Copernicus Marine Service in support to Marine Navigation by Copernicus Marine_Service

Copernicus Marine Service in support to

MARINE NAVIGATION

USE CASE BOOK

SUMMARY P. 4

Designing more robust ships thanks to wave data

P. 6 Developing eo-based demonstration services for public authorities: marine-eo P. 8

An easy and complete weather routing and navigation application on a tablet

P. 10 VoyoptÂŽ - voyage optimization P. 12 Finding boat adrift during minitransat sailing race P. 14 Great circle ship-routing application P. 16 Intelligent maritime awareness solutions for shipping operators P. 18 Navigation and scientific planning onboard rv polarstern P. 20 Optimal ship routing and control with oceanics P. 22 Reducing ship's fuel consumption thanks to better marine coatings P. 22 Sailgrib ship-routing application P. 26 Safe transport of gas in the north sea P. 28 Securing human lives and assets in a harsh ocean environment P. 30 Ship routing a cruise ferry in the mediterranean sea P. 32 Ship routing in ice covered areas for the french defence P. 34 Ship routing in ice covered areas: the navtor as services P. 36 Ship routing in the mediterranean sea P. 38 Ship routing to save fuel and reduce CO2 emissions P. 40 Ship routing with the scannav navigation software P. 42 Smartphone application for sailors in the mediterranean sea P. 44 Supporting ship routing in the black sea P. 46 Support to marine seismic ship operations P. 48 Timezero, a weather routing module

The Copernicus Marine Service (CMEMS) provides reference data and information on the physical and biogeochemical state, variability and dynamics of the ocean and marine ecosystems for the global ocean and the European regional seas. Products are free of charge and open to all, accessible via marine.copernicus.eu. CMEMS is implemented by Mercator Ocean International on behalf of the European Commission.

Inventory of marine applications developed in the Marine Navigation sector with the help of Copernicus Marine Service products. Should you have any comments or questions, please contact us at : communication@mercator-ocean.eu CMEMS_EU

Copernicus Marine Service

Version 2.0 Feb 4 2019

U S E CASES

DESIGNING MORE ROBUST SHIPS THANKS TO WAVE DATA CASE â&#x20AC;˘ USE OVE RVIE W

Damen Shipyards is building 165 ships per year. These ships operate in all kind of environmental sea conditions. The structures of a ship has to carry the loads from the outside environment and is designed to last at least 20 years. Additionally the hulls have to be light to ensure fuel efficiency. The ship structure is therefore optimized for efficiency and safety. During the design of new ships the development team of Damen Shipyards is therefore focusing on predicting the fatigue life of these ships as accurately as possible. To be able to predict the fatigue life more accurately our prediction methods are continuously improved by our research team. The new fatigue models developed by Damen are using the global wave model data from the Copernicus Marine Service. Wave conditions along AIS (Automatic Identification System) tracks are extracted in order to know the real wave conditions encountered. Based on this input the fatigue life consumption for each ship is predicted. In the future, Damen is planning to get the wave conditions along the AIS tracks in real time to remotely monitor for their clients the ship fatigue and fuel consumption over time.

E NE FIT S â&#x20AC;˘ BFOR USE R

Provide realistic estimation of wave conditions encountered by

Reduce risk of ship hull cracking

ships

wave data feeding fatigue models With the Copernicus wave data it is now possible to get much more accurate insight in the actual wave conditions encountered than in the past with scatter diagrams of expected sailing areas

SHIP CONSTRUCTION SHIP HULL STRENGHT IN HARSH MARINE ENVIRONMENT FATIGUE MODEL DAMEN SHIPYARDS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.0 Feb 4 2019

U S E CASES

S A ND • FACT KE Y N UMBER S

A harsh ocean environment with strong winds and waves over decades of use causes significant wear and tear on ship hull and structures. The angle from which waves hit a platform, and the wave height are important factors, but in addition the wave frequency is an important factor due to the resonance frequency of the structure itself. Running fatigue models is an approach for risk assessment of the ultimate strength of a ship hull structure degraded by corrosion and fatigue.

MS • CME P RODUCT I N U SE

The Copernicus Marine Service Global wave model is used for this application. Product in use 1

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Damen is an international shipyard group operating everywhere in the world. They deliver tried and tested designs of competitively priced and innovative vessels. By building a wide variety of standard hulls for stock, they substantially reduce delivery times.

Damen Shipyards www.damen.com/

More information here Contact Ewoud Huiskamp ewoud.huiskamp@damen.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.2

U S E CASES

DEVELOPING EO-BASED DEMONSTRATION SERVICES FOR PUBLIC AUTHORITIES: MARINE-EO CASE • USE OVE RVIE W

Marine-EO is an H2020 project which procures through the PCP instrument (Pre-Commercial Procurement) the development of EO-based demonstration services for Public Authorities in Europe. Those various services procured are in the field of Marine Environment monitoring (called SATOCEAN services) such as support to MSFD EU Directive, support to the Aquaculture sector and Ship routing in the Arctic polar region. Other services procured cover the maritime surveillance field (called SATSURVEILLANCE services) contributing to the development of EUROSUR regulation. Marine-EO teams up a group of 5 maritime authorities (the buyers group) and a group of 4 prestigious scientific and technical organizations with significant experience in EO and maritime matters (the technical advisors) to achieve the following objectives: Develop, test and validate two sets of EO-based services, support the transfer of the above mentioned EO services to operational services, and strengthen transnational collaboration in maritime awareness sector. The SATOCEAN services are developed with the support of the Copernicus Marine Service products.

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SATOCEAN 1: Monitoring marine environmental status in hot spots SATOCEAN 2: Detection of Fish farms threats

SATOCEAN 3: Detection of vessels and icebergs in Arctic areas

SATSURVEILLANCE 1: Monitoring of unusual/irregular activity around a Critical Infrastructure SATSURVEILLANCE 2: Enhanced change detection for evidence of embarking or disembarking of irregular immigrants

MARINE-EO PRE-COMMERCIAL PROCUREMENT EO SERVICES DEVELOPMENT MARINE ENVIRONMENT MONITORING MARITIME SURVEILLANCE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.2

U S E CASES

S A ND • FACT KE Y N UMBER S

Marine-EO is the first Earth Observation PCP project in the SPACE field and has received funding from the EU H2020 research and innovation programme. PCP challenges the industry from the demand side to develop innovative solutions for public sector needs. More specifically, in PCP: (i) The scope is the development of R&amp;D services only, covering activities such as solution exploration, design and prototyping, up to the original development, (ii) The risks and benefits are shared between the Public authorities and the industry in order to develop new innovative solutions that outperform those available in the market, iii) The State aid is excluded ensuring maximum competition and transpare

MS • CME P RODUCT I N U SE

Many products from the Copernicus Marine Service are used to develop the MARINE-EO applications in the Global, Arctic and Atlantic Oceans as well as in the Med Sea, For example, Sea Surface Temperature, Wind Speed, Chlorophyll-a concentration as well as wave forecasts. Product in use 1 Product in use 2 Product in use 3 Product in use 4

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The Coordinator of the Marine-EO project is the National Center for Scientific Research 'Demokritos' (NCSRD). The Consortium is composed of: Directorate General for Maritime Policy (Lead procurer), Guardia Civil, Hellenic Centre for Marine Research, Fundo Regional para a Ciência e Tecnologia, Kystverket, National Observatory of Athens, European Union Satellite Centre and Sintef Ocean.

