The objective of this article is to present a method for developing collision risk indicators applicable for autonomous remotely operated vehicles (AROVs), which are essential for promoting situation awareness in decisions support systems. Three suitable risk based collision indicators are suggested for AROVs namely, time to collision, mean time to collision and mean impact energy. The proposed indicators are classified into different thresholds; low, intermediate and high. An AROV flight path is simulated to gather input data to calculate the proposed indicators and three collision targets are established, i.e., subsea structure, seabed and a cooperating AROV. The proposed indicator development method together with the case study show a pr...
Oceanography and ocean observation in general is ever trending toward both automated in situ observa...
The amount of international shipped cargo grows steadily, and seas are exploited for seabed mining a...
This paper offers a technique for estimating collision risk for automated ground vehicles engaged i...
Autonomous subsea interventions are anticipated to decrease operational costs, reduce response time ...
This article presents the process used to develop safety envelopes and subsea traffic rules for auto...
This paper describes the implementation of dynamic safety envelopes for Autonomous Remotely Operated...
Photographic surveys of the seafloor with flight style autonomous underwater vehicles are a very eff...
The marine environment is vast, harsh, and challenging. Unanticipated faults and events might lead t...
Work-class ROVs equipped with robotic manipulators are extensively used for subsea intervention oper...
The discussions by the International Maritime Organization for the introduction of a maritime autono...
Collision risk assessment is essential for supporting collision avoidance, which is the core of vari...
The maritime industry is paving the way towards developing Maritime Autonomous Surface Ships (MASSs)...
The identification of risks associated with collision for vessels is an important element in maritim...
The last few years, the automotive industry sees the Autonomous Vehicles (AV) as a great opportunity...
The aim of this thesis is to create a decision making algorithm. The goal would be to check the feas...
Oceanography and ocean observation in general is ever trending toward both automated in situ observa...
The amount of international shipped cargo grows steadily, and seas are exploited for seabed mining a...
This paper offers a technique for estimating collision risk for automated ground vehicles engaged i...
Autonomous subsea interventions are anticipated to decrease operational costs, reduce response time ...
This article presents the process used to develop safety envelopes and subsea traffic rules for auto...
This paper describes the implementation of dynamic safety envelopes for Autonomous Remotely Operated...
Photographic surveys of the seafloor with flight style autonomous underwater vehicles are a very eff...
The marine environment is vast, harsh, and challenging. Unanticipated faults and events might lead t...
Work-class ROVs equipped with robotic manipulators are extensively used for subsea intervention oper...
The discussions by the International Maritime Organization for the introduction of a maritime autono...
Collision risk assessment is essential for supporting collision avoidance, which is the core of vari...
The maritime industry is paving the way towards developing Maritime Autonomous Surface Ships (MASSs)...
The identification of risks associated with collision for vessels is an important element in maritim...
The last few years, the automotive industry sees the Autonomous Vehicles (AV) as a great opportunity...
The aim of this thesis is to create a decision making algorithm. The goal would be to check the feas...
Oceanography and ocean observation in general is ever trending toward both automated in situ observa...
The amount of international shipped cargo grows steadily, and seas are exploited for seabed mining a...
This paper offers a technique for estimating collision risk for automated ground vehicles engaged i...