Why Real-Time Data Matters to the Maritime Industry

In the face of the current 4th industrial revolution, it is interesting to take a look what changes are taking place in the virtual space of maritime transport. This month, we wanted to share with you an article, originally posted on the Sofar Ocean website, dealing with real-time data and why it matters to the maritime industry and its on-shore and off-shore actors. 

 

Logo-SofarOcean

This article originally appeared on the Sofar Ocean website

Over 90% of the world’s trade is in the hands of the international maritime shipping industry. Every year, it moves more than USD 4 trillion of goods. For shipping companies, there’s a lot of pressure to remain on schedule, protect the cargo ship and crew, and ensure profitability. It is not an easy task.
This interactive map of the world’s main shipping routes provides a glimpse of the industry’s complexity. 90,000 vessels cross paths as they transport goods from one continent to another on a daily basis.

 

The map was created by London-based data visualisation studio Kiln and the UCL Energy Institute

It’s clear from this map that the maritime industry involves an intricate system of transportation. To complicate things, ports and vessels are also subject to the forces of nature, which are becoming harder and harder to predict. With all of these obstacles in the way, shipping companies must be able to adapt to changing situations and act fast. This is where Sofar Ocean comes in. We believe that with real-time big data analytics, however, the maritime industry can better navigate these unexpected challenges.

What is Real-Time Big Data?

Big data is a field that extracts and analyses data from data sets that are too large or complex to be dealt with by traditional data-processing application software. Real-time capabilities mean that those insights are delivered immediately after collection.

How does Real-Time Big Data Help the Maritime Industry?

Maritime companies generate data from different sources and in several formats. Traditionally, these insights are fixed, siloed, and inconsistent. Actioning this information is time-consuming and a major complication point for shipping companies.

With big data tools, this inflow of data is collated and organised in a cloud-based system. This system then analyses and extrapolates the relevant data in real-time, which promotes better decision making. Nothing is left to intuition or chance—therewith unlocking opportunities to drive greater efficiencies.

Efficient Maritime Operations and Logistics

Overall operations and logistics, for example, become much more efficient with real-time data. Companies can obtain information through GPS and RFID tags to help locate containers and ships immediately. Data technology also helps synchronise communication to manage ship arrivals, berthings, and departures safely and efficiently. And in case of an emergency, non-availability of the labour, or terminal allocations, real-time data helps ships plan their routes and speeds accordingly.

Due to climate change, this ability to pivot has never been so relevant. Although the interactive map above demonstrates that the global maritime industry is a well-oiled machine, the ocean’s climate—currents, waves, and wind—are more unpredictable than ever. Real-time data streamlines decision making and supports ad hoc navigation to ensure companies maximise returns.

Fuel-efficient routing

By having access to real-time sea state observations—currents, waves, and swell—vessel operators can re-route according to current ocean and weather conditions while optimising fuel efficiency. Inefficient weather routing oftentimes leads to the increased time spent at sea, which not only disrupts and delays the supply chain but can also increase fuel burn and CO2 emissions.

In addition to increasing voyage earnings, fuel-efficient routing also reduces greenhouse gas (GHG) emissions, supporting the latest GHG reduction strategy developed in 2018 by the International Maritime Organization. The initial strategy envisages that the total annual GHG emissions from international shipping should be reduced by at least 50% by 2050 compared to 2008 levels. What does 50% look like? The IMO calculated that vessels released 1.12 billion metric tons of carbon dioxide the year before, in 2007. So we can guess that emissions need to be reduced by 560 million metric tons. That’s equivalent to emissions from 102 million cars!

So are we saying that real-time data helps reduce fuel costs and GHG emissions? Yes, yes we are. Not a bad day at the office.

Is Real-Time Big Data Safe From Cyber Threats?

We hear this question a lot, and rightly so. The convergence of information technology (IT) and operational technology (OT) onboard ships—and their connection to the internet—creates an increased attack surface that requires greater cyber risk management.

On the IT side, the chances of cyberattacks can be mitigated through proper implementation of encryption techniques like blockchain technology. From an operational standpoint, IMO maintains that effective cyber risk management should start at the senior management level—embedding a culture of cyber risk awareness into all levels and departments of an organisation. You can read more about this in BIMCO’s Guidelines on Cybersecurity Onboard Ships.

Full Speed Ahead for the Maritime Industry

Is it possible that the maritime industry can become bigger and better? More lucrative, while emitting less GHG emissions? We believe so.

Knowledge is power. By implementing real-time insights in daily operations, shipping companies are well-positioned to navigate anything that comes their way. And how this year has gone, it certainly doesn’t hurt to have an edge on the unexpected.

Curious what real-time data looks like? Take a peek at Sofar Ocean’s publicly available weather network dashboard, which offers real-time open-ocean marine weather observation data from over 500 weather sensors worldwide!

This article was originally posted on Sofar Ocean