Moon-Hee You scite author profile

Recently, the Korean government has announced a plan to develop a satellite-based navigation system called the Korean Positioning System (KPS). When designing a new Radio Navigation Satellite Service (RNSS) signal, the use of the S-band has emerged as an alternative to avoiding signal congestion in the L-bands, and South Korea is considering using the S-band with the L-bands. Therefore, this study proposed possible S-band signal candidates and evaluated their performance, such as the radio frequency (RF) compatibility, spectral efficiency, ranging performance, and receiver complexity. Several figures-of-merit (FoMs) were introduced for quantitative performance evaluation for each candidate. Each FoM was calculated using an analytical equation by considering the signal design parameters, such as the center frequency, modulation scheme, and chip rate. The results showed that the outstanding candidate signal was different depending on the signal performance of interest and the reception environments. Therefore, we discuss and summarize the signal performance analysis results considering the whole FoMs together. Under the assumptions given in this paper, the binary phase shift keying (BPSK)(1), sine-phased binary offset carrier (BOCs)(5,2), and BPSK signals were superior for the spectral efficiency, ranging performance, and receiver complexity, respectively.

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Efficient adaptive coding scheme in mobile satellite communication channel

Kim¹,

Lee

You

et al. 1999

IEE Proc., Commun.

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Conceptual Design Analysis of Satellite Communication System for KASS

Sin

You²,

Hyoung³

et al. 2016

The Journal of Advanced Navigation Technology

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High-level conceptual design analysis results of satellite communication system for Korea augmentation satellite system (KASS) satellite communication system, which is a part of KASS and consisted of KASS uplink Stations and two leased GEO is presented in this paper. We present major functions such as receiving correction and integrity message from central processing system, taking forward error correction for the message, modulating and up converting signal and conceptual design analysis for concepts for design process, GEO precise orbit determination for GEO ranging that is additional function, and clock steering for synchronization of clocks between GEO and GPS satellites. In addition to these, KASS requires 2.2 MHz for SBAS Augmentation service and 18.5 MHz for Geo-ranging service as minimum bandwidths as a results of service performance analysis of GEO ranging with respect to navigation payload(transponder) RF bandwidth is presented. These analysis results will be fed into KASS communication system design by carrying out final analysis after determining two GEOs and sites of KASS uplink stations.

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A Critical Design of RF Performances of Ka-Band Communications Payload System for COMS

Lee¹,

You²,

Lee³

2006

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Moon-Hee You

Ionospheric electron density profiles derived from obliquely sounded HF radar

A Comprehensive Evaluation of Possible RNSS Signals in the S-Band for the KPS

Efficient adaptive coding scheme in mobile satellite communication channel

Conceptual Design Analysis of Satellite Communication System for KASS

A Critical Design of RF Performances of Ka-Band Communications Payload System for COMS

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