一种智能应变计调节器的设计与实现

2003 IEEE International Workshop on Computer Architectures for Machine Perception Pub Date : 2003-05-12 DOI:10.1109/CAMP.2003.1598163

S. Poussier, H. Rabah, S. Weber

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引用次数: 0

摘要

本文提出了一种基于可编程芯片(SOPC)的智能应变片调节器系统的新设计与实现。该系统是为满足应变片热补偿算法的灵活性和复杂性而设计的。为了满足实时处理约束和参数化要求，部分算法采用硬件实现，其余算法采用软件实现。这些架构是在包含核心处理器的现场可编程门阵列(FPGA)上实现的。提出了热补偿的五种方法。第一种是常用的经典技巧。第二种是基于拉格朗日插值。第三种是基于牛顿迭代算法。第四种是基于Neville-Aitken递归算法。最后一种是基于样条插值算法。给出了植入技术和实验结果

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Design and implementation of a smart strain gage conditioner

This paper presents a new design and implementation of a system on a programmable chip (SOPC) for smart strain gage conditioner. The system is designed to meet flexibility and complex computations required in thermal compensation algorithms of strain gage. To satisfy the real-time processing constraints in one hand, and parameterization in another hand, parts of the algorithms are implemented in hardware and others are implemented in software. Theses architectures are implemented on a field programmable gate array (FPGA) including a core processor. Five methodologies are developed for the thermal compensation. The first is the classical technique usually used. The second is based on Lagrange interpolation. The third is based on the Newton iteration algorithm. The fourth is based on Neville-Aitken recurrence algorithm. The last is based on the spline interpolation algorithm. Implantations techniques and experimental results are given

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2003 IEEE International Workshop on Computer Architectures for Machine Perception

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