National Centre of Scientific Research "Demokritos"

Contact Dr. Stelios C.A. Thomopoulos scat@iit.demokritos.gr

marine-eo.eu/

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.1 01/02/2019

U S E CASES

AN EASY AND COMPLETE WEATHER ROUTING AND NAVIGATION APPLICATION ON A TABLET CASE â&#x20AC;˘ USE OVE RVIE W

Avalon Offshore has been launched in 2016 for both Apple iOS and Android. It is designed to provide a very complete navigation solution for cruisers and racers by providing in a simple app all the navigation functions needed by the boat skipper: weather routing, automatic weather sources, navigation monitoring, AIS targets, NMEA support, anchoring alarm and regatta module. To calculate precise routes, Avalon Offshore integrates a VPP calculator that will provide the skipper with reliable velocity predictions and automatic wheather sources that reduce transmission volumes and costs versus standard grib files.. Avalon Offshore routes are calculated by a proprietary algorithm, derived from the standard isochron algorithm which has already produced outstanding results during offshore regattas. From a cartographic viewpoints, Avalon support any type of raster maps as well as vectorial maps from Navionics. When calculating routes, Avalon Offshore uses tidal and oceanic currents provided by the Copernicus Marine Service.

E NE FIT S â&#x20AC;˘ BFOR USE R

Improved safety at sea: the skipper knows all the conditions of the

One single app for all and no more switching between different

cruise before sailing away

tools

Reduce motoring time

Very accurate arrival time Very easy to use: System has been designed for sailors

MOBILE APPLICATION WEATHER ROUTING AND NAVIGATION APPLICATION TABLET AVALON OFFSHORE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.1 01/02/2019

U S E CASES

S A ND • FACT KE Y N UMBER S

Avalon drastically improves the safety by providing the skipper with the anticipated conditions of the planned cruise: wind, gust, waves, thunderstorms. They estimate that they can reduce the motoring time by about 30% by providing the skipper with a precise comparizon between the shortest distance and the smallest duration route. Travel duration error contained within 5% on 2 days cruises, thanks to the reliable boat velocity predictions computed by Avalon, assuming weather conditions are reasonably in line with forecasts.

MS • CME P RODUCT I N U SE

Avalon Offshore uses current velocity forecasts for Iberia, Biscay and Ireland, Mediterranean Sea. Those predictions takes general weather forecasts into consideration and are therefore more precise than standard current atlases. Product in use 1 Product in use 2

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Avalon Navigation Systems is publishing Avalon Offshore, a weather routing and navigation application for sailboats.

Avalon Navigation Systems www.avalon-routing.com

More information here Contact philippe joret support@avalon-routing.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.3 10/04/2019

U S E CASES

VOYOPT® - VOYAGE OPTIMIZATION

CASE • USE OVE RVIE W

VoyOpt® (Voyage Optimization) is an innovative sail planning system developed by Offshore Navigation Ltd. This is an all-weather 24/7 surveillance and route plan system, that guides ships how to efficiently sail from one port to the next. These observations are able to compensate the weaknesses of one particular sensor by the characteristics of another. The sensor suite is chosen such that the sensors capabilities partly overlap and complement each other. The end-result is significantly better than relying your route planning on weather forecast models only. This in turn results in a safer and more economical execution of maritime and offshore operations.

E NE FIT S • BFOR USE R

Asset preservation and maintenance

Fuel and Emission Reduction

Economical execution of offshore operations

Optimized sailing time Passenger and crew comfort

MARINE NAVIGATION GLOBAL OCEAN SHIPPING SATELLITE PRODUCTS MODEL PRODUCTS IN SITU PRODUCTS EONAV OFFSHORE NAVIGATION

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.3 10/04/2019

U S E CASES

S A ND • FACT KE Y N UMBER S

The maritime industry seeks to optimize route plans for fuel reduction, vessel emission reduction and/or reduction in sailing time in an efficient manner. However, they do not have sufficient means to visualize the observations needed to develop such an optimized route plan. Nor do they have continuous observational updates with sufficient accuracy or numerical modelling capabilities. VoyOpt® is using EONav (Earth Observation Navigation) technology which fuses ship-specific parameters with real-time weather and seas state observations. Observations are acquired from several (spaceborne, seaborne and coastal) Earth Observations (EO) sensor systems and weather forecast data into advanced nume

MS • CME P RODUCT I N U SE

We are using CMEMS Analysis and Forecast model products for wind, waves, and currents for our project entitled "EONav - Earth Observation for Marine Navigation" to perform near real time analysis on different scales range from small to large or regional to global coverage. Product in use 1 Product in use 2 Product in use 3 Product in use 4 Product in use 5

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The mission of Offshore Navigation Ltd's (ONL) is to become a leading provider of voyage and route plan systems. ONL shall provide the most accurate and advanced navigation system for worldwide offshore and maritime use, that will enable greater fuel optimization and make the global maritime transport more sustainable.

Offshore Navigation Ltd. (ONL) offshorenavigation.com/

Contact Joakim Moller joakim.moller@offshorenavigation.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.0

U S E CASES

FINDING BOAT ADRIFT DURING MINITRANSAT SAILING RACE

CASE â&#x20AC;˘ USE OVE RVIE W

MetOcean Solutions is a science-based consultancy that offers specialist numerical modelling and analytical services in meteorology and oceanography. End of October 2017, MetOcean Solutions helped Pantaenius, the global yacht insurance company, find a missing yacht abandoned during the Mini Transat 6.50 race. The yacht had been abandoned on 5 Oct off Spain Cape Finisterre. Luca Sabiu, the yacht sailor, was airlifted out by helicopter by the Spanish navy. Pantaenius contacted MetOcean Solutions for advice on where the boat would drift to over the following 2-3 days during which strong winds and heavy seas would prevent its immediate salvage. MetOcean Solutions forecasted the drift trajectory of the boat taking into account the effect of the wind and current on the boat using a range of datasets, including currents from the CMEMS Global Ocean model. Drifting simulations using the CMEMS Global Ocean currents (and ECMWF winds) proved to be the most accurate, with the boat being effectively found within 2-3 nautical miles of the predicted position. Drift trajectory simulated with other than CMEMS ocean model gave much larger error in the boat location.

E NE FIT S â&#x20AC;˘ BFOR USE R

Better preparation at situation at sea

Decision-making support tool

Better understanding of the ocean dynamics

Faster and more secure search operations. Free and sustained ocean currents, sea ice and waves provision to feed ship routing software.

SAILING RACE MINI TRANSAT FINDING A BOAT ADRIFT SECURITY AT SEA LA ROCHELLE LA MARTINIQUE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.0

U S E CASES

S A ND • FACT KE Y N UMBER S

Founded in 1977, the Mini-Transat sailing race celebrates its 40th anniversary in 2017. This year edition starts on October 1st 2017 from La Rochelle in France and ends in La Martinique, French Antilles, with the participation of 84 men and women sailors from 15 nationalities. It is a 4050 nautical miles solo crossing race, on the smallest offshore racing boats (only 6.50 meter long). It is sailed in two legs: 1) The first one, from La Rochelle to Las Palmas de Gran Canaria (1350 miles long, 7 to 10 sailing days), 2) The 2700 miles long second leg start from Las Palmas de Gran Canaria in November (15 to 20 sailing days to reach Le Marin in La Martinique, French West Indies).

MS • CME P RODUCT I N U SE

The real time global ocean model from the Copernicus Marine Service is used in this application in combination with the OTIS tidal currents Product in use 1

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MetOcean Solutions is a science-based consultancy providing specialist numerical modelling and analytical services in meteorology and oceanography. They deliver high quality environmental data and expert interpretation to meet the rigorous requirements of the offshore and maritime industries as well as regulatory, defence and government agencies.

