The document introduces Yamada, an engineer whose philosophy is to lead a "Dynamic life". He became interested in engineering after reading books on automotive engineering in junior high school. He has a master's degree in mechanical engineering and experience as a technical director for a student formula car project. His goals are to work in robotics, mechatronics or factory automation research and development as a technical manager or advanced engineer. He believes in using mathematics and physics to model and simplify complex problems and systems.
The document discusses the capabilities of the Raspberry Pi compared to an Arduino. It summarizes that the Raspberry Pi has:
1) A 32-bit CPU running at 84MHz compared to the Arduino's 8-bit AVR CPU.
2) More memory resources including 96KB of SRAM and 512KB of flash.
3) Advanced peripherals including 53 GPIO pins, 5 UARTs, SPI, CAN and PWM interfaces well-suited for sensor reading, valve control, and analog output.
The document introduces Yamada, an engineer whose philosophy is to lead a "Dynamic life". He became interested in engineering after reading books on automotive engineering in junior high school. He has a master's degree in mechanical engineering and experience as a technical director for a student formula car project. His goals are to work in robotics, mechatronics or factory automation research and development as a technical manager or advanced engineer. He believes in using mathematics and physics to model and simplify complex problems and systems.
The document discusses the capabilities of the Raspberry Pi compared to an Arduino. It summarizes that the Raspberry Pi has:
1) A 32-bit CPU running at 84MHz compared to the Arduino's 8-bit AVR CPU.
2) More memory resources including 96KB of SRAM and 512KB of flash.
3) Advanced peripherals including 53 GPIO pins, 5 UARTs, SPI, CAN and PWM interfaces well-suited for sensor reading, valve control, and analog output.