Add to ORKGFinding the location and strength of an unknown hazardous release is of paramount importance in emergency response and environmental monitoring, thus it has been an active research area for several years known as source term estimation. This paper presents a joint Bayesian estimation and planning algorithm to guide a mobile robot to collect informative measurements, allowing the source parameters to be estimated quickly and accurately. The estimation is performed recursively using Bayes’ theorem, where uncertainties in the meteorological and dispersion parameters are considered and the intermittent readings from a low-cost gas sensor are addressed by a novel likelihood function. The planning strategy is designed to maximize the expected uti...
In situations where toxic or dangerous airborne material is leaking, mobile robots equipped with gas...
We present the estimation of a likelihood map for the location of the source of a chemical plume dis...
Mobile robot olfaction systems combine gas sensors with mobility provided by robots. They relief hum...
Supplementary information files for article: 'Information-based search for an atmospheric release us...
This paper presents a method to estimate the original location and the mass of an instantaneous rele...
Recent events have induced a surge of interest in the methods of response to releases of hazardous m...
There has been a strong interest in emergency planning in response to an attack or accidental releas...
Deploying mobile robots to explore hazardous environments provides an advantageous way to avoid thre...
Gaining information about an unknown gas source is a task of great importance with applications in s...
This work deals with the problem of gas source localization by a mobile robot with gas-sensing capab...
In the gas source search and localisation problem, the use of autonomous robots is of increasing int...
In emergency situations such as hazardous gas leak, search and estimation for identifying source inf...
This paper addresses the localization of a gas emission source within a real-world human environment...
Abstract: In disaster scenarios, where toxic material is leaking, gas source localization is a commo...
Finding sources of airborne chemicals with mobile sensing systems finds applications across safety, ...
In situations where toxic or dangerous airborne material is leaking, mobile robots equipped with gas...
We present the estimation of a likelihood map for the location of the source of a chemical plume dis...
Mobile robot olfaction systems combine gas sensors with mobility provided by robots. They relief hum...
Supplementary information files for article: 'Information-based search for an atmospheric release us...
This paper presents a method to estimate the original location and the mass of an instantaneous rele...
Recent events have induced a surge of interest in the methods of response to releases of hazardous m...
There has been a strong interest in emergency planning in response to an attack or accidental releas...
Deploying mobile robots to explore hazardous environments provides an advantageous way to avoid thre...
Gaining information about an unknown gas source is a task of great importance with applications in s...
This work deals with the problem of gas source localization by a mobile robot with gas-sensing capab...
In the gas source search and localisation problem, the use of autonomous robots is of increasing int...
In emergency situations such as hazardous gas leak, search and estimation for identifying source inf...
This paper addresses the localization of a gas emission source within a real-world human environment...
Abstract: In disaster scenarios, where toxic material is leaking, gas source localization is a commo...
Finding sources of airborne chemicals with mobile sensing systems finds applications across safety, ...
In situations where toxic or dangerous airborne material is leaking, mobile robots equipped with gas...
We present the estimation of a likelihood map for the location of the source of a chemical plume dis...
Mobile robot olfaction systems combine gas sensors with mobility provided by robots. They relief hum...