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An operational approach to maritime cyber resilience

Erstad E., Ostnes R., Lund M. S.

TransNav : International Journal on Marine Navigation and Safety of Sea Transportation

2021

Vol. 15 No. 1

27--34

As a result of the last decades development of technology and increased connectivity of maritime vessels, the need for maritime cyber security is undoubtedly present. In 2017, IMO officially recognized “… the urgent need to raise awareness on cyber threats and vulnerabilities to support safe and secure shipping, which is operationally resilient to cyber risks”. Thus, Maritime Cyber Resilience is seen as key by IMO in the improvement of the maritime cyber security. It is assumed that human error is the cause of more than half successful cyber-attacks. If technology somehow fails, in example because of a cyber threat, the human is expected to handle the problem and provide a solution. It is therefore necessary to focus on the human aspect when considering maritime cyber threats. This paper aims to provide a working definition of “Maritime Cyber Resilience”. Further, the paper argues why the human should be a focus of study, as the human is at the sharp edge in a potential maritime cyber emergency.

Is full-autonomy the way to go towards maximizing the ocean potentials?

Zghyer R., Ostnes R., Halse K. H.

TransNav : International Journal on Marine Navigation and Safety of Sea Transportation

2019

Vol. 13, no. 1

33--42

Growth prospects for ocean economy are promising because ocean industries are addressing challenges such as food security, energy security and climate change. However, safety and efficiency are the general challenges of ocean operations. Increased automation is believed to solve these problems. This paper discusses the impact of automation on safety and efficiency. A literature review of ‘Human factors’ mainly from the aviation and maritime industries is presented to untangle the human-machine relationship characteristics when increased automation is introduced to operators. A literature review of Hydrodynamics, Guidance, Navigation and Control (GNC) technologies is presented to introduce the state-of-art and associated limitations. It is concluded that, if the industry’s drive is safety and efficiency, then full-autonomy is, at present, not the way to go. Remote control, instead, could facilitate a feasible future, while focused research and development are in need.

Scan pattern for the maritime navigator

Hareide O.S., Ostnes R.

TransNav : International Journal on Marine Navigation and Safety of Sea Transportation

2017

Vol. 11, no. 1

39--47

The maritime high speed craft navigators` ultimate aim has for decades been to safely and efficient navigate the vessel to its destination. The last decade an increased use of technology has arrived at the maritime ship bridge. The use of Electronic Charts and Integrated Navigation Systems has revolutionized much of the work of the navigator, with the aim of enhancing the safety of navigation. The amount of information has drastically increased, and the need for a proper information management and an efficient visual scan pattern has been identified. Looking to other industries this has been introduced with success, and in this paper the authors present a proposed scan pattern for the maritime navigator. The analysis is based on an eye tracking data set collected from simulator- and field studies on board the world’s fastest littoral combat ship.