119 research outputs found
Experimental Demonstration of Staggered CAP Modulation for Low Bandwidth Red-Emitting Polymer-LED based Visible Light Communications
In this paper we experimentally demonstrate, for the first time, staggered
carrier-less amplitude and phase (sCAP) modulation for visible light
communication systems based on polymer light-emitting diodes emitting at ~639
nm. The key advantage offered by sCAP in comparison to conventional multiband
CAP is its full use of the available spectrum. In this work, we compare sCAP,
which utilises four orthogonal filters to generate the signal, with a
conventional 4-band multi-CAP system and on-off keying (OOK). We transmit each
modulation format with equal energy and present a record un-coded transmission
speed of ~6 Mb/s. This represents gains of 25% and 65% over the achievable rate
using 4-CAP and OOK, respectively.Comment: 6 pages, 9 figures, IEEE ICC 2019 conferenc
Visible Light Communication System Design Using Raspberry Pi4B, LED Array, and MQTT Synchronization Protocol
Visible light communication is the next big thing in the future to overcome many limitations that RF-based communication has. This study discusses the design of a wireless visible light communication system to transmit temperature and humidity information based on the Raspberry Pi and the MCP3008 Analog to Digital Converter. The system uses LEDs to transmit data. The photodiode is used to receive the optical signal. Raspberry Pi is used as the signal processor on both sides with the implementation of synchronization techniques and On-Off Keying modulation. The research was conducted in a dark room with a 2x2 LED Array configuration to minimize the effect of the external lighting prototype’s performance. The research carried out variations in the color of LED used, variations in the method of synchronization, and variations in the data rate transmission with BER value as the main parameter. This research contribution is to propose a simple visible light communication design that transmit and receive information in reference of room temperature and humidity using raspberry pi and DHT-11 sensor, while also implementing communications protocol to maximize synchronization in transmission thus minimizing the BER value in higher bit rate. The LED used is blue with an average voltage of 0.0423V for a value of 1 and 0.00448V for a value of 0. The transmission speed can be done from 1bps to 10kbps with BER 0.5 as a threshold parameter. The implementation of the synchronization method reduces the BER value by 0.0945 with the implementation of transmission calibration synchronization and decreases the BER value by 0.1221 using synchronization with the MQTT communication protocol. For further research, the development can be done by implementing Forward Error Correction (FEC) to minimize errors that occur in the transmission and collaborating with vendors with research in the same fiel
VLC-Based Networking: Feasibility and Challenges
VLC has emerged as a prominent technology to address the radio spectrum shortage. It is characterized by the unlicensed and unexploited high bandwidth, and provides the system with cost-effective advantages because of the dual-use of light bulbs for illumination and communication and the low complexity design. It is considered to be utilized in various telecommunication systems, including 5G, and represents the key technology for light-fidelity. To this end, VLC has to be integrated into the existing telecommunication networks. Therefore, its analysis as a network technology is momentous. In this article, we consider the feasibility of using VLC as a network technology and discuss the challenges related to the implementation of a VLC-based network, as well as the integration of VLC into existing conventional networks and its inclusion in standards
Visible Light Communication (VLC)
Visible light communication (VLC) using light-emitting diodes (LEDs) or laser diodes (LDs) has been envisioned as one of the key enabling technologies for 6G and Internet of Things (IoT) systems, owing to its appealing advantages, including abundant and unregulated spectrum resources, no electromagnetic interference (EMI) radiation and high security. However, despite its many advantages, VLC faces several technical challenges, such as the limited bandwidth and severe nonlinearity of opto-electronic devices, link blockage and user mobility. Therefore, significant efforts are needed from the global VLC community to develop VLC technology further. This Special Issue, “Visible Light Communication (VLC)”, provides an opportunity for global researchers to share their new ideas and cutting-edge techniques to address the above-mentioned challenges. The 16 papers published in this Special Issue represent the fascinating progress of VLC in various contexts, including general indoor and underwater scenarios, and the emerging application of machine learning/artificial intelligence (ML/AI) techniques in VLC
System capacity enhancement for 5G network and beyond
A thesis submitted to the University of Bedfordshire, in fulfilment of the requirements for the degree of Doctor of PhilosophyThe demand for wireless digital data is dramatically increasing year over year. Wireless communication systems like Laptops, Smart phones, Tablets, Smart watch, Virtual Reality devices and so on are becoming an important part of people’s daily life. The number of mobile devices is increasing at a very fast speed as well as the requirements for mobile devices such as super high-resolution image/video, fast download speed, very short latency and high reliability, which raise challenges to the existing wireless communication networks. Unlike the previous four generation communication networks, the fifth-generation (5G) wireless communication network includes many technologies such as millimetre-wave communication, massive multiple-input multiple-output (MIMO), visual light communication (VLC), heterogeneous network (HetNet) and so forth. Although 5G has not been standardised yet, these above technologies have been studied in both academia and industry and the goal of the research is to enhance and improve the system capacity for 5G networks and beyond by studying some key problems and providing some effective solutions existing in the above technologies from system implementation and hardware impairments’ perspective.
The key problems studied in this thesis include interference cancellation in HetNet, impairments calibration for massive MIMO, channel state estimation for VLC, and low latency parallel Turbo decoding technique. Firstly, inter-cell interference in HetNet is studied and a cell specific reference signal (CRS) interference cancellation method is proposed to mitigate the performance degrade in enhanced inter-cell interference coordination (eICIC). This method takes carrier frequency offset (CFO) and timing offset (TO) of the user’s received signal into account. By reconstructing the interfering signal and cancelling it afterwards, the capacity of HetNet is enhanced.
