Live demonstration: Real-time motor rotation frequency detection by spike-based visual and auditory AER sensory integration for FPGA

Author

Rios-Navarro, A. ; Cerezuela-Escudero, E. ; Dominguez-Morales, M. ; Jimenez-Fernandez, A. ; Jimenez-Moreno, G. ; Linares-Barranco, A.

Author_Institution

Robotic & Technol. of Comput. Lab., Univ. of Seville Seville, Seville, Spain

fYear

2015

fDate

24-27 May 2015

Firstpage

1907

Lastpage

1907

Abstract

Multisensory integration is commonly used in various robotic areas to collect much more information from an environment using different and complementary types of sensors. This demonstration presents a scenario where the motor rotation frequency is obtained using an AER DVS128 retina chip (Dynamic Vision Sensor) and a frequency decomposer auditory system on a FPGA that mimics a biological cochlea. Both of them are spike-based sensors with Address-Event-Representation (AER) outputs. A new AER monitor hardware interface, based on a Spartan-6 FPGA, allows two operational modes: real-time (up to 5 Mevps through USB2.0) and off-line mode (up to 20 Mevps and 33.5 Mev stored in DDR RAM). The sensory integration allows the bio-inspired cochlea limit to provide a concrete range of rpm approaches, which are obtained by the silicon retina.

Keywords

DC motors; field programmable gate arrays; image sensors; AER DVS128 retina chip; AER monitor hardware interface; FPGA; address-event-representation outputs; bio-inspired cochlea limit; dynamic vision sensor; frequency decomposer auditory system; real-time motor rotation frequency detection; spike-based visual and auditory AER sensory integration; Biomedical monitoring; Boards; DC motors; Field programmable gate arrays; Monitoring; Real-time systems; Sensors;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems (ISCAS), 2015 IEEE International Symposium on

Conference_Location

Lisbon

Type

conf

DOI

10.1109/ISCAS.2015.7169040

Filename

7169040