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Improving Spectral and Power Efficiencies of a MISO-VLC System via Hybrid Multi-Objective Optimization

This study presents a methodology designed to optimize various parameters of each access point within a Multiple-Input Single-Output (MISO) Visible Light Communication (VLC) system. The primary objective is to enhance both power and spectral efficiencies. A MISO-VLC model is presented based on experimental evaluations and a problem formulation considering intermodulation distortions based on Orthogonal Frequency Division Multiplexing modulation. A Hybrid Multi-Objective Optimization (HMO) approach is proposed, combining the Non-Sorting Genetic Algorithm III (NSGA-III) and the Multi-objective Grey Wolf Optimization (MOGWO). The proposed HMO's success was validated by a 66 % reduction in transmitted power, maintaining the Error Vector Magnitude (EVM) performance metrics even at lower power transmission levels and minimizing the guard band to its lower bound.

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Increasing the power and spectral efficiencies of an OFDM-based VLC system through multi-objective optimization

The nonlinearity induced by light-emitting diodes in visible light communication (VLC) systems presents a challenge to the parametrization of orthogonal frequency division multiplexing (OFDM). The goal of the multi-objective optimization problem presented in this study is to maximize the transmitted power (superimposed LED bias-current and signal amplification) for both conventional and constant envelope (CE) OFDM while also maximizing spectral efficiency. The bit error rate (BER) metric is used to evaluate the optimization using the non-dominated sorting genetic algorithm II. Simulation results show that for a BER of 1×10 −3 , the signal-to-noise ratio (SNR) required decreases with the guard band due to intermodulation distortions. In contrast to SNR values of approximately 13 and 25 dB achieved by traditional OFDM-based systems, the VLC system with CE signals achieves a guard band of 6% of the signal bandwidth with required SNR values of approximately 10.8 and 24 dB for 4-quadrature amplitude modulation (QAM) and 16-QAM modulation orders, respectively.

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Met het oog op morgen

Rede in verkorte vorm uitgesproken bij de installatie als lector duurzame energievoorziening bij de Saxion Hogescholen op 19 maart 2004 in Enschede door Dr.W.Gilijamse. Iedere dag wordt door de NOS het radioprogramma “Met het oog op morgen” uitgezonden. Zo worden de late luisteraars naar Radio 1 voorbereid op de dag van morgen. Onze energievoorziening is niet ingericht “met het oog op morgen”. In het huidige jargon: onze energievoorziening is niet duurzaam. Het is mijn missie bij te dragen aan een energievoorziening die wel voorbereid is op de dag van morgen. Deze missie deel ik met veel mensen en met veel wat zeker ook leeft bij de Saxion Hogescholen. Een week geleden werd bij de Saxion Hogeschool IJselland in Deventer Theo de Bruijn geïnstalleerd als lector duurzame ontwikkeling van de leefomgeving. Eerder vandaag heeft u kunnen vernemen wat er bij de Saxion Hogeschool Enschede al vóór mijn komst als lector is gedaan aan energie-efficiency en duurzame energie.

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Exploring the Impact of Natural Light Exposure on Sleep of Healthy Older Adults

Studies among people with dementia demonstrated that the sleep quality and rhythm improves significantly when people are exposed to ambient bright light. Since almost half of the healthy older people also indicate to suffer from chronic sleep disorders, the question arises whether ambient bright light can be beneficial to healthy older people. Particularly the effect on sleep/wake rhythm in relation to the exposure to natural light is the focus. It was hypothesised that the sleep quality would be worse in winter due to a lower daylight dose than in summer due to the lower illuminance and exposure duration. A field study was conducted to examine the relationship between daylight exposure and sleep quality in 14 healthy older adults living independently in their own dwellings in the Netherlands. All participants were asked to take part of the study both during the summer period as well as during the winter period. Therefore, they had to wear an actigraph for five consecutive days which measured sleep, activity and light exposure. Results confirmed that people were significantly longer exposed to high illumination levels (>1000 lx) in summer than in winter. Sleep quality measures, however, did not differ significantly between summer and winter. A significant, positive correlation was found between exposure duration to high illuminance from daylight during the day and the sleep efficiency the following night in summer, implying that being exposed to high illuminance for a longer time period has a positive effect on sleep efficiency for the individual data. There was also a tendency of less frequent napping in case of longer exposure duration to light for both seasons. Sleep quality does not differ between summer and winter but is related to the duration of the exposure to bright light the day prior to the night. CC-BY Original article at http://solarlits.com/jd/5-14 http://dx.doi.org/10.15627/jd.2018.2 https://www.dehaagsehogeschool.nl/onderzoek/lectoraten/details/urban-ageing#over-het-lectoraat

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Exploring the Impact of Natural Light Exposure on Sleep of Healthy Older Adults

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Toward AI-Enhanced VLC Systems for Industrial Applications

In this paper, artificial intelligence tools are implemented in order to predict trajectory positions, as well as channel performance of an optical wireless communications link. Case studies for industrial scenarios are considered to this aim. In a first stage, system parameters are optimized using a hybrid multi-objective optimization (HMO) procedure based on the grey wolf optimizer and the non-sorting genetic algorithm III with the goal of simultaneously maximizing power and spectral efficiency. In a second stage, we demonstrate that a long short-term memory neural network (LSTM) is able to predict positions, as well as channel gain. In this way, the VLC links can be configured with the optimal parameters provided by the HMO. The success of the proposed LSTM architectures was validated by training and test root-mean square error evaluations below 1%.

