Title :
Rate adaptation in visual MIMO
Author :
Ashok, Ashwin ; Gruteser, Marco ; Mandayam, Narayan ; Kwon, Taekyoung ; Yuan, Wenjia ; Varga, Michael ; Dana, Kristin
Author_Institution :
WINLAB, Rutgers Univ., North Brunswick, NJ, USA
Abstract :
We propose a rate adaptation scheme for visual MIMO camera-based communications, wherein parallel data transmissions from light emitting arrays are received by multiple receive elements of a CCD/CMOS camera image sensor. Unlike RF MIMO, multipath fading is negligible in the visual MIMO channel. Instead, the channel is largely dependent on receiver perspective (distance and angle) and visibility issues (partial line-of-sight availability and occlusions). This allows for slower adaptation but requires the adaptation algorithm to choose among a more complex set of modes. In this paper, we define a set of operating modes for visual MIMO transmitters and propose a rate adaptation scheme to switch between these modes. Our Visual MIMO Rate Adaptation (VMRA) is a packet based rate adaptation protocol that bases its rate selection decisions on the packet error rate feedback. Using trace-based simulation results for a vehicle-to-vehicle communication scenario, we illustrate how our VMRA algorithms can adapt over distance as well as visibility variations in an optical link and achieve a higher average throughput.
Keywords :
CCD image sensors; CMOS image sensors; MIMO communication; fading channels; protocols; radio transmitters; CCD/CMOS camera image sensor; adaptation algorithm; light emitting arrays; multipath fading; optical link; packet based rate adaptation protocol; packet error rate feedback; parallel data transmission; rate selection decision; receiver; trace-based simulation; vehicle-to-vehicle communication scenario; visibility variation; visual MIMO camera-based communication; visual MIMO channel; visual MIMO rate adaptation; visual MIMO transmitter; Cameras; Light emitting diodes; MIMO; Multiplexing; Optical transmitters; Visualization;
Conference_Titel :
Sensor, Mesh and Ad Hoc Communications and Networks (SECON), 2011 8th Annual IEEE Communications Society Conference on
Conference_Location :
Salt Lake City, UT
Print_ISBN :
978-1-4577-0094-1
DOI :
10.1109/SAHCN.2011.5984946
