Object Goal Navigation (ObjectNav) task is to navigate an agent to an object category in unseen environments without a pre-built map. In this paper, we solve this task by predicting the distance to the target using semantically-related objects as cues. Based on the estimated distance to the target object, our method directly choose optimal mid-term goals that are more likely to have a shorter path to the target. Specifically, based on the learned knowledge, our model takes a bird's-eye view semantic map as input, and estimates the path length from the frontier map cells to the target object. With the estimated distance map, the agent could simultaneously explore the environment and navigate to the target objects based on a simple human-desi...
Deep reinforcement learning (RL) has been successfully applied to a variety of game-like environment...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
Abstract — This paper explores the Navigation Among Mov-able Obstacles (NAMO) problem in an unknown ...
In the context of visual navigation, the capacity to map a novel environment is necessary for an age...
Can the intrinsic relation between an object and the room in which it is usually located help agents...
Most autonomous outdoor navigation systems tested on actual robots have centered on local navigation...
The ability to navigate like a human towards a language-guided target from anywhere in a 3D embodied...
ABSTRACT { This paper presents a new method for mobile robot navigation in an un-known world. The pa...
Navigating to a human target is underexposed in the current literature. However, there are cases whe...
Most autonomous outdoor navigation systems tested on actual robots have centered on local navigation...
In this paper we present for the first time a complete\ud symbolic navigation system that performs g...
Abstract — In this paper we address the problem of navi-gating an autonomous mobile robot on an unkn...
In this paper, we address the problem of navigating an autonomous mobile robot in an unknown indoor ...
We propose a robotic learning system for autonomous exploration and navigation in unexplored environ...
Object goal visual navigation is a challenging task that aims to guide a robot to find the target ob...
Deep reinforcement learning (RL) has been successfully applied to a variety of game-like environment...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
Abstract — This paper explores the Navigation Among Mov-able Obstacles (NAMO) problem in an unknown ...
In the context of visual navigation, the capacity to map a novel environment is necessary for an age...
Can the intrinsic relation between an object and the room in which it is usually located help agents...
Most autonomous outdoor navigation systems tested on actual robots have centered on local navigation...
The ability to navigate like a human towards a language-guided target from anywhere in a 3D embodied...
ABSTRACT { This paper presents a new method for mobile robot navigation in an un-known world. The pa...
Navigating to a human target is underexposed in the current literature. However, there are cases whe...
Most autonomous outdoor navigation systems tested on actual robots have centered on local navigation...
In this paper we present for the first time a complete\ud symbolic navigation system that performs g...
Abstract — In this paper we address the problem of navi-gating an autonomous mobile robot on an unkn...
In this paper, we address the problem of navigating an autonomous mobile robot in an unknown indoor ...
We propose a robotic learning system for autonomous exploration and navigation in unexplored environ...
Object goal visual navigation is a challenging task that aims to guide a robot to find the target ob...
Deep reinforcement learning (RL) has been successfully applied to a variety of game-like environment...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
Abstract — This paper explores the Navigation Among Mov-able Obstacles (NAMO) problem in an unknown ...