Abstract
Increasing demand for realistic media and improvement of transmission and device techniques accelerate ultra-highdefinition(UHD) service realization. In Korea, the cable TV broadcasting companies are planning to commercialize in Apr.
2014. For the terrestrial TV broadcasting service, technical issues are considered for the specification of UHD broadcastingsystem. However, the frequency bands and the system bandwidth for the terrestrial UHD broadcasting system have not beendecided. In this paper, we propose required spectrum bandwidth for the next-generation terrestrial broadcasting serviceconsidering source coding, error correcting codes and modulation techniques. Also, we propose frequency management planfor terrestrial UHD broadcasting system in which we divide all parts of the country into 9 frequency zones and allocate 4frequency band to each frequency zone considering single frequency network (SFN).
2014. For the terrestrial TV broadcasting service, technical issues are considered for the specification of UHD broadcastingsystem. However, the frequency bands and the system bandwidth for the terrestrial UHD broadcasting system have not beendecided. In this paper, we propose required spectrum bandwidth for the next-generation terrestrial broadcasting serviceconsidering source coding, error correcting codes and modulation techniques. Also, we propose frequency management planfor terrestrial UHD broadcasting system in which we divide all parts of the country into 9 frequency zones and allocate 4frequency band to each frequency zone considering single frequency network (SFN).
| Translated title of the contribution | A Study on Frequency Spectrum Allocation for the Next-Generation Terrestrial Broadcasting Service |
|---|---|
| Original language | Korean |
| Pages (from-to) | 79-84 |
| Number of pages | 6 |
| Journal | 통신위성우주산업연구회논문지 |
| Volume | 9 |
| Issue number | 1 |
| State | Published - Mar 2014 |