27 research outputs found
Characterization of mode coupling in few-mode fiber Bragg gratings with selective mode excitation
We present the results on fabrication and the characterization of few-mode fiber Bragg gratings (FM-FBGs) inscribed in two mode and four mode step-index fibers. Under the conditions of selective input mode launching, coupling between specific modes of interest can be selectively excited and the self-coupling and cross-coupling properties at the associated resonant wavelengths can be clearly identified and verified by observing the reflected mode intensity profiles. Such FM-FBGs can potentially be used as reflective mode-converters for mode division multiplexed data transmission systems
Heat and mass transfer effectiveness and correlations for counter-flow absorbers
10.1016/j.ijheatmasstransfer.2006.04.002International Journal of Heat and Mass Transfer4921-224171-4182IJHM
Mechanical means of enhancing drying rates: Effect on drying kinetics and quality
10.1080/07373930600616678Drying Technology243397-404DRTE
Simulation of liquid diffusion-controlled drying of shrinking thin slabs subjected to multiple heat sources
10.1081/DRT-120018455Drying Technology213413-438DRTE
Performance study of a falling-film absorber with a film-inverting configuration
10.1016/S0140-7007(03)00078-1International Journal of Refrigeration268909-917IJRF
Convective drying with time-varying heat input: Simulation results
10.1081/DRT-120023187Drying Technology2171333-1356DRTE
Evaluation of heat and mass transfer coefficients for falling-films on tubular absorbers
10.1016/S0140-7007(02)00076-2International Journal of Refrigeration262197-204IJRF
A diffusion model for a drum dryer subjected to conduction, convection, and radiant heat input
10.1080/07373930701397467Drying Technology2561033-1043DRTE
Autonomous Driving Vehicle System using LiDAR sensor
An overview of light detection and ranging (LiDAR) sensor technology for autonomous vehicles is presented in this paper. The sensor called LiDAR sensors is a key component of autonomous driving’s for the upcoming generation as an assistance function. LiDAR technology is discussed, including its characteristics, a technical overview, prospects as well as limitations in relation to other sensors available in the industry. Comparison and comment on sensor quality are based on factory parameters. The basic components of a LiDAR system from the laser transmitter to the beam scanning mechanism are explained
