Your search keyword '"monte carlo analysis"' showing total 974 results

1. Underpinnings of reservoir and techno-economic analysis for Himalayan and Son-Narmada-Tapti geothermal sites of India

Author

Kiran, Raj, Upadhyay, Rajeev, Rajak, Vinay Kumar, Kumar, Ashutosh, and Datta Gupta, Saurabh

Published

2024

2. Increasing PV hosting capacity with phase rebalancing in LV networks: A network-agnostic rule-based approach

Author

Hou, Yushan, Givisiez, Arthur Gonçalves, Liu, Michael Z., and Ochoa, Luis F.

Published

2025

3. Life cycle assessment of energy supply contracted heat supply systems: A case study from Austria

Author

Alaux, Nicolas, Auer, Christoph, Scherz, Marco, Kreiner, Helmuth, and Passer, Alexander

Published

2024

4. A cost-benefit analysis of essential oil extraction technology of aromatic plants in Pothwar Punjab, Pakistan

Author

Anjum, Fouzia, Muhammad, Sher, Siddiqui, Badar Naseem, Anjum, Muhammad Shahbaz, and Yaseen, Muhammad

Published

2024

5. Non-linear tendon fatigue life under uncertainties

Author

Rodriguez Reinoso, Mariana, Antonaci, Paola, Pugno, Nicola M., and Surace, Cecilia

Published

2024

6. Transformer-based anomaly detection in P-LEO constellations: A dynamic graph approach

Author

Indaco, Manuel and Guzzetti, Davide

Published

2024

7. Analyzing the effects of data splitting and covariate shift on machine learning based streamflow prediction in ungauged basins

Author

Li, Pin-Ching, Dey, Sayan, and Merwade, Venkatesh

Published

2025

8. HSPICE simulation and analysis of current reused operational transconductance amplifiers for biomedical applications.

Author

Chary, Udari Gnaneshwara and Kishore, Kakarla Hari

Subjects

MONTE Carlo method, OPERATIONAL amplifiers, ANALOG circuits, PATIENT monitoring, WORK design

Abstract

The proposed work focuses on the design of a current-reused biomedical amplifier; it is a microwatt-level electrocardiogram (ECG) analog circuit design that addresses low power consumption and noise efficiency. As implantable devices require unobtrusiveness and longevity, the current reuse technique in this circuit effectively enhances power and noise efficiencies. Using 90 nm technology enables efficient circuit implementation, yielding promising simulation results. At 100 Hz, the noise performance reaches 62.095 nV/vHz, while the power consumption is only 8.3797 µW. These advancements are pivotal for next-generation implantable devices, ensuring reliable operation and reducing frequent battery replacements, improving patient convenience. Moreover, the high noise efficiency ensures that ECG signals are captured with high fidelity, crucial for accurate monitoring and diagnosis. This research addresses the challenges in implantable ECG analog circuit design and sets a benchmark for future developments. The techniques employed can be adapted for other bio signal monitoring devices, broadening the impact on healthcare technology. Ultimately, this advancement contributes to more efficient, reliable, and long-lasting medical devices, enhancing patient monitoring and healthcare on a broader scale. [ABSTRACT FROM AUTHOR]

Published

2025

9. Scalability of Ultralow‐Loss Calibration‐Free Silicon Photonic Mach‐Zehnder Switches.

Author

Song, Lijia, Jiao, Xiaomin, Cao, Zian, Liu, Weixi, Zou, Shangtong, Fang, Xiaoyu, Fan, Siwen, Li, Huan, Shi, Yaocheng, and Dai, Daoxin

Subjects

*ARTIFICIAL neural networks, *MONTE Carlo method, *TIME complexity, *ARTIFICIAL intelligence, *TRANSFER matrix

Abstract

With the rapid development of artificial intelligence (AI) based on deep neural networks, large‐scale photonic switches are essential components for the fast and efficient communication of unprecedentedly large amounts of data between processing units and memories. In this paper, a comprehensive Monte Carlo analysis is provided on the scalability of Mach–Zehnder switch (MZS) networks utilizing Benes topologies as an example, employing the transfer matrix method. The results show that iterative calibration algorithms with high time complexities are infeasible for large‐scale MZSs with significant random phase imbalances, which, instead of the excess loss, is the dominant fundamental obstacle for scaling up MZS. Therefore, calibration‐free MZSs are crucial for scaling up. To further validate the key assumptions of the Monte Carlo analysis above, ultralow‐loss 2 × 2 MZSs and 4 × 4 Benes MZSs fabricated with standard 180‐nm silicon photonics foundry processes are systematically characterized. Drawing from the statistical experimental results of random phase imbalance and excess loss, the scalability of the Benes topology is projected and concludes that it is promising to realize large‐scale, low‐excess‐loss, calibration‐free N × N photonic switches (e.g., N ≥ 64) based on these proposed MZS for agile, flexible, and scalable optical packet/burst switching (OPS/OBS) in data centers. [ABSTRACT FROM AUTHOR]

Published

2024

10. 17 O Destruction Rate in Stars.

Author

Rapagnani, David, Straniero, Oscar, and Imbriani, Gianluca

Subjects

MONTE Carlo method, NUCLEAR reactions, ASYMPTOTIC giant branch stars, NUCLEAR physics, MOTHER-of-pearl, NUCLEOSYNTHESIS

Abstract

In recent years, several laboratory studies of CNO cycle-related nuclear reactions have been carried out. Nevertheless, extant models of stellar nucleosynthesis still adopt CNO reaction rates reported in old compilations, such as NACRE or CF88. In order to update these rates, we performed new calculations based on a Monte Carlo R-Matrix analysis. In more detail, a method was developed that is based on the collection of all the available data, including recent low-energy measurements obtained by the LUNA collaboration in the reduced background environment of the INFN-LNGS underground laboratory, on R-Matrix cross-section calculations with the AZURE2 code and on uncertainty evaluations with a Monte Carlo analysis. As a first scientific benchmark case, the reactions 17O (p , γ) 18F and 17O (p , α) 14N were investigated. Among the different stellar scenarios they can influence, the 16O/17O abundance ratio in RGB and AGB stars is the one that can be directly confirmed from spectroscopic measurements. The aim is to reduce the nuclear physics uncertainties, thus providing a useful tool to constrain deep mixing processes eventually taking place in these stars. In this work, we present the procedure we followed to calculate the 17O (p , γ) 18F and the 17O (p , α) 14N reaction stellar rates and preliminary comparisons with similar rates reported in widely used nuclear physics libraries are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

11. A Novel Algorithm for Aspect Ratio Estimation in SRAM Design to Achieve High SNM, High Speed, and Low Leakage Power

Author

Sanket M. Mantrashetti, Arunkumar P Chavan, Prakash Pawar, H. V. Ravish Aradhya, and Omkar S. Powar

Subjects

Area efficient, design optimization, leakage current, low latency, Monte Carlo analysis, power efficient, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Performance optimization is a crucial aspect of enhancing the efficiency of electronic systems, and scaling is a primary method for achieving optimal performance while maintaining the integrity of system architecture. This paper introduces a novel algorithm for optimizing transistor sizing in static random-access memory (SRAM) to enhance speed, improve Static Noise Margin (SNM), and reduce leakage power consumption. The SRAM is designed using 45 nm technology and operates at a supply voltage of 1.2 V. To validate the algorithm’s effectiveness, Monte Carlo simulations were conducted under varying process, voltage, and temperature conditions. The results demonstrate read access times of 11.17 ps (HIGH) and 9.97 ps (LOW), and write access times of 12.00 ps (HIGH) and 17.00 ps (LOW). The measured SNM values for the read, write, and hold states were 328.2 mV, 453.7 mV, and 452.3 mV, respectively. The inclusion of precharge and write driver circuits allows for a compact SRAM layout, occupying $9.79~\mu $ m2, with the SRAM cell itself occupying $4.1~\mu $ m2. Furthermore, the proposed SRAM design exhibits low leakage power consumption of 1.64 pW, demonstrating the efficiency and performance benefits of the optimized transistor sizing approach.

