High-efficiency single-pixel imaging using discrete Hartley transform

Abstract: Single-pixel imaging technology is popular with invisible wavelengths and low light environments. However, the time-consuming steps hindered the development of single-pixel imaging technology. To improve imaging efficiency, a high-efficiency one-step single-pixel imaging method based on the discrete Hartley transform is proposed. The proposed method does not require a large number of fringe patterns and only requires a real-number calculation. The number of fringe patterns required for the proposed method is o… Show more

“…FPGAs enhance hardware performance through adept memory access management and pipeline architectures, with some systems leveraging SDRAM for expedited data transport. Moreover, the computational expense is a critical factor, and algorithms such as Orthogonal Matching Pursuit (OMP) [8], Total Variation Minimization (TVAL3) [9], Alternating Projections (AP) [1], Fast Hartley Transform (FHT) [10],…”

Accelerating the Fast Hadamard Single-Pixel Imaging (FHSI) on GPUs: Techniques and Optimizations

“…FPGAs enhance hardware performance through adept memory access management and pipeline architectures, with some systems leveraging SDRAM for expedited data transport. Moreover, the computational expense is a critical factor, and algorithms such as Orthogonal Matching Pursuit (OMP) [8], Total Variation Minimization (TVAL3) [9], Alternating Projections (AP) [1], Fast Hartley Transform (FHT) [10],…”

Accelerating the Fast Hadamard Single-Pixel Imaging (FHSI) on GPUs: Techniques and Optimizations

DMD-based optical pattern recognition using holograms generated with the Hartley transform

Multi-images encryption and watermarking with small number of keys via computational ghost imaging