Lucas Ricciardi scite author profile

Lucas Ricciardi

2Publications

36Citation Statements Received

47Citation Statements Given

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University of Adelaide

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Wireless RF communication in biomedical applications

Ricciardi

Hall

et al. 2008

Smart Mater. Struct.

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This paper focuses on wireless transcutaneous RF communication in biomedical applications. It discusses current technology, restrictions and applications and also illustrates possible future developments. It focuses on the application in biotelemetry where the system consists of a transmitter and a receiver with a transmission link in between. The transmitted information can either be a biopotential or a nonelectric value like arterial pressure, respiration, body temperature or pH value. In this paper the use of radio-frequency (RF) communication and identification for those applications is described. Basically, radio-frequency identification or RFID is a technology that is analogous to the working principle of magnetic barcode systems. Unlike magnetic barcodes, passive RFID can be used in extreme climatic conditions-also the tags do not need to be within close proximity of the reader. Our proposed solution is to exploit an exciting new development in making circuits on polymers without the need for battery power. This solution exploits the principle of a surface acoustic wave (SAW) device on a polymer substrate. The SAW device is a set of interdigitated conducting fingers on the polymer substrate. If an appropriate RF signal is sent to the device, the fingers act as microantennas that pick up the signal, and this energy is then converted into acoustic waves that travel across the surface of the polymer substrate. Being a flexible polymer, the acoustic waves cause stresses that can either contract or stretch the material. In our case we mainly focus on an RF controllable microvalve that could ultimately be used for fertility control.

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Investigation into the future of RFID in biomedical applications

Ricciardi

Pitz

Al-Sarawi

et al. 2003

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This paper focuses on the future of Radio Frequency Identification (RFID) systems in biomedical applications. It discusses current technology, restrictions and applications and also illustrates possible future development. We mainly focus on actuator devices and introduce some of the concepts for RFID sensors. Basically, Radio Frequency Identification is a technology that is analogous to the working principle of magnetic bar code systems. Our proposed solution is to exploit an exciting new development in making circuits on polymers without the need of battery power. This solution exploits the principle of a Surface Acoustic Wave (SAW) device on a polymer substrate. The SAW device is a set of interdigitated conducting fingers on the polymer substrate. If an appropriate RF signal is sent to the device, the fingers act as microantennas that pick up the signal, and this energy is then converted into acoustic waves that travel across the surface of the polymer substrate. Being a flexible polymer, the acoustic waves cause stress that can either contract or stretch the material. In our case we want to use RFID technology for biomedical applications. We want to use this technology for devices, which are implanted in the human body and controlled or observed by a radio frequency signal.

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Lucas Ricciardi

Wireless RF communication in biomedical applications

Investigation into the future of RFID in biomedical applications

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