Published

2025

12. Probabilistic Approach for Assessing the Occupational Risk of Olfactometric Examiners: Methodology Description and Application to Real Exposure Scenario.

Author

Polvara, Elisa, Spinazzè, Andrea, Invernizzi, Marzio, Cattaneo, Andrea, Cavallo, Domenico Maria, and Sironi, Selena

Subjects

MONTE Carlo method, CUMULATIVE distribution function, OCCUPATIONAL exposure, RISK exposure, EMISSION exposure

Abstract

Human examiners, known as panelists, are exposed to an unknown occupational exposure risk while determining odor concentration (Cod) using dynamic olfactometry. In the literature, a few papers, based on a deterministic approach, have been proposed to establish this occupational risk. As a result, the purpose of this study is to develop and apply a probabilistic approach, based on the randomization of exposure parameters, for assessing and evaluating the occupational exposure risk among olfactometric examiners. In this methodology, the risk is assessed by computing the hazard index (HI) and inhalation risk (IR) to determine the non-carcinogenic and carcinogenic risks. To randomize the exposure parameters, a Monte Carlo simulation was described and then applied in real exposure scenario to establish the exposure risk in terms of probability. Therefore, a one-year survey of the working activity of olfactometric examiners of Laboratorio Olfattometrico of Politecnico di Milano university was conducted. Based on this data collection (exposure parameters and chemical data, divided according to sample categories), a randomized exposure scenario was constructed to estimate the probability and cumulative distribution function of risk parameters. Different distributions were obtained for different industrial samples categories and were compared with respect to acceptability criteria (the value of HI and IR at 95th percentile of distribution). The elaboration provided evidence that negligible non-carcinogenic and carcinogenic risks are associated with the panelists' activity, according to an entire annual dataset. The application of probabilistic risk assessment provides a more comprehensive and effective characterization of the general exposure scenario for olfactometric examiners, surpassing the limitations of a deterministic approach. This method can be extended to future exposure scenarios and enables the selection of the most effective risk management strategies to protect the health of olfactometric examiners. [ABSTRACT FROM AUTHOR]

Published

2024

13. Uncertainty Assessment of the Screw Removal System for Robotic Disassembly of Hard Disk Drives During the Recycling Process.

Author

SZEWCZYK, R., SZAŁATKIEWICZ, J., NOWICKI, M., GAZDA, P., OSTASZEWSKA-LIŻEWSKA, A., NOWAK, P., CHARUBIN, T., ROGALSKI, W., WIKTOROWICZ, M., PATAPENKA, I., SIEMIĄTKOWSKI, A., and ZIELIŃSKI, J.

Subjects

*INDUSTRIAL robots, *HARD disks, *MONTE Carlo method, *ROBOT control systems, *WASTE recycling, *SCREWS

Abstract

Robotic disassembly of hard disk drives during their recycling process is a promising technology with significant ecological importance and high economic profitability. However, the efficiency of the robotic disassembly of screws in the cost-efficient process using the robotic system in the selective compliance assembly robot arm configuration is highly dependent on the accuracy of positioning. In such a case, the robot works based on known screw positions without a visual control loop. The paper presents the generalised method of analysis of key factors influencing the process, starting from visual geometry analysis to mechanical setup accuracy. The formalised metrological analysis was performed on the base of the Monte-Carlo method to identify the key factors influencing the screw positioning accuracy. It was stated that the robot control uncertainty plays a crucial role in the total uncertainty of the system. [ABSTRACT FROM AUTHOR]

Published

2024

14. Probabilistic Analysis of Orbital Characteristics of Rotary Systems with Centrally and Off-Center Mounted Unbalanced Disks.

Author

Šavrnoch, Zdenko, Sapieta, Milan, Dekýš, Vladimír, Drvárová, Barbora, Pijáková, Katarína, Sapietová, Alžbeta, and Sága, Milan

Subjects

MONTE Carlo method, ROTOR dynamics, NONLINEAR analysis, ORBITS (Astronomy), DISTRIBUTION (Probability theory)

Abstract

Rotor dynamics plays a crucial role in the performance and safety of rotating machinery, with disk position and unbalance significantly impacting system behavior. This study investigates the dynamic characteristics of two rotor configurations: a centrally mounted unbalanced disk (Rotor05un) and an off-center unbalanced disk (Rotor025un). Using numerical simulations and Monte Carlo analysis, we examined critical speeds and orbital patterns for both configurations. Probability distributions of shaft orbital positions revealed distinct patterns for each configuration. Quantile analysis revealed approximate linear trends for Rotor025un, suggesting higher system stiffness and more predictable behavior near critical speeds. Cross-sectional analyses of the orbits provided insights into the complex interactions between disk position, gyroscopic effects, and system natural frequencies. These findings provide valuable insights for rotor system design, particularly for applications with non-ideal mass distributions. The study goes beyond traditional critical speed analysis to examine orbital patterns and point on orbit occurrence from a probabilistic perspective. Based on the simulation of the orbits, an orbital is determined that allows the probability of the shaft occurring at the analyzed distance from the origin to be determined. The paper also offers insights into the complex interaction behavior of chosen rotor configurations and highlights the importance of considering disk position in predicting and optimizing rotor dynamic behavior, contributing to the development of more robust and efficient rotating machinery. [ABSTRACT FROM AUTHOR]

Published

2024

15. Metabolic coupling between glutamate and N-acetylaspartate in the human brain.

Author

Hong, Sungtak, Tomar, Jyoti Singh, and Shen, Jun

Abstract

A metabolic coupling between glutamate and N-acetylaspartate measured by in vivo magnetic resonance spectroscopy has been recently reported in the literature with inconsistent findings. In this study, confounders originating from Pearson's spurious correlation of ratios and spectral correlation due to overlapping magnetic resonance spectroscopy signals of glutamate and N-acetylaspartate were practically eliminated to facilitate the determination of any metabolic link between glutamate and N-acetylaspartate in the human brain using in vivo magnetic resonance spectroscopy. In both occipital and medial prefrontal cortices of healthy individuals, correlations between glutamate and N-acetylaspartate were found to be insignificant. Our results do not lend support to a recent hypothesis that N-acetylaspartate serves as a significant reservoir for the rapid replenishment of glutamate during signaling or stress. [ABSTRACT FROM AUTHOR]

Published

2024

16. Designing of CCII-Based Fractional Order Inverse Chebyshev Filters Using Gray Wolf Optimization Approach.

Author

Daryani, Ritu and Aggarwal, Bhawna

Subjects

*MONTE Carlo method, *NEUTRAL density filters, *NOTCH filters, *STANDARD deviations, *TOPOLOGY

Abstract

The paper introduces a new approach for designing fractional-order inverse Chebyshev low-pass filters (FOICLF), with an emphasis on filters with an order of 1+α. The coefficients for these filters are determined through Gray Wolf Optimization by approximating filter response with the ideal response of same order FOICLF. Stability tests are conducted, and filters are implemented using Multiple Input Single Output topology with commercial ICs. Comparative analysis reveals close proximity between the ideal response of FOICLF and the designed filters, featuring maximum and mean square errors of –22.48 dB and –61.07 dB, respectively, for 1.7 order. Results are benchmarked against existing literature, highlighting superior performance in stopband and passband magnitude errors and stopband attenuation. Process, Voltage, and Temperature analysis assesses the impact of the parameter variations on the –3 dB frequency, assuring the robustness of designed filters with relative standard deviations ranging from 0.003% to 3.013% for the 1.7 order filter. [ABSTRACT FROM AUTHOR]

Published

2024

17. Analysis Project Investment: Study Case Build Inloading Conveyor.

Author

Artadi, Rudy Fahmi and Faturohman, Taufik

Subjects

DISCOUNTED cash flow, MONTE Carlo method, NET present value, INVESTMENT analysis, COAL transportation

