bibtype L4 - Prototype, methodology, f. module, software
ARLID 0480100
utime 20240103214753.0
mtime 20171020235959.9
title (primary) (eng) Adaptive RLS Algorithms Reference Implementations
publisher
pub_time 2017
keyword RLS Algorithms
keyword adaptive identification
keyword logarithmic
keyword fixed-point and single-precision floating-point arithmetics
author (primary)
ARLID cav_un_auth*0101120
full_dept (cz) Zpracování signálů
full_dept (eng) Department of Signal Processing
department (cz) ZS
department (eng) ZS
full_dept Department of Signal Processing
name1 Kadlec
name2 Jiří
institution UTIA-B
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
author
ARLID cav_un_auth*0330517
full_dept (cz) Zpracování signálů
full_dept Department of Signal Processing
department (cz) ZS
department ZS
full_dept Department of Signal Processing
name1 Likhonina
name2 Raissa
institution UTIA-B
country CZ
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
source
url http://sp.utia.cz/index.php?ids=results&id=dsp_1_6
cas_special
project
ARLID cav_un_auth*0351997
project_id 8A17006
agency GA MŠk
country CZ
abstract (eng) This software presents set of adaptive recursive least squares system identification algorithms based on the Bayesian extensions of real-time adaptive system identification as well as extending the existing recursive least square adaptive algorithms for estimation of time varying parameters in the applications of acoustic signal processing. The included reference adaptive algorithms are implemented in Matlab 2016b. Algorithms serve as „golden“ reference models for the embedded implementations on dedicated processors like Arm Cortex A9 and the FPGA programmable logic accelerators in devices the Xilinx Zynq. Algorithms are numerically robust. Algorithms are implemented in double precision floating point (64bit), single precision floating point (32bit) and in logarithmic arithmetic with precision 32bit and 19bit. This software also presents adaptive recursive least squares system identification algorithms taking advantage of dynamic normalization of the core of the algorithm into the guarantied range <1-, 1> for all variables. These algorithmic cores are suitable for the fixed-point implementation (14bit).
RIV JC
FORD0 20000
FORD1 20200
FORD2 20206
reportyear 2018
num_of_auth 2
mrcbC52 4 A hod 4ah 20231122142736.0
permalink http://hdl.handle.net/11104/0276767
mrcbC64 1 Department of Signal Processing UTIA-B 10200 COMPUTER SCIENCE, INFORMATION SYSTEMS
confidential S
arlyear 2017
mrcbTft \nSoubory v repozitáři: kadlec-0480100.pdf
mrcbU10 2017