Course Overview
This course builds up on Simulated Electronic Navigation 1 A and Astro Navigation 2 to provide students with the knowledge to correctly use shipboard electronic navigational aids and instruments for safe navigation. Students will study the operating principles, limitations, sources of errors, and methods of correcting errors on modern shipboard equipment. This course comprises of electronic navigational aids, astro navigation in high latitudes, and magnetic compass. The course hours are: 60 hours (Electronic); 36 hours (Magnetism); and 54 hours (Astro), for a total of 150 hours.
Prerequisite(s)
Credits
10.0
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- This course is not offered this term. Notify me to receive email notifications when the course opens for registration next term.
Learning Outcomes
Upon successful completion of this course, the student will be able to:
ELECTRONIC NAVIGATIONAL AIDS
- List specific regulatory requirements for shipborne navigational equipment and systems.
- Explain fundamentals of electromagnetic signal generation and transmission.
- Explain global coordinate’s system data in use for electronic vessel position fixing.
- Describe Loran-C systems.
- Explain the correct operation of Loran-C system for navigation.
- Describe the Global Navigation Satellite Systems.
- Accurately use the Global Positioning System equipment for navigation.
- Explain the principles of free gyroscope.
- Describe accurately, the operation of gyro compasses.
- Describe the operation of transmitting heading devices.
- Describe heading control system, including rate of turn indicator.
- Describe types of depth measuring equipment.
- Explain the correct operation of depth sounder.
- Describe types of speed and distance measuring devices.
- Explain the correct operation of speed logs.
- Describe Automatic Identification System (AIS).
- Accurately operate the Automatic Identification System equipment.
- Explain electronic charting along with voyage management system.
- Assess the benefits of integrated bridge systems.
- Describe the operations of different types of high-precision fixing systems.
- Describe the operation of types of equipment that provide Dynamic Positioning Systems.
- Determine accuracy of lines of position and fixes.
- Explain the operational requirements for a voyage data recorder.
- Describe Radio Communication System.
MAGNETISM
- Explain the magnetic elements of the earth’s field.
- Describe the construction of a magnetic compass.
- Identify vessel’s steel structure that affects the magnetic compass.
- Explain other miscellaneous factors that effect the magnetic compass.
- Describe operation of Transmitting Magnetic Heading Devices (TMHD).
ASTRO NAVIGATION
- Describe special considerations to be applied when navigating in high latitudes.
- Describe different chart projections including non-triangulated chart and lack of details.
- Explain the limitations when navigating in high latitudes.
- Summarize a planned passage in high latitudes.
Effective as of Fall 2011
Programs and courses are subject to change without notice. Find out more about BCIT course cancellations.