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Created a list of all things that need to be interfaced with the processor and what kind of interface each one needs:<br> | Created a list of all things that need to be interfaced with the processor and what kind of interface each one needs:<br> | ||
| − | + | Interfaces Needed For Processor | |
| + | |||
| + | 1)Motor Control - 4 total PWM channels for right motor and left motor plus 2 additional ones to control the turret rotation and barrel pitch. Whether or not a PWM is 100% necessary will need to be discussed with Hong Kong. | ||
| + | 2)Wireless Module – 1 SPI/UART/I2C interface to send data and configure the wireless module which will in turn send the data over the internet. The chosen tranceiver can handle all of those interfaces - the one chosen will be based on the required throughput. | ||
| + | 3)Camera choices: | ||
| + | a)Wireless IP camera – (nothing required for processor) | ||
| + | b)Integrated camera – 9 General purpose IO and one I2C interface. Most CMOS cameras have 8 bit parallel output for image data and can be intialized and configured through an I2C interface. So, the board needs 8 general purpose for parallel data input and one for data clock. I2C interface to configure camera. | ||
| + | 4)Accelerometer – 3 A/D input (1 for each axis) | ||
| + | 5)IR Proximity Sensors – max of 4 A/D converter inputs (one for each sensor) | ||
| + | 6)Pushbutton to detect collision – max of 4 general purpose IO (one for each button) | ||
| + | 7)Fire Cannon (optional) – 1 general purpose IO (output a digital 1, which may need driving to fire) | ||
| + | 8)GPS – (optional) – 2 General purpose IO pins for UART. | ||
Revision as of 05:50, 28 October 2011
Topics from meeting (October 25th)
Created a list of all things that need to be interfaced with the processor and what kind of interface each one needs:
Interfaces Needed For Processor
1)Motor Control - 4 total PWM channels for right motor and left motor plus 2 additional ones to control the turret rotation and barrel pitch. Whether or not a PWM is 100% necessary will need to be discussed with Hong Kong. 2)Wireless Module – 1 SPI/UART/I2C interface to send data and configure the wireless module which will in turn send the data over the internet. The chosen tranceiver can handle all of those interfaces - the one chosen will be based on the required throughput. 3)Camera choices: a)Wireless IP camera – (nothing required for processor) b)Integrated camera – 9 General purpose IO and one I2C interface. Most CMOS cameras have 8 bit parallel output for image data and can be intialized and configured through an I2C interface. So, the board needs 8 general purpose for parallel data input and one for data clock. I2C interface to configure camera. 4)Accelerometer – 3 A/D input (1 for each axis) 5)IR Proximity Sensors – max of 4 A/D converter inputs (one for each sensor) 6)Pushbutton to detect collision – max of 4 general purpose IO (one for each button) 7)Fire Cannon (optional) – 1 general purpose IO (output a digital 1, which may need driving to fire) 8)GPS – (optional) – 2 General purpose IO pins for UART.
Wireless Transceiver
Our choice of camera will impact what kind of bandwidth our wireless transceiver will need to handle . We determined that most image sensor cameras output too much data to be sent usefully over the internet (wireless transceiver can handle a max of 1 Mbit per second UART, but also has a 44MHz clock and SPI - so any reasonable data rate could be handled. A 640x480 color image from one of the cameras we looked at will produce about 16Mbits per second at 30 frames per second.) . We tried to figure out a way to either interface an IP camera to our website or reduce the amount of data coming from a camera. This will have to be done using MJPEG compression.
