PiSentry - IP Camera with Real-Time Object Recognition
Roduit, Daniel (2024)
2024
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2024052716110
https://urn.fi/URN:NBN:fi:amk-2024052716110
Tiivistelmä
The market for connected objects is booming and the latter are taking up more and more space in our lives. Due to their ease of acquisition and use, we do not always realize their complexity and the high technology that these devices embed.
This thesis aims to learn more about the creation process as well as the functioning of connected objects through the development of a security camera system. The camera uses inexpensive and accessible hardware equipment and can be set up by any hobbyist with basic computer knowledge.
The development process was driven in accordance with the Agile methodology. The workload was broken down and planned in small work units. The tasks to be carried out were then organized using the Kanban system.
Constrained by full-time professional commitments, the author conducted the thesis from September 2022 to May 2024, 18 months of which were needed to complete the practical project.
The final product shows that it is possible to successfully set up a fairly complex operational system in view of the limited means used. The system is easy to deploy and requires virtually no maintenance once up and running.
In conclusion, the current system fulfills the basic functions for which one would want to use a security camera. The system could be further improved by adding more electronic components which would allow to reach a product competing with the best surveillance cameras currently on the market.
This thesis aims to learn more about the creation process as well as the functioning of connected objects through the development of a security camera system. The camera uses inexpensive and accessible hardware equipment and can be set up by any hobbyist with basic computer knowledge.
The development process was driven in accordance with the Agile methodology. The workload was broken down and planned in small work units. The tasks to be carried out were then organized using the Kanban system.
Constrained by full-time professional commitments, the author conducted the thesis from September 2022 to May 2024, 18 months of which were needed to complete the practical project.
The final product shows that it is possible to successfully set up a fairly complex operational system in view of the limited means used. The system is easy to deploy and requires virtually no maintenance once up and running.
In conclusion, the current system fulfills the basic functions for which one would want to use a security camera. The system could be further improved by adding more electronic components which would allow to reach a product competing with the best surveillance cameras currently on the market.