This paper explores the possibility of localizing an automotive-radar-equipped vehicle within an urban environment relative to an existing map of the environment created using data from visible light cameras. Such cross-modal localization would enable robust, low-cost absolute localization in poor weather conditions based only on radar even when the vehicle has never previously visited the area. This is because a pre-existing absolutely-referenced visible-light-based map (e.g., constructed from Google Street View images) could be exploited for localization provided that a correspondence between features in this map and the vehicle’s radar returns can be established. The greatest challenge presented by cross-modal localization with automotiv...
Precise and robust automotive localization is a must for autonomous vehicles. Radar is a cheap and r...
Abstract—This paper reports on the problem of map-based visual localization in urban environments fo...
In recent years, there has been a strong demand for self-driving cars. For safe navigation, self-dri...
This letter is about localising a vehicle in an overhead image using FMCW radar mounted on a ground ...
Deployment of automated ground vehicles (AGVs) beyond the confines of sunny and dry climes will requ...
This paper establishes novel methods for vehicle localization and mapping using a 1D linear automoti...
Localization is an important technology for autonomous driving. Map-matching using road surface patt...
Most autonomous driving solutions require some method of localization within their environment. Typi...
Traditional approaches to outdoor vehicle localization assume a reliable, prior map is available, ty...
Cross-view matching aims to learn a shared image representation between ground-level images and sate...
Ever since the 1980s, researchers in computer science and robotics have been working on making auton...
Visual (self)localization enables Autonomous Ground Vehicles (AGVs) to assess their position and or...
Autonomous driving in public roads requires precise localization within the range of few centimeters...
There has been an increasing demand for the usage of autonomous (also called self-driving, driver-le...
Autonomous vehicles rely on GPS aided by motion sensors to localize globally within the road network...
Precise and robust automotive localization is a must for autonomous vehicles. Radar is a cheap and r...
Abstract—This paper reports on the problem of map-based visual localization in urban environments fo...
In recent years, there has been a strong demand for self-driving cars. For safe navigation, self-dri...
This letter is about localising a vehicle in an overhead image using FMCW radar mounted on a ground ...
Deployment of automated ground vehicles (AGVs) beyond the confines of sunny and dry climes will requ...
This paper establishes novel methods for vehicle localization and mapping using a 1D linear automoti...
Localization is an important technology for autonomous driving. Map-matching using road surface patt...
Most autonomous driving solutions require some method of localization within their environment. Typi...
Traditional approaches to outdoor vehicle localization assume a reliable, prior map is available, ty...
Cross-view matching aims to learn a shared image representation between ground-level images and sate...
Ever since the 1980s, researchers in computer science and robotics have been working on making auton...
Visual (self)localization enables Autonomous Ground Vehicles (AGVs) to assess their position and or...
Autonomous driving in public roads requires precise localization within the range of few centimeters...
There has been an increasing demand for the usage of autonomous (also called self-driving, driver-le...
Autonomous vehicles rely on GPS aided by motion sensors to localize globally within the road network...
Precise and robust automotive localization is a must for autonomous vehicles. Radar is a cheap and r...
Abstract—This paper reports on the problem of map-based visual localization in urban environments fo...
In recent years, there has been a strong demand for self-driving cars. For safe navigation, self-dri...