İleri Seyir - Piri Reis Üniversitesi

PİRİ REİS UNIVERSITY
MARITIME FACULTY
Marine Transportation and Management Engineering Programme
Course Catalog Form
Course Name : İleri Seyir
Degree: 4/S
Course Implementation, Hours/Week
Code
Year/Semester
GÜV- 411
7/1 (Güz)
Local
Credits
4,0
ECTS Credits
Course
6,0
Department
Marine Transportation and Management Engineering
Instructors
UYK-Öğretim Görevlisi Cem AKYOL
Contact Information
[email protected]; Cep: 0533 3642058
Office Hours
Pazartesi-Çarşamba- 1500-1700; B-Blok- No 131;
Web page
www.pirireis.edu.tr
Course Type
Zorunlu
Course Prerequisites
DECK 320
Course Category by Content, %
Course Description
Course Objectives
Course
Language
Tutorial
Laboratory
3
2
İngilizce
Basic
Sciences
Engineering
Science
Engineering Design
Humanities
50
20
10
20
Bu ders Denizcilik Fakültesi Güverte Bölümü Lisans Programına dayalı mesleki ve
profesyonel eğitimin bir parçasıdır ve ticaret gemilerinde Uzakyol Güverte Zabiti
ve nihai olarak Uzakyol Kaptanı olmayı seçmiş öğrencilere “Seyir ve Gemi
Sevk/İdaresi” konusunda derinliğine bir bilgi, anlama ve uzmanlık kazandırmayı
hedeflemektedir. Dersin kapsamındaki planlama çalışmaları ve uygulamalar hemen
hemen 4 yıllık fakülte eğitimindeki tüm Güverte Meslek Dersleri ile ilişkilidir. Bu
ders geçmiş yıllarda görülen veya bu yıl halen görülmekte olan tüm “Seyir” and
“Gemicilik”, “Vardiya Standartları”, “Meteoroloji”, “Gemi Kullanma ve Gemi
Manevraları”, “Denizcilik İngilizcesi ve GMDSS”, “Denizde Güvenlik/Emniyet”,
“Liderlik, Organizasyon ve Yönetim” and Deniz Hukuku & Denizcilik
Sözleşmeleri ve “Gemi Makine Sistemleri dersleri” ile yakından bağlantılıdır. Dersi
alabilmek için ön koşul “Deck 320” kapsamındaki deniz eğitimlerini başarıyla
tamamlamış olmaktır. Geçmiş yıllardaki eğitimlerde tüm seyir konuları kapsanmış
olduğundan ders aktif olarak uygulamalı şekilde icra edilecektir. Böylece
profesyonel yaşamdaki mesleki gelişimin en önemli aşaması olan STCW 7.01
seviyesi görevlerine katkıda bulunulması hedeflenmektedir.
1. Tüm koşullarda uygun metotlar ile bir seferin planlanması ve yönetilmesi
2. Herhangi bir vasıta ile gemi mevkiinin doğru şekilde belirlenmesi
3. 3. Köprüüstü vardiya düzeni ve usüllerinin gözden geçirilmesi
4. Seyir cihaz/sistemlerinden elde edilen bilgilere göre seyir emniyetinin
sağlanması, sürdürülmesi ve karar verme sürecine yardımcı olunması
5. Hava şartlarının ve Oşinografik koşulların belirlenmesi
6. Seyir ile ilgili acil durumlara reaksiyon gösterilmesi
7. Tüm koşullarda gemi kullanımı ve manevraların yapılması
8. Makine sistemlerinin işletilmesi ve uzaktan kontrol ünitelerinin kullanılması
9. Köprüüstü Kaynakları Yönetimi usüllerinin, liderlik ve takım çalışması
becerilerinin tanıtılması ve uygulanması .
