intro

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intro [2019/10/04 13:17] – [The motors] nikolalintro [2022/09/19 11:34] (current) – external edit 127.0.0.1
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 ====== Introduction ====== ====== Introduction ======
 +The goal of the project, is to be able to perform persistent tracking of acoustic fish tags through combining sensor readings from multiple vessels through multilateration. To further break this down, a scenario of the type of mission is given below.
  
-The Otter ASV is a meters long catamaran propelled by two electrical fixed thrustersThis means that steering has to be done through differential thrust by the controller.  +^ # ^ Mission Phase ^ Description ^  
-===== The controller box ===== +| 1 | Transport | Bring the equipment to the deployment area. | 
-The controller box is based on a Raspberry Pi 4 with 4GB of RAMConnected through it's GPIO pins is a [[https://www.sfeerralabs.cc/product/strato-pi-can-board/|Strato Pi CAN]] board that provides a robust power supply in addition to multiple communications interfaces and an independent hardware watchdogA CAN network connects the Raspberry Pi to the Torqeedo Interface cardThus it has access to both power channel and motor control. There is a passive PoE injector providing power for the external BulletAC IP67It also contains s SLIM interface board that synchronizes and reads the RS-485 serial communication from the TBR-700 -/RT hydrophone.+| Deployment | Assemble and prepare the vesselEnsure supporting systems (Server/Operator console) are running. Launch vessels. | 
 +| 3 | Travel to search area | Vessels travel from deployment area to search area. | 
 +| 4 | Collaborative search | Search area is divided between vessels. Ends after first tag detection. If first search yields no result, perform predetermined action, like searching again or extending search area. | 
 +| 5 | First tag contact | First contact with acoustic tag. The detecting vessel waits or tries single vessel tag positioning. Other vessels congregate to its vicinity, entering formation. | 
 +| 6 | All vessel tag contact | Enter tag formation to commence collaborative fish tracking. | 
 +| 7 | Collaborative fish tracking | Keep formation around tag to estimate its position. | 
 +| 8 | Tracking end | Mission finished or battery level low – wait for pickup or return to predetermined point (like deployment point). | 
 +| 9 | Berthing/ Dismantling equipment | Removing the vessel from the water.
 +| 10 | Transport | Pack up equipment and leave deployment area | 
 + 
 +===== Collaborative Fish Tracking ===== 
 + 
 +{{ :scenario.png?400|}} 
 +A visual representation of the most important phase of the scenario, the fish tracking, 
 +is shown in the figure. Here, the three Fish Otters have gained contact with tagged fish, 
 +and is using multilateration to estimate its positionBased on the estimate, decisions are 
 +then made regarding the next position of the formationThe formation also has to try to 
 +minimize GDOP, while at the same time avoiding surrounding hazards and reducing the 
 +thruster usageReducing motor usage is beneficial because it conserves the stored energy 
 +and reduces noise in the medium (water)Increased noise makes it harder for the acoustic 
 +receiver to discern tag transmissions and may also influence the fish behavior. 
 + 
 +The communication between the operator and the vessels, can, as shown in the figure 
 +go through two channels: the public cellular network, and the private Ubiquiti AirMax 
 +network. Either one, or both at once is to be used, with the expectation that bandwidth 
 +and increased network control will be benefits of the AirMax channel, while range is the 
 +benefit of the cellular communications. 
 + 
 +Positioning of the vessels is based on GNSS systems, which also is a multilateration 
 +system. The GNSS can be used as an inverted analogy for the fish tracking performed by 
 +the OttersIn the GNSS, the satellites transmit signals, with the Otters receiving them. 
 +In the fish tracking scenario, the Otters have the same role as the satellites, but instead 
 +receives the message sent from the acoustic tag for surveillance purposes. 
 + 
 +===== The NTNU Fish Otter ===== 
 +The target vessel for the system is the NTNU Fish Otter, with its main entities as shown in the diagram. Further details on the vessel is given in their own sections, available from the menu. 
 +{{ :otteroverallhw.png?600 |}}
  
-//Insert block diagram image here// 
-===== The thrusters ===== 
-The thrusters used by the Otter are two [[https://www.torqeedo.com/en/products/outboards/ultralight/ultralight-403/1404-00.html|Ultralight 403]] motors by Torqeedo. They can provide a maximum propulsive power of 180 W each, and would be the equivalent of 1HP each according to the manufacturer. It can do a maximum   of 1200rpm for the propeller. 
-===== The batteries ===== 
-The batteries are of the shelf [[https://www.torqeedo.com/en/products/accessories/spare-batteries/battery-915-wh-ultralight-403/1417-00.html|Torqeedo batteries]] developed for use with their electrical outboard motors. The Otter can carry four of these batteries, for a total capacity of 3660Wh, or 124Ah. This provides the Otter with up to 20 hours of battery powered operation, depending on speed and payload(according to [[https://www.maritimerobotics.com/otter|Maritime Robotics]]). 
  
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