Presentation is loading. Please wait.

Presentation is loading. Please wait.

RADAR PLOTTING 2 2008 CANADIAN COAST GUARD AUXILIARY - PACIFIC.

Similar presentations


Presentation on theme: "RADAR PLOTTING 2 2008 CANADIAN COAST GUARD AUXILIARY - PACIFIC."— Presentation transcript:

1 RADAR PLOTTING 2 2008 CANADIAN COAST GUARD AUXILIARY - PACIFIC

2 Overtaking Situation

3 Own vessel 270° at 20 knots 6 minute plot (1) Find the course you are going, and draw a line for your course In the case of heads up , mark 000°

4 (2) Mark the first radar bearing and range of the target.
Own vessel 270° at 20 knots 6 minute plot (2) Mark the first radar bearing and range of the target. 323º R x 1.8 nautical miles. All bearings are R as they are relative to your vessel’s head. Mark as "O“ Mark time of 1200 12:00 O

5 Own vessel 270° at 20 knots 6 minute plot
(3) After 6 minutes mark the second radar bearing and range of the target. 309ºR x 0.65 nautical miles Mark as “A” Mark time of 1206 12:00 O 12:06 A

6 Own vessel 270° at 20 knots 6 minute plot
(4) From "O" draw a line through "A" and carry the line well past the centre line on the screen 12:00 O 12:06 A

7 (5) Transfer your course line to "O" and pull the line down the sheet
Own vessel 270° at 20 knots 6 minute plot (5) Transfer your course line to "O" and pull the line down the sheet 12:00 O 12:06 A

8 (6a) Calculate own vessel distance in plot interval.
Own vessel 270° at 20 knots 6 minute plot (6a) Calculate own vessel distance in plot interval. To use calculator scale, place right point of divider on 60 (right end of scale) and left point on own vessel speed (20 knots). 12:00 O 12:06 A

9 Own vessel 270° at 20 knots 6 minute plot
(6b) Move the dividers at this setting, and place right point on the plot interval (6 minutes) The number under the left point of the dividers will indicate the distance gone in the plot interval. (2 nautical miles). 6 20 knots = 2.0nm. 12:00 O 12:06 A W

10 Own vessel 270° at 20 knots 6 minute plot
(6c) Lay down 2 nautical miles on the plot,on own course vector from “O”. Mark bottom end “W” 12:00 O 12:06 A W

11 Own vessel 270° at 20 knots 6 minute plot
(7a) Connect “W” with “A”. “W” to “A” represents target course and distance travelled in the plot interval. nautical miles To convert this into speed, place right point of dividers on plot interval (6 minutes) and the left point on distance travelled in that time (1.18 nm) 12:00 O 12:06 A W

12 Own vessel 270° at 20 knots 6 minute plot
(7b) Move dividers so that right point is on 60 (right hand end of scale). The reading under the left point of the dividers will be the vessel’s speed in knots. 11.8 knots 12:00 O 12:06 A W

13 In this case 0.25 nautical miles to port
Own vessel 270° at 20 knots 6 minute plot (8) Where the line through “O” and “A” passes closest to the centre of the plot is the Closest Point of Approach (CPA) In this case 0.25 nautical miles to port 12:00 O 12:06 A W

14 A to TCPA works out at 2.5 minutes = 12:08:30
Own vessel 270° at 20 knots 6 minute plot (9) The Time to Closest point of Approach (TCPA) is at the tangent point. OA is 6 minutes. A to TCPA works out at 2.5 minutes = 12:08:30 12:00 O 12:06 A TCPA W

15 Results In this case, providing neither you nor the target vessel alter course or speed: the target vessel is proceeding at 270° + 030° = 300°C at 11.8 knots CPA is at 12:08:30 at a distance of 0.25nm to port

16 Results – Clear Visibility
In clear visibility, you are the overtaking vessel and therefore the give way vessel. You will pass clear, but not exhibiting the best seamanship. If a risk of collision was existing, you should have altered course to port early, and passed under her stern

17 Results – Restricted Visibility
In restricted visibility, you are still the overtaking vessel and therefore the give way vessel. You will pass clear, but not exhibiting the best seamanship. At this stage, a big round turn to starboard will resolve the situation. If a risk of collision was existing, you should have altered course to port early, (under Rule 19 d.i) and passed under her stern.

18 Overtaking Situation

19 Overtaking Situation If however at 1206 you acknowledge the other vessel is on nearly a steady bearing, you can stop and assess the situation. The plot will then change to:

20 You can see immediately he is doing 300°C at 11.8 knots
Own vessel 270° at 20 knots 6 minute plot The other vessel’s plot will then move across in front of you, resolving the situation, clarifying you are overtaking. You have made a substantial alteration in speed which will be readily visible to him, whether he is observing you visually or by radar. You can see immediately he is doing 300°C at 11.8 knots 12:00 O 12:06 A


Download ppt "RADAR PLOTTING 2 2008 CANADIAN COAST GUARD AUXILIARY - PACIFIC."

Similar presentations


Ads by Google