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report:eth [2026/05/20 02:58] – [6.1.4 Responsible behaviour design] team1report:eth [2026/05/20 03:12] (current) – [6.5 Summary] team1
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 One of the main concerns is the sensitivity of screen-time data. If this information is accessed without permission, it may reveal users’ routines, habits, and daily schedules. In addition, the system also collects environmental data such as soil moisture, temperature, humidity, and light levels to support plant growth. One of the main concerns is the sensitivity of screen-time data. If this information is accessed without permission, it may reveal users’ routines, habits, and daily schedules. In addition, the system also collects environmental data such as soil moisture, temperature, humidity, and light levels to support plant growth.
  
-Although this environmental data may seem less sensitive, it can still reveal patterns about user behaviour or home occupancy when collected over time. Because of this, the system may be exposed to risks such as unauthorized access, data interception, or manipulation of sensor readings. For example, false soil moisture data could cause incorrect irrigation, which may harm plant health and reduce system reliability [(rodrigo2013)][(luis2019)].+Although this environmental data may seem less sensitive, it can still reveal patterns about user behavior or home occupancy when collected over time. Because of this, the system may be exposed to risks such as unauthorized access, data interception, or manipulation of sensor readings. For example, false soil moisture data could cause incorrect irrigation, which may harm plant health and reduce system reliability [(rodrigo2013)][(luis2019)].
  
 At the same time, improving security in IoT systems is not always simple. Strong encryption can improve protection, but in low-power devices it may also increase energy use and reduce system efficiency. This creates an important trade-off between security and energy consumption, which needs to be considered carefully [(jaewook2017)]. At the same time, improving security in IoT systems is not always simple. Strong encryption can improve protection, but in low-power devices it may also increase energy use and reduce system efficiency. This creates an important trade-off between security and energy consumption, which needs to be considered carefully [(jaewook2017)].
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 ==== 6.5 Summary ==== ==== 6.5 Summary ====
  
-This chapter looked at the main ethical and deontological issues related to Screen2Green, such as safety, user privacy, behaviour design, environmental impact, plant welfare, and liability. Through this analysis, the team understood that the system should not only work properly, but also be safe, clear to users, and responsible in the way it affects both people and plants.+This chapter looked at the main ethical and deontological issues related to Screen2Green, such as safety, user privacy, behavior design, environmental impact, plant welfare, and liability. Through this analysis, the team understood that the system should not only work properly, but also be safe, clear to users, and responsible in the way it affects both people and plants.
  
 Based on this ethical and deontological analysis, the team chose a modular design with simple monitoring components, a soil moisture sensor, an ESP32 microcontroller, a controlled watering system, waterproof protection, and low-cost recyclable materials. These choices were made to reduce possible risks, protect plant health, support responsible data use, and make the product easier to maintain. Based on this ethical and deontological analysis, the team chose a modular design with simple monitoring components, a soil moisture sensor, an ESP32 microcontroller, a controlled watering system, waterproof protection, and low-cost recyclable materials. These choices were made to reduce possible risks, protect plant health, support responsible data use, and make the product easier to maintain.
  
-Consequently, the team decided to include features such as safe watering limits, basic fail-safe protection, clear user information, modular parts, and behaviour feedback that supports users without creating pressure. These features help make the system safer, easier to use, and more suitable for daily use.+Consequently, the team decided to include features such as safe watering limits, basic fail-safe protection, clear user information, modular parts, and behavior feedback that supports users without creating pressure. These features help make the system safer, easier to use, and more suitable for daily use.
  
 This chapter also helped guide the team’s technical decisions and gives a clear basis for the next chapter, which explains how these ideas were applied in the system design and development process. This chapter also helped guide the team’s technical decisions and gives a clear basis for the next chapter, which explains how these ideas were applied in the system design and development process.
  
  
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