Abstract

Simultaneous Localization and Mapping (SLAM) is perhaps the most fundamental problem to solve in robotics in order to build truly autonomous mobile robots. The sensors have a large impact on the algorithm used for SLAM. Early SLAM approaches focused on the use of range sensors as sonar rings or lasers. However, cameras have become more and more used, because they yield a lot of information and are well adapted for embedded systems: they are light, cheap and power saving. Unlike range sensors which provide range and angular information, a camera is a projective sensor which measures the bearing of images features. Therefore depth information (range) cannot be obtained in a single step. This fact has propitiated the emergence of a new family of SLAM algorithms: the Bearing-Only SLAM methods, which mainly rely in especial techniques for features system-initialization in order to enable the use of bearing sensors (as cameras) in SLAM systems. In this work a novel and robust method, called Concurrent Initialization, is presented which is inspired by having the complementary advantages of the Undelayed and Delayed methods that represent the most common approaches for addressing the problem. The key is to use concurrently two kinds of feature representations for both undelayed and delayed stages of the estimation. The simulations results show that the proposed method surpasses the performance of previous schemes.

Highlights

  • Simultaneous Localization and Mapping (SLAM) is perhaps the most fundamental problem to solve in robotics in order to build truly autonomous mobile robots

  • SLAM approaches focused on the use of range sensors as sonar rings or lasers e.g., [1]

  • There are some disadvantages with the use of range sensors in SLAM: correspondence or data association is difficult; they are expensive and some of them are limited to 2D maps and computational overhead due to large number of features

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Summary

Introduction

Simultaneous Localization and Mapping (SLAM) is perhaps the most fundamental problem to solve in robotics in order to build truly autonomous mobile robots. Depth information (range) cannot be obtained in a single frame This fact has propitiated the emergence of a new family of SLAM methods: The Bearing-Only SLAM methods, which mainly rely in especial techniques for features system-initialization in order to enable the use of bearing sensors (as cameras) in SLAM systems. In this context, a camera connected to a computer becomes a position sensor which could be applied to different fields such as robotics (motion estimation for generally moving robots humanoids), wearable robotics (motion estimation for camera equipped devices worn by humans), tele-presence (head motion estimation using an outward-looking camera), or television (camera motion estimation for live augmented reality) [4]. In this work a novel and robust method called Concurrent Initialization is presented which is inspired by having the complementary advantages of the Undelayed and Delayed methods, which represent the most common approaches for addressing the problem of initializing new features in bearing-only SLAM

Related Work
Sensor motion model
Features definition and measurement model
ID-Undelayed initialization
ID-Delayed initialization
Concurrent Initialization
Undelayed stage
Delayed stage
Updating depth
Measurement
Experiments
Initialization process of distant and near features
Comparative study
Method
Conclusions

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