Subsea Robotics Safety And Risk Management
Expert-defined terms from the Advanced Certificate in Subsea Robotics and AI course at London School of International Business. Free to read, free to share, paired with a professional course.
AUV, or Autonomous Underwater Vehicle, refers to a robotic system that op… #
Related terms include ROV, or Remotely Operated Vehicle, and ASV, or Autonomous Surface Vehicle. AUVs are equipped with sensors, propulsion systems, and navigation software to collect data and perform tasks in underwater environments. In Subsea Robotics Safety And Risk Management, AUVs pose unique risks due to their autonomous nature, requiring careful planning and monitoring to ensure safe operation.
AC, or Alternating Current, is an electrical term that refers to the type… #
Related terms include DC, or Direct Current, and HV, or High Voltage. AC is commonly used in subsea systems due to its ability to transmit power over long distances with minimal loss. However, AC systems can also pose safety risks if not properly designed and maintained, such as electrical shock or fire hazards.
AI, or Artificial Intelligence, refers to the use of machine learning alg… #
Related terms include ML, or Machine Learning, and CV, or Computer Vision. AI is used in subsea robotics to improve system efficiency, accuracy, and safety, but also poses unique challenges such as data quality and algorithm reliability.
ASME, or American Society of Mechanical Engineers, is a standard organiza… #
Related terms include API, or American Petroleum Institute, and IEEE, or Institute of Electrical and Electronics Engineers. ASME standards are widely used in the subsea industry to ensure system safety and reliability, and compliance with these standards is often mandatory for subsea operations.
ASTM, or American Society for Testing and Materials, is a standard organi… #
Related terms include ISO, or International Organization for Standardization, and API, or American Petroleum Institute. ASTM standards are widely used in the subsea industry to ensure system safety and reliability, and compliance with these standards is often mandatory for subsea operations.
Autonomy refers to the ability of a subsea robotics system to operate ind… #
Related terms include automation and control systems. Autonomy is a key concept in Subsea Robotics Safety And Risk Management, as autonomous systems can pose unique risks and challenges due to their ability to make decisions and take actions without human oversight.
BOEM, or Bureau of Ocean Energy Management, is a regulatory agency that o… #
Related terms include BSEE, or Bureau of Safety and Environmental Enforcement, and EPA, or Environmental Protection Agency. BOEM regulations are designed to ensure safety and environmental protection in subsea operations, and compliance with these regulations is mandatory for subsea operators.
BOP, or Blowout Preventer, is a safety device used in subsea oil and gas… #
Related terms include BSR, or Blowout Scenario Response, and ESD, or Emergency Shutdown. BOPs are critical components of subsea safety systems, and their design and testing are subject to strict regulations and standards.
Cathodic Protection refers to a method used to prevent corrosion o… #
Related terms include CP, or Cathodic Protection, and ICCP, or Impressed Current Cathodic Protection. Cathodic protection is a critical aspect of subsea maintenance and safety, as corrosion can lead to structural failure and environmental damage.
CM, or Condition Monitoring, refers to the process of monitoring subsea s… #
Related terms include CBM, or Condition-Based Maintenance, and RCM, or Reliability-Centered Maintenance. CM is a key concept in Subsea Robotics Safety And Risk Management, as it enables proactive maintenance and repair of subsea systems.
CPD, or Continuing Professional Development, refers to the process of ong… #
Related terms include CPE, or Continuing Professional Education, and CPD, or Continuing Professional Development. CPD is essential for subsea professionals to stay up-to-date with the latest technologies and regulations in the field.
DC, or Direct Current, is an electrical term that refers to the type of c… #
Related terms include AC, or Alternating Current, and LV, or Low Voltage. DC is commonly used in subsea systems due to its simplicity and reliability, but may not be suitable for high-power applications.
Design For Safety refers to the process of designing subsea system… #
Related terms include DFR, or Design For Reliability, and DFM, or Design For Manufacturability. Design For Safety is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
DNV, or Det Norske Veritas, is a classification society that develops sta… #
Related terms include ABS, or American Bureau of Shipping, and LR, or Lloyd's Register. DNV standards are widely used in the subsea industry to ensure system safety and reliability, and compliance with these standards is often mandatory for subsea operations.
DP, or Dynamic Positioning, refers to the ability of a subsea vessel or s… #
Related terms include DPV, or Dynamic Positioning Vessel, and POS, or Positioning System. DP is a critical aspect of subsea operations, as it enables precise control and maneuverability of subsea systems.
EHS, or Environment, Health, and Safety , refers to the management … #
Related terms include HSE, or Health, Safety, and Environment, and OHS, or Occupational Health and Safety. EHS is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
EM, or Electromagnetic, refers to the phenomenon of electromagnetic field… #
Related terms include EMF, or Electromagnetic Field, and EMC, or Electromagnetic Compatibility. EM is a critical aspect of subsea system design and testing, as electromagnetic interference can cause system failure or malfunction.
