In short

1. Stable power on the cage and barge

2. Stable internet

3. One of these compatible feeding systems

Detailed requirements

These requirements define the optimal environment for CageEye systems. If any of the requirements are not met the CageEye service will be impacted as described in each point.

Related documents:

• Environmental parameter limitations: EN/NO/ES Environmental parameters limtiations / Grenseverdier for bruk / Límites de exposición ambiental

1 Physical requirements

1.1 Limitations in use/performance with other specific components

Main components

Component	Problem	Solution

Component	Problem	Solution
Cage type: Hvalpsund HD500NG	Open Conflict between the top bracket fixture and the handrail post.	Use stainless ratchet straps or rope to tie the top part of the bracket to the pole.

Extra equipment

Aside from these components, the equipment is compatible with any other component that is not directly interfering with it. It is compatible with predator nets.

1.2 Cage requirements

• Minimum 15m deep nets, which gives a 13m sensor head distance.

1.2.1 Coverage for different cage sizes:

1.2.1 Coverage for different cage sizes:

Cage type	Estimated total coverage

Cage type	Estimated total coverage
Open 160m circumference 40m to deepest point. 25m distance between sensor heads.	~ 40%
120m circumference 30m to deepest point. 25m distance between sensor heads.	~50%
130m circumference 45m to deepest point. 25m distance between sensor heads.	~80%
Square 40x40m 30m to deepest point. 20-25m distance between sensor heads.	~25%
Square 30x30m 25m to deepest point. 15-20m distance between sensor heads.	~30%
Square 25x25m 20m to deepest point. 15m distance between sensor heads.	~50%

1.5 Operational feeding system with integration.

CageEye is compatible with these feeding systems. The blowers, dosing, changers, piping, feed spreaders need to be in working condition.

2 Power Requirements

2.1 Power at barge

The CageEye system requires 2kW @ 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 and IEC/EN 61000-6-3.

A ground fault circuit interrupter must be used.

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

2.2 Power at cage

Estimated continuous power requirements for all sensor devices in cage: 60 W.
The CageEye system requires 60 W @ 230V 50hz outlet at the cage. The power supply must have a C16A or a D16A circuit breaker. A ground fault circuit interrupter must be used.

3 Network Requirements

CageEye uses two operating models. Customer managed network, and unmanged network.

3.1 Unmanaged networks

CageEye will install a server on the barge that needs to be on the same network as the feeding systems and the feeding cameras. Remote connections to operations centers can be set up in cooperation with the customers technical staff. CageEye needs to use radios to communicate with the sensors on the cages.

3.1.0 Ports used by the CageEye server

3.2 Managed networks

For a detailed requirements for operating in customer managed networks see this page. [Private]https://bluegrove.atlassian.net/wiki/spaces/TRB/pages/1305903173/Bluegrove+Cybersecurity+practices#Operating-in-customer-managed-networks. Ask a CageEye representative to get access to this page.

3.3 Optional: Cage to barge network with radio.

If no cage to barge network is available, CageEye can set up a cage to barge network with radio. We typically use the 5GHz band. We use Ubiquity Rocket AC on the barge, and Ubiquity Bullet AC on the cage.

We configure the radio to use given frequencies between 5190-5940 GHz, alternatively the radio can be configured to automatically seek out new frequencies detects interference.