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=Topics from meeting (October 14)=
 
=Topics from meeting (October 14)=
  
Attendees:
+
Attendees: Mark Johnson, Matthew Swabey, James Krogmeier, Jason Holmes, Scott Stack, Chris Romanoff, Kin Chin Chua, Michael Piercy
 +
 
 +
 
 +
 
 +
Development board chosen: MCBSTM32EXL
 +
 
 +
Advice for group members:
 +
*Document everything!
 +
*Take pictures of specific milestones
 +
*Write down design decisions and the reasons for those decisions
 +
*Obtain printouts of any signals or other relevant plots of data
 +
*Keep all this on your Rhea design notebook
 +
 
 +
 
 +
Tasks for the upcoming week:
 +
 
 +
1.Begin prototyping with the development board to make sure that it can perform all the tasks we need it to.
 +
*Write down specific tasks and requirements
 +
*List how the board matches each requirement
 +
*State anything lacking
 +
 
 +
2. Choose a wireless tranceiver that can communicate with our processor (Cortex M-3)
 +
 
 +
3. Choose a vehicle platform or two and get data on them.
  
 +
4. Decide on the environment where the vehicle will be driven
 +
*Will it be inside, outside, etc.
 +
*What obstacles should it be able to handle
 +
*What specific sensors will be used and what is their purpose
 +
*Are there any environments we are excluding in our design parameters?
  
  

Latest revision as of 03:45, 17 October 2011

Topics from meeting (October 14)

Attendees: Mark Johnson, Matthew Swabey, James Krogmeier, Jason Holmes, Scott Stack, Chris Romanoff, Kin Chin Chua, Michael Piercy


Development board chosen: MCBSTM32EXL

Advice for group members:

  • Document everything!
  • Take pictures of specific milestones
  • Write down design decisions and the reasons for those decisions
  • Obtain printouts of any signals or other relevant plots of data
  • Keep all this on your Rhea design notebook


Tasks for the upcoming week:

1.Begin prototyping with the development board to make sure that it can perform all the tasks we need it to.

  • Write down specific tasks and requirements
  • List how the board matches each requirement
  • State anything lacking

2. Choose a wireless tranceiver that can communicate with our processor (Cortex M-3)

3. Choose a vehicle platform or two and get data on them.

4. Decide on the environment where the vehicle will be driven

  • Will it be inside, outside, etc.
  • What obstacles should it be able to handle
  • What specific sensors will be used and what is their purpose
  • Are there any environments we are excluding in our design parameters?






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Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva