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Milad Zamani

Assistant Professor

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Milad Zamani

Assistant Professor

  • Department of Electrical and Computer Engineering - Electronics and Photonics
Postal address:
Finlandsgade 22
5125, 208
8200
Aarhus N
Denmark

Email: mzamani@ece.au.dk

Curriculum Vitae

Milad Zamani received the B.Sc. degree from the University of Tehran, Tehran, Iran, the M.Sc. degree from Sharif University of Technology, Tehran, Iran, and the Ph.D. degree from the University of Tehran, Tehran, Iran, in 2018, all in electrical engineering. From 2015 to 2016, he was with the Section Bioelectronics, TU Delft, Delft, the Netherlands, as a Guest Researcher and was involved in the design of an implantable cardiac pacemaker. He was also engaged in research and design engineering of an implantable Deep Brain Stimulation device with the University of Tehran. From 2019 to 2021, he was a Postdoctoral Researcher with the Integrated Circuit and Electronics Laboratory, Department of Engineering, Aarhus University, Aarhus, Denmark, where he was working on implantable brain-computer interfaces. Currently, he is an assistant professor at ibrAIn center at Aarhus University, Aarhus, Denmark. His research interests include low-power circuits and systems for biomedical applications and analog/mixed-signal integrated circuits and systems.

Research outputs

A CMOS-based neuromorphic device for seizure detection from LFP signals

Ronchini, M., Zamani, M., Huynh, H. A., Rezaeiyan, Y., Panuccio, G., Farkhani, H. & Moradi, F., Jan 2022, In: Journal of Physics D: Applied Physics. 55, 1, 14 p., 014001.

A 2.3-μW Capacitively Coupled Chopper-Stabilized Neural Amplifier with Input Impedance of 6.7 GΩ

Zamani, M., Rezaeiyan, Y., Huynh, H. A., Ronchini, M., Farkhani, H. & Moradi, F., Jul 2021, In: IEEE Solid-State Circuits Letters. 4, p. 133 - 136

Flexible Energy-Efficient Implementation of Adaptive Spiking Encoder for Neuromorphic Processors

Zamani, M., Ronchini, M., Huynh, H. A., Farkhani, H. & Moradi, F., 28 May 2021, (Accepted/In press) 2021 IEEE International Symposium on Circuits & Systems. IEEE

Fremtiden for implanterbare mikroenheder i hjernen

Moradi, F. & Zamani, M., May 2021, In: Medicoteknik. 3, 8, p. 10-11 2 p.

A 53GΩ@DC Input Impedance Multi-Channel Neural Recording Amplifier with 0.77 µVrms Input-Referred Noise for Deep Brain Implants

Huynh, H. A., Zamani, M., Ronchini, M., Farkhani, H. & Moradi, F., 30 Apr 2021, (Accepted/In press) 2021 IEEE Custom Integrated Circuits Conference (CICC). IEEE

A 53GΩ@DC Input Impedance Multi-Channel Neural Recording Amplifier with 0.77 μvrms Input-Referred Noise for Deep Brain Implants

Huynh, H. A., Zamani, M., Ronchini, M., Farkhani, H. & Moradi, F., 2021, 2021 IEEE Custom Integrated Circuits Conference, CICC 2021 - Proceedings. IEEE, 9431403. (Proceedings of the Custom Integrated Circuits Conference, Vol. 2021-April).

A 7.2μW Magnitude/Phase Bio-impedance Measurement Front-End with PWM Output in 0.18μm CMOS

Zamani, M., Rezaeiyan, Y., Shoaei, O. & Moradi, F., 2021, (Accepted/In press).

Ultrasonic Backscatter Communication for Brain Implants: Mathematical Model, Simulation, and Measurement

N. Christensen, M., Zamani, M., Rashidi, A. & Moradi, F., 2021, (Accepted/In press).

Tunable Voltage-Mode Subthreshold CMOS Neuron

Ronchini, M., Zamani, M., Farkhani, H. & Moradi, F., 2020, Proceedings - 2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI). IEEE, p. 252-257 6 p. 9155044

Mixed-Signal IC With Pulse Width Modulation Wireless Telemetry for Implantable Cardiac Pacemakers in 0.18-μm CMOS

Rezaeiyan, Y., Zamani, M., Shoaei, O. & Serdijn, W. A., 15 May 2018, In: IEEE Transactions on Biomedical Circuits and Systems. 12, 3, p. 589 - 600 11 p.

A 0.5 μA/Channel front-end for implantable and external ambulatory ECG recorders

Rezaeiyan, Y., Zamani, M., Shoaei, O. & Serdijn, W. A., 9 Feb 2018, In: Microelectronics Journal. 74, p. 79-85 7 p.

A 1.55 μW Bio-Impedance Measurement System for Implantable Cardiac Pacemakers in 0.18 μm CMOS

Zamani, M., Rezaeiyan, Y., Shoaei, O. & Serdijn, W. A., 8 Jan 2018, In: IEEE Transactions on Biomedical Circuits and Systems. 12, 1, p. 211 - 221 11 p.