MetOcean Solutions Ltd

More information here

www.metocean.co.nz/

MARINE NAVIGATION

Contact Simon Weppe s.weppe@metocean.co.nz

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.0

U S E CASES

GREAT CIRCLE SHIP-ROUTING APPLICATION

CASE • USE OVE RVIE W

GREAT CIRCLE, a Belgian startup, has developed a sailing navigation software (SQUID) that includes a weather routing module for sailboats. Great Circle works with most of the leading offshore teams and race management offices around the world, including the Vendée Globe, Volvo Ocean Race, Route du Rhum and America Cup. SQUID is software that lets the user download and view the GRIB weather files and does the routing with the isochronic method. SQUID can also display satellite images (visible imagery, infrared, water vapour and colour composite) and retrieve synoptic charts and observations (SYNOP, METAR and scatterometry). SQUID uses the Copernicus Marine Service sea-surface temperature satellite data as an input as well as ocean model currents for the Global ocean and Europeans Seas.

E NE FIT S • BFOR USE R

Faster sailing routes which is decisive during sailing race. More accurate planning of arrival time. Safer sailing routes for cruisers for human beings and boat equipment.

GREAT CIRCLE SAILING NAVIGATION SOFTWARE ROUTING GLOBAL OCEAN OCEAN CURRENTS LEISURE SAILORS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.0

U S E CASES

S A ND • FACT KE Y N UMBER S

Up until recently, sailors were planning their crossing using manual methods and books like pilot charts. New weather routing tools have now appeared on the market. Racers can improve their travel speed by 5 to 10% which is decisive during a race. Predicted arrival time is 4 times more accurate. Crossings are safer for human beings and equipment on board.

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CMEMS Analysis and Forecast model products provide with 7-day ocean current forecasting updated daily. It provides information relevant to ship routing. Product in use 1 Product in use 2

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Great Circle is a private company that works with most of the leading offshore teams and race management offices around the world, including the Vendée Globe, Volvo Ocean Race, Route du Rhum and America Cup.

Great Circle www.greatcircle.be/

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version V0 12/12/19

U S E CASES

INTELLIGENT MARITIME AWARENESS SOLUTIONS FOR SHIPPING OPERATORS CASE â&#x20AC;˘ USE OVE RVIE W

nauticAi is a Finnish maritime IoT-startup specialising in real-time situational awareness solutions. The core technology and concept is to combine multiple maritime data sources, such as IoT-sensor data, ship tracking data, company business data and weather forecast and observation data and effectively visualise the combined information into a simple-to-use situational picture. nauticAi efficiently leverages Copernicus Marine data in both its Snapshot-solution and the BOQA-platform. Snapshot offers real-time ship tracking with built-in IoT capabilities and live video streaming, while BOQA (Bridge Operations Quality Assurance) is used for detecting Close encounters, Route deviations, heavy weather on route and much more. This service is now also available on the Inmarsat Fleet Data IoT platform. nauticAi utilises Copernicus Marine data, such as wind, wave and ice forecasts in all of their solutions. The primary use case is to combine weather forecast data with ship operational and IoT-data and automatically detect risk situations or deviations from normal operation.

E NE FIT S â&#x20AC;˘ BFOR USE R

Automated event tracker which uses various rules and artificial intelligence techniques to detect anomalies and deviations in

operational behaviour.

Live monitoring solution combining IoT and environmental data Single-point Web Map Service with marine and weather base maps layers accessible through an API

SAFETY AT SEA SHIPPING OPERATOR SITUATIONAL AWARENESS AUTOMATIC MONITORING AND ALERTS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version V0 12/12/19

U S E CASES

S A ND • FACT KE Y N UMBER S

Ship operators need to have a safety-solution which can provide a 24/7 continuous monitoring of sensor data and alarms and raise alerts if defined operational limits were deviated from. The BOQA solution developed by nauticAi answers this specific need: it is essentially an automated event tracker, which uses various rules and artificial intelligence techniques to detect anomalies and deviations in operational behaviour. Some of the key event types include route plan deviations, heavy weather, heavy motions, sudden stops at sea, under keel clearance, excessive rudder movement, black-outs and crash stops.

MS • CME P RODUCT I N U SE

Copernicus Marine data, such as wind, wave and ice forecasts are used in this application. Product in use 1 Product in use 2 Product in use 3 Product in use 4 Product in use 5

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nauticAi is a Finnish maritime IoT-startup with a team that consists of devoted marine IT-enthusiasts, strengthened by a wide cooperation-network and strategic development, marketing and sales-partners. nauticAi is proudly Finnish and #nordicmade.

nauticai nauticai.com/ Contact Henrik Ramm-Schmidt henrik@nauticai.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.4

U S E CASES

NAVIGATION AND SCIENTIFIC PLANNING ONBOARD RV POLARSTERN CASE â&#x20AC;˘ USE OVE RVIE W

RV Polarstern is a German research icebreaker of the Alfred Wegener Institute for Polar and Marine Research (AWI) in Bremerhaven. RV Polarstern is used to conduct research in polar waters as well as for the logistical support of the Antarctic Research Station Neumayer. To aid navigation and scientific planning in sea ice covered areas, a new charting system was developed. The system visualizes satellite and model data provided from various sources in near real-time. The charting system is used for strategic planning of the ship route, tactical planning: Finding the optimal way through sea ice, monitoring sea ice during ice stations, identify suitable floes for experiments and recovery of sensor deployments. Data from various sources are made available in the charting system, among which the 10-days sea ice motion, concentration and thickness forecast from the CMEMS Arctic ocean model. Postprocessing and delivery on board is done by the company DriftNoise.com. Forecast data is for example used to assess the accessibility of certain areas or the development of the ice edge within the next couple of days.

E NE FIT S â&#x20AC;˘ BFOR USE R

Better knowledge and preparation for exploration missions at sea

Better understanding of the environmental conditions.

Better planning of scientific experiments and sampling

Decision-making support tool Free and sustained information about many ocean parameters.

REASEARCH VESSEL POLARSTERN ARCTIC OCEAN SCIENCE OCEANOGRAPHIC CRUISE NAVIGATION AID SCIENTIFIC PLANNING

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.4

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S A ND • FACT KE Y N UMBER S

The Research Vessel Polarstern is the most important resource for German polar research and the flagship of the Alfred Wegener Institute. Commissioned on 9 December 1982, the Polarstern has since logged more than 1.5 million nautical miles, or roughly 2.7 million kilometres (as of 2014). The Polarstern operates an average of 310 days a year, typically cruising in the Antarctic from November to March and pursuing research in the Arctic during the summer months. In the process, she covers ca. 50,000 nautical miles every year, the equivalent of two trips around the Equator. The research icebreaker can even operate in the pack ice zone and can even overwinter in the ice of the polar seas.

MS • CME P RODUCT I N U SE

The 10-days sea ice motion, concentration and thickness forcast from the CMEMS Arctic TOPAZ4 model are made available in the charting system. Data is accessible via CMEMS service. Download, subsetting, format conversion and delivery on board is done by DriftNoise.com. Product in use 1

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As the Helmholtz Centre for Polar and Marine Research, the Alfred Wegener Institute is primarily active in the cold and temperate regions of the world. Working together with numerous national and international partners, they are actively involved in unravelling the complex processes at work in the Earth System. Polar and marine research is research into the future.

