While visual localization or SLAM has witnessed great progress in past decades, when deploying it on a mobile robot in practice, few works have explicitly considered the kinematic (or dynamic) constraints of the real robotic system when designing state estimators. To promote the practical deployment of current state-of-the-art visual-inertial localization algorithms, in this work we propose a low-cost kinematics-constrained localization system particularly for a skid-steering mobile robot. In particular, we derive in a principle way the robot's kinematic constraints based on the instantaneous centers of rotation (ICR) model and integrate them in a tightly-coupled manner into the sliding-window bundle adjustment (BA)-based visual-inertial estimator. Because the ICR model parameters are time-varying due to, for example, track-to-terrain interaction and terrain roughness, we estimate these kinematic parameters online along with the navigation state. To this end, we perform in-depth the observability analysis and identify motion conditions under which the state/parameter estimation is viable. The proposed kinematics-constrained visual-inertial localization system has been validated extensively in different terrain scenarios.
翻译:虽然视觉本地化或SLAM在过去几十年里取得了巨大进展,但实际上在移动机器人上部署时,很少工程在设计国家天地测量员时明确考虑真正的机器人系统在设计国家天地测量员时,其运动(或动态)限制。为了促进实际部署目前最先进的视觉-内皮本地化算法,我们在此工作中提议了一个低成本的运动动力-不受约束本地化系统,特别是对于滑滑滑滑的移动移动机器人来说,我们提议了一个低成本的动力-摄滑滑滑滑滑滑的移动机器人,这数十年来,视觉定位定位或SLMMMLV(IC)模型瞬时空中心(ICIC)的移动机器人运动限制在实际操作中取得了巨大进展,但实际上,我们很少考虑实际设计国家天顶模型的动态(或动态)限制,在设计州/次轮调(ICIC)模型的瞬时,它们以紧密结合的方式融入了实际机器人的动态(或动态)系统在设计国家/次(ICIC)轮(ICIC)轮(IC)模式的瞬时,以紧密结合的方式将其融入方式融入到它们,将其纳入滑式组合起来的调整调整调整调整(BA)的调整(BBA)的视觉-内视觉-内视觉-内,因为基于视觉-内的拟议地形测程假设是可行的设想。拟议中,拟议的地形设想的地形假设是可行的。拟议中,由于ILV室式假设是不同的,因此,拟议的,因此,拟议的地形变的地形变的地形设想式假设的假设的假设是可行的,对不同的,对不同的,对不同的,对不同的地形进行了演进的假设是不同的,对不同的,对地进行了了不同的地形进行了不同的地形的演进的演进的演进的演进的演进的演进的演进的演进的演进的演进的演进的演的演的演的演的演的演的演的演的演进的演。进行了。作了作了。,对的演进的演进的演进的演进的演进的演进的演。。。,对的演进的演的演的演的演进的演进的演进的演作了是的演的演的演进的演进的演进的演的演的演的演,对,对的演的演
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