Abstract

This research examines the coal transportation system at Site Port S, a PT BCX coal mining concession. The site serves as a transit terminal for coal hauled from Site B using trucks, where the coal is dumped via two inloading conveyors. Currently, the daily haul truck capacity is 50,000 tons, while the conveyors handle 54,000 tons daily. However, when one of the conveyors is under maintenance or experiencing technical issues, production opportunities are lost, jeopardizing the achievement of future coal production targets, especially as peak production is expected over the next three years. To address this, the research aims to assess the feasibility of building a new inloading conveyor to serve as a backup system. The research uses capital expenditure (CAPEX) calculations, including previous inloading conveyor costs and inflation rates, as well as operating expenses (OPEX) and cost per ton to operate the plant. A discounted cash flow (DCF) analysis was conducted to determine the net present value (NPV) of building or renting a new conveyor unit. With a weighted average cost of capital (WACC) of 11.9%, the NPV results show a positive $4.8 million for building a new unit, compared to a negative $22.3 million for renting. The results indicate that building a new conveyor unit is significantly more profitable than renting. Additionally, owning the unit provides flexibility, as it could potentially be used at other sites in the future. The findings have important implications for optimizing coal transportation systems and ensuring long-term production efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

18. Path Tracking Controller Design of Automated Parking Systems via NMPC with an Instructible Solution

Author

Liang Chen, Zhaobo Qin, Manjiang Hu, Yougang Bian, and Xiaoyan Peng

Subjects

Automated parking, Path tracking controller, Nonlinear model predictive control, Monte Carlo analysis, Ocean engineering, TC1501-1800, Mechanical engineering and machinery, TJ1-1570

Abstract

Abstract Parking difficulties have become a social issue that people have to solve. Automated parking system is practicable for quick par operations without a driver which can also greatly reduces the probability of parking accidents. The paper proposes a Lyapunov-based nonlinear model predictive controller embedding an instructable solution which is generated by the modified rear-wheel feedback method (RF-LNMPC) in order to improve the overall path tracking accuracy in parking conditions. Firstly, A discrete-time RF-LNMPC considering the position and attitude of the parking vehicle is proposed to increase the success rate of automated parking effectively. Secondly, the RF-LNMPC problem with a multi-objective cost function is solved by the Interior-Point Optimization, of which the iterative initial values are described as the instructable solutions calculated by combining modified rear-wheel feedback to improve the performance of local optimal solution. Thirdly, the details on the computation of the terminal constraint and terminal cost for the linear time-varying case is presented. The closed-loop stability is verified via Lyapunov techniques by considering the terminal constraint and terminal cost theoretically. Finally, the proposed RF-LNMPC is implemented on a self-driving Lincoln MKZ platform and the experiment results have shown improved performance in parallel and vertical parking conditions. The Monte Carlo analysis also demonstrates good stability and repeatability of the proposed method which can be applied in practical use in the near future.

Published

2024

19. Source Apportionment and Pollution Assessment of Heavy Metals in an Urban Waterbody.

Author

Priya, Lakshmi, Siddik A, Muhammed, and Varghese, George K.

Subjects

*HEAVY metal toxicology, *MONTE Carlo method, *POLLUTION source apportionment, *HEAVY metals, *DRINKING water, *POLLUTANTS

Abstract

With increasing contamination of waterbodies, access to clean drinking water has become a challenge. Preventing further contamination and cleaning up of existing contamination are the immediate steps to address this challenge. For this, the sources of contamination and their relative contributions need to be ascertained. The bottom sediments from an urban waterbody named "Conolly Canal" was analyzed for heavy metal contamination. The level of contamination of the waterbody was assessed using Pollution Load Index. A Monte Carlo analysis (MCA) was performed on the heavy metals concentrations measured to apportion the contribution among the identified sources. The results of MCA were used to proportion the concentration of chemicals among the responsible parties based on the concentration of the contaminants in the waterbody. The study presents a robust procedure for source apportionment, which can be adopted in similar situations. [ABSTRACT FROM AUTHOR]

Published

2024

20. Path Tracking Controller Design of Automated Parking Systems via NMPC with an Instructible Solution.

Author

Chen, Liang, Qin, Zhaobo, Hu, Manjiang, Bian, Yougang, and Peng, Xiaoyan

Abstract

Parking difficulties have become a social issue that people have to solve. Automated parking system is practicable for quick par operations without a driver which can also greatly reduces the probability of parking accidents. The paper proposes a Lyapunov-based nonlinear model predictive controller embedding an instructable solution which is generated by the modified rear-wheel feedback method (RF-LNMPC) in order to improve the overall path tracking accuracy in parking conditions. Firstly, A discrete-time RF-LNMPC considering the position and attitude of the parking vehicle is proposed to increase the success rate of automated parking effectively. Secondly, the RF-LNMPC problem with a multi-objective cost function is solved by the Interior-Point Optimization, of which the iterative initial values are described as the instructable solutions calculated by combining modified rear-wheel feedback to improve the performance of local optimal solution. Thirdly, the details on the computation of the terminal constraint and terminal cost for the linear time-varying case is presented. The closed-loop stability is verified via Lyapunov techniques by considering the terminal constraint and terminal cost theoretically. Finally, the proposed RF-LNMPC is implemented on a self-driving Lincoln MKZ platform and the experiment results have shown improved performance in parallel and vertical parking conditions. The Monte Carlo analysis also demonstrates good stability and repeatability of the proposed method which can be applied in practical use in the near future. [ABSTRACT FROM AUTHOR]

Published

2024

21. Probabilistic analysis of georisk from capping of contaminated sediment in Gunneklev Fjord, Norway.

Author

Le, Thi Minh Hue, Lacasse, Suzanne, Rønning, Sigbjørn, Moseid, Mari, and Eek, Espen

Subjects

*SEDIMENT capping, *CONTAMINATED sediments, *MONTE Carlo method, *FJORDS, *SHEAR strength, *BEARING capacity of soils, *EARTHQUAKE hazard analysis, *MERCURY

Abstract

The seabed of the Gunneklev Fjord in south-eastern Norway is covered with exceptionally soft contaminated sediment containing mercury and dioxins. The sediments have an undrained shear strength less than 1 kPa and a variable thickness of up to 2.5 m. To reduce the potential for leaching of contaminants from these sediments, Hydro Energy AS developed a remediation plan involving capping of the sediment. Significant uncertainties are associated with the sediment's undrained shear strength and the cap thickness. An unfortunate combination of low shear strength and thick cap could cause slope failure (e.g. translational sliding of the sediment and/or bearing capacity failure (e.g. punching through). Failure, particularly slope failure, can cause spreading of the contaminants in the fjord causing serious consequences. This paper presents an assessment of the probability of slope failure associated with the contaminated sediment before and after the cap placement. Probability of bearing capacity failure is considered to have more local effect and is also discussed briefly. The study used the Monte Carlo method with random undrained shear strength and sediment thickness. The simulations show high slope failure probability when the seabed inclination was ≥ 1:50 combined with an average undrained shear strength ≤ 0.4 kPa. Based on the probabilistic analyses, a pilot field testing campaign was carried out (after this study) with 20-cm thickness cap in the "gentle" sloping area and 5-cm thickness in the "steep" areas to avoid causing a failure. The analyses were used to support evidence-based decision-making on the cap design and implementation for further field testing. [ABSTRACT FROM AUTHOR]

Published

2024

22. A Closer Look at the Statistical Behavior of a Chaotic System with Message Inclusion for Cryptographic Applications.

Author

Lupu, Adina Elena and Vlad, Adriana

Subjects

CHAOS theory, MONTE Carlo method, DYNAMICAL systems, BEHAVIORAL assessment, MATHEMATICAL logic

