Visual servoing has been proven to obtain better performance than encoders at comparable cost. However, the often computationally intensive vision algorithms and the ever growing demands for higher frame rate make its realization very challenging. This paper demonstrated the feasibility of achieving high frame-rate visual servoing applications on the wide Single-Instruction-Multiple-Data (SIMD) processors. An industrial application, Organic-Light-Emitting-Diode (OLED) substrate localization, is chosen as a typical example. Firstly, we proposed an improved vision pipeline for repetitive structure localization, which is more robust, and also more friendly to embedded processors and FPGA/ASIC realization. Then, a highly-efficient SIMD processo...
This paper proposes a novel programmable vision chip based on multiple levels of parallel processors...
A programmable vision chip for real-time vision applications is presented. The chip architecture is ...
In this paper, we examine the implementation of two middle-level image understanding tasks on fine-g...
Visual servoing has been proven to obtain better performance than encoders at comparable cost. Howev...
Visual servoing has been proven to obtain bet-ter performance than encoders at comparable cost. Howe...
Visual servoing has been proven to obtain better performance than mechanical encoders for position a...
Visual servoing applies image sensors instead of mechanical encoders for position acquisition. It ca...
Visual servoing applies image sensors instead of mechanical encoders for position acquisition. It ca...
The research presented in this paper focuses on high performance visual servoing for controlled posi...
International audienceA high-speed analog VLSI image acquisition and low-level image processing syst...
Abstract — In this paper we present a vision processor, which incorporates a 160×80 SIMD array of pi...
Pixel-parallel PE and SIMD architectures are widely used in high-speed image processing to enhance c...
A high-speed analog VLSI image acquisition and low-level image processing system are presented. The ...
This paper presents novel high speed vision chips based on multiple levels of parallel processors. T...
This paper proposes a novel programmable vision chip based on multiple levels of parallel processors...
A programmable vision chip for real-time vision applications is presented. The chip architecture is ...
In this paper, we examine the implementation of two middle-level image understanding tasks on fine-g...
Visual servoing has been proven to obtain better performance than encoders at comparable cost. Howev...
Visual servoing has been proven to obtain bet-ter performance than encoders at comparable cost. Howe...
Visual servoing has been proven to obtain better performance than mechanical encoders for position a...
Visual servoing applies image sensors instead of mechanical encoders for position acquisition. It ca...
Visual servoing applies image sensors instead of mechanical encoders for position acquisition. It ca...
The research presented in this paper focuses on high performance visual servoing for controlled posi...
International audienceA high-speed analog VLSI image acquisition and low-level image processing syst...
Abstract — In this paper we present a vision processor, which incorporates a 160×80 SIMD array of pi...
Pixel-parallel PE and SIMD architectures are widely used in high-speed image processing to enhance c...
A high-speed analog VLSI image acquisition and low-level image processing system are presented. The ...
This paper presents novel high speed vision chips based on multiple levels of parallel processors. T...
This paper proposes a novel programmable vision chip based on multiple levels of parallel processors...
A programmable vision chip for real-time vision applications is presented. The chip architecture is ...
In this paper, we examine the implementation of two middle-level image understanding tasks on fine-g...