Alonso Morgado

TL;DR: This paper presents a MUlti-SEnsor biomedical IC (MUSEIC), which features a high-performance, low-power analog front-end (AFE) and fully integrated DSP achieving 10 × or more energy savings in vector multiply-accumulate executions.

TL;DR: The diversity in supported modalities and the generic processing capabilities, all provided in a single-chip low-power solution, make the proposed SoC a key enabler for emerging personal health applications (Fig. 18.3.1).

TL;DR: It is shown that multirate processing in a cascaded discrete-time ΔΣ modulator allows to reduce the power consumption by up to 35% and enables the power efficient implementation of multiple communication standards.

TL;DR: A comprehensive revision of the state-of-the-art on transceiver architectures, building blocks and design trade-offs of reconfigurable and adaptive CMOS RF and mixed-signal circuits for emerging 4G systems is addressed.

TL;DR: The EU-funded project ADEL aims to enhance the current LSA paradigm by introducing 1) dynamic radio resource management (RRM), 2) sensing reasoning, based on database-assisted collaborative sensor networking, and 3) an extension to the LSA architecture that allows a more effective RRM, increasing QoS satisfaction and policy enforcement for all players, finally leading to an overall improved spectrum utilization.