This paper presents a new method, based on gray-scale mathematical morphology, called bitwise decomposition. Aimed at visual prosthetics, the design is compact and portable. The use of the proposed gray-scale erosion allows for on-pixel image processing and a higher fill factor. The design is based on Digital Pixel Sensors, where analog-to-digital conversion is carried out next to the photodiode. The advantages are faster readout and better reliability. Implemented in 0.13 μm CMOS technology, the design achieves a fill factor of 22%. The pixel array needs only a minimum of external control and processing circuitry to produce an edge image
This work optimizes a CMOS image pixel sensor circuit for being used in a compressive sensing (CS) i...
This paper considers a novel pixel architecture inspired by the integrate and fire neurons in biolog...
Conventional surveillance systems are omnipresent and most are still based on analog techniques. Mig...
A novel approach to implement gray-scale morphological operations is presented in this work. This ne...
A novel approach to implement gray-scale morphological operations is presented in this work. This ne...
In this paper a CMOS vision chip featuring real-time on-chip image processing capabilities is presen...
Abstract—This paper describes a CMOS smart-pixel array for applications in microchip size imaging se...
This paper describes a CMOS smart-pixel array for applications in microchip size imaging sensor wit...
A prototype of a 34 x 34 pixel image sensor, implementing real-time analog image processing, is pres...
This project presents a chip designed for the purpose of evaluating the design method in implementin...
In this paper, a CMOS image sensor featuring a novel spiking pixel design and a robust digital inter...
In this paper, a new design paradigm referred to as compressive acquisition CMOS image sensors is in...
The use of the CMOS technology for imaging enables the cointegration of additional signal processing...
The purpose of this thesis is to develop an FPGA Modular Based Implementation of a Grayscale Morphol...
Complementary Metal-Oxide Semiconductor (CMOS) image sensors are the principal technology employed i...
This work optimizes a CMOS image pixel sensor circuit for being used in a compressive sensing (CS) i...
This paper considers a novel pixel architecture inspired by the integrate and fire neurons in biolog...
Conventional surveillance systems are omnipresent and most are still based on analog techniques. Mig...
A novel approach to implement gray-scale morphological operations is presented in this work. This ne...
A novel approach to implement gray-scale morphological operations is presented in this work. This ne...
In this paper a CMOS vision chip featuring real-time on-chip image processing capabilities is presen...
Abstract—This paper describes a CMOS smart-pixel array for applications in microchip size imaging se...
This paper describes a CMOS smart-pixel array for applications in microchip size imaging sensor wit...
A prototype of a 34 x 34 pixel image sensor, implementing real-time analog image processing, is pres...
This project presents a chip designed for the purpose of evaluating the design method in implementin...
In this paper, a CMOS image sensor featuring a novel spiking pixel design and a robust digital inter...
In this paper, a new design paradigm referred to as compressive acquisition CMOS image sensors is in...
The use of the CMOS technology for imaging enables the cointegration of additional signal processing...
The purpose of this thesis is to develop an FPGA Modular Based Implementation of a Grayscale Morphol...
Complementary Metal-Oxide Semiconductor (CMOS) image sensors are the principal technology employed i...
This work optimizes a CMOS image pixel sensor circuit for being used in a compressive sensing (CS) i...
This paper considers a novel pixel architecture inspired by the integrate and fire neurons in biolog...
Conventional surveillance systems are omnipresent and most are still based on analog techniques. Mig...