Secondly, for massive MIMO systems, the radio frequency (RF) impairments of the hardware will degrade the beamforming performance. When operated in time duplex division (TDD) mode, a massive MIMO system relies on the reciprocity of the channel which can be broken by the transmitter and receiver RF impairments. Impairments calibration has been studied and a closed-loop reciprocity calibration method is proposed in this thesis. A test device (TD) is introduced in this calibration method that can estimate the transmitters’ impairments over-the-air and feed the results back to the base station via the Internet. The uplink pilots sent by the TD can assist the BS receivers’ impairment estimation. With both the uplink and downlink impairments estimates, the reciprocity calibration coefficients can be obtained. By computer simulation and lab experiment, the performance of the proposed method is evaluated.
Channel coding is an essential part of a wireless communication system which helps fight with noise and get correct information delivery. Turbo codes is one of the most reliable codes that has been used in many standards such as WiMAX and LTE. However, the decoding process of turbo codes is time-consuming and the decoding latency should be improved to meet the requirement of the future network. A reverse interleave address generator is proposed that can reduce the decoding time and a low latency parallel turbo decoder has been implemented on a FPGA platform. The simulation and experiment results prove the effectiveness of the address generator and show that there is a trade-off between latency and throughput with a limited hardware resource.
Apart from the above contributions, this thesis also investigated multi-user precoding for MIMO VLC systems. As a green and secure technology, VLC is achieving more and more attention and could become a part of 5G network especially for indoor communication. For indoor scenario, the MIMO VLC channel could be easily ill-conditioned. Hence, it is important to study the impact of the channel state to the precoding performance. A channel state estimation method is proposed based on the signal to interference noise ratio (SINR) of the users’ received signal. Simulation results show that it can enhance the capacity of the indoor MIMO VLC system
Hybrid Free-Space Optical and Visible Light Communication Link
V souÄŤastnosti bezdrátovĂ© optickĂ© komunikace (optical wireless communication, OWC) zĂskávajà širokou pozornost jako vhodnĂ˝ doplnÄ›k ke komunikaÄŤnĂm pĹ™enosĹŻm v rádiovĂ©m pásmu. OWC nabĂzejĂ nÄ›kolik vĂ˝hod vÄŤetnÄ› vÄ›tšà šĂĹ™ky pĹ™enosovĂ©ho pásma, neregulovanĂ©ho frekvenÄŤnĂho pásma ÄŤi odolnosti vĹŻÄŤi elektromagnetickĂ©mu rušenĂ. Tato práce se zabĂ˝vá návrhem OWC systĂ©mĹŻ pro pĹ™ipojenĂ koncovĂ˝ch uĹľivatelĹŻ. Samotná realizace spojenĂ mĹŻĹľe bĂ˝t provedena za pomoci rĹŻznĂ˝ch variant bezdrátovĂ˝ch technologiĂ, napĹ™Ăklad pomocĂ OWC, kombinacĂ rĹŻznĂ˝ch OWC technologiĂ nebo hybridnĂm rádio-optickĂ˝m spojem. Za účelem propojenĂ tzv. poslednĂ mĂle je analyzován optickĂ˝ bezvláknovĂ˝ spoj (free space optics, FSO). Tato práce se dále zabĂ˝vá analĂ˝zou pĹ™enosovĂ˝ch vlastnostĂ celo-optickĂ©ho vĂce skokovĂ©ho spoje s dĹŻrazem na vliv atmosfĂ©rickĂ˝ch podmĂnek. V dnešnĂ dobÄ› mnoho uĹľivatelĹŻ trávĂ ÄŤas ve vnitĹ™nĂch prostorech kancelářà či doma, kde komunikace ve viditelnĂ©m spektru (visible light communication, VLC) poskytuje lepšà pĹ™enosovĂ© parametry pokrytĂ neĹľ Ăşzce smÄ›rovĂ© FSO. V rámci tĂ©to práce byla odvozena a experimentálnÄ› ověřena závislost pro bitovou chybovost pĹ™esmÄ›rovanĂ©ho (relaying) spoje ve VLC. Pro propojenĂ poskytovatele datavĂ˝ch sluĹľeb s koncovĂ˝m uĹľivatelem mĹŻĹľe bĂ˝t vĂ˝hodnĂ© zkombinovat vĂce pĹ™enosovĂ˝ch technologiĂ. Proto je navrĹľen a analyzovám systĂ©m pro pĹ™ekonánĂ tzv. problĂ©mu poslednĂ mĂle a poslednĂho metru kombinujĂcĂ hybridnĂ FSO a VLC technologie.The field of optical wireless communications (OWC) has recently attracted significant attention as a complementary technology to radio frequency (RF). OWC systems offer several advantages including higher bandwidth, an unregulated spectrum, resistance to electromagnetic interference and a high order of reusability. The thesis focuses on the deployment and analyses of end-user interconnections using the OWC systems. Interconnection can be established by many wireless technologies, for instance, by a single OWC technology, a combination of OWC technologies, or by hybrid OWC/RF links. In order to establish last mile outdoor interconnection, a free-space optical (FSO) has to be investigated. In this thesis, the performance of all-optical multi-hop scenarios is analyzed under atmospheric conditions. However, nowadays, many end users spend much time in indoor environments where visible light communication (VLC) technology can provide better transmission parameters and, significantly, better coverage. An analytical description of bit error rate for relaying VLC schemes is derived and experimentally verified. Nonetheless, for the last mile, interconnection of a provider and end users (joint outdoor and indoor connection) can be advantageous when combining multiple technologies. Therefore, a hybrid FSO/VLC system is proposed and analyzed for the interconnection of the last mile and last meter bottleneck
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