Meta-rooms: Building and maintaining long term spatial models in a dynamic world

Ambruş, Rareş; Bore, Nils; Folkesson, John; Jensfelt, Patric

doi:10.1109/iros.2014.6942806

Cited by 66 publications

(90 citation statements)

References 20 publications

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“…For this we use the MetaRoom method [13], which performs segmentation based on the movement of clusters between observations. This method makes no prior assumptions such as CAD models or the physical features of objects.…”

Section: Dynamic Cluster Detectionmentioning

confidence: 99%

“…Note that all steps in our process, up until the robot starts executing its viewplan, occur with the robot at the waypoint where it performs the most recent observation to update the MetaRoom. For completeness we briefly describe the Meta-Room method [13] here. First, we define the difference D between two point clouds P , Q as…”

Section: A Modelling the Static Structurementioning

confidence: 99%

See 1 more Smart Citation

Autonomous Learning of Object Models on a Mobile Robot

Faulhammer

Ambruş

Burbridge

et al. 2017

IEEE Robot. Autom. Lett.

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Abstract-In this article we present and evaluate a system which allows a mobile robot to autonomously detect, model and re-recognize objects in everyday environments. Whilst other systems have demonstrated one of these elements, to our knowledge we present the first system which is capable of doing all of these things, all without human interaction, in normal indoor scenes. Our system detects objects to learn by modelling the static part of the environment and extracting dynamic elements. It then creates and executes a view plan around a dynamic element to gather additional views for learning. Finally these views are fused to create an object model. The performance of the system is evaluated on publicly available datasets as well as on data collected by the robot in both controlled and uncontrolled scenarios.

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Section: Dynamic Cluster Detectionmentioning

confidence: 99%

Section: A Modelling the Static Structurementioning

confidence: 99%

Autonomous Learning of Object Models on a Mobile Robot

Faulhammer

Ambruş

Burbridge

et al. 2017

IEEE Robot. Autom. Lett.

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“…In [2], [3] we have shown how objects can be segmented out from a static background. We consider this output to be the input for our system.…”

Section: B Generating the Initial Partial Objectmentioning

confidence: 99%

“…We make use of a motion capture system for positioning the drone. In the past we have shown that a mobile robot can robustly segment out objects of interest in the environment through change detection [3]. This is what we envision as the means with which the objects to be observed are generated.…”

Section: Introductionmentioning

confidence: 99%

On the use of unmanned aerial vehicles for autonomous object modeling

Welle

Ericson

Ambruş

et al. 2017

2017 European Conference on Mobile Robots (ECMR)

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Abstract-In this paper we present an end to end object modeling pipeline for an unmanned aerial vehicle (UAV). We contribute a UAV system which is able to autonomously plan a path, navigate, acquire views of an object in the environment from which a model is built. The UAV does collision checking of the path and navigates only to those areas deemed safe. The data acquired is sent to a registration system which segments out the object of interest and fuses the data. We also show a qualitative comparison of our results with previous work.

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“…However, some dynamic objects do not move at the time of the mapping session and so the robot needs long-term observations to identify them. [16] propose to process several 3d point clouds of the same environment obtained over a period of several weeks to separate movable objects and refine the model of static environment structure at the same time.…”

Section: B Dynamic Environment Representationsmentioning

confidence: 99%

Life-long spatio-temporal exploration of dynamic environments

Krajník

Santos

Duckett

2015

2015 European Conference on Mobile Robots (ECMR)

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Abstract-We propose a new idea for life-long mobile robot spatio-temporal exploration of dynamic environments. Our method assumes that the world is subject to constant change, which adds an extra, temporal dimension to the explored space and makes the exploration task a never-ending data-gathering process. To create and maintain a spatio-temporal model of a dynamic environment, the robot has to determine not only where, but also when to perform observations. We address the problem by application of information-theoretic exploration to world representations that model the environment states' uncertainties as probabilistic functions of time.We compare the performance of different exploration strategies and temporal models on real-world data gathered over the course of several months and show that combination of dynamic environment representations with information-gain exploration principles allow to create and maintain up-to-date models of constantly changing environments.

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Meta-rooms: Building and maintaining long term spatial models in a dynamic world

Cited by 66 publications

References 20 publications

Autonomous Learning of Object Models on a Mobile Robot

Autonomous Learning of Object Models on a Mobile Robot

On the use of unmanned aerial vehicles for autonomous object modeling

Life-long spatio-temporal exploration of dynamic environments

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