Microwave Reconstruction of 3-D Human Facial Landmarks Using a Programmable Metasurface
Nowadays, 3-D human facial reconstruction (FR) plays a pivotal role in various areas including human-robot interaction, virtual reality, identification, and so on. However, conventional FR strategies are largely based on optical sensors, and thus suffer from the intrinsic risk in terms of obstacle (...
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| Published in | IEEE antennas and wireless propagation letters Vol. 23; no. 11; pp. 3327 - 3331 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.11.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Nowadays, 3-D human facial reconstruction (FR) plays a pivotal role in various areas including human-robot interaction, virtual reality, identification, and so on. However, conventional FR strategies are largely based on optical sensors, and thus suffer from the intrinsic risk in terms of obstacle (e.g., mask) occlusion, light-condition dependence, privacy infringement, and so on. To tackle it, we here propose to leverage the microwave for the 3-D FR, by utilizing a fundamental fact that the microwave, unlike optics, is capable of operating in the conditions of all-weather, all-day, and occlusion. To this end, we design an inexpensive transceiver architecture based on a large-aperture programmable metasurface, enabling to capture fully the 3-D facial information of the subject, meanwhile suppressing the unwanted disturbances from surrounding environment and other body parts. Afterward, we design a deep artificial network for converting the microwave raw data into the 3-D coordinates of 68 facial landmarks. We fabricate a proof-of-principle prototype system working within the frequency range of (25 to 26.5) GHz, and experimentally demonstrate that the reported strategy is efficient in the reconstruction of 3-D human facial landmarks even for the subject wearing a mask. |
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| AbstractList | Nowadays, 3-D human facial reconstruction (FR) plays a pivotal role in various areas including human–robot interaction, virtual reality, identification, and so on. However, conventional FR strategies are largely based on optical sensors, and thus suffer from the intrinsic risk in terms of obstacle (e.g., mask) occlusion, light-condition dependence, privacy infringement, and so on. To tackle it, we here propose to leverage the microwave for the 3-D FR, by utilizing a fundamental fact that the microwave, unlike optics, is capable of operating in the conditions of all-weather, all-day, and occlusion. To this end, we design an inexpensive transceiver architecture based on a large-aperture programmable metasurface, enabling to capture fully the 3-D facial information of the subject, meanwhile suppressing the unwanted disturbances from surrounding environment and other body parts. Afterward, we design a deep artificial network for converting the microwave raw data into the 3-D coordinates of 68 facial landmarks. We fabricate a proof-of-principle prototype system working within the frequency range of (25 to 26.5) GHz, and experimentally demonstrate that the reported strategy is efficient in the reconstruction of 3-D human facial landmarks even for the subject wearing a mask. |
| Author | Li, Lianlin Xu, Jiawen Cui, Tie Jun Li, Mingyi |
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| Snippet | Nowadays, 3-D human facial reconstruction (FR) plays a pivotal role in various areas including human-robot interaction, virtual reality, identification, and so... Nowadays, 3-D human facial reconstruction (FR) plays a pivotal role in various areas including human–robot interaction, virtual reality, identification, and so... |
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| SubjectTerms | Body parts Deep learning Encoding Faces facial reconstruction (FR) Frequency ranges Image reconstruction Metasurfaces Microwave imaging Microwave theory and techniques Occlusion Optical measuring instruments programmable metasurface Three-dimensional displays Virtual reality |
| Title | Microwave Reconstruction of 3-D Human Facial Landmarks Using a Programmable Metasurface |
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