object detection for the case of UAVs, focusing on the differences, strategies, and trade-offs between the generic problem of object detection, and the adaptation of such solutions for operations of the UAV. Moreover, a new taxonomy that considers different heights intervals and driven by the methodological approaches introduced by the works in the state of the art instead of hardware, physical and/or technological constraints is proposed.

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Section: Background On Uavsmentioning

confidence: 99%

A Survey of Computer Vision Methods for 2D Object Detection from Unmanned Aerial Vehicles

et al. 2020

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“…As the pivotal foundation in social robot navigation, a wide variety of path planning methods have been proposed for robots navigating in different environments [7][8][9][10]. In general, these methods can be divided into global and local methods according to the completeness of map information known before path planning progress.…”

Section: Related Workmentioning

confidence: 99%

“…The map size is 640 × 480. The starting point of the robot is (10,10). The whole process of the robot moving from the initial point to the destination is simulated as one loop.…”

Section: Path Search Experimentsmentioning

confidence: 99%

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A Dynamic Path Planning Method for Social Robots in the Home Environment

Zhang

Zhou

et al. 2020

Electronics

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The home environment is a typical dynamic environment with moveable obstacles. The social robots working in home need to search for feasible paths in this complex dynamic environment. In this work, we propose an improved RRT algorithm to plan feasible path in home environment. The algorithm pre-builds a tree that covers the whole map and maintains the effectiveness of all nodes with branch pruning, reconnection, and regrowth process. The method forms a path by searching the nearest node in the tree and then quickly accessing the nodes near the destination. Due to the effectiveness-maintaining process, the proposed method can effectively deal with the complex dynamic environment where the destination and multiple moving obstacles change simultaneously. In addition, our method can be extended to the path-planning problem in 3D space. The simulation experiments verify the effectiveness of the algorithm.

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“…The current development and research efforts in 5G cellular networks suggest that future cellular user equipment will feature device-to-device ranging capabilities on top an improved device-to-infrastructure ranging features [14]- [18]. The combined use of device-to-device and deviceto-infrastructure ranging can provide a positioning solution whose accuracy and reliability depends on the density of devices and infrastructure elements.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Estimators for Hybrid GNSS-Terrestrial Localization in Collaborative Networks

Medina

Grundhöfer

Hehenkamp

2020

2020 IEEE 23rd International Conference on Intelligent Transportation Systems (ITSC)

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Global Navigation Satellite Systems (GNSS) constitute the cornerstone for outdoor positioning, which is essential information for prospective automated vehicles. The combination of GNSS with terrestrial ranging, for instance in the form of 5G or UWB, will make accurate positioning a reality even in urban canyon scenarios where GNSS is likely to fail. Thus, hybrid GNSS-terrestrial localization in collaborative networks has become a hotspot for the research community. This paper discusses the Cramér-Rao Bound (CRB) as lower bound for location estimates and evaluates two snapshot estimators, one deterministic and the other Bayesian, for distributed and centralized localization in cooperative networks. The performance of the estimators is evaluated with respect to the presented CRB in a simulated network of mobile and anchor agents, and the role played by agent-to-agent and agentto-anchor ranging is discussed.

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A Real-Time Approach for Chance-Constrained Motion Planning With Dynamic Obstacles

Cited by 61 publications

References 27 publications

A Survey of Computer Vision Methods for 2D Object Detection from Unmanned Aerial Vehicles

A Survey of Computer Vision Methods for 2D Object Detection from Unmanned Aerial Vehicles

A Dynamic Path Planning Method for Social Robots in the Home Environment

Evaluation of Estimators for Hybrid GNSS-Terrestrial Localization in Collaborative Networks

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