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| en:iot-reloaded:iot_green_design [2023/08/24 09:09] – [Green IoT Design] gkuaban | en:iot-reloaded:iot_green_design [Unknown date] (current) – external edit (Unknown date) 127.0.0.1 |
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| Green IoT design is an IoT design paradigm based on a holistic IoT design framework that focuses on maintaining a balanced trade-off between the functional requirements, Quality of Service (QoS), interoperability, Cost, security, and sustainability within the IoT ecosystem. It emphasises the need to prioritise energy efficiency and the reduction of waste in the IoT ecosystem from manufacturing IoT devices, deployment of IoT systems and operation of IoT systems. | Green IoT design is an IoT design paradigm based on a holistic IoT design framework that focuses on maintaining a balanced trade-off between the functional requirements, Quality of Service (QoS), interoperability, Cost, security, and sustainability within the IoT ecosystem. It emphasises the need to prioritise energy efficiency and the reduction of waste in the IoT ecosystem from manufacturing IoT devices, deployment of IoT systems and operation of IoT systems. |
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| The emergence of modern technologies such as Fifth Generation (5G) mobile networks, blockchain, Artificial Intelligence (AI), fog/cloud computing are unlocking new IoT use cases in various industries and sectors of the modern technology-driven economy or society. As a result, the number of IoT devices connected to the Internet and the volume of traffic generated from IoT infrastructures will increase significantly, increasing the energy demand in the IoT ecosystem. The result is an increase in the carbon footprint and e-waste (especially from battery-powered IoT devices) from IoT related services or from the IoT ecosystem. | The emergence of modern technologies such as Fifth Generation (5G) mobile networks, blockchain, Artificial Intelligence (AI), and fog/cloud computing are unlocking new IoT use cases in various industries and sectors of the modern technology-driven economy or society. As a result, the number of IoT devices connected to the Internet and the volume of traffic generated from IoT infrastructures will increase significantly, increasing the energy demand in the IoT ecosystem. The result is an increase in the carbon footprint and e-waste (especially from battery-powered IoT devices) from IoT-related services or the IoT ecosystem. |
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| An effective green IoT strategy should span the entire IoT product lifecycle from the design to production (manufacturing) to the deployment, to operations and maintenance, and to the recycling. The primary goal in each of these stages is to reduce energy consumption, adopt the use of sustainable resources (e.g., arvesting energy from sustainable energy sources, using sustainable materials), minimising e-waste and other pollutants, and adopt recycling of resource or waste. Therefore, a shift toward Green IoT (GIoT) emphasises on the need to adopt energy-efficient practices and processes that prioritises the resource conservation, reduction of waste, and environmental sustainability ((Corey Glickman, "Green IoT: The shift to practical sustainability." ETCIO.com (cio.economictimes.indiatimes.com, July 2023, Accessed on Aug. 24, 2023 )) | An effective green IoT strategy should span the entire IoT product lifecycle from the design to production (manufacturing) to the deployment, operations and maintenance, and recycling. The primary goal in each stage is to reduce energy consumption, adopt sustainable resources (e.g., harvesting energy from sustainable energy sources, using sustainable materials) usage, minimise e-waste and other pollutants, and adopt recycling of resource or waste. Therefore, a shift toward Green IoT (GIoT) emphasises the need to adopt energy-efficient practices and processes prioritising resource conservation, waste reduction, and environmental sustainability((Corey Glickman, "Green IoT: The shift to practical sustainability." ETCIO.com (cio.economictimes.indiatimes.com, July 2023, Accessed on Aug. 24, 2023 )). |
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| Green IoT design are choices that are made or implemented during the design process of IoT systems to reduce the environmental impact from the massive deplyment of IoT systems. They are energy-efficient strategies devised to reduce the carbon footprint from manufacturing, deploying, and operating IoT systems (IoT sensor device, networking nodes, data centre or computing device). They are also strategies devised to reduce the waste from IoT infrastructures. They may involve hardware, software, management or policy decisions. Green IoT is basically the effective and efficient methods to design, manufacture, use, and dispose IoT components with minimal damage to the environments (("ITU Internet Reports 2005: The Internet of Things." http://www.itu.int/osg/spu/publications/internetofthings/)). | Green IoT design is a design framework consisting of design, production, implementation, deployment, and operation choices to reduce energy consumption and waste from the IoT ecosystem. They are energy-efficient strategies devised to reduce the carbon footprint from manufacturing, deploying, and operating IoT systems (IoT sensor devices, networking nodes, data centres or computing devices). They are also strategies devised to reduce the waste from IoT infrastructures. They may involve hardware, software, management or policy decisions. Green IoT strategies can be grouped into the following categories: green IoT design, green IoT manufacturing, green IoT manufacturing, green IoT applications, green IoT operation, and green IoT disposal. |
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| | ((Thilakarathne, Navod Neranjan and Kagita, Mohan Krishna and Priyashan, WD Madhuka "Green internet of things: The next generation energy efficient internet of things."Applied Information Processing Systems: Proceedings of ICCET 2021, pp. 391-402, 2022, Springer)). |
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| ====Green use (Green operation)==== | ====Green use (Green operation)==== |