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A Performance Comparison of OFDM and Pulsed PHY Modulations in Optical Wireless Communications

In this paper, we experimentally compare orthogonal frequency-division multiplexing (OFDM) and on-off keying (OOK) modulation in the context of the IEEE 802.15.13-2023 standard at bandwidths up to 50 MHz across a Li-Fi link with distances up to 5 m and a lateral offset up to 51°. Error vector magnitude (EVM) and bit error rate (BER) evaluations confirm that the high peak-to-average power ratio (PAPR) of OFDM limits the achievable transmission distance, but it offers higher data rates due to its higher spectral efficiency. Due to the lower PAPR, OOK-based Pulsed Modulation PHY (PM-PHY) shows a significantly higher link range. As the structure of the PM-PHY is based on OFDM symbols, the two solutions may also be combined to open a wider range of use cases for optical wireless communications.

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Specific fluorescent signatures for body fluid identification using fluorescence spectroscopy

Non-invasive, rapid, on-site detection and identification of body fluids is highly desired in forensic investigations. The use of fluorescence-based methods for body fluid identification, have so far remain relatively unexplored. As such, the fluorescent properties of semen, serum, urine, saliva and fingermarks over time were investigated, by means of fluorescence spectroscopy, to identify specific fluorescent signatures for body fluid identification. The samples were excited at 81 different excitation wavelengths ranging from 200 to 600 nm and for each excitation wavelength the emission was recorded between 220 and 700 nm. Subsequently, the total emitted fluorescence intensities of specific fluorescent signatures in the UV–visible range were summed and principal component analysis was performed to cluster the body fluids. Three combinations of four principal components allowed specific clustering of the body fluids, except for fingermarks. Blind testing showed that 71.4% of the unknown samples could be correctly identified. This pilot study shows that the fluorescent behavior of ageing body fluids can be used as a new non-invasive tool for body fluid identification, which can improve the current guidelines for the detection of body fluids in forensic practice and provide the robustness of methods that rely on fluorescence.

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Specific fluorescent signatures for body fluid identification using fluorescence spectroscopy

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Innovative Indoor Horticultural Systems (iHORT) for the 21st Century

With the increasing global population, urbanization, the current unsustainable and expansive agricultural practices would be expected to further elevate the risk of food and nutritional insecurity of the global population, which is recognized as a global threat for the 21st century. This paper reviews the demographic changes, urbanization, sustainability of the conventional agricultural systems, the environmental and resource implications and presents possible sustainable alternatives.

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Innovative Indoor Horticultural Systems (iHORT) for the 21st Century

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HiPerGreen: Greenhouse crop scouting by a UAS

In November 2019, the High Performance Greenhouse project (HiPerGreen) was nominated for the RAAK Award 2019, as one of the best applied research projects in the Netherlands. This paper discusses the challenges faced, lessons learned and critical factors in making the project into a success.

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Improving Spectral and Power Efficiencies of a MISO-VLC System via Hybrid Multi-Objective Optimization

Increasing the power and spectral efficiencies of an OFDM-based VLC system through multi-objective optimization

Met het oog op morgen

Exploring the Impact of Natural Light Exposure on Sleep of Healthy Older Adults

Toward AI-Enhanced VLC Systems for Industrial Applications

A Performance Comparison of OFDM and Pulsed PHY Modulations in Optical Wireless Communications

Specific fluorescent signatures for body fluid identification using fluorescence spectroscopy

Innovative Indoor Horticultural Systems (iHORT) for the 21st Century

HiPerGreen: Greenhouse crop scouting by a UAS

Projects 1

PV Cell Testing Equipment Lab

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Products 50

Improving Spectral and Power Efficiencies of a MISO-VLC System via Hybrid Multi-Objective Optimization

Increasing the power and spectral efficiencies of an OFDM-based VLC system through multi-objective optimization

Met het oog op morgen

Exploring the Impact of Natural Light Exposure on Sleep of Healthy Older Adults

Toward AI-Enhanced VLC Systems for Industrial Applications

A Performance Comparison of OFDM and Pulsed PHY Modulations in Optical Wireless Communications

Specific fluorescent signatures for body fluid identification using fluorescence spectroscopy

Innovative Indoor Horticultural Systems (iHORT) for the 21st Century

HiPerGreen: Greenhouse crop scouting by a UAS

Projects 1

PV Cell Testing Equipment Lab