An OGM-Based Visual Navigation System with Reduced Homographies and Accurate Computations for Mobile Robots

Erick I. Guerra-Hernandez; Mario A. Ibarra-Manzano; Patricia Batres-Mendoza; Dora L. Almanza-Ojeda; Jorge A. Soria-Alcaraz; Andres Espinal; Horacio Rostro-Gonzalez

doi:10.1155/2019/2605837

An OGM-Based Visual Navigation System with Reduced Homographies and Accurate Computations for Mobile Robots

Erick I. Guerra-Hernandez, Mario A. Ibarra-Manzano, Patricia Batres-Mendoza, Dora L. Almanza-Ojeda, Jorge A. Soria-Alcaraz, Andres Espinal, Horacio Rostro-Gonzalez^*

^*Autor/a de correspondencia de este trabajo

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

1 Cita (Scopus)

Resumen

This article presents a novel approach to calculate and accelerate the Occupancy Grid Mapping (OGM) for real-time mobile robot navigation. Here, we have improved the main process involved in the construction of OGMs in two ways. On one hand, we propose a new method to perform the camera calibration (CC) process, in which we reduce the number of intermediate steps (homographies) when the reference system is transformed from the real world into a navigation map, reducing consequently the computational costs. On the other hand, the OGM is constructed by an online probabilistic method, which simultaneously performs both the camera calibration and maps construction, thus reducing cumulative errors when these two processes are separately treated. Furthermore, the proposed system can be easily parallelized and mapped onto a digital system (e.g., Field Programmable Gate Arrays, FPGAs) for real-time robot navigation.

Idioma original	Inglés
Número de artículo	2605837
Número de páginas	13
Publicación	Mathematical Problems in Engineering
Volumen	2019
DOI	https://doi.org/10.1155/2019/2605837
Estado	Publicada - 2019
Publicado de forma externa	Sí

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title = "An OGM-Based Visual Navigation System with Reduced Homographies and Accurate Computations for Mobile Robots",

abstract = "This article presents a novel approach to calculate and accelerate the Occupancy Grid Mapping (OGM) for real-time mobile robot navigation. Here, we have improved the main process involved in the construction of OGMs in two ways. On one hand, we propose a new method to perform the camera calibration (CC) process, in which we reduce the number of intermediate steps (homographies) when the reference system is transformed from the real world into a navigation map, reducing consequently the computational costs. On the other hand, the OGM is constructed by an online probabilistic method, which simultaneously performs both the camera calibration and maps construction, thus reducing cumulative errors when these two processes are separately treated. Furthermore, the proposed system can be easily parallelized and mapped onto a digital system (e.g., Field Programmable Gate Arrays, FPGAs) for real-time robot navigation.",

author = "Guerra-Hernandez, {Erick I.} and Ibarra-Manzano, {Mario A.} and Patricia Batres-Mendoza and Almanza-Ojeda, {Dora L.} and Soria-Alcaraz, {Jorge A.} and Andres Espinal and Horacio Rostro-Gonzalez",

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doi = "10.1155/2019/2605837",

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AU - Guerra-Hernandez, Erick I.

AU - Ibarra-Manzano, Mario A.

AU - Batres-Mendoza, Patricia

AU - Almanza-Ojeda, Dora L.

AU - Soria-Alcaraz, Jorge A.

AU - Espinal, Andres

AU - Rostro-Gonzalez, Horacio

PY - 2019

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N2 - This article presents a novel approach to calculate and accelerate the Occupancy Grid Mapping (OGM) for real-time mobile robot navigation. Here, we have improved the main process involved in the construction of OGMs in two ways. On one hand, we propose a new method to perform the camera calibration (CC) process, in which we reduce the number of intermediate steps (homographies) when the reference system is transformed from the real world into a navigation map, reducing consequently the computational costs. On the other hand, the OGM is constructed by an online probabilistic method, which simultaneously performs both the camera calibration and maps construction, thus reducing cumulative errors when these two processes are separately treated. Furthermore, the proposed system can be easily parallelized and mapped onto a digital system (e.g., Field Programmable Gate Arrays, FPGAs) for real-time robot navigation.

AB - This article presents a novel approach to calculate and accelerate the Occupancy Grid Mapping (OGM) for real-time mobile robot navigation. Here, we have improved the main process involved in the construction of OGMs in two ways. On one hand, we propose a new method to perform the camera calibration (CC) process, in which we reduce the number of intermediate steps (homographies) when the reference system is transformed from the real world into a navigation map, reducing consequently the computational costs. On the other hand, the OGM is constructed by an online probabilistic method, which simultaneously performs both the camera calibration and maps construction, thus reducing cumulative errors when these two processes are separately treated. Furthermore, the proposed system can be easily parallelized and mapped onto a digital system (e.g., Field Programmable Gate Arrays, FPGAs) for real-time robot navigation.

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An OGM-Based Visual Navigation System with Reduced Homographies and Accurate Computations for Mobile Robots

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