Discover how satellite communication systems are set to transform global connectivity in 5G and 6G networks. A new study explores the integration of satellites with terrestrial networks, addressing key challenges and future directions to achieve seamless, worldwide coverage. Learn about the advancements driving this convergence and the role of international standards in shaping the future of communication.

Discover the future of satellite technology with space computing power networks (Space-CPN). This innovative architecture integrates communication and computation across low-Earth-orbit (LEO), medium-Earth-orbit (MEO), and geostationary-Earth-orbit (GEO) satellites, addressing challenges in data transmission, onboard processing, and resource allocation. Learn how Space-CPN can transform global connectivity and intelligent data processing in space.

Discover how generative AI is transforming video communication in a groundbreaking new paradigm. Learn about the innovative techniques and future prospects of generative video communication, which promises more efficient, adaptable, and immersive video services. Explore the challenges and potential solutions in this emerging field.

A new study published in Engineering reveals that dihydrotanshinone I (DHT), a compound from Salvia miltiorrhiza, can induce autophagic cell death in ovarian cancer by targeting sortilin 1 (SORT1). This discovery offers a potential new therapeutic strategy for treating ovarian cancer through disrupting the autophagy–lysosome pathway.

A new study published in Engineering explores how coal power flexibility can support global decarbonization efforts. Researchers find that retrofitting coal plants for flexibility enhances renewable energy integration, reduces carbon emissions, and offers economic benefits. The study highlights the importance of policy support and technological innovation in transforming coal power to meet future energy needs sustainably.

Researchers from Southeast University have developed a novel amplifying and filtering reconfigurable intelligent surface (AF-RIS) that enhances wireless communication for 6G networks. The AF-RIS achieves significant signal amplification, frequency selectivity, and beam-steering capabilities while reducing hardware costs and power consumption. This innovation could revolutionize wireless relay systems in next-generation networks.

Discover how integrating spatiotemporal resilience into unmanned systems can enhance their adaptability and performance. A new study in Engineering explores this concept, offering insights on optimizing UAV and UV deployment to boost mission success in dynamic environments.