Cloud-based map alignment strategies for multi-robot FastSLAM 2.0
International Journal of Distributed Sensor Networks • 2019
معلومات البحث
المؤلفون
Shimaa S Ali ; Abdallah Hammad; Adly S Tag Eldien
الكلمات المفتاحية
Cloud, random sample consensus, simultaneous localization and mapping, Hadoop, Map/Reduce
المجلة العلمية
International Journal of Distributed Sensor Networks
الناشر
SAGE Journals
المجلد
Vol. 15(3)
العدد
Not Available
الصفحات
7
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
The cooperative simultaneous localization and mapping problem has acquired growing attention over the years. Even
though mapping of very large environments is theoretically quicker than a single robot simultaneous localization and
mapping, it has several additional challenges such as the map alignment and the merging processes, network latency,
administering various coordinate systems and assuring synchronized and updated data from all robots and also it
demands massive computation. This article proposes an efficient architecture for cloud-based cooperative simultaneous
localization and mapping to parallelize its complex steps via the multiprocessor (computing nodes) and free the robots
from all of the computation efforts. Furthermore, this work improves the map alignment part using hybrid combination
strategies, random sample consensus, and inter-robot observations to exploit fully their advantages. The results show
that the proposed approach increases mapping performance with less response time.
though mapping of very large environments is theoretically quicker than a single robot simultaneous localization and
mapping, it has several additional challenges such as the map alignment and the merging processes, network latency,
administering various coordinate systems and assuring synchronized and updated data from all robots and also it
demands massive computation. This article proposes an efficient architecture for cloud-based cooperative simultaneous
localization and mapping to parallelize its complex steps via the multiprocessor (computing nodes) and free the robots
from all of the computation efforts. Furthermore, this work improves the map alignment part using hybrid combination
strategies, random sample consensus, and inter-robot observations to exploit fully their advantages. The results show
that the proposed approach increases mapping performance with less response time.
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