22-26 October 2017
Gold Coast Convention & Exhibition Centre
Broadbeach, Queensland, Australia

The Future of ICT Energy Infrastructure: Predictions and Trends

1. The Rise of Renewable Energy Sources

One of the key trends in ICT energy infrastructure is the increasing reliance on renewable energy sources. As the world becomes more conscious of climate change and the need for sustainable solutions, the demand for renewable energy is expected to soar. This shift towards cleaner and greener energy sources will have a significant impact on the design and implementation of ICT infrastructure.

1.1 Solar Energy

Solar energy is poised to play a crucial role in the future of ICT energy infrastructure. With advancements in solar technology and the decreasing costs of solar panels, harnessing the power of the sun is becoming increasingly feasible. Solar-powered ICT systems are not only environmentally friendly but also offer the advantage of decentralized energy production.

1.2 Wind Energy

Another renewable energy source that is gaining traction in the ICT sector is wind energy. Wind farms can generate vast amounts of electricity, which can be utilized to power data centers and other ICT infrastructure. The scalability and reliability of wind energy make it a promising choice for powering the future of ICT.

2. IoT and Smart Energy Grids

The Internet of Things (IoT) is revolutionizing the way energy infrastructure operates. IoT devices can collect and analyze vast amounts of data, allowing for optimized energy consumption and improved efficiency. Smart energy grids, built on IoT technology, enable real-time monitoring and control of energy usage, ensuring that resources are utilized optimally. The integration of IoT and smart energy grids will reshape how ICT energy infrastructure functions.

2.1 Energy Efficiency

ICT energy infrastructure is essential for data-intensive processes, which consume significant amounts of energy. With the implementation of IoT and smart energy grids, the focus will shift towards energy efficiency. Real-time data analysis and automation will enable intelligent energy management, minimizing wastage and reducing environmental impact.

2.2 Grid Resilience

The integration of IoT and smart energy grids will enhance the resilience of ICT energy infrastructure. With the ability to monitor and respond to fluctuations in energy demand and supply, smart grids can adapt to changing circumstances swiftly. This adaptability will ensure a stable and reliable energy supply for ICT systems, even during peak usage periods or in the face of external disruptions.

3. 5G and Edge Computing

The rollout of 5G technology and the emergence of edge computing are set to transform the ICT energy infrastructure landscape. With faster network speeds and reduced latency, 5G will enable seamless connectivity and facilitate the widespread adoption of IoT devices. Edge computing, on the other hand, brings computing power closer to the data source, reducing the need for large centralized data centers and enabling faster data processing.

3.1 Enhanced Connectivity

The high-speed and low-latency capabilities of 5G will revolutionize how ICT energy infrastructure operates. From smart grids to connected devices, 5G will provide the necessary connectivity for efficient and reliable energy management. This enhanced connectivity will enable real-time monitoring, analysis, and control of energy usage, resulting in improved efficiency and sustainability.

3.2 Decentralization of Computing Power

Edge computing will decentralize computing power, reducing the reliance on large data centers and enabling localized data processing. This shift towards edge computing will have a profound impact on ICT energy infrastructure, as it will reduce the energy consumption associated with data transmission and enable faster and more efficient data processing.


The future of ICT energy infrastructure holds immense potential, driven by the rising demand for renewable energy, the integration of IoT and smart energy grids, and the emergence of 5G and edge computing technologies. As the world becomes more digitalized, the reliance on ICT systems will continue to grow, making it essential to develop sustainable and efficient energy solutions. By embracing these predictions and trends, the ICT industry can pave the way for a greener and more connected future.


1. What are the key trends in ICT energy infrastructure?

The key trends in ICT energy infrastructure include the rise of renewable energy sources, the integration of IoT and smart energy grids, and the emergence of 5G and edge computing technologies.

2. How does solar energy contribute to ICT energy infrastructure?

Solar energy offers a sustainable and decentralized solution for powering ICT systems. With advancements in solar technology, harnessing the power of the sun is becoming increasingly feasible.

3. What is the role of IoT in energy efficiency?

IoT enables real-time data analysis and automation, allowing for intelligent energy management and improved energy efficiency in ICT systems.

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  • Key Dates
  • Close of earlybird 18 August 2017
  • Final Paper Submission18 August 2017
  • Accommodation booking deadline18 September 2017
  • 9am - Tutorials and Welcome reception 22 October 2017
  • Main stream conference 23 - 26 October 2017
  • Conference closes at 4:30pm26 October 2017
  • INTELEC© 201722-26 October 2017