PROTOTYPING DELAYED MIRROR USING RASPBERRY PI
García Martínez, Carlos (2017)
García Martínez, Carlos
Kaakkois-Suomen ammattikorkeakoulu
2017
All rights reserved
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2017121521580
https://urn.fi/URN:NBN:fi:amk-2017121521580
Tiivistelmä
This thesis has a main goal, to make technology more reachable for users related with performing arts, and sports environments. These users, will be able to interact with the developed model based on embedded system as Raspberry Pi 3B and C++ based software, as openFrameworks, combination.
The objective is also to improve the knowledge in electronic technologies which can be associated to Raspberry, and then to expand the functions of it, to be able to apply them into the main goal previously described.
Also the learning about SPI connection and how can be used in this situations, it is definitely a good way to grow up in technologies. This method will be used in order to connect the devices which produce bus signals and have them into the Raspberry Pi, having, in this way, the option to work with them.
Finally it is important in this Thesis the way to receive analog signals into Raspberry. In order to do this, it will be used a analog/digital converter chip, MCP3008, to get them, as digital ones, and have the information into our ARM system. Then process these signals and translate them into new signals through the different components of the system.
In particular, this system will show the image recorded by a USB camera connected to it, but with a certain delayed which can be controlled, by a physical interface designed to it
The objective is also to improve the knowledge in electronic technologies which can be associated to Raspberry, and then to expand the functions of it, to be able to apply them into the main goal previously described.
Also the learning about SPI connection and how can be used in this situations, it is definitely a good way to grow up in technologies. This method will be used in order to connect the devices which produce bus signals and have them into the Raspberry Pi, having, in this way, the option to work with them.
Finally it is important in this Thesis the way to receive analog signals into Raspberry. In order to do this, it will be used a analog/digital converter chip, MCP3008, to get them, as digital ones, and have the information into our ARM system. Then process these signals and translate them into new signals through the different components of the system.
In particular, this system will show the image recorded by a USB camera connected to it, but with a certain delayed which can be controlled, by a physical interface designed to it