Abstract

One technique, especially in chaos-based cryptographic applications, is to include the message in the evolution of the dynamical system. This paper aims to find out if and to what extent the statistical behavior of the chaotic system is affected by the message inclusion in its dynamic evolution. The study is illustrated by the dynamical system described by the logistic map in cryptographic applications based on images. The evaluation of the statistical behavior was performed on an original scheme proposed. The Monte Carlo analysis of the applied Kolmogorov–Smirnov statistical test revealed that the dynamical system in the processing scheme with message inclusion does not modify its proper statistical behavior (revealed by definition relation). This was possible due to the proposed scheme designed. Namely, this scheme contains a decision switch which, supported by an appropriate choice of the magnitude of the scaling factor, ensures that the values of the dynamical system are maintained in the definition domain. The proposed framework for analyzing the statistical properties and for preserving the dynamical system behavior is one main contribution of this research. The message inclusion scheme also provides an enhancement with cryptographic mixing functions applied internally; the statistical behavior of the dynamical system is also analyzed in this case. Thus, the paper contributes to the theoretical complex characterization of the dynamical system considering also the message inclusion case. [ABSTRACT FROM AUTHOR]

Published

2024

23. Monte Carlo and Worst Case Analyses of Op Amp Circuits

Author

Asadi, Farzin and Asadi, Farzin

Published

2024

24. A Threshold Voltage Deviation Monitoring Scheme of Bit Transistors in 6T SRAM for Manufacturing Defects Detection.

Author

Liu, Rui, Li, Hao, Yang, Zhao, Wang, Guantao, Chen, Zefu, and Zhang, Peiyong

Subjects

*THRESHOLD voltage, *MANUFACTURING defects, *STATIC random access memory, *MONTE Carlo method, *STANDARD deviations, *TRANSISTORS, *RANDOM access memory, *COMPLEMENTARY metal oxide semiconductors

Abstract

Transistor random threshold voltage variations due to process fluctuations seriously affects the stability of Static Random Access Memory (SRAM). In this paper, a SRAM bit transistors threshold voltage $({Vth})$ deviation monitoring scheme and system is proposed. This scheme ingeniously achieves on-chip measurement of all transistors threshold voltages without altering compact SRAM bit array layout. Control signal strategies and Transistor ${Vth}$ Determination Circuit (TVDC) for different types of Devices Under Test (DUTs) have been proposed. The system is implemented using a 65 nm CMOS process with a core area of 0.01875mm2. Through Monte Carlo analysis, the Weighted Average (WA) difference of the proposed scheme and the direct measurement method is not more than 10mV, and the Root Mean Square Error (RMSE) difference is not more than 3mV. This system can also effectively detect the cell position of the transistor threshold voltage mismatch simulated by modifying the substrate voltage. For SRAM arrays of different scales, the method proposed in this paper has area efficiency and flexible reconfigurability. [ABSTRACT FROM AUTHOR]

Published

2024

25. Novel PVT Resilient Low-Power Dynamic XOR/XNOR Design Using Variable Threshold MOS for IoT Applications.

Author

Yadav, Arjun Singh, Reniwal, Bhupendra Singh, and Beohar, Ankur

Subjects

*MONTE Carlo method, *THRESHOLD voltage, *INTERNET of things, *LEAKAGE, *VOLTAGE

Abstract

A variable threshold voltage hybrid evaluation network based dynamic XOR/XNOR gate is presented to reduce the parameters leakage power dissipation, dynamic power, and layout area compared to existing dynamic gates under similar delay time conditions. This study explores the impacts of process, supply voltage, and temperature changes on leakage power dissipation and dynamic power using Monte Carlo simulation. The Monte Carlo analysis demonstrates that leakage power dissipation and dynamic power reduction have significantly improved. Furthermore, when compared to hybrid type dynamic XOR/XNOR (N-type XOR/XNOR), the proposed design reduces leakage power and dynamic power consumption by 6.1% (54.0%) and 18.75% (35.0%), respectively. While the proposed design has a slight layout area penalty compared to a hybrid type dynamic XOR/XNOR, it offers the same amount of the layout area as a traditional N-type XOR/XNOR. [ABSTRACT FROM AUTHOR]

Published

2024

26. Can an ecological scarcity method for Germany support robust decisions? – analysing the effect of uncertain target values on the impact assessment of energy generation technologies.

Author

Lewerenz, Steffen, Lambrecht, Hendrik, Tietze, Ingela, and Lazar, Lukas

Subjects

MONTE Carlo method, PRODUCT life cycle assessment, ENVIRONMENTAL indicators, ENVIRONMENTAL impact analysis, AIR pollutants, PARTICULATE matter, SCARCITY

Abstract

Purpose: Potentially contradictory indicators in Life Cycle Assessment cause ambiguity and thus uncertainty regarding the interpretation of results. The weighting-based ecological scarcity method (ESM) aims at reducing interpretation uncertainty by applying policy-based normative target values. However, the definition of these target values is uncertain due to different reasons such as questionable temporal representativeness. By means of an uncertainty analysis, this paper examines if ESMs are an appropriate approach to support robust decisions on multidimensional environmental impacts. Methods: To assess the effect of uncertain target values (inputs) on environmental indicators (output), the ESM based Life Cycle Impact Assessment (LCIA) is combined with a Monte Carlo Analysis. The comprehensive uncertainty analysis includes the following steps: (1) sample generation, (2) output calculation and (3) results analysis and visualisation. (1) To generate a sample, moderate and strict limits for target values are derived from laws, directives or strategies. Random input parameters are drawn from a uniform distribution within those limits. (2) The sample is used to conduct several LCIAs leading to a distribution of total impact scores. (3) The results' robustness is evaluated by means of the rank acceptability index to identify stable ranks for energy generation systems taken from ecoinvent v. 3.7.1. Results and discussion: Applying moderate and strict target values in the ESM, results in substantial differences in the weighting sets. Even though the application of stricter target values changes the contribution of an environmental indicator to the total impact score the ranking of the energy generation systems varies only slightly. Moreover, the Monte Carlo Analysis reveals that displacement effects in ranks are not arbitrary: systems switch at most between ranks next to each other and most of the analysed systems dominate at least a single rank. Technologies with high shares of land use, global warming and air pollutants and particulate matter show a higher rank variance. Conclusions: The weighting schemes, deduced from target values, provide a meaningful ranking of alternatives. At the same time, the results are not excessively sensitive to the uncertainties of the target values, i.e. the inherent uncertainty of the target values does not result in arbitrary outcomes, which is necessary to support robust decisions. The ESM is able to effectively facilitate decision making by making different environmental issues comparable. [ABSTRACT FROM AUTHOR]

Published

2024

27. 17O Destruction Rate in Stars

Author

David Rapagnani, Oscar Straniero, and Gianluca Imbriani

Subjects

nuclear astrophysics, stellar reaction rates, R-Matrix, Monte Carlo analysis, Astronomy, QB1-991

Abstract

In recent years, several laboratory studies of CNO cycle-related nuclear reactions have been carried out. Nevertheless, extant models of stellar nucleosynthesis still adopt CNO reaction rates reported in old compilations, such as NACRE or CF88. In order to update these rates, we performed new calculations based on a Monte Carlo R-Matrix analysis. In more detail, a method was developed that is based on the collection of all the available data, including recent low-energy measurements obtained by the LUNA collaboration in the reduced background environment of the INFN-LNGS underground laboratory, on R-Matrix cross-section calculations with the AZURE2 code and on uncertainty evaluations with a Monte Carlo analysis. As a first scientific benchmark case, the reactions 17O(p,γ)18F and 17O(p,α)14N were investigated. Among the different stellar scenarios they can influence, the 16O/17O abundance ratio in RGB and AGB stars is the one that can be directly confirmed from spectroscopic measurements. The aim is to reduce the nuclear physics uncertainties, thus providing a useful tool to constrain deep mixing processes eventually taking place in these stars. In this work, we present the procedure we followed to calculate the 17O(p,γ)18F and the 17O(p,α)14N reaction stellar rates and preliminary comparisons with similar rates reported in widely used nuclear physics libraries are discussed.

