Our research concerns the coordination and control of robotic vehicles for upper water-column oceanographic observations. In such an environment, operating multiple vehicles to observe dynamic oceanographic phenomena, such as ocean processes and marine life, from fronts to cetaceans, has required that we design, implement and operate software, methods and processes which can support opportunistic needs in real-world settings with substantial constraints. In this work, an approach for coordinated measurements using such platforms, which relate directly to task outcomes, is presented. We show the use and operational value of a new Artificial Intelligence based mixed-initiative system for handling multiple platforms along with the networked in...
Monitoring of aquatic ecosystems has been historically accomplished by intensive campaigns of direct...
Persistent monitoring of the ocean is not optimally accomplished by repeatedly executing a fixed pat...
month-long 2006 Adaptive Sam-pling and Prediction (ASAP) field experiment in Monterey Bay, Californi...
Abstract — In this paper we describe a heterogeneous multi-robot system for assisting scientists in ...
Obtaining synoptic observations of dynamic ocean phenomena such as fronts, eddies, oxygen minimum zo...
Abstract—Obtaining synoptic observations of dynamic ocean phenomena such as fronts, eddies, oxygen m...
A full-scale adaptive ocean sampling network was deployed throughout the month-long 2006 Adaptive Sa...
A full-scale adaptive ocean sampling network was deployed throughout the month-long 2006 Adaptive Sa...
In this paper, we outline a low cost multi-robot autonomous platform for a broad set of applications...
Mobile sensor platforms such as Autonomous Underwater Vehicles (AUVs) and robotic surface\ud vessels...
Maintaining a healthy ocean is of the utmost importance. Having only a limited set of resources avai...
We are developing a multi-robot science exploration architecture and system called the Telesupervise...
The Autonomous Ocean Sampling Network-II (AOSN-II) and Adaptive Sampling and Prediction (ASAP) proje...
Mobile sensor platforms such as Autonomous Underwater Vehicles (AUVs) and robotic surface vessels, c...
SeeByte have developed a suite of tools to enable command and control of off-board autonomous system...
Monitoring of aquatic ecosystems has been historically accomplished by intensive campaigns of direct...
Persistent monitoring of the ocean is not optimally accomplished by repeatedly executing a fixed pat...
month-long 2006 Adaptive Sam-pling and Prediction (ASAP) field experiment in Monterey Bay, Californi...
Abstract — In this paper we describe a heterogeneous multi-robot system for assisting scientists in ...
Obtaining synoptic observations of dynamic ocean phenomena such as fronts, eddies, oxygen minimum zo...
Abstract—Obtaining synoptic observations of dynamic ocean phenomena such as fronts, eddies, oxygen m...
A full-scale adaptive ocean sampling network was deployed throughout the month-long 2006 Adaptive Sa...
A full-scale adaptive ocean sampling network was deployed throughout the month-long 2006 Adaptive Sa...
In this paper, we outline a low cost multi-robot autonomous platform for a broad set of applications...
Mobile sensor platforms such as Autonomous Underwater Vehicles (AUVs) and robotic surface\ud vessels...
Maintaining a healthy ocean is of the utmost importance. Having only a limited set of resources avai...
We are developing a multi-robot science exploration architecture and system called the Telesupervise...
The Autonomous Ocean Sampling Network-II (AOSN-II) and Adaptive Sampling and Prediction (ASAP) proje...
Mobile sensor platforms such as Autonomous Underwater Vehicles (AUVs) and robotic surface vessels, c...
SeeByte have developed a suite of tools to enable command and control of off-board autonomous system...
Monitoring of aquatic ecosystems has been historically accomplished by intensive campaigns of direct...
Persistent monitoring of the ocean is not optimally accomplished by repeatedly executing a fixed pat...
month-long 2006 Adaptive Sam-pling and Prediction (ASAP) field experiment in Monterey Bay, Californi...