To explore safe interactions between a mobile robot and dynamic obstacles, this paper presents a comprehensive approach to collision-free navigation in dynamic indoor environments. The approach integrates multimodal motion predictions of dynamic obstacles with predictive control for obstacle avoidance. Multimodal Motion Prediction (MMP) is achieved by a deep-learning method that predicts multiple plausible future positions. By repeating the MMP for each time offset in the future, multi-time-step MMPs are obtained. A nonlinear Model Predictive Control (MPC) solver uses the prediction outcomes to achieve collision-free trajectory tracking for the mobile robot. The proposed integration of multimodal motion prediction and trajectory tracking ou...
International audienceIn this paper, a Nonlinear Model Predictive Control (NMPC) has been employed t...
This paper proposes a behavior prediction method for navigation application in dynamically changing ...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...
The ability to decide and adjust actions according to motion prediction of dynamic obstacles offers ...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
For safe human-robot interaction and co-existence, collision avoidance is a fundamental prerequisite...
In on-line environment, obstacles may exhibit different trajectory. Trajectory analysis of the obsta...
We present a model predictive controller (MPC) that automatically discovers collision-free locomotio...
Navigating a robot in a dynamic environment is a challenging task. Most modern applications require ...
Abstract This paper considers the problem of autonomous robot navigation in dynamic and congested en...
WORLD CONGRESS OF IFAC (13.1996.SAN FRANCISCO, USA)This paper presents a way of implementing a Model...
Autonomous ground vehicles (AGVs) are playing an ever-increasing role in civilian, industrial and mi...
This paper considers the problem of a robot navigating in a crowded or congested environment. A robo...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
International audienceIn this paper, a Nonlinear Model Predictive Control (NMPC) has been employed t...
This paper proposes a behavior prediction method for navigation application in dynamically changing ...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...
The ability to decide and adjust actions according to motion prediction of dynamic obstacles offers ...
In this paper we present a novel strategy for reactive collision-free feasible motion planning for r...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
For safe human-robot interaction and co-existence, collision avoidance is a fundamental prerequisite...
In on-line environment, obstacles may exhibit different trajectory. Trajectory analysis of the obsta...
We present a model predictive controller (MPC) that automatically discovers collision-free locomotio...
Navigating a robot in a dynamic environment is a challenging task. Most modern applications require ...
Abstract This paper considers the problem of autonomous robot navigation in dynamic and congested en...
WORLD CONGRESS OF IFAC (13.1996.SAN FRANCISCO, USA)This paper presents a way of implementing a Model...
Autonomous ground vehicles (AGVs) are playing an ever-increasing role in civilian, industrial and mi...
This paper considers the problem of a robot navigating in a crowded or congested environment. A robo...
In this paper, we present a real-time whole-body planner for collision-free legged mobile manipulati...
International audienceIn this paper, a Nonlinear Model Predictive Control (NMPC) has been employed t...
This paper proposes a behavior prediction method for navigation application in dynamically changing ...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...