Published

2024

28. Probabilistic Approach for Assessing the Occupational Risk of Olfactometric Examiners: Methodology Description and Application to Real Exposure Scenario

Author

Elisa Polvara, Andrea Spinazzè, Marzio Invernizzi, Andrea Cattaneo, Domenico Maria Cavallo, and Selena Sironi

Subjects

occupational exposure, Monte Carlo analysis, olfactometric panelists, dynamic olfactometry, odorous emissions, Chemical technology, TP1-1185

Abstract

Human examiners, known as panelists, are exposed to an unknown occupational exposure risk while determining odor concentration (Cod) using dynamic olfactometry. In the literature, a few papers, based on a deterministic approach, have been proposed to establish this occupational risk. As a result, the purpose of this study is to develop and apply a probabilistic approach, based on the randomization of exposure parameters, for assessing and evaluating the occupational exposure risk among olfactometric examiners. In this methodology, the risk is assessed by computing the hazard index (HI) and inhalation risk (IR) to determine the non-carcinogenic and carcinogenic risks. To randomize the exposure parameters, a Monte Carlo simulation was described and then applied in real exposure scenario to establish the exposure risk in terms of probability. Therefore, a one-year survey of the working activity of olfactometric examiners of Laboratorio Olfattometrico of Politecnico di Milano university was conducted. Based on this data collection (exposure parameters and chemical data, divided according to sample categories), a randomized exposure scenario was constructed to estimate the probability and cumulative distribution function of risk parameters. Different distributions were obtained for different industrial samples categories and were compared with respect to acceptability criteria (the value of HI and IR at 95th percentile of distribution). The elaboration provided evidence that negligible non-carcinogenic and carcinogenic risks are associated with the panelists’ activity, according to an entire annual dataset. The application of probabilistic risk assessment provides a more comprehensive and effective characterization of the general exposure scenario for olfactometric examiners, surpassing the limitations of a deterministic approach. This method can be extended to future exposure scenarios and enables the selection of the most effective risk management strategies to protect the health of olfactometric examiners.

Published

2024

29. Probabilistic Analysis of Orbital Characteristics of Rotary Systems with Centrally and Off-Center Mounted Unbalanced Disks

Author

Zdenko Šavrnoch, Milan Sapieta, Vladimír Dekýš, Barbora Drvárová, Katarína Pijáková, Alžbeta Sapietová, and Milan Sága

Subjects

rotordynamics, unbalanced mass, uncertainty, Monte Carlo analysis, Laval rotor, orbital analysis, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Rotor dynamics plays a crucial role in the performance and safety of rotating machinery, with disk position and unbalance significantly impacting system behavior. This study investigates the dynamic characteristics of two rotor configurations: a centrally mounted unbalanced disk (Rotor05un) and an off-center unbalanced disk (Rotor025un). Using numerical simulations and Monte Carlo analysis, we examined critical speeds and orbital patterns for both configurations. Probability distributions of shaft orbital positions revealed distinct patterns for each configuration. Quantile analysis revealed approximate linear trends for Rotor025un, suggesting higher system stiffness and more predictable behavior near critical speeds. Cross-sectional analyses of the orbits provided insights into the complex interactions between disk position, gyroscopic effects, and system natural frequencies. These findings provide valuable insights for rotor system design, particularly for applications with non-ideal mass distributions. The study goes beyond traditional critical speed analysis to examine orbital patterns and point on orbit occurrence from a probabilistic perspective. Based on the simulation of the orbits, an orbital is determined that allows the probability of the shaft occurring at the analyzed distance from the origin to be determined. The paper also offers insights into the complex interaction behavior of chosen rotor configurations and highlights the importance of considering disk position in predicting and optimizing rotor dynamic behavior, contributing to the development of more robust and efficient rotating machinery.

Published

2024

30. Economic viability analysis of mechanization in broiler chicken harvesting

Author

Fábio Mascarenhas Dutra, Rodrigo Garófallo Garcia, Rafael Martins Noriller, Erlaine Binotto, Maria Fernanda de Castro Burbarelli, Claudia Marie Komiyama, Fabiana Ribeiro Caldara, and Jean Kaique Valentim

Subjects

exchange rate, fuel, Monte Carlo analysis, poultry raising, scenario, sensitivity, Animal culture, SF1-1100

Abstract

ABSTRACT This study aimed to analyze the economic viability of the implementation of a mechanized harvesting of broilers where the activity is carried out entirely manually. The viability indicators used were net present value (NPV), net future value (NFV), net uniform value (NUV), discounted payback (DP), and internal rate of return (IRR). Scenario analysis, sensitivity, and Monte Carlo simulation were performed in the present study. The results showed that the initial investment was US$ 1,868,302.76. The average price paid by the slaughterhouse to third-party manual harvesting companies was US$ 18.17 per thousand broilers, which was converted into revenue in the cash flow of the project. The cash flow result was positive at US$ 22,256.14 over the entire study period considering a daily catch of 144 thousand broilers. The results of the economic viability analysis were NPV of US$ 64,786.23, NFV of US$ 333,382.11, NUV of US$ 735.19, DP of 13.82 years, IRR of 0.965 monthly, and modified IRR of 0.933 monthly. These values prove the economic viability of implementing the project considering the market conditions at the time of the study. The analysis of scenarios showed great sensitivity to the exchange rate and the price of fuels. The Monte Carlo simulation highlighted a moderate risk of negative NPV, emphasizing the importance of considering this variable when making decisions. Despite these challenges, the potential benefits of mechanized harvesting, such as increased efficiency and reduced labor costs, make it a promising alternative to manual harvesting, even for small to medium-sized poultry industries.

Published

2024

31. 天山北坡典型草地施肥阈值及不确定性分析.

Author

韩其飞, 尹龙, 李超凡, 张润钢, 王文彪, and 崔正南

Abstract

Copyright of Acta Prataculturae Sinica is the property of Acta Prataculturae Sinica Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. Utilizing the Monte-Carlo Capability in RS2 for Machine-Learning Applications

Author

Mitelman, Amichai, Ganz, Avshalom, Urlainis, Alon, Zheng, Zheng, Editor-in-Chief, Xi, Zhiyu, Associate Editor, Gong, Siqian, Series Editor, Hong, Wei-Chiang, Series Editor, Mellal, Mohamed Arezki, Series Editor, Narayanan, Ramadas, Series Editor, Nguyen, Quang Ngoc, Series Editor, Ong, Hwai Chyuan, Series Editor, Sun, Zaicheng, Series Editor, Ullah, Sharif, Series Editor, Wu, Junwei, Series Editor, Zhang, Baochang, Series Editor, Zhang, Wei, Series Editor, Zhu, Quanxin, Series Editor, Zheng, Wei, Series Editor, Hammah, Reginald E., editor, Javankhoshdel, Sina, editor, Yacoub, Thamer, editor, Azami, Alireza, editor, and McQuillan, Alison, editor

Published

2023

33. Decision-Making, Risk Analysis, and Sustainability Assessments

Author

Reddy, T. Agami, Henze, Gregor P., Reddy, T. Agami, and Henze, Gregor P.

Published

2023

34. Networks in Auxology – proceedings of the 31st Aschauer Soiree, held at Aschau, Germany, June 17th 2023

Author

Michael Hermanussen, Christiane Scheffler, Melanie Dammhahn, Detlef Groth, Cédric Moris, Tim Hake, Barry Bogin, Piotr Fedurek, Jesper Boldsen, Takashi Satake, Stef van Buuren, Jani Söderhäll, Chris Jefferies, Yehuda Limony, Jovanna Dahlgren, Julia Quitmann, Ingo Scheffler, Nino Nazirishvili, Ekaterine Kvaratskhelia, Annamaria Zsakai, Martin Musalek, Basak Koca Özer, Cansev Meşe Yavuz, Janina Tutkuviene, Laura Kasperiunaite, Simona Gervickaite, Sylvia Kirchengast, Slawomir Koziel, Aleksandra Gomula, Zbyszek Czapla, Antonia Rösler, Leslie Lieberman, Stephen Lieberman, and Martin Brüne

Subjects

Social hierarchies, strategic growth adjustment, Monte Carlo analysis, life history strategy, adherence and quality of life, Medicine, Biology (General), QH301-705.5