10. Personel ve gemi emniyetinin sağlanmasına ve çevrenin korunmasına katkıda
bulunulması
Course Learning Outcomes
Tüm koşullarda bir seferi planlamak ve Yönetmek
Herhangi bir vasıta ile gemi mevkiini doğru şekilde belirlemek
Pusula hatalarını belirlemek ve dikkate almak
Arama ve Kurtarma Harekatını usüllerini uygulamak
Köprüüstü vardiya düzenini belirlemek ve usüllerini uygulamak
RADAR ve ARPA’dan elde edilen bilgilere göre seyir emniyetini sağlamak,
sürdürmek ve karar verme sürecine yardımcı olmak
VII. ECDIS’den elde edilen bilgilere göre seyir emniyetini sağlamak, sürdürmek
ve karar verme sürecine yardımcı olmak
VIII. Hava şartlarını ve Oşinografik koşullarını belirlemek
I.
II.
III.
IV.
V.
VI.
IX.
X.
XI.
XII.
XIII.
XIV.
Seyir ile ilgili acil durumlara reaksiyon göstermek
Tüm koşullarda gemi kullanımı ve manevraların yapılması
Makine sistemlerini işletmek ve uzaktan kontrol ünitelerini kullanmak
Köprüüstü Kaynakları Yönetimi usüllerini uygulamak
Liderlik ve takım çalışması becerilerini kazanmak/geliştirmek
Personel ve gemi emniyetini sağlamak ve çevrenin korunmasına katkıda
bulunmak.
Instructional Methods and
Techniques
Harita Odasında Planlama, Köprüüstü ve ECDIS Simülatöründe uygulama
Tutorial Place
Harita Odası ve Simülatör Brifing Odası
Textbook
Bowditch, N. The American Practical Navigator. Defence Mapping Agency. 2012
The Ice Navigation Manual; House, Lloyd, Toomey and Dickins. 2
Other References
1. Admiralty Manual of Navigation, 2008
2. Symbols and Abbreviations
3. Chart & Publication Catalogue (NP131)
4. STCW 2010 Manila Amendments
5. IMO Model Course 1.22
6. IAMSAR Manuel
7. COLREG
8. SOLAS
9. MARPOL
10. TONNAGE-69
11. ILO-2006
12. LOADLINE-74
13. SMCP
14. ISM
15. ISPS
16.INTERCO
17. Sailing Directions (NP 24, NP 28)
18. Tide Tables (VOL.1-2)(NP201-202)
19. Tidal Stream Atlas (NP233/DOVER STRAIT)
20. Dover Times of High Water and Mean Ranges(NP164)
21. Maritime Radio Stations (NP281 (PARTS 1 & 2)
22. Radio Aids To Navigation, Satellite Navigation Systems, Differential Gps (Dgps)
Legal Time, Radio Time Signals And Electronic Position Fixing Systems (NP282)
23. Maritime Safety Information Services (NP 283 (PARTS 1 & 2)
24. Meteorological Observation Stations (NP 284)
25. Global Maritime Distress And Safety System (GMDSS) (NP 285)
26. Pilot Services, Vessel Traffic Services And Port Operations (NP 286 (PARTS 1 - 8))
27. Guide to Port Entry VOL-I and VOL-II
28. List of Lights and Fog Signals (NP 74, NP 78)
29. ADMIRALTY Distance Tables (NP350 1-3)
30. IALA Maritime Buoyage System (NP735)
31. Ocean Passages for the World (NP136)
32. Symbols and Abbreviations Used on ADMIRALTY Charts, Chart NP5011 (INT 1)
33. ADMIRALTY Guide to ENC Symbols used in ECDIS (NP5012)
34. The Mariner's Handbook (NP100)
35. Other Related Nautic Publications
Geçmiş yıllarda işlenen konuların hatırlanması ve gözden geçirilmesi maksadıyla
Çalışma Grupları teşkil edilerek tahsisli konuları hazırlayacak ve sunacaklardır.
Homework & Projects
Harita Odası ve Simülatörler
Laboratory Work
Ders ve Ödev Sunumları
Computer Use
--
Other Activities
Assessment Criteria
NAVIGATIONAL
TERMS AND
DEFINITIONS AND
TERRESTRIAL
COORDINATE
SYSTEM
Week
1
2
3
Activities
Katılım
Ara Sınav
Quiz
Ödev
Quantity
70
1
2
1
Effects on Grading, %
5
20
10
10
Uygulama
4
10
Sunum
1
5
Final Sınavı
TOTAL
Effects of Midterm on Grading, %
Effects of Final on Grading, %
TOTAL
1
40
%100
%60
%40
%100
Course
Outcomes
Topics
Ice Breaking. Introduction to Course Catalogue.
