The University of Southampton

Research

Publications

Al-Junaid, Hessa, Kazmierski, Tom and Wang, Leran (2006) SystemC-A modeling of an automotive seating vibration isolation system. At Forum on Specification and Design Languages (FDL 2006) Forum on Specification and Design Languages (FDL 2006), Germany. 19 - 22 Sep 2006.

Wang, Leran and Kazmierski, Tom (2005) VHDL-AMS based genetic optimization of a fuzzy logic controller for automotive active suspension systems. At IEEE international conference on Behavioral Modeling and Simulation (BMAS 2005) IEEE international conference on Behavioral Modeling and Simulation (BMAS 2005). 22 - 23 Sep 2005. pp. 124-127.

Wang, Leran and Kazmierski, Tom (2005) VHDL-AMS modeling of an automotive vibration isolation seating system. At IASTED international conference on Circuits, Signals and Systems (CSS 2005) IASTED international conference on Circuits, Signals and Systems (CSS 2005), United States. 24 - 26 Oct 2005.

Wang, Leran and Kazmierski, Tom (2007) VHDL-AMS based genetic optimisation of fuzzy logic controllers. COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 26 (2), 452-465.

Wang, Leran and Kazmierski, Tom (2005) VHDL-AMS - based Hybrid Approach to ARGESIM Comparison ‘C13 Crane and Embedded Control’ with SystemVision. Simulation News Europe, 43, pp. 30.

Zhao, Chenxu, Wang, Leran and Kazmierski, Tom (2007) An efficient and accurate MEMS accelerometer model with sense finger dynamics for applications in mixed-technology control loops. At IEEE Behavioral Modeling and Simulation Conference (BMAS 2007) IEEE Behavioral Modeling and Simulation Conference (BMAS 2007), United States. 20 - 21 Sep 2007. pp. 143-147.

Wang, Leran, Kazmierski, Tom, Al-Hashimi, Bashir, Beeby, Steve and Torah, Russel (2007) An Integrated Approach to Energy Harvester Modeling and Performance Optimization. At IEEE Behavioral Modeling and Simulation Conference (BMAS 2007) IEEE Behavioral Modeling and Simulation Conference (BMAS 2007), United States. 20 - 21 Sep 2007. pp. 121-125.

Wang, Leran, Kazmierski, Tom, Al-Hashimi, Bashir, Beeby, Steve and Torah, Russel (2008) Integrated approach to energy harvester mixed technology modelling and performance optimisation. At Design, Automation and Test in Europe (DATE 2008) Design, Automation and Test in Europe (DATE 2008), Germany. 10 - 14 Mar 2008.

Wang, Leran, Zhao, Chenxu and Kazmierski, Tom (2008) An extension to VHDL-AMS for AMS systems with partial differential equations. In, Villar, Eugenio (ed.) Embedded Systems Specification and Design Languages (Selected Contributions from FDL’07). Springer, pp. 123-136. ,

Wang, Leran, Kazmierski, Tom, Al-Hashimi, Bashir, Beeby, Steve and Zhu, Dibin (2009) An automated design flow for vibration-based energy harvester systems. At Design, Test and Automation in Europe (DATE 2009) Design, Test and Automation in Europe (DATE 2009), France. 20 - 24 Apr 2009. pp. 1391-1396. (In Press)

Wang, Leran and Kazmierski, Tom (2009) VHDL-AMS based genetic optimisation of mixed-physical-domain systems in automotive applications. Simulation: Transactions of the Society for Modeling and Simulation International, 85 (10), 661-670.

Wang, Leran, Kazmierski, Tom, Al-Hashimi, Bashir, Weddell, Alex, Merrett, Geoff and Ayala Garcia, Ivo (2011) Accelerated simulation of tunable vibration energy harvesting systems using a linearised state-space technique. At Design, Test and Automation in Europe (DATE 2011) Design, Test and Automation in Europe (DATE 2011), France. 14 - 18 Mar 2011.

Kazmierski, Tom, Wang, Leran, Al-Hashimi, Bashir and Merrett, Geoff V. (2012) An explicit linearized state-space technique for accelerated simulation of electromagnetic vibration energy harvesters. IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems, 31 (4), 522-531. (doi:10.1109/TCAD.2011.2176124).

Kazmierski, Tom, Merrett, Geoff V., Wang, Leran, Al-Hashimi, Bashir, Weddell, Alex and Ayala Garcia, Ivo (2012) Modeling of Wireless Sensor Nodes Powered by Tunable Energy Harvesters: HDL-Based Approach. IEEE Sensors Journal, 12 (8), 2680-2689. (doi:10.1109/JSEN.2012.2196037).

Wang, Leran, Kazmierski, Tom, Al-Hashimi, Bashir, Aloufi, Mansour and Wenninger, Joseph (2012) Response-surface-based design space exploration and optimisation of wireless sensor nodes with tunable energy harvesters. At DATE2012: Design, Test and Automation in Europe DATE2012: Design, Test and Automation in Europe, Germany. 12 - 16 Mar 2012.

Kazmierski, Tom, Wang, Leran, Merrett, Geoff V., Al-Hashimi, Bashir and Aloufi, Mansour (2013) Fast design space exploration of vibration-based energy harvesting wireless sensors. IEEE Sensors Journal, 13 (11), 4393-4401. (doi:10.1109/JSEN.2013.2263792).

Beeby, S.P., Wang, Leran, Zhu, Dibin, Weddell, Alex, Merrett, Geoff V., Stark, Bernard, Szarka, Gyorgy and Al-Hashimi, Bashir M. (2013) A comparison of power output from linear and non-linear kinetic energy harvesters using real vibration data. Smart Materials and Structures, 22 (7), 75022.

Wang, Leran, Toal, David J.J., Keane, A.J. and Stanley, Felix (2014) An accelerated medial object transformation for whole engine optimisation. At ASME Turbo Expo 2014; Turbine Technical Conference and Exposition ASME Turbo Expo 2014; Turbine Technical Conference and Exposition, Germany. 16 - 20 Jun 2014.

Zhu, Dibin, Wang, Leran, Henaut, Julien and Beeby, Steve (2014) Comparisons of energy sources for autonomous in-car wireless tags for asset tracking and parking applications. At Eurosensors 2014 Eurosensors 2014, Italy. 06 - 10 Sep 2014. 4 pp.

Wang, Leran, Toal, David J.J., Keane, Andy J. and Stanley, Felix (2017) A whole engine optimization based on medial object transformations. At 27th ISABE Conference 27th ISABE Conference, Manchester, United Kingdom. 03 - 08 Sep 2017. 11 pp.

Contact

Share this profile FacebookGoogle+TwitterWeibo

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×