ICMAR NAV 2023: Keyword Index

KeywordPapers
a
activity systemFuture Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
AIThe Role of USVs for the Australian Navy
AMC TestThe AMC Test for Maritime Autonomous Navigation Systems
AutonomousA Case Study in the Application of Trusted Autonomous Systems (TAS) Australian Code of Practice to the Design, Construction, Survey, and Operation of New Build Autonomous & Remotely Operated Vessels
autonomous navigationThe AMC Test for Maritime Autonomous Navigation Systems
Autonomous shipAutonomous Shipping and the Future Workplace of Marine Engineers
Autonomous ShippingDeveloping and Implementing a Skills and Competency Framework for MASS Operators: Opportunities and Challenges
Skills and Competency Framework for Future Autonomous Ship Operators: A Feasibility Study for STCW Code Revision
Human-Technology Coexistence in the Industry 4.0: The Role of Advanced Simulation Technology in Training
Autonomous shipsDynamic Windowing Algorithm to Improve Ship Response Prediction in Transitory Conditions
Autonomous Surface Vessels (ASV)A Case Study in the Application of Trusted Autonomous Systems (TAS) Australian Code of Practice to the Design, Construction, Survey, and Operation of New Build Autonomous & Remotely Operated Vessels
b
boundary objectFuture Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
business caseFactors Influencing the Business Case for Autonomous Ships
c
chatFuture Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
ColRegs ComplianceThe AMC Test for Maritime Autonomous Navigation Systems
competency frameworkDeveloping and Implementing a Skills and Competency Framework for MASS Operators: Opportunities and Challenges
d
DefenceSurvey of Autonomous Drone Hangars – Opportunities and Challenges for Maritime Platforms
DronesSurvey of Autonomous Drone Hangars – Opportunities and Challenges for Maritime Platforms
e
Equipment/machinery breakdownFactors Influencing the Business Case for Autonomous Ships
f
Future ReadyDeveloping and Implementing a Skills and Competency Framework for MASS Operators: Opportunities and Challenges
Skills and Competency Framework for Future Autonomous Ship Operators: A Feasibility Study for STCW Code Revision
h
Human-Technology coexistenceHuman-Technology Coexistence in the Industry 4.0: The Role of Advanced Simulation Technology in Training
Hydro RegenerationA Case Study in the Application of Trusted Autonomous Systems (TAS) Australian Code of Practice to the Design, Construction, Survey, and Operation of New Build Autonomous & Remotely Operated Vessels
i
Industry 4.0Human-Technology Coexistence in the Industry 4.0: The Role of Advanced Simulation Technology in Training
Future Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
Social Mindset Restructuring: A Critical Requirement for Implementing Maritime Autonomy
Intelligent SystemsDynamic Windowing Algorithm to Improve Ship Response Prediction in Transitory Conditions
m
MaintenanceFactors Influencing the Business Case for Autonomous Ships
Marine EngineerAutonomous Shipping and the Future Workplace of Marine Engineers
Maritime Autonomous Surface Ship (MASS)Factors Influencing the Business Case for Autonomous Ships
Social Mindset Restructuring: A Critical Requirement for Implementing Maritime Autonomy
Maritime AutonomySocial Mindset Restructuring: A Critical Requirement for Implementing Maritime Autonomy
maritime educationDeveloping and Implementing a Skills and Competency Framework for MASS Operators: Opportunities and Challenges
Maritime Education and TrainingSkills and Competency Framework for Future Autonomous Ship Operators: A Feasibility Study for STCW Code Revision
Maritime PolicySocial Mindset Restructuring: A Critical Requirement for Implementing Maritime Autonomy
maritime safetyThe AMC Test for Maritime Autonomous Navigation Systems
Maritime workforceHuman-Technology Coexistence in the Industry 4.0: The Role of Advanced Simulation Technology in Training
massDeveloping and Implementing a Skills and Competency Framework for MASS Operators: Opportunities and Challenges
Skills and Competency Framework for Future Autonomous Ship Operators: A Feasibility Study for STCW Code Revision
Future Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
Autonomous Shipping and the Future Workplace of Marine Engineers
METFuture Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
modularA Case Study in the Application of Trusted Autonomous Systems (TAS) Australian Code of Practice to the Design, Construction, Survey, and Operation of New Build Autonomous & Remotely Operated Vessels
mooringAutonomous Shipping and the Future Workplace of Marine Engineers
n
naval missionsThe Role of USVs for the Australian Navy
p
PayloadsA Case Study in the Application of Trusted Autonomous Systems (TAS) Australian Code of Practice to the Design, Construction, Survey, and Operation of New Build Autonomous & Remotely Operated Vessels
r
ReliabilityFactors Influencing the Business Case for Autonomous Ships
s
Safe Return to PortAutonomous Shipping and the Future Workplace of Marine Engineers
SeakeepingDynamic Windowing Algorithm to Improve Ship Response Prediction in Transitory Conditions
Ship LandingSurvey of Autonomous Drone Hangars – Opportunities and Challenges for Maritime Platforms
short-term predictionDynamic Windowing Algorithm to Improve Ship Response Prediction in Transitory Conditions
simulationHuman-Technology Coexistence in the Industry 4.0: The Role of Advanced Simulation Technology in Training
Simulator EvaluationThe AMC Test for Maritime Autonomous Navigation Systems
skills and competency frameworkSkills and Competency Framework for Future Autonomous Ship Operators: A Feasibility Study for STCW Code Revision
sociocultural perspectiveSocial Mindset Restructuring: A Critical Requirement for Implementing Maritime Autonomy
Solar PoweredA Case Study in the Application of Trusted Autonomous Systems (TAS) Australian Code of Practice to the Design, Construction, Survey, and Operation of New Build Autonomous & Remotely Operated Vessels
STCWFuture Shipping Operations and Transitioning Maritime Higher Education: An Activity System Perspective
STCW CodeSkills and Competency Framework for Future Autonomous Ship Operators: A Feasibility Study for STCW Code Revision
t
The Royal Australian NavyThe Role of USVs for the Australian Navy
time series analysisDynamic Windowing Algorithm to Improve Ship Response Prediction in Transitory Conditions
trainingHuman-Technology Coexistence in the Industry 4.0: The Role of Advanced Simulation Technology in Training
u
Unattended engine roomAutonomous Shipping and the Future Workplace of Marine Engineers
USVThe Role of USVs for the Australian Navy