Abstract—In order to develop Vision-aided Inertial Navigation Systems (VINS) on mobile devices, such as cell phones and tablets, one needs to consider two important issues, both due to the commercial-grade underlying hardware: (i) The unknown and varying time offset between the camera and IMU clocks (ii) The rolling-shutter effect caused by CMOS sensors. Without appropriately modelling their effect and compensating for them online, the navigation accuracy will significantly degrade. In this work, we introduce a linear-complexity algorithm for fusing in-ertial measurements with time-misaligned, rolling-shutter images using a highly efficient and precise linear interpolation model. As a result, our algorithm achieves a better accuracy and imp...
This paper is concerned with the problem of estimating the relative orientation between an inertial ...
Abstract — Most CMOS image sensors collect image data row by row, analogous to an open slit that sc...
Most of the mobile applications require efficient and precise compu-tation of the device pose, and a...
Abstract—In order to develop Vision-aided Inertial Navigation Systems (VINS) on mobile devices, such...
position and orientation of an interpolated coordinate frame. In the second section, we derive the J...
Abstract — In this paper, we propose a high-precision pose estimation algorithm for systems equipped...
Rolling Shutter (RS) cameras are used across a wide range of consumer electronic devices—from smart-...
University of Minnesota Ph.D. dissertation. September 2018. Major: Computer Science. Advisor: Stergi...
Building a complete inertial navigation system using the limited quality data provided by current sm...
This article presents a method for rectifying and stabilising video from cell-phones with rolling sh...
This paper aims at accurate and efficient pose tracking of planar targets on modern smartphones. Exi...
This paper presents a novel method for visual-inertial odometry. The method is based on an informati...
Accurate localization is essential in many applications such as robotics, unmanned aerial vehicles, ...
We propose a vision-based inertial system that overcomes the problems associated with slow update r...
Abstract—In this paper, we present a square-root inverse sliding window filter (SR-ISWF) for vision-...
This paper is concerned with the problem of estimating the relative orientation between an inertial ...
Abstract — Most CMOS image sensors collect image data row by row, analogous to an open slit that sc...
Most of the mobile applications require efficient and precise compu-tation of the device pose, and a...
Abstract—In order to develop Vision-aided Inertial Navigation Systems (VINS) on mobile devices, such...
position and orientation of an interpolated coordinate frame. In the second section, we derive the J...
Abstract — In this paper, we propose a high-precision pose estimation algorithm for systems equipped...
Rolling Shutter (RS) cameras are used across a wide range of consumer electronic devices—from smart-...
University of Minnesota Ph.D. dissertation. September 2018. Major: Computer Science. Advisor: Stergi...
Building a complete inertial navigation system using the limited quality data provided by current sm...
This article presents a method for rectifying and stabilising video from cell-phones with rolling sh...
This paper aims at accurate and efficient pose tracking of planar targets on modern smartphones. Exi...
This paper presents a novel method for visual-inertial odometry. The method is based on an informati...
Accurate localization is essential in many applications such as robotics, unmanned aerial vehicles, ...
We propose a vision-based inertial system that overcomes the problems associated with slow update r...
Abstract—In this paper, we present a square-root inverse sliding window filter (SR-ISWF) for vision-...
This paper is concerned with the problem of estimating the relative orientation between an inertial ...
Abstract — Most CMOS image sensors collect image data row by row, analogous to an open slit that sc...
Most of the mobile applications require efficient and precise compu-tation of the device pose, and a...