# Design and Experimental Validation of a 12 GHz High-Gain 4 × 4 Patch Antenna Array for S21 Phase-Based Vital Signs Monitoring

**Authors:** David Vatamanu, Simona Miclaus, Ladislau Matekovits

PMC · DOI: 10.3390/s26030887 · Sensors (Basel, Switzerland) · 2026-01-29

## TL;DR

A high-gain 12 GHz antenna array was designed and tested for non-contact monitoring of human vital signs using microwave radar.

## Contribution

A 4 × 4 patch antenna array optimized for S21 phase-based vital signs monitoring with high gain and improved pulse detectability.

## Key findings

- The antenna achieved a measured gain of 17.06 dBi and a reflection coefficient of −26 dB at 12 GHz.
- High-gain antennas are essential for reliable heartbeat detection due to enhanced phase sensitivity.
- The array improved pulse detectability in the 1–1.5 Hz band without advanced signal processing.

## Abstract

Non-contact monitoring of human vital signs using microwave radar has attracted increasing attention due to its capability to operate unobtrusively and through clothing or light obstacles. In vector network analyzer (VNA)-based radar systems, vital signs can be extracted from phase variations in the forward transmission coefficient S21, whose sensitivity strongly depends on the electromagnetic performance of the antenna system. This work presents the design, optimization, fabrication, and experimental validation of a high-gain 12 GHz 4 × 4 microstrip patch antenna array specifically developed for phase-based vital signs monitoring. The antenna array was progressively optimized through coaxial feeding, slot-based impedance control, stepped transmission line matching, and mitered bends, achieving a simulated gain of 17.8 dBi, a measured gain of 17.06 dBi, a reflection coefficient of −26 dB at 12 GHz, and a total efficiency close to 74%. The antenna performance was experimentally validated in an anechoic chamber and subsequently integrated into a continuous-wave VNA-based radar system. Comparative measurements were conducted against a commercial biconical antenna, a single patch radiator, and an MIMO antenna under identical conditions. Results demonstrate that while respiration can be detected with moderate-gain antennas, reliable heartbeat detection requires high-gain, narrow-beam antennas to enhance phase sensitivity and suppress environmental clutter. The proposed array significantly improves pulse detectability in the (1–1.5) Hz band without relying on advanced signal processing. These findings highlight the critical role of antenna design in S21-based biomedical radar systems and provide practical design guidelines for high-sensitivity non-contact vital signs monitoring.

## Full-text entities

- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

25 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12899743/full.md

## References

36 references — full list in the complete paper: https://tomesphere.com/paper/PMC12899743/full.md

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Source: https://tomesphere.com/paper/PMC12899743