Abstract

Twenty-seven scientists met for the annual Auxological conference held at Aschau, Germany, to particularly discuss the interaction between social factors and human growth, and to highlight several topics of general interest to the regulation of human growth. Humans are social mammals. Humans show and share personal interests and needs, and are able to strategically adjust size according to social position, with love and hope being prime factors in the regulation of growth. In contrast to Western societies, where body size has been shown to be an important predictor of socioeconomic status, egalitarian societies without formalized hierarchy and material wealth-dependent social status do not appear to similarly integrate body size and social network. Social network structures can be modeled by Monte Carlo simulation. Modeling dominance hierarchies suggests that winner-loser effects play a pivotal role in robust self-organization that transcends the specifics of the individual. Further improvements of the St. Nicolas House analysis using re-sampling/bootstrap techniques yielded encouraging results for exploring dense networks of interacting variables. Customized pediatric growth references, and approaches towards a Digital Rare Disease Growth Chart Library were presented. First attempts with a mobile phone application were presented to investigate the associations between maternal pre-pregnancy overweight, gestational weight gain, and the child’s future motor development. Clinical contributions included growth patterns of individuals with Silver-Russell syndrome, and treatment burden in children with growth hormone deficiency. Contributions on sports highlighted the fallacy inherent in disregarding the biological maturation status when interpreting physical performance outcomes. The meeting explored the complex influence of nutrition and lifestyle on menarcheal age of Lithuanian girls and emphasized regional trends in height of Austrian recruits. Examples of the psychosocial stress caused by the forced migration of modern Kyrgyz children and Polish children after World War II were presented, as well as the effects of nutritional stress during and after World War I. The session concluded with a discussion of recent trends in gun violence affecting children and adolescents in the United States, and aspects of life history theory using the example of "Borderline Personality Disorder." The features of this disorder are consistent with the notion that it reflects a "fast" life history strategy, with higher levels of allostatic load, higher levels of aggression, and greater exposure to both childhood adversity and chronic stress. The results were discussed in light of evolutionary guided research. In all contributions presented here, written informed consent was obtained from all participants in accordance with institutional Human investigation committee guidelines in accordance with the Declaration of Helsinki amended October 2013, after information about the procedures used.

Published

2023

35. Slip Activation Potential of Fractures in the Crystalline Basement Rocks of Kuujjuaq (Nunavik, Canada) to Assess Enhanced Geothermal Systems Development.

Author

Miranda, Mafalda M., Yaghoubi, Ali, Raymond, Jasmin, Wigston, Andrew, and Dusseault, Maurice B.

Subjects

*GEOTHERMAL resources, *CRYSTALLINE rocks, *SYSTEMS development, *ROCK deformation, *FLUID pressure, *WATER pressure

Abstract

This work presents an estimate of the slip activation potential of existing fractures in a remote northern community located on Canadian Shield rocks for geothermal purposes. To accomplish this objective, we analyzed outcrop analogues and recorded geometrical properties of fractures, namely the strike and dip. Then, we estimated the stress regime in the study area through an empirical approach and performed a probabilistic slip tendency analysis. This allowed us to determine the slip probability of the pre-existing fractures at the current state of stress, the orientation of fractures that are most likely to be activated and the fluid pressures needed for the slip activation of pre-existing fractures, which are key aspects for developing Enhanced Geothermal Systems. The results of this simple, yet effective, analysis suggest that at the current state of stress, the pre-existing natural fractures are relatively stable, and an injection pressure of about 12.5 MPa/km could be required to activate the most optimally oriented fractures to slip. An injection of water at this pressure gradient could open the optimally oriented pre-existing fractures and enhance the permeability of the reservoir for geothermal fluid extraction. The information described in this paper provides a significant contribution to the geothermal research underway in remote northern communities. [ABSTRACT FROM AUTHOR]

Published

2023

36. Investigation of the Carbon Footprint of the Textile Industry: PES- and PP-Based Products with Monte Carlo Uncertainty Analysis.

Author

Demirdelen, Tuğçe, Aksu, İnayet Özge, Yilmaz, Kübra, Koç, Duygu Durdu, Arikan, Miray, and Şener, Arif

Abstract

The Carbon Border Adjustment Mechanism was developed to ensure that industrial sectors operating outside the EU follow the same environmental standards and targets while competing with the EU's carbon market. This mechanism aims to calculate the carbon footprint of goods and services imported into the EU and make carbon adjustments accordingly. The transition phase, starting in 2023, represents the period when the Carbon Border Adjustment Mechanism will be implemented. The completion of the transition phase is targeted for 2025. By this date, the effective implementation of this mechanism is aimed at demonstrating that countries outside of the EU comply with emissions regulations using Carbon at Border certificates. The textile industry's products have a significant environmental impact throughout their life cycle, from the production of raw materials to the disposal of the finished product. Textile production, especially synthetic yarns, requires large amounts of energy, contributing to greenhouse gas emissions and climate change. In this study, a "cradle-to-customer plus waste" life cycle assessment (LCA) is conducted to evaluate the environmental impacts of two products in the textile sector. The Monte Carlo analysis method can be used to handle uncertainties in LCA calculations. It is a method for modeling uncertainties and statistically evaluating results. In this study, this method is preferred at the stage of determining uncertainties. The processes from chips to yarns are investigated for two synthetic yarns: polyester (PES) and polypropylene (PP). The carbon emissions of PP and PES used in textiles are calculated for the first time in this study using detailed modeling with LCAs and a real application. The main production operations are considered: (i) transport of raw materials and packaging material, (ii) energy consumption during the production process, (iii) transport of products, and (iv) end-of-life steps. When the actual data obtained from a company are analyzed, the carbon footprints (CFs) of the PES and PP are calculated to be 13.40 t CO2-eq (t PES)-1 and 6.42 t CO2-eq (t PP)-1, respectively. These data can be used as reference points for future studies and comparisons. According to the results obtained, when the energy consumption and raw material stages in the production of the PES and PP products are compared, it is seen that the CF of PP yarn is lower, and it is more environmentally friendly. These findings can be utilized to enhance government policies aimed at reducing greenhouse gas emissions and managing synthetic yarn production in Türkiye. Since PP and PES raw materials are predominantly used in synthetic yarns, this study's objective is to quantify the carbon emissions associated with the utilization of these raw materials and provide guidance to companies engaged in their production. [ABSTRACT FROM AUTHOR]

Published

2023

37. THE DEVELOPMENT OF A FULLY BALANCED CURRENT-TUNABLE ACTIVE-RC ALL-PASS FILTER.

Author

Samran Lertkonsarn, Chadarat Khwunnak, and Sittisak Roungrid

Subjects

*SIMULATION Program with Integrated Circuit Emphasis, *MONTE Carlo method, *CAPACITORS, *MAGNETIC coupling, *ELECTRIC circuits

Abstract

This research paper presents a symmetrical current-tunable active-RC all-pass filter that uses an active BJT coupled with R and C. The circuit's symmetrical structure ensures that the differential signals are treated equally, resulting in improved performance. Furthermore, the filter's ability to adjust the frequency by bias current makes it suitable for a wide range of applications, such as improving phase properties and creating other types of filters. The simulation results obtained through the Pspice program show that the value of the operating frequency can be adjusted by bias current, which is the highlight of this research. The transfer function of the circuit shows a response of about 0 dB and -90° respectively, indicating that the circuit can change the phase of the input signal without changing its magnitude. This feature is particularly useful in signal processing applications where phase changes are required. In addition, the paper discusses how the operating frequency can be increased by decreasing the capacitor. The transfer function of the circuit analyzed shows that the operating frequency (f0) is inversely proportional to the product of the capacitors. Therefore, decreasing the value of C increases the operating frequency of the circuit. Monte Carlo analysis results are also presented for resistors, capacitors, and transistors with error values. This analysis helps determine the effect of errors on the output signal of the circuit. The results show that the output signal is sensitive to changes in the resistor values, which can affect the accuracy of the filter. Therefore, it is important to select high-quality resistors to ensure that the filter operates accurately. [ABSTRACT FROM AUTHOR]

Published

2023

38. Evaluation of Interference Analysis from 5G NR Networks to Aeronautical and Maritime Mobile Systems in the Frequency Band 4800–4990 MHz

Author

Alexander Pastukh and Vladislav Sorokin

Subjects

5G NR, AMS, MMS, Monte Carlo analysis, frequency sharing, spectrum engineering, Science

Abstract

The current deployment of 5G NR in the frequency band 4800–4990 MHz in multiple countries near the coastlines indicated that there might be a potential risk of harmful interference impacting aeronautical and maritime systems located in international airspace and international waters. This raised numerous concerns about whether 5G NR system rollouts in that band need to be restricted by the power flux density limits created at the border of the territorial waters, which equals 12 nautical miles from the coastline. This work contains a case study based on the example of the Pacific region, where a simulation of aggregate interference from 5G NR base stations and user equipment deployed in the cities near the coastline using Monte Carlo analysis was conducted. The results of the study show that no harmful interference to the aeronautical and maritime services operating in international airspace and waters is expected even when the aircraft or vessels are located at the border of the territorial airspace and waters from the coastline. Therefore, no restriction to the 5G NR deployment in the coastline regions in the frequency band 4800–4990 MHz is required.

