Augmented Reality in ships navigation Information support in

  • Slides: 25
Download presentation
Augmented Reality in ships navigation Information support in the E-navigation way

Augmented Reality in ships navigation Information support in the E-navigation way

Do we dislike humans?

Do we dislike humans?

Are we monitoring navigators?

Are we monitoring navigators?

Imagine: 2 nd Officer, after doing 00 -04 watch, starts work again at five

Imagine: 2 nd Officer, after doing 00 -04 watch, starts work again at five am, entering port, berthing, opening hatches at seven, breakfast, receiving port state control for inspection safety equipment, a hot meal at 1130 starting watch at 12 midday until four PM, doing administration, short supper at 5: 30 assisting hatch closing and unberthing at seven and able to rest a few hours after leaving port, next watch commences at 0000.

this is not an uncommon working day. . imagine a little further:

this is not an uncommon working day. . imagine a little further:

01: 45 new moon, rainy night at the North. Sea, poor visibility, leaving TSS

01: 45 new moon, rainy night at the North. Sea, poor visibility, leaving TSS Vlieland Junction,

a westbound container vessels on SB side, a supplier astern some fishing vessels ahead,

a westbound container vessels on SB side, a supplier astern some fishing vessels ahead, Collision Warning!! unexpectedly What, where. . . ? ? that takes valuable time to find out

Would it help if the watch officer was provided with a visual clue about

Would it help if the watch officer was provided with a visual clue about the direction of the dangerous target ? Would it help if the watch officer had this clue in a head up display, showing the real outside world together with a synthetic marker on top? Thus speeding up detecting the target and start evasive action

Of course: The watch officer shall always be alert The WO shall always act

Of course: The watch officer shall always be alert The WO shall always act timely and comply with the collision regulations Yet, Ships do collide Ships do run aground And more mishap appears

What do we need for that Position, course and speed of Own Ship Position

What do we need for that Position, course and speed of Own Ship Position course and speed of target an algorithm calculating relative distance and direction An algorithm to discriminate targets and generate alarm Means of presenting this in an augmented way (i. a not virtual)

Of course we can bring in more: Routeing information, even route suggestion Safety information,

Of course we can bring in more: Routeing information, even route suggestion Safety information, like MSI Weather information Ships' Control information Virtual binocular with the aid of a multi spectral band camera

Augmented Reality goggles Initial idea to create a 'cocoon' with Transparent monitors around the

Augmented Reality goggles Initial idea to create a 'cocoon' with Transparent monitors around the watch officers' chair, however availability of such monitors was lacking at least until now. instead

Issues to solve and research Correct for roll pitch and heave Correct for position

Issues to solve and research Correct for roll pitch and heave Correct for position of the watchkeeper (parallax effect) Reliability of third party information (AIS) Integrity check by means of RADAR Human factors, how does this have an effect on the watch keeper.

Embedding in E-navigation : ACCSEAS prototype solutions Tactical Route exchange Dynamic No. Go areas

Embedding in E-navigation : ACCSEAS prototype solutions Tactical Route exchange Dynamic No. Go areas Route. Topology Modelling Resilient PNT Maritime cloud

thank You

thank You