OPTIMIZE your vessel performance with easy-to-use TECHNOLOGY.

Our approach is data driven – we collect data from onboard systems through our proprietary Eniram Platform™, which is complemented with data from Eniram Sensors. Data is then transmitted to the Eniram data center for further analysis and statistical modelling. What your crew sees on their displays is the result of millions of measurements we collect every day. Everything happens within a matter of seconds.

Optimizing ship performance is a key method for shipping companies to decrease emissions and keep up with environmentally-friendly best practices. By collecting and analyzing onboard KPI data, shipowners and operators can continually grow vessel and fleet intelligence in order to improve fuel efficiency and remain competitive.

Eniram Platform gives the shipping industry a foundation to optimize the performance of their vessels. New applications addressing speed and engine management can now be combined with Eniram’s dynamic trimming technology to collectively achieve fuel savings of up to 10%.

Hundreds of Vessels are equipped with Eniram Platform

Demo request    Download Platform datasheet    Download brochure

Invest in a Data Warehouse

Eniram Platform is a real-time data collection platform that measures vessel performance and fuel consumption. Eniram Platform collects data from onboard bridge and automation systems (sample frequency: 1.16Hz ~ 4 million measurements / day) and complements this with data from Eniram attitude sensors. This data is then stored to Eniram Data Warehouse for future references, further analysis and complex modelling. Eniram’s Propulsion Power Decomposition (PPD) brake-down provides information on how much energy is consumed into different components, see below.

ppd-pie-chart-DARK (2)


Performance-Affecting Factors

product-analytics-languageEniram models are taking into account all prevailing conditions, like seastate and weather conditions.

By combining the latest statistical methods with best practices of naval architecture, we build a dynamic model of your vessel which can estimate the impact of all factors in real-time. This model is highly critical to understanding the TRUE cost-structure of your operations.

Integration

Eniram Platform integrates to 3rd party data sources and translates this data to a common data format utilized throughout Eniram systems. Most of these 3rd party systems communicate via RS-422/RS-485 serial line using NMEA0183 or MODBUS protocols. However, in order to ensure we can receive data from any onboard system, there are some 50 different protocols that Eniram Platform can communicate with.

Data Management

All data received by Eniram Platform is translated into a standardized Eniram data format that includes a reception time stamp, a standardized name for a variable, unit of the value and the value of the received signal. These data points are stored into database that includes four types of signals:

  1. Time series data: continuous received signals such as “Propulsion Power”
  2. Discrete events including structural data such as “Hull cleaned”
  3. State changes, such as from ”manoeuvring” to ”cruising”
  4. System configurations, like statistical models utilized by Eniram applications

All data is also transferred to the Eniram Data Warehouse via a satellite link. We utilize an SSH connection to ensure that the security of the data is not compromised.

Onboard Application Platform

Eniram Platform also hosts all Eniram onboard applications on a web application server enabling access via any web-enabled device such as PC, iPad or Android devices.

System Delivery

Our Services team works closely with our customers to ensure that onboard installation of Eniram systems takes place as efficiently as practical, taking into account resource requirements and vessel schedules. Read more

Our Technology

Today’s ships are equipped with numerous sensors and advanced systems which help the crew to operate vessels more efficiently. However, the data produced onboard is far from being utilized to its full extent. By tapping into this unexploited data stream, substantial fuel efficiencies are enabled. Read more