Published

2022

39. Monte Carlo simulation and sensitivity analysis of the Michaëlis-Menten kinetic equation for the CO2 inhibition response to O2 consumption during storage of fresh produce.

Author

Templalexis, Charalampos G. and Xanthopoulos, Georgios T.

Subjects

*MONTE Carlo method, *RESPONSE inhibition, *CONTROLLED atmosphere packaging, *SENSITIVITY analysis, *LETTUCE, *CARBON dioxide

Abstract

Statistical and sensitivity analyses were carried out on the use of the Michaëlis-Menten kinetic model to estimate respiration rates of fresh produce during modified atmosphere packaging (MAP). Monte Carlo simulation, which is used to explain the effects of risk and uncertainty in predictive and forecasting models, showed that the carbon dioxide concentration term was the most sensitive in the experimental cases tested. This term was modified by adding an exponential term and reintroduced back into the Michaëlis-Menten model, improving its stability and predictive accuracy. The analysis, was based on the respiration rates of fresh-cut ' Romaine ' lettuce (Lactuca sativa var. longifolia) treated with two disinfection methods, a chlorine solution (sodium hypochlorite, 100 ppm) and an organic acids solution (ascorbic and citric acid, 1% w/v each) and stored at 4.18 °C for 7 d. Respiration rates were significantly influenced by disinfection methods, storage time and their interaction in both cases. • Monte Carlo showed that carbon dioxide term affects most the respiration rate. • Exponential term in inhibition models improved prediction stability. • At high oxygen, respiration is controlled from carbon dioxide concentration. • Exponential term resulted in positive and significant inhibition parameters. [ABSTRACT FROM AUTHOR]

Published

2023

40. Neurochemical correlations in short echo time proton magnetic resonance spectroscopy.

Author

Hong, Sungtak and Shen, Jun

Subjects

PROTON magnetic resonance spectroscopy, NUCLEAR magnetic resonance spectroscopy, NUCLEAR spin, MONTE Carlo method

Abstract

Neurochemical concentrations determined by magnetic resonance spectroscopy (MRS) have been treated as statistically independent measurements in various clinical MRS studies. However, spectral overlap, independent of any biological effects, could lead to significant correlations between neurochemical concentrations extracted from spectral fitting of MRS data, confounding determination of correlations of biological origin. Short echo time (TE) proton MRS spectra are very crowded because of the comparatively narrow chemical shift dispersion of proton nuclear spins. In this study, the complex neurochemical correlations of spectral origin in short‐TE MRS spectra were quantified. The effects of macromolecules and the background spectral baseline on metabolite–metabolite correlations were also analyzed. Our results demonstrate the importance of factoring in spectral correlations when correlating overlapping metabolite signals in short‐TE spectra with clinical parameters. [ABSTRACT FROM AUTHOR]

Published

2023

41. Monte Carlo characterization of Si ring modulator PAM-4 eye diagram performance.

Author

Jo, Youngkwan, Ji, Yongjin, Kim, Minkyu, Lischke, Stefan, Mai, Christian, Zimmermann, Lars, and Choi, Woo-Young

Abstract

The eye diagram performance of the Si ring modulator (RM) is Monte Carlo characterized with the RM equivalent circuit model. Inter-die statistical distributions of Si-RM model parameters are determined from simple RM optical transmission and electrical reflection coefficient measurement, and the correlated model parameter sets are randomly generated for Monte Carlo simulation of 40-Gbps 4-level pulse AM (PAM-4) eye diagrams within simulation program with IC emphasis. From the resulting Monte Carlo simulated eye diagrams, the yield for the Si RMs that satisfy optical modulation amplitude and the ratio of level mismatch requirements can be corroborated with measurement. With these, the eye diagrams of Si electronic-photonic integrated PAM-4 transmitters with RMs and driver electronics are Monte Carlo characterized. This approach allows the extension of the standard Si IC characterization technique to the electronic-photonic ICs and can produce better-performing solutions with better yields in the design stage. [ABSTRACT FROM AUTHOR]

Published

2023

42. Implementation of Sustainability Analyzes in Software Products for Evaluating the Effectiveness of Investment Projects

Author

Zhichkin, Kirill, Nosov, Vladimir, Zhichkin, Aleksandr, Łakomiak, Aleksandra, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, and Gibadullin, Arthur, editor

Published

2022

43. Application of Grey Model Algorithm in Urban GDP Growth Calculation Model System

Author

Wang, Chenhe, Salave, Arnold, Xhafa, Fatos, Series Editor, Xu, Zheng, editor, Alrabaee, Saed, editor, Loyola-González, Octavio, editor, Zhang, Xiaolu, editor, Cahyani, Niken Dwi Wahyu, editor, and Ab Rahman, Nurul Hidayah, editor

Published

2022

44. Life cycle assessment of biowaste treatment – Considering uncertainties in emission factors

Author

Steffen Lewerenz, Gregor Sailer, Stefan Pelz, and Hendrik Lambrecht

Subjects

Life cycle assessment, OFMSW treatment, Anaerobic digestion, Biogas, Ecological scarcity method, Monte Carlo analysis, Renewable energy sources, TJ807-830, Environmental engineering, TA170-171

Abstract

The present paper provides an environmental assessment and ranking of different treatment options for the organic fraction of municipal solid waste (OFMSW), which is a biowaste that typically contains food- and green-waste. The main biochemical treatment systems for OFMSW are composting (by-product: fertilizer) and anaerobic digestion (by-products: biogas and digestate), which are often combined in practice. Total impact scores as evaluated by means of Life Cycle Assessment (LCA) with the Ecological Scarcity Method range from 8 to 31 eco-points for Germany (EPG) per kg treated OFMSW with “Global Warming” and “Main Air Pollutants” (such as NH3) as main environmental impacts. In spite of significant uncertainties in the available emission data, the subsequent application of a Monte Carlo Analysis provides a robust ranking of the treatment systems. The analysis reveals that the transportation distance is a crucial factor to increase the ecological benefit of an OFMSW treatment system. Consequently, decentral structures with short transportation distances (e.g. 17 km) as well as an optimal plant operation mode are more important to reduce emissions than the choice of the treatment system itself. Further research should focus on monitoring campaigns to generate better representative operational datasets for the different types of OFMSW treatment plants such as plug-flow or batch digestion systems as well as for the composting technologies.

