Privacy-preserving Continuous Tumour Relapse Monitoring Using In-body Radio Signals

Hylamia, Sam; Yan, Wenqing; Teixeira, André; Asan, Noor Badariah; Perez, Mauricio D.; Augustine, Robin; Voigt, Thiemo

doi:10.1109/spw50608.2020.00030

“…1). It has been demonstrated that the Fat-IBC is a viable transmission medium for in-body communication, supporting high data rates at very low power [5], [6]; this paves the way to interesting applications in health monitoring and diagnosis [7], [8].…”

Section: Introductionmentioning

confidence: 96%

Pixel Optimization via Genetic Algorithm of a Flat Epidermal Antenna for Fat Channel Communication

Gaffoglio¹,

Giordanengo²,

Righero³

et al. 2023

Preprint

0

View full text Add to dashboard Cite

<p>Fat intra-body communication (Fat-IBC) is a novel concept of communication through the low-loss fat tissue layer of the body. This new data transmission approach is promising for the implementation of wireless, in-body, bidirectional Brain-Machine-Body connectivity, which will profoundly impact different fields, such as brain implants with read/write capability and human-like artificial sensors and limbs. In this paper, we apply an evolutionary algorithm combined with a full-wave electromagnetic solver to optimize a flat epidermal antenna, to improve the radiation coupling into the body and favor the signal transmission in the subcutaneous fat layer. The application of this method to a skin-fat communication channel shows satisfactory results when both the antennas of the link are considered and materials with high relative permittivity are used. A good radiation coupling into the body is observed, and transmission losses lower than 5 dB/cm are achieved.</p>

show abstract

“…1). It has been demonstrated that the Fat-IBC is a viable transmission medium for in-body communication [1], [5], [6]; this paves the way to interesting applications in health monitoring and diagnosis [7], [8].…”

Section: Introductionmentioning

confidence: 99%

Pixel Optimization via Genetic Algorithm of a Flat Epidermal Antenna for Fat Channel Communication

Gaffoglio¹,

Giordanengo²,

Righero³

et al. 2023

Preprint

0

View full text Add to dashboard Cite

<p>Fat intra-body communication (Fat-IBC) is a novel concept of communication through the low-loss fat tissue layer of the body. This new data transmission approach is promising for the implementation of wireless, in-body, bidirectional Brain-Machine-Body connectivity, which will profoundly impact different fields, such as brain implants with read/write capability and human-like artificial sensors and limbs. In this paper, we apply an evolutionary algorithm combined with a full-wave electromagnetic solver to optimize a flat epidermal antenna, to improve the radiation coupling into the body and favor the signal transmission in the subcutaneous fat layer. The application of this method to a skin-fat communication channel shows satisfactory results when both the antennas of the link are considered and materials with high relative permittivity are used. A good radiation coupling into the body is observed, and transmission losses lower than 5 dB/cm are achieved.</p>

show abstract

Security and Privacy for Fat Intra-Body Communication: Mechanisms and Protocol Stack

Engstrand,

Krentz,

Asan

et al. 2024

2024 IEEE 49th Conference on Local Computer Networks (LCN)

0

View full text Add to dashboard Cite

Privacy-preserving Continuous Tumour Relapse Monitoring Using In-body Radio Signals

Cited by 4 publications

References 18 publications

Pixel Optimization via Genetic Algorithm of a Flat Epidermal Antenna for Fat Channel Communication

Pixel Optimization via Genetic Algorithm of a Flat Epidermal Antenna for Fat Channel Communication

Pixel Optimization via Genetic Algorithm of a Flat Epidermal Antenna for Fat Channel Communication

Security and Privacy for Fat Intra-Body Communication: Mechanisms and Protocol Stack

Contact Info

Product

Resources

About