Difference between revisions of "Autonomous Underwater Vehicle"

From MIT Technology Roadmapping
Jump to navigation Jump to search
Line 16: Line 16:
==Figures of Merit (FOMs)==
==Figures of Merit (FOMs)==


[[File:AUV spec mini.png|frameless]]
{| class="wikitable"
|-
! FOM name !! Units !! Description
|-
| Operating Distance || km || Distance that can be traveled in an operation
|-
| Speed || km/h || Cruising speed in the water
|-
| Payload || kg || Useful payload that can be carried
|-
| Diving Depth || m || Depth that can be reached
|-
| Endurance || h || Hours that can be operated
|-
| Sensing Accuracy || m || Accuracy of sensing the objects in the water
|-
| Energy Capacity || kWh || Energy capacity that is stored in the vehicle
|-
| Recharging Time || h || Hours that is needed to recharge energy
|}

Revision as of 13:16, 1 October 2020

Roadmap Overview

Throughout history, the ocean has been a vital source of sustenance, transport, commerce, growth, and inspiration. Yet for all of our reliance on the ocean, more than eighty percent of this vast, underwater realm remains unmapped, unobserved, and unexplored. AUVs provide great opportunities for exploring our oceans. An autonomous underwater vehicle (AUV) is a robot that travels underwater without requiring input from an operator.

Design Structure Matrix (DSM) Allocation

Roadmap Model using OPM

This diagram captures the main object of the roadmap (Autonomous Underwater Vehicle), its various instances including its decomposition into subsystems (Sensors, Navigation, propulsion, Battery, etc…), its characterization by Figures of Merit (FOMs) as well as the main processes (Surveying, Recharging, etc).

AUV OPM.png


An Object-Process-Language (OPL) description of the roadmap scope is auto-generated and given below. It reflects the same content as the previous figure, but in a formal natural language.

AUV OPL v1.png

Figures of Merit (FOMs)

FOM name Units Description
Operating Distance km Distance that can be traveled in an operation
Speed km/h Cruising speed in the water
Payload kg Useful payload that can be carried
Diving Depth m Depth that can be reached
Endurance h Hours that can be operated
Sensing Accuracy m Accuracy of sensing the objects in the water
Energy Capacity kWh Energy capacity that is stored in the vehicle
Recharging Time h Hours that is needed to recharge energy