A three-dimensional neural recording microsystem with implantable data compression circuitry

@article{Olsson2005ATN,
  title={A three-dimensional neural recording microsystem with implantable data compression circuitry},
  author={R. Olsson and K. Wise},
  journal={ISSCC. 2005 IEEE International Digest of Technical Papers. Solid-State Circuits Conference, 2005.},
  year={2005},
  pages={558-559 Vol. 1}
}
  • R. Olsson, K. Wise
  • Published 2005
  • Engineering
  • ISSCC. 2005 IEEE International Digest of Technical Papers. Solid-State Circuits Conference, 2005.
A 256-site microsystem comprises 4 neural recording arrays with integrated amplification and multiplexing circuitry and an implantable spike detection ASIC. The spike detector compresses the amount of neural data by 92%, increasing the total number of channels recorded wirelessly from 25 to 312. The implantable circuitry consumes 5.4 mW at 3 V. 
188 Citations
256-Channel Neural Recording Microsystem with On-Chip 3D Electrodes
  • 21
  • PDF
An Implantable 64-Channel Wireless Microsystem for Single-Unit Neural Recording
  • 204
  • PDF
256-Channel Neural Recording and Delta Compression Microsystem With 3D Electrodes
  • 164
  • PDF
Neurons to Silicon: Implantable Prosthesis Processor
  • 31
  • PDF
A Neural Signal Processor for an Implantable Multi-Channel Cortical Recording Microsystem
  • A. M. Sodagar, K. Wise, K. Najafi
  • Computer Science, Medicine
  • 2006 International Conference of the IEEE Engineering in Medicine and Biology Society
  • 2006
  • 7
A fully-integrated mixed-signal neural processing module for implantable multi-channel cortical recording
  • 12
A Fully Integrated Mixed-Signal Neural Processor for Implantable Multichannel Cortical Recording
  • 142
  • PDF
An Implantable Microsystem for Wireless Multi-Channel Cortical Recording
  • 30
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 21 REFERENCES
Silicon neural recording arrays with on-chip electronics for in-vivo data acquisition
  • R. Olsson, M. Gulari, K. Wise
  • Engineering
  • 2nd Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology. Proceedings (Cat. No.02EX578)
  • 2002
  • 54
A low-power integrated circuit for adaptive detection of action potentials in noisy signals
  • R. Harrison
  • Engineering
  • Proceedings of the 25th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (IEEE Cat. No.03CH37439)
  • 2003
  • 132
  • PDF
Massively parallel recording of unit and local field potentials with silicon-based electrodes.
  • 388
  • PDF
Band-tunable and multiplexed integrated circuits for simultaneous recording and stimulation with microelectrode arrays
  • 179
  • PDF
Single-unit neural recording with active microelectrode arrays
  • Q. Bai, K. Wise
  • Materials Science, Computer Science
  • IEEE Transactions on Biomedical Engineering
  • 2001
  • 235
  • PDF
A high-yield microassembly structure for three-dimensional microelectrode arrays
  • 246
Evaluation of spike-detection algorithms fora brain-machine interface application
  • I. Obeid, P. Wolf
  • Computer Science, Medicine
  • IEEE Transactions on Biomedical Engineering
  • 2004
  • 243
Spike separation in multiunit records: a multivariate analysis of spike descriptive parameters.
  • J. Vibert, J. Costa
  • Psychology, Medicine
  • Electroencephalography and clinical neurophysiology
  • 1979
  • 46
Analog Integrated Circuit Design
  • 2,957
...
1
2
3
...