Radars are used in automobiles for various functionalities, starting from the obstacle alarm during vehicle reversing to advanced functionalities like autonomous driving. A practical method for monitoring people inside a vehicle for various applications (surveillance, safety, etc.) could be built using Radar. This paper presents the embedded implementation of a vital sign sensing algorithm using the radar signal processing (RSP) technique. MEX (MATLAB executable) interface is performed with the embedded C code of the vital sign sensing algorithm generated for validating the results with the RSP technique. Finally, Unit testing is performed on the developed embedded C code of the vital sign sensing algorithm to remove the dead codes and to verify whether all branches and statements in a developed algorithm are working accordingly. The embedded C code results were found to be matching precisely with the RSP technique. With the help of obtained results, we can differentiate between an adult and a baby inside a vehicle.
%0 Journal Article
%1 c2022incabin
%A C, Ramachandra A
%A V, Viswanatha
%A K, Kishor
%A H, Suhas
%A E, Pannir Selvam
%D 2022
%E Xiong, Neal N.
%E Biradar, Dr. Sangappa R.
%E Sharma, Dr. Anand
%J International Journal on Recent and Innovation Trends in Computing and Communication
%K Algorithm In-Cabin Sensing Sign Vital
%N 8
%P 104-109
%R https://doi.org/10.17762/ijritcc.v10i8.5682
%T In-Cabin Radar Monitoring System: Detection and Localization of People Inside Vehicle using Vital Sign Sensing Algorithm
%U https://ijritcc.org/index.php/ijritcc/article/view/5682/5457
%V 10
%X Radars are used in automobiles for various functionalities, starting from the obstacle alarm during vehicle reversing to advanced functionalities like autonomous driving. A practical method for monitoring people inside a vehicle for various applications (surveillance, safety, etc.) could be built using Radar. This paper presents the embedded implementation of a vital sign sensing algorithm using the radar signal processing (RSP) technique. MEX (MATLAB executable) interface is performed with the embedded C code of the vital sign sensing algorithm generated for validating the results with the RSP technique. Finally, Unit testing is performed on the developed embedded C code of the vital sign sensing algorithm to remove the dead codes and to verify whether all branches and statements in a developed algorithm are working accordingly. The embedded C code results were found to be matching precisely with the RSP technique. With the help of obtained results, we can differentiate between an adult and a baby inside a vehicle.
@article{c2022incabin,
abstract = {Radars are used in automobiles for various functionalities, starting from the obstacle alarm during vehicle reversing to advanced functionalities like autonomous driving. A practical method for monitoring people inside a vehicle for various applications (surveillance, safety, etc.) could be built using Radar. This paper presents the embedded implementation of a vital sign sensing algorithm using the radar signal processing (RSP) technique. MEX (MATLAB executable) interface is performed with the embedded C code of the vital sign sensing algorithm generated for validating the results with the RSP technique. Finally, Unit testing is performed on the developed embedded C code of the vital sign sensing algorithm to remove the dead codes and to verify whether all branches and statements in a developed algorithm are working accordingly. The embedded C code results were found to be matching precisely with the RSP technique. With the help of obtained results, we can differentiate between an adult and a baby inside a vehicle.},
added-at = {2022-10-16T19:47:26.000+0200},
author = {C, Ramachandra A and V, Viswanatha and K, Kishor and H, Suhas and E, Pannir Selvam},
biburl = {https://www.bibsonomy.org/bibtex/245ce7931d03980f0fd6ef9e8a38019bf/viswas123},
doi = {https://doi.org/10.17762/ijritcc.v10i8.5682},
editor = {Xiong, Neal N. and Biradar, Dr. Sangappa R. and Sharma, Dr. Anand},
interhash = {7cf289d5a38c8a8555b6e7cc96b8d13b},
intrahash = {45ce7931d03980f0fd6ef9e8a38019bf},
issn = {2321-8169},
journal = { International Journal on Recent and Innovation Trends in Computing and Communication},
keywords = {Algorithm In-Cabin Sensing Sign Vital},
language = {English},
month = {august},
number = 8,
pages = {104-109},
timestamp = {2022-10-16T19:47:26.000+0200},
title = {In-Cabin Radar Monitoring System: Detection and Localization of People Inside Vehicle using Vital Sign Sensing Algorithm},
url = {https://ijritcc.org/index.php/ijritcc/article/view/5682/5457},
volume = 10,
year = 2022
}