Simulation Model for DVB-SH Systems Based on OFDM for Analyzing Quasi-error-free Communication over Different Channel Models
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Abstract
Mobile users today expect wide range of multimedia services to be available in different mobility scenarios, and among the others is mobile TV service. The Digital Video Broadcasting – Satellite services to Handheld (DVB-SH) is designed to provide mobile TV services, supporting a wide range of mobile multimedia services, like audio and data broadcasting as well as file downloading services. In this paper we present our simulation model for the performance evaluation of the DVB-SH system following the ETSI standard EN 302 583. Simulation model includes complete DVB-SH system, supporting all standardized system modes and parameters. From transmitter to receiver, the information may be sent over different channel models, thus simulating real case scenarios. To the best of authors' knowledge, this is the first complete model of DVB-SH system that includes all standardized system parameters and may be used for examining real DVB-SH communication as well as for educational purposes.
©2014 by Walter de Gruyter Berlin/Boston
Articles in the same Issue
- Frontmatter
- Design of Cavity-Backed Wideband Circularly Polarized Multi-Feed Slot Antenna and its Array
- Dual Polarized Notch-etched Circular Patch Antenna Loaded with Metamaterial Structure
- Novel Dual-band Slot Antenna Design for Bluetooth and UWB Applications
- A Triple-band Bandpass Filter using Tri-section Step-impedance and Capacitively Loaded Step-impedance Resonators for GSM, WiMAX, and WLAN systems
- A Differential CMOS Common-Gate LNA Linearized by Cross-Coupled Post Distortion Technique
- A Wideband Noise-canceling CMOS LNA Using Cross-coupled Feedback and Bulk Effect
- Simulation Model for DVB-SH Systems Based on OFDM for Analyzing Quasi-error-free Communication over Different Channel Models
- Resource Allocation with Dynamic Carrier Assignment in Wireless Networks
- Performance Analysis of Two-Way OFDM Relay Systems with Ordered Subcarrier Pairing
- Stackelberg Game Based Power Allocation for Physical Layer Security of Device-to-device Communication Underlaying Cellular Networks
Articles in the same Issue
- Frontmatter
- Design of Cavity-Backed Wideband Circularly Polarized Multi-Feed Slot Antenna and its Array
- Dual Polarized Notch-etched Circular Patch Antenna Loaded with Metamaterial Structure
- Novel Dual-band Slot Antenna Design for Bluetooth and UWB Applications
- A Triple-band Bandpass Filter using Tri-section Step-impedance and Capacitively Loaded Step-impedance Resonators for GSM, WiMAX, and WLAN systems
- A Differential CMOS Common-Gate LNA Linearized by Cross-Coupled Post Distortion Technique
- A Wideband Noise-canceling CMOS LNA Using Cross-coupled Feedback and Bulk Effect
- Simulation Model for DVB-SH Systems Based on OFDM for Analyzing Quasi-error-free Communication over Different Channel Models
- Resource Allocation with Dynamic Carrier Assignment in Wireless Networks
- Performance Analysis of Two-Way OFDM Relay Systems with Ordered Subcarrier Pairing
- Stackelberg Game Based Power Allocation for Physical Layer Security of Device-to-device Communication Underlaying Cellular Networks