Voyage planning and navigation for all conditions by acceptable methods of plotting ocean
tracks, taking into account, e.g.:
a. restricted waters
b. meteorological conditions
c. ice
d. restricted visibility
e. traffic separation schemes
f. vessel traffic service (VTS) areas
g. areas of extensive tidal effects
h. Routing in accordance with the General Provisions on Ships’ Routing
i. Reporting in accordance with the General principles for Ship Reporting Systems and with
VTS procedures
j. Risk assessment and Risk Management
k. Protection of Environment
Determining position in all conditions:
a. By terrestrial observations, including the ability to use appropriate charts, notices to
mariners and other publications to assess the accuracy of the resulting position fix
(1) By eye bearings
(2) By Radar ranges and /or bearing
(3) By Dead Reckoning
b. Using modern electronic navigational aids, with specific knowledge of their operating
principles, limitations, sources of error, detection of is representation of information and
methods of correction to obtain accurate position fixing.
c. Intervals of fixing position
d. Safe Navigation without fixing position.
Sources to be used in Voyage Planning; Bridge Resource Management, Bridge and Bridge
Watch keeping Procedures,
Nautical Charts, Nautical Publications, Weather Reports, Communications, Routing and
Reporting Systems, Static & Dynamic UKC, Narrow/Shallow Water Effects, Contingencies,
Navigational Aids, Landfall objects, RACONs, AIS AtoN, Lights and Fog Signals, and other
I
II
I -IV
4
5
6
7
necessary information
Voyage planning (in coastal waters including tide)
Preparing Standard “Voyage Planning” Form
Ocean current systems and tide, Calculating tidal conditions; Using all appropriate nautical
publications on tides and currents
Company and Master’s instructions
Defining Destination
Appraisal
Planning
“to do list”
chart works applications,
Appreciation of system errors and understanding of the operational aspects of
navigational systems
a. Blind pilotage planning
b. Evaluation of navigational information derived from all sources, including radar and ARPA,
in order to make and implement command decisions for collision avoidance and for directing
the safe navigation of the ship
c. The interrelationship and optimum use of all navigational data available for conducting
navigation
Preparing Standard “Voyage Planning” Form.
Pre-Voyage Briefing
Voyage Planning (Execution and Monitoring) (Exercise at Bridge Simulator)
Application of safety limits to electronic systems (GPS, RADAR, ECDIS)
Execution
Monitoring
Maneuvering and ship handling
Contingencies (Manoverboard, Heavy Weather, Reporting a ship on fire and causing sea
pollution and emitting poisonous smoke, emergency anchorage)
Situational Awareness
use of, and manoeuvring in and near, traffic separation schemes and in vessel traffic service
(VTS) areas
-application of the International Regulations for Preventing Collisions at Sea,
-application of the Principles to be observed in keeping a navigational watch
- Calculating tidal conditions by using all appropriate nautical publications on tides and currents
- precautions in manoeuvring to launch rescue boats or survival craft in bad weather
- methods of taking on board survivors from rescue boats and survival craft
- management and handling of ships in heavy weather, including assisting a ship or aircraft in
distress; towing operations; means of keeping an unmanageable ship out of trough of the sea,
lessening drift and use of oil
Standard Command for Rudder &Engine
Assessments on chart works and exercises at bridge simulator. (Post Voyage Brief)
Analyzing of reasons of ship accidents
Voyage planning (in narrow/shallow waters)
Company and Master’s instructions
Defining Destination
Appraisal
Planning
chart works applications,
“to do” list,
VTS and reporting procedures
Parallel Index
Safe Navigation without fixing position
Systematic Anchorage
Safe speed and stopping distance
Voyage Planning Execution and Monitoring (Exercise at Bridge Simulator)
Application of safety limits to electronic systems (GPS, RADAR, ECDIS)
Monitoring
Manoeuvring and ship handling
Contingencies (ECDIS and GPS Failure, Low Visibility, Heavy and uncontrolled Traffic)
Situational Awareness
application of the International Regulations for Preventing Collisions at Sea,
application of the Principles to be observed in keeping a navigational watch
