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Chris Monfredo Chris Johnson Jon Holton Greg Davis Scott Hambleton 09/10/13Rochester Institute of Technology1 P14251 Underwater Acoustic Communication.

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Presentation on theme: "Chris Monfredo Chris Johnson Jon Holton Greg Davis Scott Hambleton 09/10/13Rochester Institute of Technology1 P14251 Underwater Acoustic Communication."— Presentation transcript:

1 Chris Monfredo Chris Johnson Jon Holton Greg Davis Scott Hambleton 09/10/13Rochester Institute of Technology1 P14251 Underwater Acoustic Communication

2 09/10/13Rochester Institute of Technology2 Agenda  Introduce Team  Project Background  Problem Statement  Project Deliverables  Real World Uses  Customer Requirements  Engineering Requirements  Draft of Project Plan

3 09/10/13 Rochester Institute of Technology 3 Underwater Acoustic Communication

4 09/10/13Rochester Institute of Technology4 Project Background  Boeing in conjunction with RIT will this year begin the design and production of an underwater unmanned robot.  This project will be divided between many multidisciplinary design teams over multiple years.  Our section of the robot involves a limited bandwidth communication system.

5 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology5 Problem Statement  Development an acoustic communication system between multiple robots  The system will be used for short range communication  The system must be able to function underwater  Showcase RIT's technological and production facilities

6 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology6 Use Cases  Communication between boat on the surface and underwater robot  Future Path: Intelligent robotic swarm communication

7 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology7 Customer Requirements

8 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology8 Engineering Requirements

9 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology9

10 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology10 Customer Constraints  Acoustic communication scheme  Max power consumption of 15 Watts  Total project budget of $1750

11 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology11 Project Deliverables  Two communication modules A waterproof housing Speaker and hydrophone Internal processing circuitry Communication lines to computer for debug User-end and micro-controller programming

12 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology12 Electrical

13 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology13 Mechanical

14 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology14 Computer

15 Underwater Acoustic Communication 09/10/13Rochester Institute of Technology15 Issues & Corrective Actions Dimensions for the housing are still unknown -Corrective action: Get electrical components and figure out dimensions after We still need a method to measure corrosion -Corrective action: Research ASTM or ASME standards for aquatic application We would like to have more information about the planned power system of the whole robot -Corrective action: Talk to robotics club, thermoelectric team, or Kevin Meredith

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