TY - GEN
T1 - Design and Analysis of Dual Rectangular Slotted Antenna for Space-station Cynosure IOT Security Applications
AU - Segun, Akinola
AU - Nissanov, Uri
AU - Singh, Ghanshyam
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/5/18
Y1 - 2021/5/18
N2 - In this paper, space-station based internet of thing (IoT) security application is presented. The international space-station indicates enormous satellite orbit. This design consists of the inner arrangement of modernized rectangular in shape antenna loaded by dual rectangle-shaped slot (DRSS). The effect novel was study to check performance of the design. Inserting of slot has a very great influence on the behaviour with the specification of the design. The aim is to enhance bandwidth of the novel design, which brought about slot-loaded side-by-side on the rectangular patch with it feeding via the microstrip feeder link. It's show that loading of the slot in this part of the antenna without degradation in the cross-polarization performance bring good results than other microstrip antenna that are conventional. The proposed design has been simulated using frequency domain-solver of CST Microwave Studio and, validated with time-domain solver. The results show an impressive wide impedance bandwidth more than the initial antenna. Moreover, the input impedance, the S-parameters (S11) parametric study, radiation pattern, Far-field's and current distribution are investigated, the state of the art comparison was presented. This is suitable for IoT security applications.
AB - In this paper, space-station based internet of thing (IoT) security application is presented. The international space-station indicates enormous satellite orbit. This design consists of the inner arrangement of modernized rectangular in shape antenna loaded by dual rectangle-shaped slot (DRSS). The effect novel was study to check performance of the design. Inserting of slot has a very great influence on the behaviour with the specification of the design. The aim is to enhance bandwidth of the novel design, which brought about slot-loaded side-by-side on the rectangular patch with it feeding via the microstrip feeder link. It's show that loading of the slot in this part of the antenna without degradation in the cross-polarization performance bring good results than other microstrip antenna that are conventional. The proposed design has been simulated using frequency domain-solver of CST Microwave Studio and, validated with time-domain solver. The results show an impressive wide impedance bandwidth more than the initial antenna. Moreover, the input impedance, the S-parameters (S11) parametric study, radiation pattern, Far-field's and current distribution are investigated, the state of the art comparison was presented. This is suitable for IoT security applications.
KW - Bandwidth
KW - Electromagnetic
KW - Frequency selective surface
KW - Internet of things (IoT)
KW - Metamaterial
KW - Satellite
KW - gain
UR - http://www.scopus.com/inward/record.url?scp=85113178577&partnerID=8YFLogxK
U2 - 10.1109/RDAAPS48126.2021.9452031
DO - 10.1109/RDAAPS48126.2021.9452031
M3 - Conference contribution
AN - SCOPUS:85113178577
T3 - 2021 Reconciling Data Analytics, Automation, Privacy, and Security: A Big Data Challenge, RDAAPS 2021
BT - 2021 Reconciling Data Analytics, Automation, Privacy, and Security
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2021 Reconciling Data Analytics, Automation, Privacy, and Security: A Big Data Challenge, RDAAPS 2021
Y2 - 18 May 2021 through 19 May 2021
ER -