Presentation is loading. Please wait.

Presentation is loading. Please wait.

A Time Error Correction Method Applied to High-Precision AER Asynchronous CMOS Image Sensor 李东盛.

Published byAvice Carr Modified over 9 years ago

Similar presentations

Presentation on theme: "A Time Error Correction Method Applied to High-Precision AER Asynchronous CMOS Image Sensor 李东盛."— Presentation transcript:

1 A Time Error Correction Method Applied to High-Precision AER Asynchronous CMOS Image Sensor 李东盛

2 Introduction Low redundancy High time resolution No frame High DR Digital Time-domain Real-time visual sensory Intelligent Autonomous

3 Categories Light intensity change Tracking for high-speed particle Light intensity Video monitoring Color change Robotics vision EventAERProcess

4 Working principle of AER  Address Event Representation

5 Pixel structure  Two PDs  Three stages in CD  Reset control  EM

6 Pixel Array  Pixel → Row arbiter → Row address encoder → pixel → Column arbiter → Column address encoder → external → pixel  Because the time- stamping of the AER asynchronous image sensors is made in the external, so the time of making time-stamping is not the accurate time when the pixel generates pulse events.

7 The Arbiter

8 Time Error Analysis

9 T delay2

10 If the two events are in the different rows In Fig. 5T rowab T delay2 (a) (b) (c)

11 If the two events are in the same row In Fig 6 T colab T delay2 (a) (b) (c) (d)

12  more than two pixels sending requests at the same time  When an event is being processed and some other events are waiting for being processed, another event occurs:

13 Time Error Analysis  Main factors  The complexity of the pixel array  The event rate  Processing speed of the external circuit  Error on image  The more the light intensity is, the worse the error on image is.

14 Correct method  Recording the time error from red to green can be achieved.

15 Pixel and pixel array with correction

16

17 Simulation in Matlab  All the simulation was based on the global reset mode.  Mainly based on an 8 × 8 pixel array.

18 Light intensity  Simulation condition:  All the pixels with the same input signal.  Speed: 100MHz

19 Collision events Number of collision events Without correctionWith correction Error range Average Error range Average 64 0.033%~7.933% 4.154%0. 033% 32 0.200%~4.100% 2.111%0~0.033%0. 017% 16 0.142%~2.062% 0.996%0~0.041%0.023%  Simulation condition:  Speed:100MHz  Light: 5000~10000Lux

20 Processing Speed  Simulation condition:  Light: 10000~11000Lux

21 Scale of the pixel array  Simulation condition:  Light: 3000~4000Lux  Speed: 100MHz

22 Simulation in Specture

23 Signals in CD unit

24 Simulation results for the array

25

26

Download ppt "A Time Error Correction Method Applied to High-Precision AER Asynchronous CMOS Image Sensor 李东盛."

Similar presentations

1 RTL Example: Video Compression – Sum of Absolute Differences Video is a series of frames (e.g., 30 per second) Most frames similar to previous frame.

1 RTL Example: Video Compression – Sum of Absolute Differences Video is a series of frames (e.g., 30 per second) Most frames similar to previous frame.
Rotary Encoder. Wikipedia- Definition  A rotary encoder, also called a shaft encoder, is an electro- mechanical device that converts the angular position.

Rotary Encoder. Wikipedia- Definition  A rotary encoder, also called a shaft encoder, is an electro- mechanical device that converts the angular position.
Lecture 9: D/A and A/D Converters

Lecture 9: D/A and A/D Converters
Design and Implementation a 8 bits Pipeline Analog to Digital Converter in The Technology 0.6 μm CMOS Process Eri Prasetyo.

Design and Implementation a 8 bits Pipeline Analog to Digital Converter in The Technology 0.6 μm CMOS Process Eri Prasetyo.
Dielectric Materials for Advanced Applications Progress Report (Oct. 2010 – Feb. 2011) Xuewei Zhang and Prof. Markus Zahn Massachusetts Institute of Technology.

Dielectric Materials for Advanced Applications Progress Report (Oct – Feb. 2011) Xuewei Zhang and Prof. Markus Zahn Massachusetts Institute of Technology.
Francisco Barranco Cornelia Fermüller Yiannis Aloimonos Event-based contour motion estimation.

Francisco Barranco Cornelia Fermüller Yiannis Aloimonos Event-based contour motion estimation.
Temperature Dependence of FPN in Logarithmic CMOS Image Sensors Dileepan Joseph¹ and Steve Collins² ¹University of Alberta, Canada ²University of Oxford,

Temperature Dependence of FPN in Logarithmic CMOS Image Sensors Dileepan Joseph¹ and Steve Collins² ¹University of Alberta, Canada ²University of Oxford,
Logarithmic CMOS image sensors Dr. Dileepan Joseph Dept. of Engineering Science University of Oxford, UK.

Logarithmic CMOS image sensors Dr. Dileepan Joseph Dept. of Engineering Science University of Oxford, UK.
Video enhances, dramatizes, and gives impact to your multimedia application. Your audience will better understand the message of your application.

Video enhances, dramatizes, and gives impact to your multimedia application. Your audience will better understand the message of your application.
Logging and Replay of Go Game Steven Davis Elizabeth Fehrman Seth Groder.

Logging and Replay of Go Game Steven Davis Elizabeth Fehrman Seth Groder.
Bits are Not just for Numbers Computers store characters as bits or binary digits. Characters from the English-language keyboard are represented in ASCII.

Bits are Not just for Numbers Computers store characters as bits or binary digits. Characters from the English-language keyboard are represented in ASCII.
Power Distribution FPGADDR2 OEM Board Flash MEMSSDINSD3 Cameras Connector Board 1.2V1.8V5V3.3V 3.3V, 5V, 12V 15V3.3V9-36V.

Power Distribution FPGADDR2 OEM Board Flash MEMSSDINSD3 Cameras Connector Board 1.2V1.8V5V3.3V 3.3V, 5V, 12V 15V3.3V9-36V.
REAL-TIME SOFTWARE SYSTEMS DEVELOPMENT Instructor: Dr. Hany H. Ammar Dept. of Computer Science and Electrical Engineering, WVU.

REAL-TIME SOFTWARE SYSTEMS DEVELOPMENT Instructor: Dr. Hany H. Ammar Dept. of Computer Science and Electrical Engineering, WVU.
1 King ABDUL AZIZ University Faculty Of Computing and Information Technology CS 454 Computer graphicsIntroduction Dr. Eng. Farag Elnagahy

1 King ABDUL AZIZ University Faculty Of Computing and Information Technology CS 454 Computer graphicsIntroduction Dr. Eng. Farag Elnagahy
Computer Vision Lecture 3: Digital Images

Computer Vision Lecture 3: Digital Images
Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana.

Using an Electromagnetic and Acoustic Sensing Device to Determine Direction and Range Part of the Intelligent Ground Vehicle Project Maria Pacana.
Achieving True Color Fidelity

Achieving True Color Fidelity
Introduction to Cameras Jim Rasche Samba Danfa Jaya Joseph 1.

Introduction to Cameras Jim Rasche Samba Danfa Jaya Joseph 1.
CAMERA MODULE & BOARD. ■ DNR (Digital Noise Reduction) By using the DSP chip applied to the DNR technology, the amount of low illuminance noise has been.

CAMERA MODULE & BOARD. ■ DNR (Digital Noise Reduction) By using the DSP chip applied to the DNR technology, the amount of low illuminance noise has been.
CMOS image sensors Presenter: Alireza eyvazzadeh.

CMOS image sensors Presenter: Alireza eyvazzadeh.

Similar presentations

Ads by Google