AWI www.awi.de/

Contact Thomas Krumpen Thomas.Krumpen@awi.de

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version V1.1 25/09/2018

U S E CASES

OPTIMAL SHIP ROUTING AND CONTROL WITH OCEANICS CASE â&#x20AC;˘ USE OVE RVIE W

D-ICE activities on ship routing covers 3 services. *First, statistical routing studies enabling its customers to validate a project (business model, extreme weather conditions, ship performance...) with a large amount of calculations. *Then, D-ICE operational team provides metocean and routing support for shipping companies during navigations. *Finally, OCEANiCS (OCEAN Intelligent Control System) is an embedded system enabling both ship control and weather routing. Main objective are environmental impact reduction and improvement of navigation safety. Our multi-objective algorithms optimize ship route and ship velocity along the transit, considering wind, waves and current. Application covers also sailing teams, which are interested in advanced routing as their ships are becoming more and more extreme. Copernicus Marine Service data from global to regional modelling are crucial for D-ICE customers. Todays used datasets are waves, wind and ocean currents, but further developments will take benefits from satellites images, ice forecasts or nebulosity.

E NE FIT S â&#x20AC;˘ BFOR USE R

Fuel savings

Safety improvement

Respecting a fixed Estimated Time of Arrival

Ship motions reduction Travel time reduction

D-ICE ENGINEERING SHIP ROUTING SAVE FUEL CONSUMPTION IMPROVE SAFETY GLOBAL OCEAN

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version V1.1 25/09/2018

U S E CASES

S A ND • FACT KE Y N UMBER S

Route planning has always been a crutial issue for the shipping industry to manage logistics. Today, route optimization is at stake to decrease fuel consumption, operate safely the vessels and address risk management with due regard to environment. Shipping industry indeed represents 3% of today global CO2 emission, and should reach 17% in 2050 if nothing is done. Global policies and IMO are thus starting to handle it and legiferate shipping industry. The OCEANiCS ship routing service offers new perspectives enabling multiobjective optimization for motor, sailing and hybrid propulsion. Fuel savings for motor ships are from 5 to 15% depending on the projects.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products of waves and currents are used by D-ICE company. Moreover, for specific analysis, CMEMS satellite observations (for wind, current, waves) are also useful. Product in use 1 Product in use 2

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D-ICE Engineering is a French startup developing cutting edge solutions for the marine industry. Its expertise covers control systems, optimization, big data analysis and multibody dynamics. D-ICE develops the OCEANiCS tool (Ocean Intelligent Control System) allowing weather routing and ship control. D-ICE provides metocean and routing assistance to shipping companies.

D-ICE Engineering www.dice-engineering.com More information here Contact Maxime Dupuy maxime.dupuy@dice-engineering.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 3.0 18 feb 2019

U S E CASES

REDUCING SHIP'S FUEL CONSUMPTION THANKS TO BETTER MARINE COATINGS CASE • USE OVE RVIE W

Jotun is a leading manufacturer of paint, coatings and powder coatings for more than 90 years. Jotun produce marine coatings that use cutting edge technology to maximize ship speed through water and conserve energy. Jotun Marine Coatings allow to reduce both ship fuel costs and greenhouse gas emissions. The impact of biofouling on a ship fuel consumption can be large. Jotun Hull Performance Solutions (HPS) monitors the changes in ship specific hull and propeller performance. The correlation between the vessel speed and power over time is compared against the ideal conditions. Performance indicators like in-service and dry-docking performance are determined and monitored for vessels coated with Jotun marine coatings. The Copernicus Marine Service provides information on ocean conditions relevant to improve and complement the accurate analysis of hull performance. The knowledge of the actual physical conditions of ocean water are relevant for making better and customized specifications for Jotun customers regarding marine coatings.

E NE FIT S • BFOR USE R

Improved and customized product specification

Reduce biofouling and consequently fuel consumption and

Improved methods for monitoring hull and propeller performance greenhouse gas emissions

JOTUN MARINE COATING HULL PERFORMANCE FUEL CONSUMPTION

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 3.0 18 feb 2019

U S E CASES

S A ND • FACT KE Y N UMBER S

Hull performance refers to the impact of hull and propeller on the fuel efficiency of a ship. Deterioration in hull and propeller performance between dry-dockings currently accounts for around 10% of world fleet fuel cost and corresponding greenhouse gas emissions. Most vessels leave dry dock with hull and propeller in a good condition. However, on account of a combination of biofouling and mechanical damage, hull and propeller performance begin to deteriorate. Vessel operators can reduce their fuel costs and emission significantly if proven quality coatings and a standardized approach along with data driven solutions are used and implemented.

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Several Copernicus Marine Service products based on global ocean satellite observations and operational analysis and forecast are used to complement the analysis on hull performance and get approximate estimates of the biogeochemistry and physical ocean conditions. Product in use 1 Product in use 2 Product in use 3 Product in use 4 Product in use 5

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Jotun is a world leading provider of marine coating solutions to the global marine fleet namely in the newbuilding, dry-dock and sea-stock markets. In addition, Jotun supplies coating solutions for mega yachts and leisure yachts. Jotun marine coating solutions offering significant savings in fuel and greenhouse gas emissions for the shipping industry.

jotun www.jotun.com/

More information here Contact Jotun contact hps-analysis@jotun.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.0

U S E CASES

SAILGRIB SHIP-ROUTING APPLICATION

CASE • USE OVE RVIE W

SAILGRIB, a French startup, has developed a sailing navigation app available from the Google Play Store that includes a weather routing module for sailboats. As of Jan 2017, the application was being used by more than 10,000 racers and leisure sailors every week. The app success is steadily increasing as the number of downloads is doubling every year. Most users (70%) are European. SailGrib algorithms are based on the isochrones method tweaked for running on Android phones or tablets. Henri Laurent from SailGrib says that in order to get reliable routing, accurate inputs such as polar plots showing boat speed, weather and ocean current forecasts are needed. The latter are provided by the Copernicus Marine Service high quality analysis and forecast products for the Global Ocean, the Iberia-Biscay-Irish Seas, the European North West Shelves, the Baltic and Mediterranean Seas.

E NE FIT S • BFOR USE R

5 à 10% faster sailing routes which is decisive during sailing race More accurate planning of arrival time: The error on the travel time has been divided by 4. Safer sailing routes for cruisers (for human beings and boat equipment).

SAILGRIB SAILING NAVIGATION APP ROUTING GLOBAL OCEAN OCEAN CURRENTS LEISURE SAILORS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.0

U S E CASES

S A ND • FACT KE Y N UMBER S

Up until recently, sailors were planning their crossing using manual methods and books like pilot charts. New weather routing tools have now appeared on the App market thanks to the mobile revolution. Racers can improve their travel speed by 5 to 10% which is decisive during a race. Predicted arrival time is 4 times more accurate when planning it with the App. Crossings are safer for human beings and equipment on board.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily. Models over several areas are used: the Global Ocean, the Iberia Biscay Irish seas, the European North West Shelves, the Baltic and Mediterranean seas. They provide hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1 Product in use 2 Product in use 3

E MS • CM USE R

SailGrib is a French startup publisher of the renowned marine weather, weather routing and navigation Android app called SailGrib WR.

More information here SAILGRIB www.sailgrib.com

MARINE NAVIGATION

Contact Henri Laurent henri@sailgrib.com

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.2

U S E CASES

SAFE TRANSPORT OF GAS IN THE NORTH SEA

CASE • USE OVE RVIE W

The PIPEX project focuses on modelling the transport of natural gas through subsea pipelines taking into account oceanic conditions. The natural gas produced by Norway is transported to Europe in large diameter subsea pipelines, and the state of the entire pipeline system is modelled in real time. The accuracy of the capacity estimations is important for optimisation of existing infrastructure and for design of new pipelines. Sea bottom temperature is a particularly important parameter when calculating the transport capacity in a subsea gas pipeline as the volume of the gas is nearly directly proportional to the temperature. Modelled sea bottom temperature data from the Copernicus Marine Service North West Shelf Forecasting model are used as input to the computer models at GASSCO, because observed sea bottom temperatures are not available. Recent analyses of the deviation between the modelled and measured gas temperature in the pipelines show a maximum temperature difference of up to 2 °C. Reducing this deviation by improving the estimation of the sea bottom temperature will have a key economic incentive for the project.

