Add to ORKGIn this paper, a miniaturized implantable antenna with the dimensions of 8×8×1 mm3 has been studied for continuous monitoring of Blood Glucose Levels (BGL). The antenna performance is analyzed numerically for both the free space and implanted operation. The results show that the works excellently in both the scenarios. The antenna has the lowest resonant frequency of 3.58 GHz in free space with a gain 1.18 GHz while it operates at 2.58 GHz with a gain of 4.18 dBi. Good performance, small size and resilience to the human body effects make the antenna to have a good potential use in future implantable glucose monitoring devices
In the twenty-first century, there is an enormous development in various areas: microwave sensors ha...
Diabetes Mellitus has been a significant health issue in recent years that impacts millions of peopl...
The health monitoring system is improved by wireless implantable body area network technologies espe...
In this paper, a miniaturised implantable antenna with the dimensions of 8×8×1 mm 3 has been studied...
In this paper, a miniaturized implantable antenna with the dimensions of 8×8×1 mm3 has been studied ...
The objective of this research was to design a patch antenna for communication with medical im-plant...
Nowadays, the attention is on building an efficient and constantly evolving healthcare system for th...
The purpose of this research was to design a blood glucose sensing system based on the induced s...
A non-invasive technique for real-time continuous monitoring of blood glucose has been under develop...
Blood glucose monitoring is a primary tool for the care of diabetic patients. At present, there is n...
Design and characterization of a multilayered compact implantable broadband antenna for wireless bio...
Medical telemetry applications rely heavily on biomedical implanted antennas. These biomedical impla...
In this paper, a miniaturized high gain antenna was designed for biomedical applications. The design...
In the present work, a novel compact and highly sensitive microwave antenna sensor at 2.45 GHz is pr...
Diabetes affects hundreds of millions of people globally, and is a leading cause of death and disab...
In the twenty-first century, there is an enormous development in various areas: microwave sensors ha...
Diabetes Mellitus has been a significant health issue in recent years that impacts millions of peopl...
The health monitoring system is improved by wireless implantable body area network technologies espe...
In this paper, a miniaturised implantable antenna with the dimensions of 8×8×1 mm 3 has been studied...
In this paper, a miniaturized implantable antenna with the dimensions of 8×8×1 mm3 has been studied ...
The objective of this research was to design a patch antenna for communication with medical im-plant...
Nowadays, the attention is on building an efficient and constantly evolving healthcare system for th...
The purpose of this research was to design a blood glucose sensing system based on the induced s...
A non-invasive technique for real-time continuous monitoring of blood glucose has been under develop...
Blood glucose monitoring is a primary tool for the care of diabetic patients. At present, there is n...
Design and characterization of a multilayered compact implantable broadband antenna for wireless bio...
Medical telemetry applications rely heavily on biomedical implanted antennas. These biomedical impla...
In this paper, a miniaturized high gain antenna was designed for biomedical applications. The design...
In the present work, a novel compact and highly sensitive microwave antenna sensor at 2.45 GHz is pr...
Diabetes affects hundreds of millions of people globally, and is a leading cause of death and disab...
In the twenty-first century, there is an enormous development in various areas: microwave sensors ha...
Diabetes Mellitus has been a significant health issue in recent years that impacts millions of peopl...
The health monitoring system is improved by wireless implantable body area network technologies espe...