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About the requirements

These requirements define the optimal environment for Bluegrove systems. If any of the requirements are not met the Bluegrove service will be impacted as described in Impact of infrastructure loss atthe end of this page.

Power Requirements

1: Power at barge

The CageEye system requires 2 kW @ 230V 50hz at the barge.

The system complies with the international EMC standards:

• IEC/EN 60950-1

• IEC/EN 61000-3-3

• IEC/EN 61000-6-1

• IEC/EN 61000-6-3

In case of power source problems such as noise, spikes, brownouts and blackouts, an Online UPS system needs to be installed to accommodate continuous power stability and availability.

9: Power at cage

The CageEye system requires 60 W @ 230V 50hz outlet at the cage.

Estimated continuous power requirements for all sensor devices in cage: 60 W

Winch power requirements: 500 W

Underwater lights power requirements: 350 W

Refer to suppliers technical datasheets for exact requirements.

In case of power source problems such as noise, spikes, brownouts and blackouts, an Online UPS system needs to be installed to accommodate continuous power stability and availability.

Network Requirements

2: Barge local network

Ethernet 802.3ab compatible connection available for all barge services.

Required network performance to provide optimal services:

• Bandwidth, uptime, latency, packet loss and jitter between devices on barge network

10: Cage to barge network

Ethernet 802.3ab compatible connection available for all cage services.

Required network performance to provide optimal services:

• Bandwidth, uptime, latency, packet loss and jitter between devices on barge network and devices on cage

6a: Internet (NB; see also 6b)

Services dependant on dedicated internet connection bandwidth with minimum requirements:

• Upload bandwidth, uptime, latency, packet loss and jitter between devices on the barge network and CageEye Cloud.

• If the internet subscription has a monthly limit for traffic we need 100 GB a Month.

6b: Barge to Feeding Operations Center network

Services dependant on dedicated network connection bandwidth with minimum requirements:

• Upload bandwidth, uptime, latency, packet loss and jitter between devices on the barge network and the Feeding Operations Center.

Integration Requirements

3: Feeding system

Requirements version 0.0.6. 

Bluegrove maintains a list of feedingsystems and their compatibility and known limitations.

This section defines requirements for controlling a feeding system for sea-based and land based aquaculture.

Intention

Enable the fish farmer to:

• Maintain high uptime of its feeding processes.

• Safely enable interaction between applications while minimizing risk of service outages.

• Procure, replace or remove software from any vendor in a modular way.

• Maintain high data and operational security

• Get early warning about errors and the possibility of investigation through logging.

• Enable access on an individual level, and integrate with the company's userdirectory.

• Maintain robust local feeding operations with unreliable internet.

• Enable remote control of feeding operations at different sites with full functionality without the use of VPN.

• Enable control of feeding operations on one user interface, regardless of feeding system vendor.

• Enable frequent and high-resolution data collection from feeding operations.

• Safely control feeding operations remotely with no or unstable internet.

• Enable scale in the data collection by using good practices like “Report by exception/change” and avoiding polling.

Definition

Sketch of feeding machinery

• Unit: The unit where feed is dispensed to the consumers. Example: Cage or tank used in aquaculture.

• Feeding system: The machinery/installation which executes the feeding. Feeding barge at sea. Example: Land based feeding installation.

• Feeding control system: The industrial control devices controlling the machinery in the feeding system. Example: The PLC controlling the feeding system. The server controlling the PLC.

• Feeding Line: The feeding system internal feeding line. in the control system. Feedlines can sometimes be routed to different pipes by "changers". Example: Feeding line inside a barge connected to a blower and one or more feed silos.

• Pipe The pipe or conveyor to transporting the feed from the feeding system to the place where it will be consumed. Example: The feed pipe from a barge to a cage.

Out of scope features

• Feeding tables. A plan for dispensing feed over time. Often provided by the Feeding control system or feeding application.

• Automatic feeding. A configurable plan for dispensing feed over time which is executed by the feeding system. Often provided by the feeding control system.

• Biological data. Data on species, number of fish, weight, mortality etc. Often provided by the Feeding control system, ERP or planning tools.

• Calibration of feeding dosers. Calibration of dosers to dispense the correct amount of feed. Often provided by the Feeding control system.

• Line configuration. An operation that moves a pipe from one cage to another. The operator then updates it in one system, which then makes it available to other systems by API. Often provided by the Feeding control system.

• Dosing of feed. The industrial control system achieves the desired intensity by operating the dosing machinery. Often provided by the feeding control system.

• Silo management. Used for selecting type of feed. Often provided by the Feeding control system.

Required functionality.

• Feeding Mode

  • Enables switching between manual and automatic feeding.

• Set Intensity

  • Sets the feeding intensity for a pipe.

• Alarm Warning Or Stop Message

  • Alarms, Warnings, or stop messages from the feeding control systems.

• Feeding Lines Avaliable

  • Lists the available units(cages) avaliable to each feeding line, by changer or directly connected.

• Enable And/Or Change Feed Line To Conveyor

  • Operates the changers to connect one line to the selected pipe.

• Feedline Status

  • Describes which pipe(cage) the feedingline in the feedingsystem is connected to. Also gives the status of the feedline.

• Feedline Blower Level

  • The set power of blowing in percent from maximum of 100%. 0 when off.

• Feedline Pressure

  • The pressure inside a feedpipe.

• Feedline temperature

  • The temperature inside a feedline.

• Feedline airspeed

  • The airspeed inside a feedpipe.

Lack of functionality for this functionality results in 

11: Cage camera system w/winch - Required for utilizing machine vision features

RTSP or equivalent. The video needs to be clear enough that a human can detect individual pellets.

API for controlling:

• Winch

• Pan, tilt and Zoom(PTZ)

API for reading:

• Depth and 

• Orientation.

• Tilt

12: Cage surface camera- Required for utilizing future CageEye releases

RTSP or equivalent.

API for controlling:

• Pan, tilt and Zoom(PTZ)

API for reading:

• Orientation.

• Tilt

13: Cage environmental sensors - Required for utilizing future CageEye releases

Sensors at cage: 

Oxygen, salinity, temperature

Barge and feeding system

5: Farm environmental sensors - Required for utilizing future CageEye releases

Sensors at farm: 

Oxygen, salinity, temperature, water-current, weather

4: User terminal at barge (PC with UI)

PC with at least 1 display screen per 12 cages: Minimum 24”, 1920x1080 resolution

Mouse/Keyboard

Chrome Browser

7: User terminal remote (PC with UI)

Optional remote PC with at least 1 display screen per 12 cages: Minimum 24”, 1920x1080 resolution

Mouse/Keyboard

CageEye VPN Installed

Chrome Browser

3: Operational feeding system

The blowers, dosing, changers, piping, feed spreaders needs to be in working condition.

14: System installation

Installation in accordance with our user manual.

Impact of infrastructure loss