JONES: RECOVERY OF EGO-MOTION USING OPTICAL FLOW AND RANGE FLOW 1 Accurate and Computationally-inexpensive Recovery of Ego-Motion using Optical Flow and Range Flow with Extended Temporal Support
نویسنده
چکیده
The ego-motion of a moving RGB-Z sensor is computed using combined range flow and optical flow pixel constraints. The emphasis of the work is on computationally cheap yet accurate estimation of inter-frame translation and rotation parameters using a linear small rotation model. To ensure accurate inter-frame motion estimates, an iterative form of the estimator is developed which repeatedly warps the target frame and measures its misalignment with the current frame. As these motion estimates are integrated temporally, to minimise drift in pose over time, additional temporal constraint is provided through the use of anchor frames. The algorithm is evaluated on the recently published TUB RGB-D Benchmark which also includes a set of standard metrics. Results presented suggest that performance is commensurate with alternative methodologies such as SLAM but at a fraction of the computational cost.
منابع مشابه
Accurate and Computationally-inexpensive Recovery of Ego-Motion using Optical Flow and Range Flow with Extended Temporal Support
Recovering the ego-motion of a moving camera within a static scene supports many applications in robotics and computer vision. The presented work is motivated by pre-vis applications in the film industry; specifically the ability to render digital assets into the scene during production in real-time. A low-cost commodity depth camera can be easily mounted on and calibrated to a high quality pro...
متن کاملAn Efficient Encoding Scheme for Dynamic Visual Input Based on the Statistics of Natural Optic Flow
Statistically efficient processing schemes focus the resources of a signal processing system on the range of statistically probable signals. Relying on the statistical properties of retinal motion signals during ego-motion we propose a nonlinear processing scheme for retinal flow. It maximizes the mutual information between the visual input and its neural representation and distributes the proc...
متن کاملتحلیل حرکت جریانات دریائی در تصاویر حرارتی سطح آب دریا
Oceanographic images obtained from environmental satellites by a wide range of sensors allow characterizing natural phenomena through different physical measurements. For instance Sea Surface Temperature (SST) images, altimetry data and ocean color data can be used for characterizing currents and vortex structures in the ocean. The purpose of this thesis is to derive a relatively complete frame...
متن کاملRotation-Invariant Optical Flow by Gaze-Depended Retino-Cortical Mapping
Computational vision models that attempt to account for perception of depth from motion usually compute the optical ow eld rst. From the optical ow the ego-motion parameter are then estimated, if they are not already known from a motor reference. Finally the depth can be determined. The better the ego-motion parameters are known by extra-retinal information to be restricted to certain values be...
متن کاملPressure-Velocity Coupled Finite Volume Solution of Steady Incompressible Invscid Flow Using Artificial Compressibility Technique
Application of the computer simulation for solving the incompressible flow problems motivates developing efficient and accurate numerical models. The set of Inviscid Incompressible Euler equations can be applied for wide range of engineering applications. For the steady state problems, the equation of continuity can be simultaneously solved with the equations of motion in a coupled manner using...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
دوره شماره
صفحات -
تاریخ انتشار 2013