Operating principles of marine power plants; Ships’ auxiliary machinery
General knowledge and use of marine engineering terms
Standard Command for Rudder &Engine
I to IX
I to IX
I to IX
I to IX
8
9
10
11
12
Systematic Anchorage
MIDTERM EXAM
Management of operational procedures, system files and data, including
a. manage procurement, licensing and updating of chart data and system software to conform to
established procedures
b. system and information updating, including the ability to update ECDIS system version in
accordance with vendor’s product development
c. create and maintain system configuration and backup files
d. create and maintain log files in accordance with established procedures
e. create and maintain route plan files in accordance with established procedures
f. use ECDIS log-book and track history functions for inspection of system functions, alarm
settings and user responses
g. Use ECDIS playback functionality for passage review, route planning and review of system
functions:
(ECDIS Simulator)
Preparing a voyage plan on ECDIS, Appraisal and Planning, (in narrow/shallow waters)
Voyage Planning Execution and Monitoring (Exercise at ECDIS Simulator)
Applying the procedures contained in the International Aeronautical and Maritime Search and
Rescue (IAMSAR) Manual
Application of safety limits to electronic systems (GPS, RADAR, ECDIS)
Monitoring
Manoeuvring and ship handling
Manuel Position fix
Parallel Index
Use Clearing bearings/distances
Preparing a voyage plan on ECDIS, Appraisal and Planning (Rhumb-line and Great Circle)
Converting a Great Circle Arc to Rhumb-lines
Voyage Planning Execution and Monitoring (Exercise at ECDIS Simulator)
Application of safety limits to electronic systems (GPS, RADAR, ECDIS)
Monitoring; Manoeuvring and ship handling.
I to XI
I – II-IV
I to IX
I to IX
I to IX
13
I – V-VII-VIII
Ice/Polar Navigation; Ice Types, Reports, Regions, Ship Classes, Preparing Ship for the
ice, Preparing crew for the Ice, Navigation in the ice, Shiphandling, Working with
icebreakers, Oil pollution in Ice Covered areas
Understanding and interpreting a synoptic chart and to forecast area weather,
taking into account local weather conditions and information received by weather fax ;
characteristics of various weather systems, including tropical revolving storms and avoidance of
storm centers and the dangerous quadrants ;
Ship routing and reporting systems
Tide, Tidal and ocean current systems; Calculation Tide and Tidal Stream
14
IALA Buoy Systems
Determining and allowing for errors of the magnetic and gyro-compasses; the principles of
magnetic and gyro-compasses; An understanding of systems under the control of the master
gyro and a knowledge of the operation and care of the main types of gyro-compass
II-III-IV
Celestial Navigation
Use of Nautical Almanac
Daily routine works to be done by the OOW.
Finding Gyro Compass Errors
Position Fixing
Review Great CircleNavigation
Planning of great circle sailing and calculation of sailing, composite sailing.
Relationship between the Course and the Marine Transportation and Management Engineering Curriculum
Program Outcomes
a
b
c
d
e
f
g
h
i
j
k
l
m
An ability to apply knowledge of mathematics, science, and engineering
An ability to design and conduct experiments, as well as to analyze and interpret data
An ability to design a system, component or process to meet desired needs
Ability to function on multi-disciplinary teams
An ability to identify, formulate, and solve engineering problems
An understanding of professional and ethical responsibility
An ability to communicate effectively
The broad education necessary to understand the impact of engineering solutions in a global and
societal context
A recognition of the need for, and an ability to engage in life-long learning
A knowledge of contemporary issues
An ability to use the techniques, skills and modern engineering tools necessary for engineering
practice
An ability to apply legal, societal and environmental knowledge in maritime transport and in all
respective modes of transport operations.
An ability to interpret and analysis of the data regarding maritime management and operations,
recognition and solution of problems for decision making process.
1: Small, 2: Partial, 3: Full
Prepared by
Cem AKYOL
Master Lecturer
Date
Level of
Contribution
1
2
3
X
X
X
X
X
X
X
Signature
X
X
X
X
X
X