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--- en:iot-reloaded:green_iot_design_tradeoffs [2024/12/06 13:01] – [Energy Efficiency] ktokarz
+++ en:iot-reloaded:green_iot_design_tradeoffs [2025/05/13 10:47] (current) – [Green IoT (G-IoT): A Holistic Approach] pczekalski
@@ Line 26: / Line 26: @@
   * **Energy-Hungry Security Protocols:** Encryption methods like AES-256 or RSA require substantial processing power, which can shorten the device's operational lifetime.
   * **Efforts for Energy-Efficient Security:** Research and development are focused on creating lightweight cryptographic algorithms and authentication mechanisms tailored for resource-constrained IoT devices.\\
-However, prioritizing energy efficiency may compromise the level of security, leaving devices vulnerable to attacks such as data breaches, eavesdropping, or denial of service (DoS).
+However, prioritising energy efficiency may compromise the level of security, leaving devices vulnerable to attacks such as data breaches, eavesdropping, or denial of service (DoS).
 ===== Cost Considerations =====
@@ Line 34: / Line 34: @@
   * **Sacrifices in Security:** Inexpensive devices may lack robust security features, increasing the risk of vulnerabilities.
   * **Tradeoffs in Performance and QoS:** Lower-cost components may provide suboptimal computing or communication capabilities.\\
-While minimizing cost is essential for market viability, it can compromise other critical aspects such as reliability, durability, or security, leading to potential issues over the device's lifecycle.
+While minimising cost is essential for market viability, it can compromise other critical aspects, such as reliability, durability, or security, leading to potential issues over the device's lifecycle.
-===== Green IoT (G-IoT): A Holistic Approach =====
+===== Green IoT: A Holistic Approach =====
 Green IoT aims to address the environmental and sustainability challenges associated with IoT systems. It focuses on:
-  * **Minimizing Energy Consumption:** Through energy-efficient designs and renewable energy sources.
+  * **Minimising Energy Consumption:** Through energy-efficient designs and renewable energy sources.
-  * **Reducing E-Waste:** Promoting using recyclable materials and modular designs to extend device lifecycles.
+  * **Reducing E-Waste:** Promoting the use of recyclable materials and modular designs to extend device lifecycles.
   * **Sustainable Applications of IoT:** Leveraging IoT solutions to enhance resource efficiency in agriculture, transportation, and energy industries.
@@ Line 47: / Line 47: @@
 However, Green IoT design must also balance other key requirements:
-  * **Quality of Service (QoS):** Ensuring energy and cost optimizations do not compromise performance.
+  * **Quality of Service (QoS):** Ensuring energy and cost optimisations do not compromise performance.
   * **Security:** Developing secure yet lightweight protocols to protect data and device integrity.
   * **Cost-Effectiveness:** Striking a balance between affordability and sustainability without compromising essential functionalities.
@@ Line 62: / Line 62: @@
   * **Adaptive Systems:** IoT devices that dynamically adjust energy use and processing power based on current requirements.
   * **Edge Computing:** Shifting computational tasks to edge devices to reduce the energy demand on individual IoT nodes.
-  * **Standardization:** Developing universal standards for energy-efficient, secure, and sustainable IoT designs.
+  * **Standardisation:** Developing universal standards for energy-efficient, secure, and sustainable IoT designs.
-Green IoT represents a transformative approach to designing IoT systems that align with environmental and sustainability goals. By addressing energy efficiency, e-waste reduction, and sustainable resource management, Green IoT can contribute to a more sustainable future. However, realizing these benefits requires a balanced approach that considers the trade-offs between QoS, security, energy efficiency, and cost, ensuring that IoT systems are functional and eco-friendly.
+Green IoT represents a transformative approach to designing IoT systems that align with environmental and sustainability goals. By addressing energy efficiency, e-waste reduction, and sustainable resource management, Green IoT can contribute to a more sustainable future. However, realising these benefits requires a balanced approach considering the trade-offs between QoS, security, energy efficiency, and cost, ensuring that IoT systems are functional and eco-friendly.

en/iot-reloaded/green_iot_design_tradeoffs.1733490077.txt.gz · Last modified: 2024/12/06 13:01 by ktokarz