E NE FIT S • BFOR USE R

Free and sustained information provision. High quality information allowing realistic applied results. Provision of sustained and accurate bottom temperature for pipeline transport capacity estimation.

PIPEX NATURAL GAS SUBSEA PIPELINES GASSCO BOTTOM TEMPERATURE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.2

U S E CASES

S A ND • FACT KE Y N UMBER S

As operator, Gassco is responsible for safe and efficient gas transport from the Norwegian continental shelf to other European countries . Oil and gas companies are responsible for the production and sale of gas, while Gassco is responsible for transporting the volumes sold. It is essential that the market can rely on gas deliveries as people who depend on gas in their daily lives must feel sure that the company will deliver as agreed.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily. Physics Models over the European North West Shelves and Baltic Sea are used in this application. It provides hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1

E MS • CM USE R

Gassco is a private norvegian company, operating and responsible for safe and efficient gas transport from the Norwegian continental shelf to Europe and is a leading gas transporter in Europe.

More information here Gassco www.gassco.no/en/

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version v5.3 spetember2019

U S E CASES

SECURING HUMAN LIVES AND ASSETS IN A HARSH OCEAN ENVIRONMENT CASE â&#x20AC;˘ USE OVE RVIE W

AHPA, Asset Health and Probabilistic Analyses, focuses on probability analyses of fractures and strains on offshore structures. AHPA gives answers to the questions: How can we be sure that offshore structures are sufficiently safe? How can we ensure that no accidents occur? Experience data of where, when and why fatigue cracks occur have been systematically collected for Jacket structures and for Semi-submersibles. Such fatigue cracks are linked to the strains that offshore structures are exposed to due to harsh weather conditions in the North Sea. Of particular interest is the accumulated impact of wave forces, but also the importance of forecasting wave e.g. wave swell in periods of important marine procedures where the swell frequency is close to the resonance frequency of a structure. This wave information can be derived from Copernicus Marine Service. For example, the ship heave motion is of serious concern during marine operations. Combined wind sea and swell system from different directions may result in rapid changes in the heave amplitude. CMEMS wave height combined with period is used to predict the 3-dimensional motion of floating bodies.

E NE FIT S â&#x20AC;˘ BFOR USE R

A long period of wind observations is important to compute the forces that a structure has been exposed to through that period of time and to model the expected remaining lifetime Long timeseries of wave forecasts and analyses are very important in order to calculate the remaining lifetime of a structure and to schedule inspections and routine repairs of known weak spots

OFFSHORE STRUCTURE FATIGUE IMPACT OF WAVE FORCES STRUCTURAL INTEGRITY MANAGEMENT HEAVE MOTION

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version v5.3 spetember2019

U S E CASES

S A ND • FACT KE Y N UMBER S

A harsh ocean environment with strong winds and waves over decades of use causes significant wear and tear on offshore structures. The angle from which waves hit a platform, and the wave height are important factors, but in addition the wave frequency is an important factor due to the resonance frequency of the structure itself. If a wave system with high energy at a certain frequency hits a structure such as a platform or a ship, it can be extremely dangerous to perform operations.

MS • CME P RODUCT I N U SE

Wave forecasts from the CMEMS North West Shelf model, including significant wave height, wave period, wave direction, wave energy spectra are used in this application. Moreover, CMEMS Ocean Wind Observations is also used. A long period of wind observations is important to compute the forces that a structure has been exposed to through that period of time, and to model the expected remaining lifetime. Product in use 1 Product in use 2

E MS • CM USE R

AHPA, Asset Health and Probabilistic Analyses, is a Norwegian company that delivers consultancy services to the offshore industry. The company provides in particular expertise on Structural Integrity Management and has more than 30 years of experience working with probability analyses of fractures and strains on offshore structures.

Contact Ole Tom Vardal varole61@gmail.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.0

U S E CASES

SHIP ROUTING A CRUISE FERRY IN THE MEDITERRANEAN SEA

CASE • USE OVE RVIE W

The Italian Ship company " Grandi Navi Veloci" has entrusted La Superba's safe routing to the Operational Oceanography Group of the Institute for the Marine and Coastal Environment (IAMC/CNR) in Oristano. The M/V La Superba is a cruise ferry, one of the world largest and fastest luxury cruise ferries which can house close to 3000 passengers. La Superba connects Genoa to Palermo every day, crossing 800 km in the eastern Ligurian Sea, the Corsica Channel and the entire Tyrrhenian Sea. IAMC Researchers of the Operational Oceanography Group run numerical models to simulate the behaviour of various environmental parameters, providing to the Captain of La Superba daily forecasts for ocean characteristics and circulation, as well as waves along the transect. Downscaling is a method for obtaining high-resolution local models from the lower resolution Copernicus Marine Service model as forcing conditions. IAMC uses CMEMS products as boundary and initial conditions to force two sub-regional 3D hydrodynamic models for the Western (seas around Sardinia) and Central Mediterranean Sea (Sicily Channel), and Sardinian Seas.

E NE FIT S • BFOR USE R

Free and sustained ocean currents and waves provision to feed ship routing software. High quality information allowing consistent fuel saving and lower

CO2 emission.

More accurate planning of arrival time. Safer sailing routes for human beings and boat equipment.

SHIP ROUTING CRUISE FERRY MED SEA OCEAN CURRENTS DOWNSCALING

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.0

U S E CASES

S A ND • FACT KE Y N UMBER S

Wind, waves and currents and sea ice cover are crucial factors in choosing a route at sea. Advanced routing systems are being introduced in shipping, one result being that the skipper on board makes the crucial decisions about the route. Avoiding rough weather and having the best possible advance route planning can minimise cargo damage and mean more precise arrival times. Choosing the optimum route also lays the foundation for reducing fuel consumption.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily. Physics Model over the Mediterranean sea is used in this application. It provides hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale marine processes. Product in use 1 Product in use 2

E MS • CM USE R

The Institute for Marine Environment at the National Research Council (IAMC-CNR) consists of 6 sections and a marine biology laboratory that traditionally deals with marine science issues, notably in biology, chemistry, Physics and geology, and studies on renewable resources (fisheries and aquaculture) and marine technologies.

IAMC-CNR www.iamc.cnr.it/

MARINE NAVIGATION

More information here

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.2

U S E CASES

SHIP ROUTING IN ICE COVERED AREAS FOR THE FRENCH DEFENCE

CASE • USE OVE RVIE W

SHOM is the French Defence hydrographic and oceanographic office. It is a public administration under the supervision of the Ministry of Defence. Its mission is the description and the prediction of the maritime and coastal environment supporting defence and national navigation, and maritime policies. In the framework of its defence support, SHOM provides an operational ice situation chart service to the French Navy for headquarters or ships with quasi-real time estimation of the sea ice and icebergs situation in the Arctic. The service includes charts from the SHOM-SOAP3 software displaying sea ice concentration (10% and 30% contours), Icebergs concentration (number of icebergs in a 10km*10km square over a 3 days period) and the satellite swath limit, Icebergs limit in Terre-Neuve (Newfoundland) and Sea surface temperature (+2°C and +4°C isotherms). The Copernicus Marine Service sea ice concentration and Sea surface temperature forecast from the Artcic ocean model are used, along with CMEMS Satellite observation for Iceberg concentration.

