论文信息 - An Architecture for Real-Time Estimation of Crank-Angle-Resolved Engine Cylinder Pressure

An Architecture for Real-Time Estimation of Crank-Angle-Resolved Engine Cylinder Pressure

This work presents a custom hardware architecture for crank-angle-resolved engine cylinder pressure estimation that can accept inputs such as speed, manifold pressure and throttle position, and deliver cylinder pressure in real-time, at engine speeds covering the useful operating range of most engines (up to 10,000 rpm). The hardware, placed in a reconfigurable embedded system for real-time validation, was tested using results of a model derived from actual engine data (13 sets). The hardware, implemented in 32-bit Dual Fixed-Point arithmetic, exhibits results that are very close to those of a 64-bit floating-point software model. This work attempts to show Dual Fixed-Point as a good alternative for high precision operations in automotive applications, where floating point is believed to be the only option.

[1] N. Buchanan,et al. Internal-Combustion Engines , 1945 .

[2] Ujjwal K Saha,et al. INTERNAL COMBUSTION ENGINES , 1998 .

[3] Daniel Llamocca,et al. A Model for Crank-Angle-Resolved Engine Cylinder Pressure Estimation , 2018 .

[4] Daniel Llamocca. Self-reconfigurable architectures for HEVC Forward and Inverse Transform , 2017, J. Parallel Distributed Comput..

[5] Daniel Llamocca,et al. Dual fixed-point CORDIC processor: Architecture and FPGA implementation , 2016, 2016 International Conference on ReConFigurable Computing and FPGAs (ReConFig).