Florida Wireless Implantable Recording Electrodes (FWIRE) for brain machine interfaces

Rizwan Bashirullah; John G. Harris; Justin C. Sanchez; Toshikazu Nishida; Jose C. Principe

Florida Wireless Implantable Recording Electrodes (FWIRE) for brain machine interfaces

Rizwan Bashirullah, John G. Harris, Justin C. Sanchez, Toshikazu Nishida, Jose C. Principe

Biomedical Engineering

Research output: Contribution to journal › Conference article

Abstract

This paper reviews on-going efforts towards the development of the Florida Wireless Implantable Recording Electrodes (FWIRE). The FWIRE microsystem platform is a fully implantable flexible substrate microelectrode array that employs state-of-the-art lntegrate-and-fire (IF) signal representation and wireless interface circuitry for recording neural activity from behaving rodents. The modular nature of the implantable neural recording electrode allows future enhancements to be seamlessly added to improve functionality including but not limited to rechargeability through inductive coupling, custom microelectrode arrays, higher capacity batteries, and more advanced integrated circuit technologies. This paper concentrates on custom integrated circuits such as neural interfacing amplifiers, baseband signal processing, wireless data and power interfaces, and battery management system.

Original language	English (US)
Article number	4253080
Pages (from-to)	2084-2087
Number of pages	4
Journal	Proceedings - IEEE International Symposium on Circuits and Systems
State	Published - Sep 27 2007
Event	2007 IEEE International Symposium on Circuits and Systems, ISCAS 2007 - New Orleans, LA, United States Duration: May 27 2007 → May 30 2007

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ASJC Scopus subject areas

Electrical and Electronic Engineering

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Bashirullah, R., Harris, J. G., Sanchez, J. C., Nishida, T., & Principe, J. C. (2007). Florida Wireless Implantable Recording Electrodes (FWIRE) for brain machine interfaces. Proceedings - IEEE International Symposium on Circuits and Systems, 2084-2087. [4253080].

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abstract = "This paper reviews on-going efforts towards the development of the Florida Wireless Implantable Recording Electrodes (FWIRE). The FWIRE microsystem platform is a fully implantable flexible substrate microelectrode array that employs state-of-the-art lntegrate-and-fire (IF) signal representation and wireless interface circuitry for recording neural activity from behaving rodents. The modular nature of the implantable neural recording electrode allows future enhancements to be seamlessly added to improve functionality including but not limited to rechargeability through inductive coupling, custom microelectrode arrays, higher capacity batteries, and more advanced integrated circuit technologies. This paper concentrates on custom integrated circuits such as neural interfacing amplifiers, baseband signal processing, wireless data and power interfaces, and battery management system.",

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AU - Bashirullah, Rizwan

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AU - Principe, Jose C.

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N2 - This paper reviews on-going efforts towards the development of the Florida Wireless Implantable Recording Electrodes (FWIRE). The FWIRE microsystem platform is a fully implantable flexible substrate microelectrode array that employs state-of-the-art lntegrate-and-fire (IF) signal representation and wireless interface circuitry for recording neural activity from behaving rodents. The modular nature of the implantable neural recording electrode allows future enhancements to be seamlessly added to improve functionality including but not limited to rechargeability through inductive coupling, custom microelectrode arrays, higher capacity batteries, and more advanced integrated circuit technologies. This paper concentrates on custom integrated circuits such as neural interfacing amplifiers, baseband signal processing, wireless data and power interfaces, and battery management system.

AB - This paper reviews on-going efforts towards the development of the Florida Wireless Implantable Recording Electrodes (FWIRE). The FWIRE microsystem platform is a fully implantable flexible substrate microelectrode array that employs state-of-the-art lntegrate-and-fire (IF) signal representation and wireless interface circuitry for recording neural activity from behaving rodents. The modular nature of the implantable neural recording electrode allows future enhancements to be seamlessly added to improve functionality including but not limited to rechargeability through inductive coupling, custom microelectrode arrays, higher capacity batteries, and more advanced integrated circuit technologies. This paper concentrates on custom integrated circuits such as neural interfacing amplifiers, baseband signal processing, wireless data and power interfaces, and battery management system.

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Florida Wireless Implantable Recording Electrodes (FWIRE) for brain machine interfaces

Abstract

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