E NE FIT S • BFOR USE R

Covers huge areas over the Arctic Ocean. Service elaborated with the most accurate data available nowadays. Service meets the surface and submarine needs for the french Navy navigation and operations.

SHOM SHIP ROUTING ARCTIC OCEAN CURRENTS ICE COVERED AREA ICEBERG DETECTION DEFENCE NAVIGATION SOFTWARE SEA ICE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.2

U S E CASES

S A ND • FACT KE Y N UMBER S

Wind, waves and currents and sea ice cover are crucial factors in choosing a route at sea. Advanced routing systems is crucial for the Frenc Navy decisions. Avoiding rough weather, icebergs and ice covered areas allows to have the best possible advance route planning to minimise boat and submarine damages.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day sea ice forecasting updated daily. It provides sea ice information relevant to ship routing in the Arctic ocean. Product in use 1 Product in use 2

E MS • CM USE R

SHOM is the French Defence hydrographic and oceanographic office. It is a public administrative institution under the supervision of the Ministry of Defence. Its mission is the description and the prediction of the maritime and coastal environment supporting defence and national navigation, and maritime policies. Its areas of expertise include: bathymetry, sedimentology, hydrodynamics and more.

SHOM www.shom.fr/

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.2

U S E CASES

SHIP ROUTING IN ICE COVERED AREAS: THE NAVTOR AS SERVICES

CASE • USE OVE RVIE W

The shipping service company NAVTOR AS develops software solutions for various planning and e-navigation services. NAVTOR AS serves around 3000 vessels world-wide, and these include the passenger vessel M/S FRAM cruise ship operated by Hurtigruten and the M/S POLARSYSSEL operated by the governor of Svalbard, which are faring near the ice edge, but need to avoid the ice. The NAVTOR AS NavStation allows to draw possible waypoints and consider the sea ice forecasts on top of the existing winds, waves and currents conditions. NAVTOR AS includes the sea ice forecasting from the Arctic Copernicus Marine Service model into its display. The novelty resides in the ability to animate the charts and get an impression of the possible changes of the conditions during the voyage due to ice motions and freezing or melting of the ice. Bjørn Åge Hjøllo from NAVTOR AS says that "e-Navigation is crucially dependent on detailed validation information for the forecasts. Further efforts should focus on practical solutions to present uncertainty estimates overlaid with the forecast."

E NE FIT S • BFOR USE R

Free and sustained ocean currents, sea ice and waves provision to

High quality information allowing consistent fuel saving and lower

feed ship routing software.

CO2 emission.

More accurate planning of arrival time. Safer sailing routes for human beings and boat equipment.

NAVTOR SHIP ROUTING ARCTIC OCEAN CURRENTS NAVIGATION SOFTWARE SEA ICE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.2

U S E CASES

S A ND • FACT KE Y N UMBER S

Wind, waves and currents and sea ice cover are crucial factors in choosing a route at sea. Advanced routing systems are being introduced in sailing and shipping, one result being that the skipper on board makes the crucial decisions about the route. Avoiding rough weather and having the best possible advance route planning can minimise boat damage and mean more precise arrival times. Choosing the optimum route also lays the foundation for reducing fuel consumption.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day sea ice forecasting updated daily. It provides sea ice information relevant to ship routing in the Arctic ocean. Product in use 1

E MS • CM USE R

NAVTOR

ice.

www.navtor.com/ More information here Contact Bjørn Åge Hjøllo bjorn.hjollo@navtor.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.0

U S E CASES

SHIP ROUTING IN THE MEDITERRANEAN SEA

CASE â&#x20AC;˘ USE OVE RVIE W

The private company LINKS MT s.p.a and the CMCC foundation (Fondazione CMCC- Centro Euro-Mediterraneo Sui Cambiamenti Climatici) have combined their respective skills to develop sea situational awareness services for users in various sectors. "VISIR: Discovering Safe and Efficient Routes" (http://www.visir-nav.com/en/home) is one of the web tools developed, which proposes a web interface for ship routing in the Mediterranean. The optimization regards total navigation time, taking into account safety of navigation. Both motorboats and sailboats are considered. The VISIR service is available in both a FREE and a PREMIUM version. The operator enters the ship departure and arrival locations (from point A to point B) and the web tool then computes several possible oceanic routes (optimal versus geodetic routes) and displays them on a map together with the respective journey time (in hours) and distance (in nautical miles). The Copernicus Marine Service Mediterranean Sea models provide accurate ocean wave forecasts in the Mediterranean Sea that enable the VISIR tool to provide useful ship-routing advice to anyone sailing in the Mediterranean.

E NE FIT S â&#x20AC;˘ BFOR USE R

Free and sustained ocean currents, sea ice and waves provision to feed ship routing software. High quality information allowing consistent fuel saving and lower

CO2 emission.

More accurate planning of arrival time. Safer sailing routes for human beings and boat equipment.

LINKS SPA CMCC VISIR SHIP ROUTING MED SEA OCEAN CURRENTS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.0

U S E CASES

S A ND • FACT KE Y N UMBER S

Wind, waves and currents are crucial factors in choosing a route at sea. Advanced routing systems are being introduced in shipping, one result being that the skipper on board makes the crucial decisions about the route. Avoiding rough weather and having the best possible advance route planning can minimise cargo damage and mean more precise arrival times. Choosing the optimum route also lays the foundation for reducing fuel consumption. The user-interface of VISIR is available in 8 languages: English, Italian, French, Spanish, Greek, Turkish, Russian, and Arabic. According to Google Analytics, www.VISIR-nav.com got in the timeframe May 2016- June 2017 more than 900 users. The open-review N

MS • CME P RODUCT I N U SE

E MS • CM USE R

Links MT s.p.a. is a consulting company, providing services and Information Technology solutions for the banking sector, the public administrations and enterprises, making use of emerging technological solutions. CMCC Foundation is a non-profit research institution which mission is to investigate and model our climate system and its interactions with society and the environment.

www.linksmt.it/

More information here

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.0

U S E CASES

SHIP ROUTING TO SAVE FUEL AND REDUCE CO2 EMISSIONS CASE • USE OVE RVIE W

CMA CGM is a leading worldwide container shipping group and the leader in France. With a presence on every continent through its network of more than 600 offices in more than 160 countries, CMA-CGM serves over 420 ports in the world with around 450 vessels assigned to 200 shipping lines. CMA CGM has developed the Fleet Navigation &amp; Support Centre, which provides navigation support and routing and guidance services. Working 24/7, the Fleet Navigation &amp; Support Centre is manned by experienced CMA CGM seafarers and acts as a valuable interface between vessels and office departments by monitoring, warning, and guiding the fleet. ACTIMAR (SUEZ group) has been contracted by CMA CGM to compare several ocean current products including the Copernicus Marine Service ocean currents from the IBI, MED and GLOBAL hydrodynamic models and the satellite and in-situ-based Global Observed Ocean current product. According to Stephane Raynaud from Actimar, In addition to the constant improvement on the reliability of ocean forecasts provided by CMEMS, the knowledge of the forecast uncertainty will represent a major step forward.

E NE FIT S • BFOR USE R

Adaptation of the course and the speed of the ship to arrived at the desired time in a port Reduction in fuel consumption, leading to reduction of cost and carbon footprint.