Published

2023

45. A performance comparison of caching systems in the .NET 6 framework.

Author

Ćatović, Amar, Čeke, Denis, and Buzađija, Nevzudin

Subjects

*MICROSOFT .NET Framework, *CACHE memory, *DATABASES, *MONTE Carlo method, *TEST systems, *SCALABILITY

Abstract

In applications whose databases have millions of rows, caching is essential to speed up the server response. The paper focuses on a new approach to testing the cache systems in the .NET 6 framework. In this paper, a system is created that uses Redis, MongoDB and SQL Server and an in-memory database as cache stores to evaluate their performance and scalability. A performance comparison of these cache systems provides detailed insights into the best practices for designing and implementing them in .NET 6 development environment. The results of this paper may be useful to developers working on similar projects to those who want to implement a caching system. [ABSTRACT FROM AUTHOR]

Published

2023

46. An Overview of Multilevel Inverters Lifetime Assessment for Grid-Connected Solar Photovoltaic Applications.

Author

Nyamathulla, Shaik, Chittathuru, Dhanamjayulu, and Muyeen, S. M.

Subjects

DISTRIBUTED power generation, ELECTRONIC equipment, POWER electronics, MONTE Carlo method, PHOTOVOLTAIC power generation, PHOTOVOLTAIC power systems

Abstract

Nowadays, due to advancements in power electronic devices as well as the rise in consumer awareness of the need to protect the environment on a global scale, many people are turning to the use of solar photovoltaic (PV) technology in the distributed power generation side. In the field of power electronics, manufacturers need to develop products that have high lifespans. Power electronic device reliability is important for the maintenance of the device and may be scheduled under that information. Rather than preventing failures, reliability can be improved by predicting them. Even though some research has been conducted over the past few years to investigate the reliability of power electronic devices, the reliability is many common circuits has not been investigated and this leads to a big challenge for researchers. In this review paper, an overview of the grid-connected multilevel inverters for PV systems with motivational factors, features, assessment parameters, topologies, modulation schemes of the multilevel inverter, and the selection process for specific applications are presented. In this paper, the findings of a comprehensive reliability analysis of fundamental multilevel inverters are studied. To evaluate the reliability of three basic multilevel inverters, a calculation is made using each component's mean time before its failure. Two techniques of computation approximate and exact were used to arrive at the final result. To calculate power losses in temperature-sensitive components such as diodes and switches, MATLAB Simulink is employed. In addition, the concept of oversizing photovoltaic (PV) arrays is presented in this study. This concept proposes that energy output may be increased by increasing the size of the PV array under conditions of poor solar irradiation. Finally, the mission-profile-based and Monte Carlo simulation-based methods process flows are discussed for the accurate lifetime prediction and reliability assessments of PV inverters in a real-time scenario, followed by a conclusion with future work. [ABSTRACT FROM AUTHOR]

Published

2023

47. Analysis of research strategies to determine individual color preference: N‐alternative forced choice, rank‐order, rating and paired comparison.

Author

Yu, Luwen, Yun, Chen, Xia, Guobin, Westland, Stephen, Li, Zhenhong, and Cheung, Vien

Subjects

*MONTE Carlo method

Abstract

Exploring an efficient research method for understanding color preference is important to researchers and designers. This work compares four experimental methods for individual color preference research (N‐alternative forced choice, rank‐order, rating and paired comparison). Three psychophysical experiments were carried out with 338 participants. Participants were presented with six color patches (red, orange, yellow, green, blue and purple) arranged in a random order. This work suggested orange is the strongest preferred color and green is the weakest preferred using three individual color preference experimental methods with six hues. The Monte Carlo Analysis method further compares the result performance for four methods, which suggests the rating, paired comparison and rank‐order methods are more stable than the N‐alternative forced choice method when only a small number of participants take part in the experiment. For studies involving small numbers of participants (even less than 6), the rating, rank‐order and pair comparison methods should be preferred. [ABSTRACT FROM AUTHOR]

Published

2023

48. Energy Efficient and Variability Immune Adder Circuits using Short Gate FinFET INDEP Technique at 10nm technology node.

Author

Mushtaq, Umayia, Akram, Md Waseem, and Prasad, Dinesh

Subjects

METAL oxide semiconductor field-effect transistors, MONTE Carlo method, LOGIC circuit design, SHORT circuits, COMPUTER logic, MULTICASTING (Computer networks)

Abstract

Due to the continuous scaling of MOSFET (Metal Oxide Semiconductor Field-Effect Transistor) devices over the past few decades, power consumption has increased tremendously. To reduce power dissipation at lower technology nodes, digital logic circuits are designed with modern (FinFET) devices. In this paper, FinFET INDEP (input dependent) technique-based short gate (SG) FinFET Adder circuits are proposed at 10 nm technology node. The performance comparison of INDEP technique-based adder circuits is done with the SG FinFET adder circuits. The analysis of adder circuits is performed first in terms of functional verification (transient characteristics) and finally for different performance parameters such as propagation delay, power dissipation and power delay product (PDP). The proposed FinFET INDEP technique proves as one of the best leakage reduction techniques for FinFET adder circuits at lower technology nodes. To test the reliability of the circuits, Monte Carlo analysis is also performed. The PDP is improved by 16.8% and 13.73% in INDEP SG FinFET half adder(HA) and INDEP SG FinFET full adder(FA) at 10 nm technology, respectively, in comparison with the ones without INDEP technique. The Monte Carlo simulation results with 3σ Gaussian distribution at ±10% process, voltage and temperature variations show the improvement in PDP in case of SG INDEP FinFET FA and SG INDEP FinFET HA circuit in comparison to SG FinFET FA and FinFET HA circuit, respectively. Simulation is performed using HSPICE tool at 10 nm process technology node. [ABSTRACT FROM AUTHOR]

Published

2023

49. Evaluation of Interference Analysis from 5G NR Networks to Aeronautical and Maritime Mobile Systems in the Frequency Band 4800-4990 MHz.

Author

Pastukh, Alexander and Sorokin, Vladislav

Subjects

5G networks, MONTE Carlo method, TRANSBOUNDARY waters, TERRITORIAL waters, ACTINIC flux, POWER density

Abstract

The current deployment of 5G NR in the frequency band 4800-4990 MHz in multiple countries near the coastlines indicated that there might be a potential risk of harmful interference impacting aeronautical and maritime systems located in international airspace and international waters. This raised numerous concerns about whether 5G NR system rollouts in that band need to be restricted by the power flux density limits created at the border of the territorial waters, which equals 12 nautical miles from the coastline. This work contains a case study based on the example of the Pacific region, where a simulation of aggregate interference from 5G NR base stations and user equipment deployed in the cities near the coastline using Monte Carlo analysis was conducted. The results of the study show that no harmful interference to the aeronautical and maritime services operating in international airspace and waters is expected even when the aircraft or vessels are located at the border of the territorial airspace and waters from the coastline. Therefore, no restriction to the 5G NR deployment in the coastline regions in the frequency band 4800-4990 MHz is required. [ABSTRACT FROM AUTHOR]

Published

2023

50. Neutronic calculations for preliminary core design of SCW-SMR.

Author

Antók, Csenge, Czifrus, Szabolcs, and Giusti, Valerio

Subjects

*MONTE Carlo method, *SUPERCRITICAL water, *NEUTRON capture, *CONSTRUCTION materials, *TEMPERATURE effect

Abstract

• An SCW-SMR core model is developed based on Serpent 2 simulations. • Assembly structures and materials are studied to decrease neutron absorption. • Effects of moderator temperature and assembly gap size changes are examined. • Enrichment maps are tested to increase reserve reactivity and shape power profiles. • Resulting core model has adequate burnup cycle length and power profiles. Serpent 2 particle transport code is used to develop the pre-conceptual neutronic design of the Supercritical Water Cooled SMR. After initial criticality and burnup calculations, the starting core design of (Schulenberg and Otic, 2021) is improved using predetermined criteria, such as burnup cycle length and power distribution, while also considering operational safety. In order to achieve higher reserve reactivity, several modifications are considered, including the introduction of alternative structural materials and fuel assembly wall type, moderation improvement by adjustment of moderator temperature and fuel assembly gap width, and selection of a suitable enrichment map. As a result of the introduced modifications, the burnup cycle length is increased to 26 months and an acceptable core power distribution is achieved. The improved core design can be used for further investigations, such as coupled calculations using neutronic and thermal–hydraulic codes and examinations targeting reactivity control during burnup. [ABSTRACT FROM AUTHOR]

Published

2024