Project Details
Description
This project focuses on the efficiency and sustainability of Ultra Wide Bandwidth (UWB) transceivers for Internet of Things (IoT) applications, particularly in short-range communication for indoor localization. UWB technology features spread spectrum, enabling cheaper, smaller, and less complex transceivers that use energy more efficiently compared to alternatives.
Despite its advantages, UWB transceivers face challenges in practical implementation, including pulse-shape distortion, channel estimation, multipath effects, multiple access interferences, and the trade-off between power consumption and range.
This project offers opportunities for academic staff and graduate students to collaborate with experienced engineers from UWB semiconductor producers. The aim is to contribute to practical technology development and devise novel, environmentally friendly techniques that improve energy efficiency. Results will be presented at national and international conferences and exhibitions, and articles will be published in leading journals.
Despite its advantages, UWB transceivers face challenges in practical implementation, including pulse-shape distortion, channel estimation, multipath effects, multiple access interferences, and the trade-off between power consumption and range.
This project offers opportunities for academic staff and graduate students to collaborate with experienced engineers from UWB semiconductor producers. The aim is to contribute to practical technology development and devise novel, environmentally friendly techniques that improve energy efficiency. Results will be presented at national and international conferences and exhibitions, and articles will be published in leading journals.
| Status | Active |
|---|---|
| Effective start/end date | 1/08/22 → 31/07/26 |
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