CMA CGM ACTIMAR SUEZ SHIP ROUTING GLOBAL OCEAN OCEAN CURRENTS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.0

U S E CASES

S A ND • FACT KE Y N UMBER S

Maritime transport accounts for more than 80% of international freight transport. Ship weather routing is widely used. But routing by the current remains recent and innovative. The emergence of new operational ocean forecasts makes it possible to better understand the mesoscale dynamics of the upper ocean and to provide optimized and qualified forecasts when combined with innovative data processing methods. Using surface current for ship routing in areas where the weather conditions do not prevail may allow to save about 1% of the fuel consumption.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily. It provides ocean current information relevant to ship routing in the ocean. Product in use 1 Product in use 2 Product in use 3

E MS • CM USE R

Actimar is a French company devoted to maritime and coastal activity. Our recent advances have benefited from improvements in modelling, operational systems and data processing methods. Our engineers bring in innovations from the research community, for the benefit of economic actors.

More information here Actimar

Contact Stéphane Raynaud raynaud@actimar.fr

www.actimar.fr

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.2

U S E CASES

SHIP ROUTING WITH THE SCANNAV NAVIGATION SOFTWARE CASE â&#x20AC;˘ USE OVE RVIE W

ScanNav provides all necessary tools and support for ship navigation and ship routing (e.g. raster and vector charts from National Hydrographical Offices), GPS and other instruments plug-ins for real-time navigation and/or post-analysis, maps to create routes overlaid with e.g. tide information, water levels or weather and ocean forecasts. ScanNav utilises surface current data from Copernicus Marine Service models in the European North West Shelf areas, the Iberia Biscay Ireland and Mediterranean Sea converted into Grib format. Surface current products are used for ship routing purposes through application of the ScanNav routing module. Other uses include fishing or diving activities and usage were visualization of currents is important. The User defines an area on the chart, send a request to the ScanNav server which returns the results directly via a website, or as an email reply. The service includes converting NCEP data to Grib data on user-selected areas. ScanNav customers are mostly focused on the leisure market. ScanNav also serves professional market customers especially with regard to distribution of Official ENC (Electronic Navigational Charts).

E NE FIT S â&#x20AC;˘ BFOR USE R

Free and sustained ocean currents and waves provision to feed

High quality information allowing consistent fuel saving and lower

ship routing software.

CO2 emission.

More accurate planning of arrival time. Safer sailing routes for human beings and boat equipment.

SCANNAV SHIP ROUTING NWS IBI MED OCEAN CURRENTS NAVIGATION SOFTWARE

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.2

U S E CASES

S A ND • FACT KE Y N UMBER S

MS • CME P RODUCT I N U SE

E MS • CM USE R

ScanNav is a French company providing Cartographic and Navigation software assisted by GPS to a variety of customers. ScanNav provides a navigation program that enables users to scan, merge, overlay (e.g. tides, danger areas or ocean and weather forecast information) and geo-reference large charts allowing safe navigation.

SCANNAV www.scannav.com/ More information here

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 2.1

U S E CASES

SMARTPHONE APPLICATION FOR SAILORS IN THE MEDITERRANEAN SEA CASE • USE OVE RVIE W

KAPTAN is a smartphone application for mariners developed by the Physical Oceanography Research Group, Dept. of Geosciences, University of Malta, as part of the CALYPSO FO project. It uses HF radar operational data, satellite data and numerical models to provide information on the present and predicted sea conditions in the Malta-Sicily Channel. KAPTAN has a user-friendly interface that provides users with marine weather maps and point data at the tip of their fingers. It centralises data from many sources (modelling, in-situ, satellite), including satellite data from the Copernicus Marine Service. KAPTAN maps those data using Google Earth mapping tools and redistributes them as ASCII files. It also provides a Google Maps application programming interface (API) for users who are also developers. It is one of the most frequently downloaded weather apps in Malta on the Apple App Store and has received 5-star reviews on Google Play.

E NE FIT S • BFOR USE R

Free and sustained information provision.

Provision of merged satellite information along with in situ information. Ready to use, global coverage, expertised satellite products.

KAPTAN MALTA MED SEA SMARTPHONE APPLICATION LEISURE SAILORS MET OCEAN DASHBOARD

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 2.1

U S E CASES

S A ND • FACT KE Y N UMBER S

Up until recently, sailors were planning their crossing using manual methods and books like pilot charts. New weather routing tools have now appeared on the market thanks to the mobile revolution. Sailers can improve their security onboard thanks to a better knowledge of the meteo and oceanic conditions. Crossings are safer for human beings and equipment on board.

MS • CME P RODUCT I N U SE

CMEMS Satellite Sea Surface Temperature products used in this application merge data from several satellites. The CMEMS products used provide with blended (L4 processing level) gridded estimation of the ocean temperature at 10 meter depth, merging the strengths of Microwave (i.e. temporal and spatial coverage) and Thermal Infrared (i.e. high accuracy and resolution) satellite radiometers measurements. Product in use 1

E MS • CM USE R

The University of Malta is the highest teaching institution in Malta. It is publicly funded and is open to all those who have the requisite qualifications. The supreme governing bodies of the University are the Council and the Senate. There are some 11,500 students including over 1000 international students from 92 different countries.

University of Malta www.um.edu.mt/ More information here

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.0

U S E CASES

SUPPORTING SHIP ROUTING IN THE BLACK SEA

CASE • USE OVE RVIE W

Members of the academic staff and students from "Dunarea de Jos" University of Galati (UDJG), Romania, are involved in research activities related with the Black Sea marine environment and maritime transportation. The Danube River and its connection with the Black Sea is the subject of one of the main research topics which focus on the sea state conditions at the mouths of the river and in the Black Sea basin. A 15-year high resolution data base of the sea state conditions in the Black Sea was developed in the framework of DAMWAVE project (http://www.im.ugal.ro/DAMWAVE/index_engleza.htm). Copernicus Marine Service altimeter measurements of the significant wave height were used to improve the predictions of a wave modelling system implemented in the Black Sea by means of the data assimilation methods. Based on the wave model results, various studies regarding the assessment of the wave climate in the Black Sea were performed with the objective to help the maritime navigation, offshore activities, etc. The Copernicus Marine Service significant wave height satellite data are assimilated into the DAMWAVE Black Sea wave model to improve wave prediction.

E NE FIT S • BFOR USE R

Assessment of the wave climate

Reliable information about sea states conditions in the Black Sea

Measurements cover the entire basin of the Black Sea

BLACK SEA MARITIME NAVIGATION SHIP ROUTING AVOID STORMS ROMANIAN COASTAL ENVIRONMENT DANUBE RIVER MOUTH

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.0

U S E CASES

S A ND • FACT KE Y N UMBER S

One of the key factors in the maritime navigation is the knowledge of the areas that are the most affected by extreme events. Based on the information available from the DAMWAVE project, several studies were further performed to identify the areas where storms are the most frequently encountered in order to better choose maritime routes.

MS • CME P RODUCT I N U SE

For the improvement of the wave model predictions by means of data assimilation, the CMEMS product used in the Black Sea was the satellite significant wave height product. Product in use 1

E MS • CM USE R

"Dunarea de Jos" University of Galati, Romania, is an educational public institution, with more than seventy years tradition in high education and research in the fields on naval architecture and marine engineering. From this perspective, a team from the academic staff and students are involved in research activities related with the marine environment and maritime transportation.

