A new integration based fluorescence lifetime imaging microscopy (FLIM) called IEM has been proposed to implement lifetime extraction [J. Opt. Soc. Am. A 25, 1190 (2008)]. A real-time hardware implementation of the IEM FLIM algorithm suitable for single photon avalanche diode arrays in nanometer-scale CMOS technology is now proposed. The problems of reduced pixel readout bandwidth and background noise are studied and a calibration method suitable for FPGA implementation is introduced. In particular, the relationship between signal-to-noise ratio and background noise is considered based on statistics theory and compared with a rapid lifetime determination method and maximum-likelihood estimator with-without background correction. The results are also compared with Monte Carlo simulations giving good agreement. The performance of the proposed methods has been tested on monoexponential decay experimental data. The high flexibility, wide range, and hardware friendliness make IEM the best candidate for system-on-chip integration to our knowledge.
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机译:已经提出了一种新的基于集成的荧光寿命成像显微镜(FLIM),称为IEM,以实现寿命提取[J.选择。 Soc。上午。 A 25,1190(2008)]。现在,提出了适用于纳米级CMOS技术中单光子雪崩二极管阵列的IEM FLIM算法的实时硬件实现。研究了像素读出带宽减小和背景噪声降低的问题,并介绍了适合FPGA实现的校准方法。特别地,基于统计理论考虑信噪比与背景噪声之间的关系,并将其与快速寿命确定方法和不进行背景校正的最大似然估计器进行比较。还将结果与蒙特卡洛模拟进行了比较,得出了很好的一致性。在单指数衰减实验数据上测试了所提出方法的性能。 IEM的高度灵活性,广泛的范围和硬件友好性使其成为我们所知的片上系统集成的最佳人选。
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