ER, or Emergency Response, refers to the process of responding to emergen… #
Related terms include ERP, or Emergency Response Plan, and EAP, or Emergency Action Plan. ER is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the mitigation of potential hazards and risks.
FAT, or Factory Acceptance Testing, refers to the process of testing subs… #
Related terms include SAT, or Site Acceptance Testing, and IFAT, or Integrated Factory Acceptance Testing. FAT is a critical aspect of subsea system validation and verification, as it enables the detection of defects and failures before deployment.
FMEA, or Failure Mode and Effects Analysis, refers to the process of anal… #
Related terms include FMECA, or Failure Mode, Effects, and Criticality Analysis, and RCM, or Reliability-Centered Maintenance. FMEA is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
FPSO, or Floating Production, Storage, and Offloading, refers to a o… #
Related terms include FSO, or Floating Storage and Offloading, and FPS, or Floating Production System. FPSO is a critical aspect of subsea operations, as it enables the production and processing of hydrocarbons in the subsea environment.
Hazard refers to a potential source of harm or danger in subsea op… #
Related terms include Risk, or the likelihood of a hazard occurring, and Consequence, or the impact of a hazard. Hazard is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
HIL, or Hardware #
In-the-Loop, refers to the process of testing subsea systems and equipment using hardware simulations. Related terms include SIL, or Software-In-the-Loop, and MIL, or Model-In-the-Loop. HIL is a critical aspect of subsea system validation and verification, as it enables the detection of defects and failures before deployment.
HSE, or Health, Safety, and Environment, refers to the management of envi… #
Related terms include EHS, or Environment, Health, and Safety, and OHS, or Occupational Health and Safety. HSE is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
Hydrostatic pressure refers to the force exerted by water on subse… #
Related terms include Hydrodynamic pressure, and Water depth. Hydrostatic pressure is a critical aspect of subsea system design and testing, as it can cause system failure or malfunction if not properly accounted for.
IMR, or Inspection, Maintenance, and Repair, refers to the process of ins… #
Related terms include IWT, or Inspection, Witnessing, and Testing, and CM, or Condition Monitoring. IMR is a critical aspect of subsea operations, as it enables the prolongation of system life and reliability.
IOC, or Integrated Operations Center, refers to a facility used to monito… #
Related terms include OCC, or Operations Control Center, and ROC, or Remote Operations Center. IOC is a critical aspect of subsea operations, as it enables real-time monitoring and control of subsea systems and equipment.
IP, or Intellectual Property, refers to the rights and ownership o… #
Related terms include Patent, or a grant of exclusive rights, and Copyright, or a grant of exclusive rights to reproduce and distribute creative works. IP is a critical aspect of subsea innovation and development, as it enables the protection and commercialization of new technologies and ideas.
ISO, or International Organization for Standardization, is a standard org… #
Related terms include API, or American Petroleum Institute, and ASTM, or American Society for Testing and Materials. ISO standards are widely used in the subsea industry to ensure system safety and reliability, and compliance with these standards is often mandatory for subsea operations.
IT, or Information Technology, refers to the use of computer systems and… #
Related terms include OT, or Operational Technology, and CT, or Communication Technology. IT is a critical aspect of subsea operations, as it enables the collection and analysis of data, as well as the control and monitoring of subsea systems and equipment.
JSA, or Job Safety Analysis, refers to the process of analyzing and id… #
Related terms include JHA, or Job Hazard Analysis, and RHA, or Risk Hazard Analysis. JSA is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
LOPA, or Layer of Protection Analysis, refers to the process of analyzing… #
Related terms include HAZOP, or Hazard and Operability Study, and FMEA, or Failure Mode and Effects Analysis. LOPA is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
Maintenance refers to the process of maintaining and repairing sub… #
Related terms include IMR, or Inspection, Maintenance, and Repair, and CM, or Condition Monitoring. Maintenance is a critical aspect of subsea operations, as it enables the prolongation of system life and reliability.
MIL, or Model #
In-the-Loop, refers to the process of testing subsea systems and equipment using models and simulations. Related terms include SIL, or Software-In-the-Loop, and HIL, or Hardware-In-the-Loop. MIL is a critical aspect of subsea system validation and verification, as it enables the detection of defects and failures before deployment.
Mobility refers to the ability of a subsea system or vessel to move and <… #
Related terms include Propulsion, or the system used to generate thrust, and Steering, or the system used to control direction. Mobility is a critical aspect of subsea operations, as it enables the deployment and recovery of subsea systems and equipment.
MTBF, or Mean Time Between Failures, refers to the average time between <… #
Related terms include MTTR, or Mean Time To Repair, and MTTF, or Mean Time To Failure. MTBF is a critical aspect of subsea system reliability and maintenance, as it enables the prediction and prevention of system failure.
