Sergey Mileiko
Improving the stability of power sources based on energy harvesters.
Email: s.mileiko2@ncl.ac.uk
Supervisors
Project description
Modern devices in the field of Internet of Things are working with more and more unstable power sources based on energy harvesters.
I am investigating a way of solving this problem from two sides:
- by improving the stability and efficiency of power management circuits
- by improving the power elasticity of the device itself
Publications
- Mileiko S, Kushnerov A, Sokolov D, Yakovlev A. Self-Timed Control of Multiphase Switched Capacitor Converters. European Conference on Circuit Theory and Design (ECCTD), Sept 2017.
- Mileiko S, Kushnerov A, Sokolov D, Yakovlev A. Self-Timed Control of Two-Phase Switched Capacitor Converters. International Conference on Substantial Energy Engineering (ICSEE), 2016.
- Mokhov A, De Gennaro A, Tarawneh G, Wray J, Lukyanov G, Mileiko S, Scott J, Yakovlev A, Brown A. Language and hardware acceleration backend for graph processing. In: Languages, Design Methods, and Tools for Electronic System Design. 2018, Verona, Italy: Springer Verlag.
- Mileiko S, Shafik R, Yakovlev A, Edwards J. A pulse width modulation based power-elastic and robust mixed-signal perceptron design. Design, Automation & Test in Europe Conference & Exhibition, Mar 2019.
- Mileiko S, Bunnam T, Xia F, Shafik R, Yakovlev A, Das S. Neural network design for energy-autonomous AI applications using temporal encoding. Royal Society Philosophical Transactions, 2019.
Interests
- Mixed-signal hardware design
- Switched-capacitor Converters
- Neural networks
- Temporal computing
- FPGA design