HEFESTO (Hardened Energy-efficient Framework for Enhanced Smart Tracking and Operations)

The general objective of the project is to conduct research into new techniques and mechanisms aimed at optimising energy consumption and enabling intelligent resource orchestration within the SILEME indoor positioning system, with a focus on achieving a scalable architecture and developing tag and beacon prototypes capable of operating in harsh environments. In addition, the project […]

SoÑAMoS, Microelectronic Design Solutions and Architectures for Healthcare

The SoÑAMoS project (Microelectronic Design Solutions and Architectures for Healthcare) focuses on the research and development of hardware-accelerated processing architectures optimised for Internet of Things (IoT) healthcare applications. SoÑAMoS will also develop the associated tools required to efficiently assess the added value of these acceleration solutions, ensuring measurable benefits from their adoption. Validation will be […]

Versatile, adVanced mEthod foR poSitioning And Tracking In metaLlic Environments

The primary objective of the project was to research and develop new positioning algorithms and advanced guidance techniques to enhance the performance of the the SILEME indoor positioning system, which had been progressively developed by SKYLIFE over previous years. The initiative aimed to move beyond the existing state of the art by exploring innovative approaches […]