MTTR, or Mean Time To Repair, refers to the average time to repair … #
Related terms include MTBF, or Mean Time Between Failures, and MTTF, or Mean Time To Failure. MTTR is a critical aspect of subsea system maintenance and repair, as it enables the minimization of system downtime and cost.
NORSOK, or Norwegian Technology Standards, is a standard organization tha… #
Related terms include API, or American Petroleum Institute, and ISO, or International Organization for Standardization. NORSOK standards are widely used in the subsea industry to ensure system safety and reliability, and compliance with these standards is often mandatory for subsea operations.
OEM, or Original Equipment Manufacturer, refers to a company that designs… #
Related terms include Tier 1, or a primary supplier, and Tier 2, or a secondary supplier. OEM is a critical aspect of subsea innovation and development, as it enables the creation and commercialization of new technologies and products.
Offshore refers to the location of subsea operations, typically in the <i… #
Related terms include Onshore, or the location of operations on land, and Nearshore, or the location of operations in shallow water. Offshore is a critical aspect of subsea operations, as it poses unique challenges and risks due to the remote and hostile environment.
OTC, or Offshore Technology Conference, is a conference and exhibition… #
Related terms include SPE, or Society of Petroleum Engineers, and SUT, or Society for Underwater Technology. OTC is a critical aspect of subsea innovation and development, as it enables the sharing and dissemination of new technologies and ideas.
Patent refers to a grant of exclusive rights to an inventor or … #
Related terms include IP, or Intellectual Property, and Copyright, or a grant of exclusive rights to reproduce and distribute creative works. Patent is a critical aspect of subsea innovation and development, as it enables the protection and commercialization of new technologies and ideas.
Pressure hull refers to a structure used to withstand the press… #
Related terms include Submarine, or a vehicle used to operate underwater, and ROV, or Remotely Operated Vehicle. Pressure hull is a critical aspect of subsea system design and testing, as it enables the safety and reliability of subsea operations.
QHSE, or Quality, Health, Safety, and Environment, refers to the management</… #
Related terms include EHS, or Environment, Health, and Safety, and HSE, or Health, Safety, and Environment. QHSE is a critical aspect of Subsea Robotics Safety And Risk Management, as it enables the identification and mitigation of potential hazards and risks.
RAM, or Reliability, Availability, and Maintainability, refers to the metrics… #
Related terms include MTBF, or Mean Time Between Failures, and MTTR, or Mean Time To Repair. RAM is a critical aspect of subsea system reliability and maintenance, as it enables the prediction and prevention of system failure.
Reliability refers to the ability of a subsea system or component to perf… #
Related terms include Availability, or the ability of a system to operate when needed, and Maintainability, or the ability to repair and maintain a system. Reliability is a critical aspect of subsea system design and testing, as it enables the safety and efficiency of subsea operations.
ROV, or Remotely Operated Vehicle, refers to a vehicle used to operate un… #
Related terms include AUV, or Autonomous Underwater Vehicle, and ASV, or Autonomous Surface Vehicle. ROV is a critical aspect of subsea operations, as it enables the deployment and recovery of subsea systems and equipment.
SIL, or Software #
In-the-Loop, refers to the process of testing subsea systems and equipment using software simulations. Related terms include HIL, or Hardware-In-the-Loop, and MIL, or Model-In-the-Loop. SIL is a critical aspect of subsea system validation and verification, as it enables the detection of defects and failures before deployment.
Subsea refers to the environment and location of operations underw… #
Related terms include Offshore, or the location of operations in the ocean, and Onshore, or the location of operations on land. Subsea is a critical aspect of subsea operations, as it poses unique challenges and risks due to the remote and hostile environment.
TMS, or Tensioning and Motion System, refers to a system used to tensi… #
Related terms include Riser, or a system used to connect a subsea system to a surface vessel, and Mooring, or a system used to secure a surface vessel in place. TMS is a critical aspect of subsea operations, as it enables the deployment and recovery of subsea systems and equipment.
UUV, or Unmanned Underwater Vehicle, refers to a vehicle used to operate… #
Related terms include AUV, or Autonomous Underwater Vehicle, and ROV, or Remotely Operated Vehicle. UUV is a critical aspect of subsea operations, as it enables the deployment and recovery of subsea systems and equipment.
Vessel refers to a ship or boat used to support subsea operations,… #
Related terms include Platform, or a structure used to support subsea operations, and Rig, or a structure used to support drilling and production operations. Vessel is a critical aspect of subsea operations, as it enables the deployment and recovery of subsea systems and equipment.
Water depth refers to the distance from the surface of the water t… #
Related terms include Pressure hull, or a structure used to withstand the pressure of the subsea environment, and Submarine, or a vehicle used to operate underwater. Water depth is a critical aspect of subsea system design and testing, as it enables the safety and reliability of subsea operations.