M.a Dolores Barrios Martínez scite author profile

M.a Dolores Barrios Martínez

5Publications

72Citation Statements Received

88Citation Statements Given

How they've been cited

124

How they cite others

124

Affiliations

Universidad de Málaga, In-Q-Tel

Publications

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Pure-Pursuit Reactive Path Tracking for Nonholonomic Mobile Robots with a 2D Laser Scanner

Morales

Martínez

et al. 2009

EURASIP J. Adv. Signal Process.

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Due to its simplicity and efficiency, the pure-pursuit path tracking method has been widely employed for planned navigation of nonholonomic ground vehicles. In this paper, we investigate the application of this technique for reactive tracking of paths that are implicitly defined by perceived environmental features. Goal points are obtained through an efficient interpretation of range data from an onboard 2D laser scanner to follow persons, corridors, and walls. Moreover, this formulation allows that a robotic mission can be composed of a combination of different types of path segments. These techniques have been successfully tested in the tracked mobile robot Auriga-α in an indoor environment.

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Ground Extraction from 3D Lidar Point Clouds with the Classification Learner App

Pomares

Martínez

Mandow

et al. 2018

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Motion Detection from Mobile Robots with Fuzzy Threshold Selection in Consecutive 2D Laser Scans

Martínez

Morales

2015

Electronics

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Motion detection and tracking is a relevant problem for mobile robots during navigation to avoid collisions in dynamic environments or in applications where service robots interact with humans. This paper presents a simple method to distinguish mobile obstacles from the environment that is based on applying fuzzy threshold selection to consecutive two-dimensional (2D) laser scans previously matched with robot odometry.The proposed method has been tested with the Auriga-α mobile robot in indoors to estimate the motion of nearby pedestrians.

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Velocity-Based Heuristic Evaluation for Path Planning and Vehicle Routing for Victim Assistance in Disaster Scenarios

Toscano-Moreno

Mandow

Martínez

et al. 2019

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Natural and human-made disasters require effective victim assistance and last-mile relief supply operations with teams of ground vehicles. In these applications, digital elevation models (DEM) can provide accurate knowledge for safe vehicle motion planning but grid representation results in very large search graphs. Furthermore, travel time, which becomes a crucial cost optimization criterion, may be affected by inclination and other challenging terrain characteristics. In this paper, our goal is to evaluate a search heuristic function based on anisotropic vehicle velocity restrictions for building the cost matrix required for multi-vehicle routing on natural terrain and disaster sites. The heuristic is applied to compute the fastest travel times between every pair of matrix elements by means of a path planning algorithm. The analysis is based on a case study on the ortophotographic-based DEM of natural terrain with different target points, where the proposed heuristic is compared against an exhaustive search solution.

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DEM-AIA: Asymmetric inclination-aware trajectory planner for off-road vehicles with digital elevation models

Toscano-Moreno

Mandow

Martínez

et al. 2023

Engineering Applications of Artificial Intelligence

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