64 Gbit/s, 256 QAM Coherently-Linked Optical and Wireless Transmission in 61 GHz Band Using Novel Injection-Locked Carrier Frequency Converter

In recent years, single-carrier system has again become an interesting and complementary alternative to multi-carrier system such as orthogonal frequency division multiplexing (OFDM). This has been largely due to the use of frequency domain equalizer implemented by means of fast Fourier transforms (FFT), bringing the complexity close to that of OFDM. This paper aims at providing an overview of single-carrier frequency domain equalization (SC-FDE) and its Wireless applications. We review the brief history and system model of SC-FDE, and the integration of SC-FDE and other wireless transmission techniques. We also present several possible future research topics about SC-FDE.

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A Design of Wireless Transmission System

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.187.621 ◽

2011 ◽

Vol 187 ◽

pp. 621-624 ◽

Cited By ~ 4

Author(s):

Xiao Yan Huang ◽

Wei Su

Keyword(s):

Carrier Frequency ◽

Experimental Tests ◽

Transmission System ◽

Wireless Transmission ◽

Modulation Scheme ◽

Data Detection ◽

Frequency Error ◽

Main Body ◽

Analog Signals ◽

Water Temperature Data

To design a wireless transmission system for water temperature data detection .This system uses FM as modulation scheme. The launching part adopts MC12017 and MC145152 as PLL, enabling to decrease the carrier frequency error to 1.8×10-4. The carrier frequency modulation is achieved by transfiguration diode HS113 and integrated VCO MC1648. The final stage amplifier adopts triode 2SC2053 with transmission power amounting to 0.245 mw. The receiving part adopts FM receiver chip MC3362 with low consumption and narrowband as main body, analog signals being amplified by LM386. C8051F410 is used as the control chip in the whole system to decode, frequency measure, and display. Experimental tests show that this system consumes lower power, reliable and steady, and is able to correctly transmit and receive data.

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A review of cyclically extended single carrier transmission with frequency domain equalization for broadband wireless transmission

European Transactions on Telecommunications ◽

10.1002/ett.4460140405 ◽

2003 ◽

Vol 14 (4) ◽

pp. 329-341 ◽

Cited By ~ 13

Author(s):

Mario Huemer ◽

Alois Koppler ◽

Robert Weigel ◽

Leonhard Reindl

Keyword(s):

Frequency Domain ◽

Wireless Transmission ◽

Broadband Wireless ◽

Frequency Domain Equalization ◽

Single Carrier

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Driving Status Monitoring and Wireless Transmission System Based on Information Fusion Technology

International Conference on Transportation Engineering 2007 ◽

10.1061/40932(246)25 ◽

2007 ◽

Author(s):

Jun Dai ◽

Jin Zhang ◽

Yu Wang

Keyword(s):

Information Fusion ◽

Transmission System ◽

Wireless Transmission ◽

Fusion Technology ◽

Status Monitoring

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Implementasi Voip Server Berbasis IPV6 Dengan Raspberry PI

Manutech : Jurnal Teknologi Manufaktur ◽

10.33504/manutech.v9i01.32 ◽

2019 ◽

Vol 9 (01) ◽

pp. 47-54

Author(s):

Rabbai San Arif ◽

Yuli Fitrisia ◽

Agus Urip Ari Wibowo

Keyword(s):

Internet Protocol ◽

Wireless Transmission ◽

Raspberry Pi ◽

Test Results ◽

Average Delay ◽

Ipv6 Network ◽

Ip Network ◽

Selection Of ◽

Better Than

Voice over Internet Protocol (VoIP) is a telecommunications technology that is able to pass the communication service in Internet Protocol networks so as to allow communicating between users in an IP network. However VoIP technology still has weakness in the Quality of Service (QoS). VOPI weaknesses is affected by the selection of the physical servers used. In this research, VoIP is configured on Linux operating system with Asterisk as VoIP application server and integrated on a Raspberry Pi by using wired and wireless network as the transmission medium. Because of depletion of IPv4 capacity that can be used on the network, it needs to be applied to VoIP system using the IPv6 network protocol with supports devices. The test results by using a wired transmission medium that has obtained are the average delay is 117.851 ms, jitter is 5.796 ms, packet loss is 0.38%, throughput is 962.861 kbps, 8.33% of CPU usage and 59.33% of memory usage. The analysis shows that the wired transmission media is better than the wireless transmission media and wireless-wired.

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