Implementation and performance evaluation of a MIMO-VLC system for data transmissions

The ever-increasing streaming culture of large amounts of data and the need for faster and reliable methods of data transfer has created a space and market for new communication technologies such as Visible Light Communication (VLC). However, the integration of VLC into next generation networks is challenging due to the drawbacks of the technology in terms of atmospheric absorption, shadowing, beam dispersion, etc. One way to overcome some of the challenges is to make use of the multiple input multiple output (MIMO) technique which involves the transmission of data in parallel from multiple sources, increasing the data rate. This paper implements and provides a comprehensive evaluation of a MIMO-VLC system for data transmission. A real experimental test-bed is setup to test the performance of the MIMO-VLC system under various conditions such as distance from the source based on luminous flux, ambient lighting, output power, etc. Additionally, subjective tests are carried out to assess the quality of an audio MIMO VLC link as perceived by the user. The results are compared with the results of a Single Input Single Output (SISO)-VLC system

On the impact of visible light communication for audio and video transmissions

With the massive technological advancements being made every year, the need for better and faster data rates, better and improved security measures is being given high importance in the research community. Therefore, open space communication has become a hot topic in the recent years of which Visible Light Communication (VLC), is one of the highly researched areas. The reason for its high popularity is because of its ability to provide high data rates, high bandwidth and a very secure medium of transmission as it cannot penetrate walls. This paper investigates the impact of visible light communication on audio and video transmissions. A real experimental test-bed is setup to test the performance of audio transmission over VLC under various conditions such as distance from the source, interfering lighting, etc. Subjectives tests are carried out to assess the quality of the audio VLC link as perceived by the user. Additionally, a comprehensive study on existing simultaneous video and audio transmission systems over VLC is provided and the challenges and remaining open issues are identified

Synthesis, fabrication, characterization, properties and thermal degradation kinetics study of low-K poly(ether-imide)s and co-poly(ether-imide)s, and poly(ether-imide)/MMT clay nanocomposites

Ph.DDOCTOR OF PHILOSOPH

Mask wearing as a prosocial consumption behaviour during the COVID-19 pandemic: an application of the theory of reasoned action

YesThis study adopts a theory of reasoned action approach to understand consumers’ mask wearing when shopping in the context of the COVID-19 pandemic. We investigated mask wearing while shopping as a prosocial consumption behaviour whereby self-oriented benefits and others-oriented benefits are added as proposed drivers of attitudes and perceived social norms. Empirical evidence from a survey in France and Germany confirms a strong effect of social norms on mask-wearing intentions. Moreover, altruistic benefits predict mask-wearing intentions, with attitude and subjective norms as mediators. In contrast, self-expression benefits of mask wearing only influence perceived social norms and not attitudes; this effect differs between the countries. Our findings guide scholars, policy makers and practitioners to steer consumers’ mask wearing as a prosocial behaviour.Received support from central internationalization funds of Universität Hamburg.The full-text of this article will be released for public view at the end of the publisher embargo on 06 June 2023

Mechanistic insights into antibacterial and anti-biofilm activities against multidrug-resistant microbes of SnTe nanospheres synthesized by sonochemical method

The sonochemical method is used to synthesize SnTe nanoparticles (Nps). Elemental analyses validated the stoichiometry of the nanoparticles. The phase and structure of the unit cell are verified by X-ray diffraction which shows nanoparticles are SnTe phase and a cubic crystal structure with a unit-cell lattice parameter of 6.31 Å having Fm-3m space group (No. 225), with Z = 4. The spherical form of nanoparticles is confirmed by electron microscopy. The Raman investigation showed a distinctive peak at 128.10 cm−1 connected to SnTe. The HR-TEM scans demonstrate that the Nps has size ranging between 25 and 30 nm and SnTe phase is confirmed by match of fringe pattern d-spacing. The SnTe Nps showed antibacterial properties through the formation of biofilms. The as-synthesized nanoparticles showed an efficient anti-microbial effect on staphylococcus aureus (MTCC 9542), listeria monocytogenes (MTCC 657), and proteus vulgaris (MTCC 426) bacteria. The study showed 100% growth suppression after 24 h of treatment with SnTe Nps, demonstrating the antimicrobial efficacy of SnTe Nps. The MIC (IC50) of 20 μg/mL for staphylococcus aureus is found to be resistant to the SnTe Nps effective anti-biofilm action. Based on these results, the authors looked into the feasibility of coating surfaces with the sample to prevent the growth of biofilms

An assessment of carbon stock for various land use system in Aravally mountains, Western India

Carbon stock, Forest, Plantation, Agriculture, Carbon mitigation, Carbon sequestration,