Zobrazeno 1 - 10
of 35
pro vyhledávání: '"Michael J. Simon"'
Publikováno v:
IEEE Transactions on Broadcasting. 66:449-458
In this paper, the ATSC 3.0 broadcast Radio Access Technology (RAT) is aligned with 3GPP 5G NR RAT in the context of 5G convergence starting in Release 16. The 5G system architecture release 16 includes a new 5G physical layer known as 5G NR “New R
Autor:
Jae-Young Lee, Namho Hur, Sung-Ik Park, Jeongchang Kim, Hyeongseok Kim, Michael J. Simon, Kevin Gage, Mark A. Aitken
Publikováno v:
IEEE Transactions on Broadcasting. 66:1-8
This paper proposes an improved decoding scheme of emergency alert wake-up bits in Advanced Television Systems Committee (ATSC) 3.0. When a broadcast service is being provided, a bootstrap signal of ATSC 3.0 includes the minimal essential information
Autor:
Sung-Ik Park, Jaekwon Lee, Jae-Young Lee, Yiyan Wu, Bo-Mi Lim, Michael J. Simon, Mark A. Aitken, Kevin Gage, Heung Mook Kim, Liang Zhang, Sungjun Ahn, Wei Li, Sunhyoung Kwon, Sungho Jeon, Jeongchang Kim
Publikováno v:
IEEE Transactions on Broadcasting. 65:197-210
This paper presents the advanced television systems committee (ATSC) 3.0 physical layer system performances with different modulation and channel coding combinations. Numerous computer simulations, laboratory tests, and field trials are conducted und
Autor:
Victoria Andrew, Georgia M. Lynott, I. David Abrahams, Raphaël C. Assier, Michael J. Simon, William J. Parnell
Publikováno v:
Wave Motion. 89:232-244
© 2019 The Authors Motivated by the problem of acoustic plane wave scattering from an infinite periodic array of cylindrical scatterers, we present a new and easily-implemented way of calculating the quasi-periodic Green's function. This approach is
Autor:
Heung Mook Kim, Hoiyoon Jung, Jae-Young Lee, Namho Hur, Sung-Ik Park, Jeongchang Kim, Michael J. Simon, Mark A. Aitken
Publikováno v:
BMSB
This paper presents channel bonding performance of the ATSC 3.0 system in mobile channel environments. Channel bonding can be used to increase data rate of broadcasting services by utilizing additional RF channels. Moreover, it can also provide diver
Autor:
Sung-Ik Park, Hyeongseok Kim, Mark A. Aitken, Kevin Gage, Jae-Young Lee, Michael J. Simon, Namho Hur, Jeongchang Kim
Publikováno v:
BMSB
This paper presents a new decoding scheme of emergency alert (EA) wake-up bits and evaluates its decoding performance in Advanced Television Systems Committee (ATSC) 3.0. Given that the minimal essential information in the bootstrap signal of ATSC 3.
Publikováno v:
IEEE Transactions on Broadcasting. 62:263-270
An ATSC 3.0 physical layer frame consists of a bootstrap immediately followed by a preamble containing layer 1 control signaling and then one or more subframes carrying payload data. Subframes within a particular frame may be of the same or different
Autor:
Mark A. Aitken, Namho Hur, Sung-Ik Park, Jae-Young Lee, Hoiyoon Jung, Heung Mook Kim, Jeongchang Kim, Michael J. Simon
Publikováno v:
BMSB
This paper presents channel bonding performance of ATSC 3.0 systems with equal PLP rate in fixed channel environments. Channel bonding is used to enhance data rate of broadcasting systems beyond a single channel capacity by utilizing additional chann
Autor:
Mark A. Aitken, Jae-Young Lee, Jeongchang Kim, Wei Li, Sunhyoung Kwon, Liang Zhang, Heung Mook Kim, Michael J. Simon, Sung-Ik Park, Kevin Gage, Sungho Jeon, Sungjun Ahn, Bo-Mi Lim, Jaekwon Lee, Yiyan Wu
Publikováno v:
BMSB
This paper presents ATSC 3.0 physical (PHY) layer modulation and coding performance through computer simulations, laboratory tests, and field trials. Analysis results show that the measured results in laboratory and field are generally well aligned w
Autor:
Michael J. Simon
Publikováno v:
IEEE Consumer Electronics Magazine. 8:8-9
The ability to open the radio-frequency (RF) spectrum in radio silence, where there is no interference with airwaves, is extremely valuable. By many estimates, even narrow slices of the spectrum are measured in billions of dollars. With the world on