More information here Contact Liliana Rusu lrusu@ugal.ro

"Dunarea de Jos" University of Galati www.en.ugal.ro/

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.2 12/07/2017

U S E CASES

SUPPORT TO MARINE SEISMIC SHIP OPERATIONS

CASE â&#x20AC;˘ USE OVE RVIE W

CGG collects seismic data to image the subsurface of the Earth. At sea, this data is acquired by deploying large spreads of sensors: up to 14 cables separated by 100m each and up to 10km in length are towed between 7m and 50m below the sea surface. These operations can be affected by environmental conditions (sea current, swell, wind). Access to relevant marine information, through services like CMEMS, is essential to operation performance and safety. The oceanographic information is used at different stages of an acquisition. During preparation, past statistical data is processed to assess ocean conditions, identify risks and anticipate possible performance issues. During surveys, the global understanding of the ocean dynamics is needed to set correct equipment and sensors parameters, make real time decisions for managing the environmental risks, and ideally for optimizing acquisition strategy. Specifically, acoustic propagation parameters are based on water column information, the steering of the acquisition spread requires a good multilayer current anticipation, and accurate weather forecast ensures safe management and protection of the equipment.

E NE FIT S â&#x20AC;˘ BFOR USE R

Better knowledge of ocean conditions

Better understanding of the ocean dynamics

Better preparation at situation at sea

CGG SEISMIC SHIP OPERATIONS AT SEA TOWING CABLES RISK MANAGEMENT

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.2 12/07/2017

U S E CASES

S A ND • FACT KE Y N UMBER S

Seismic operations at sea are significantly affected by environmental factors including weather and ocean conditions. Accessing relevant marine information on the area of interest, through operational oceanography services and products, is essential to operation performance and safety. In some areas, the standby time due to weather can be up to 30 %, the time loss due to current and loss of coverage can amount 15 % of production time.

MS • CME P RODUCT I N U SE

CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily. Models over several areas are used; mainly Global Ocean models, but also regional models. They provide hydrodynamic forecast including high frequency processes of paramount importance to characterize regional scale information and the water column in area of interest. Product in use 1 Product in use 2 Product in use 3

E MS • CM USE R

CGG provides geoscience services and equipment for the Oil &amp; Gas industry. Acquisition represents a significant share of the activity alongside design and production of equipment and data processing. CGG manages a fleet of 5 high capacity ocean going vessels. They are engaged in worldwide operations for independent or national oil companies.

CGG www.cgg.com/en More information here Contact Laurent Dollon laurent.dollon@CGG.com

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

Copernicus Marine Service

Version 1.2 22/10/2018

U S E CASES

TIMEZERO, A WEATHER ROUTING MODULE

CASE • USE OVE RVIE W

TIMEZERO is a full marine navigation software solution for recreational sailing and motor boat users or for professional navigation, sold in more than 25 countries. It provides a route that will optimize the time taken to travel on a sailboat using the weather forecast information and your boat's polars. TIMEZERO's roots trace back to racing and pioneering the racing world by being the first to develop an algorithm to optimize the best route based on the forecasted wind, waves and currents as well as the polars of your boat. The weather routing module provides the fastest and or safest way to get across the finish line. More than 6,000 nautical charts are embedded from around the world. The Copernicus Marine Service Ocean current and wave forecast models are used in this application.

E NE FIT S • BFOR USE R

Wind speed cap and wave height cap are new features that now allow sailors to sail in security by limiting these two variables to optimize travel time while ensuring safety at sea

TIMEZERO NAVIGATION SOFTWARE RECREATIONAL SAILING, FISHING AND SHIPPING NAUTICAL CHARTS

MARINE NAVIGATION

Implemented by

Copernicus Marine Service

Version 1.2 22/10/2018

U S E CASES

S A ND • FACT KE Y N UMBER S

The algorithm used by the weather routing module is extremely reliable. For over 30 years, we have equipped the most demanding sailors. The module has also been integral in winning some of the legendary off-shore races, such as the Vendée Globe and the Transat Jacques Vabre. TIMEZERO Navigator comes with a suite of new features that allows to dramatically increase safety onboard. TIMEZERO allows to compute departure time according to various conditions (Tides, Currents, Transit Time, etc.), arrive at high tide or leave the harbor with optimal currents conditions.

MS • CME P RODUCT I N U SE

The Copernicus Marine Service Global ocean currents and waves forecast model are used in this application. Product in use 1 Product in use 2

E MS • CM USE R

MaxSea is the worldwide leader in marine navigation software for both recreational boating and commercial fleets.

MaxSea www.mytimezero.com More information here Contact FREDERIC ALGALARRONDO FRED@NOBELTEC.COM

MARINE NAVIGATION

COPERNICUS MARINE SERVICE

Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/

MARKETS

Copernicus Marine Service supports all sectors of the Blue Economy.

POLAR E NVI RONME NT M ONI TORI NG

The Copernicus Marine Service polar environment products allow users to assess environmental safety in both poles. These products are used by national sea ice services to serve many user groups like:  National authorities  Research institutes  Shipping companies

SCIENCE & CL IMAT E

We provide scientists with many products to conduct their environmental, climate and oceanographic research. They can rely on:  The Ocean Monitoring  The Ocean State Indicators (OMIs) Report, a flagship scientific publication

We provide public authorities and governments with key parameters to support the monitoring of habitats within conservation areas. Many variables can be monitored by each European Member State using the Copernicus Marine Service, such as:  Sea water eutrophication  Ocean noise

WATE R QUALI TY

SOCIET Y & EDUCAT ION

We develop ocean literacy tools for the general public, teachers, decision-makers etc. They are used to raise awareness about the multifaceted environmental pressures on the ocean:  Climate change  Overfishing  Plastic pollution

M ARI NE NAVI GATI ON

We provide products contributing to safer ship routing (can reduce fleet navigation risks in ice-covered areas) and more ecological and efficient marine navigation (by lowering fuel consumption):  Ocean current  Sea ice  Wave

N ATU RA L R ES O U R C ES & E N E R GY

Our ocean models provide key inputs to estimate ocean energy resources to:  Monitor  Evaluate ocean offshore sites energy resources These data are used by businesses researchers and decision-makers.

COASTAL M O NITO R IN G

The modelling method called “Downscaling” allows the Copernicus Marine Service data to be used to develop high resolution coastal models, useful for coastal management.

Using our products, each European Member State can:  Monitor sea water  Notably sea water quality in line with eutrophication in the European Marine areas impacted by Strategy Framework harmful algae blooms Directive (MSFD)

M A R IN E CO N S E RVAT I O N & PO L IC IES

M A R IN E FO O D

Our products and services are used to model fish habitats with variables like chorophyll and sea surface temperature, for example. These contribute to the sustainable management of:  Fisheries  Aquaculture farms

SA FE TY & D ISASTE R

Our daily forecast ocean model provides inputs for:  Search and rescue  Meteo-ocean software dashboards The ocean current model can be used for drift forecasting of oil spills that help government agencies to better plan emergency response operations.

COPERNICUS MARINE DATA FOR

S U G RF H A T C

EA S

IT N LI SA

AT ER T

ES A W

EA S

EN R

EA C

MARINE NAVIGATION

AVAILABL E VARIABL ES

Maritime Shipping companies

BEN EF IT S

Research institutes

Free and open, sustainable and reliable oceanic information Used as input for ship routing and met-ocean softwares Used to ďŹ nd the safest and most economic and ecological navigation routes Private companies EN VI RO N MEN TAL & S OC IETAL IMPACT S

Insurance companies

Reduction in fuel consumption to minimize cost and carbon footprint Governmental & public agencies

Faster and safer navigation routes for human beings and boat equipment Support decision-making and meteo-ocean platforms to reduce risks and pollution due to marine navigation

The Copernicus Marine Service provides key ocean parameters contributing to safer and more ecological marine navigation.

Implemented by

marine.opernicus.eu

@CMEMS_EU

Copernicus Marine Service

servicedesk.cmems@mercator-ocean.eu