Universalism from Below: Muslims and Democracy in Context

This paper examines the complex relations between the global concepts of modernity and democracy, and the local perception of culture and religion in the context of the Muslim world. The paper attempts to answer the following questions: Is the Muslim tradition/culture “exceptionally” immune to the process of democratization? If not, what does it mean to be a modern progressive Muslim today? Is the Western version of modernity a universal concept, or should Muslims seek a particular path to modernity? To what extent a Muslim democracy is a universal concept and to what degree is a particular model? The paper suggests that neither a hegemonic universalism nor an essentialist particularism can explain the complex relations between Islam and modernity. “Universalism from below” can better lead Muslims to democracy, given its equal distance from an Islamist cultural essentialism and a holistic hegemonic universalism. The paper applies the concept of “universalism from below” to the public role of religion in the Muslim world. The findings suggest that neither political/state-sponsored Islam represented by culturalists nor private/isolated Islam advocated by monist-universalists contribute to democratization in the Muslim World. The paper examines the extent to which an alternative concept of public civil Islam would contribute to resolve the tension between the universal and particular paradigms in the Muslim world

Baseband Processing for 5G and Beyond: Algorithms, VLSI Architectures, and Co-design

In recent years the number of connected devices and the demand for high data-rates have been significantly increased. This enormous growth is more pronounced by the introduction of the Internet of things (IoT) in which several devices are interconnected to exchange data for various applications like smart homes and smart cities. Moreover, new applications such as eHealth, autonomous vehicles, and connected ambulances set new demands on the reliability, latency, and data-rate of wireless communication systems, pushing forward technology developments. Massive multiple-input multiple-output (MIMO) is a technology, which is employed in the 5G standard, offering the benefits to fulfill these requirements. In massive MIMO systems, base station (BS) is equipped with a very large number of antennas, serving several users equipments (UEs) simultaneously in the same time and frequency resource. The high spatial multiplexing in massive MIMO systems, improves the data rate, energy and spectral efficiencies as well as the link reliability of wireless communication systems. The link reliability can be further improved by employing channel coding technique. Spatially coupled serially concatenated codes (SC-SCCs) are promising channel coding schemes, which can meet the high-reliability demands of wireless communication systems beyond 5G (B5G). Given the close-to-capacity error correction performance and the potential to implement a high-throughput decoder, this class of code can be a good candidate for wireless systems B5G. In order to achieve the above-mentioned advantages, sophisticated algorithms are required, which impose challenges on the baseband signal processing. In case of massive MIMO systems, the processing is much more computationally intensive and the size of required memory to store channel data is increased significantly compared to conventional MIMO systems, which are due to the large size of the channel state information (CSI) matrix. In addition to the high computational complexity, meeting latency requirements is also crucial. Similarly, the decoding-performance gain of SC-SCCs also do come at the expense of increased implementation complexity. Moreover, selecting the proper choice of design parameters, decoding algorithm, and architecture will be challenging, since spatial coupling provides new degrees of freedom in code design, and therefore the design space becomes huge. The focus of this thesis is to perform co-optimization in different design levels to address the aforementioned challenges/requirements. To this end, we employ system-level characteristics to develop efficient algorithms and architectures for the following functional blocks of digital baseband processing. First, we present a fast Fourier transform (FFT), an inverse FFT (IFFT), and corresponding reordering scheme, which can significantly reduce the latency of orthogonal frequency-division multiplexing (OFDM) demodulation and modulation as well as the size of reordering memory. The corresponding VLSI architectures along with the application specific integrated circuit (ASIC) implementation results in a 28 nm CMOS technology are introduced. In case of a 2048-point FFT/IFFT, the proposed design leads to 42% reduction in the latency and size of reordering memory. Second, we propose a low-complexity massive MIMO detection scheme. The key idea is to exploit channel sparsity to reduce the size of CSI matrix and eventually perform linear detection followed by a non-linear post-processing in angular domain using the compressed CSI matrix. The VLSI architecture for a massive MIMO with 128 BS antennas and 16 UEs along with the synthesis results in a 28 nm technology are presented. As a result, the proposed scheme reduces the complexity and required memory by 35%–73% compared to traditional detectors while it has better detection performance. Finally, we perform a comprehensive design space exploration for the SC-SCCs to investigate the effect of different design parameters on decoding performance, latency, complexity, and hardware cost. Then, we develop different decoding algorithms for the SC-SCCs and discuss the associated decoding performance and complexity. Also, several high-level VLSI architectures along with the corresponding synthesis results in a 12 nm process are presented, and various design tradeoffs are provided for these decoding schemes

Rethinking Structure and Agency in Democratization: Iranian Lessons

This paper examines the complex and dialectal interactions between structural and agential factors and how they help or hinder democratization in contemporary Iran. The paper provides an operational definition of structure and agency by subdividing each into three levels of analysis. The structural factors are measured by the nature of the Iranian state (political level), Iran’s uneven development (socio-economic level), and the global structure of power (international level). The agential factors, both in the reform and the counter reform movement, are examined in terms of the leadership capability (individual level), the organizational arrangements (institutional level), and the intellectual discourse (cultural ideological level). The findings suggest that Iran’s future prospects for democratization equally depend on the structural “causes” and the sociopolitical “causers”. Iran’s process of democratization is surrounded by a number of international and domestic obstacles. Theses include Washington’s policy of regime change and the global war on terror, Iran’s oil-centered rentier state, and the lack of strong leadership, well-organized institutions, and an inclusive and engaging political discourse on the part of the reformists

Introducing a New Evaluation Criteria for EMD-Base Steganography Method

Steganography is a technique to hide the presence of secret communication. When one of the communication elements is under the influence of the enemy, it can be used. The main measure to evaluate steganography methods in a certain capacity is security. Therefore, in a certain capacity, reducing the amount of changes in the cover media, creates a higher embedding efficiency and thus more security of an steganography method. Mostly, security and capacity are in conflict with each other, the increase of one lead to the decrease of the other. The presence of a single criterion that represents security and capacity at the same time be useful in comparing steganography methods. EMD and the relevant methods are a group of steganography techniques, which optimize the amount of changes resulting from embedding (security). The present paper is aimed to provide an evaluation criterion for this group of steganography methods. In this study, after a general review and comparison of EMD-based steganography techniques, we present a method to compare them exactly, from the perspective of embedding efficiency. First, a formula is presented to determine the value of embedding efficiency, which indicates the effect of one or more changes on one or more pixels. The results demonstrate that the proposed embedding efficiency formula shows the performance of the methods better when several changes are made on a pixel compared to the existing criteria. In the second step, we have obtained an upper bound, which determines the best efficiency for each certain capacity. Finally, based on the introduced bound, another evaluation criterion for a better comparison of the methods is presented

Manifestation of Social Trust among Migrants: The Case of Iranian Residents in Toronto, Canada

This paper is excerpted from a research project titled “A Sociological Analysis of Socio-economic Situation of Iranian Migrants in Canada (Case Study: Toronto). This survey research has been carried out in 2005. Its main goal is to answer the following questions: What is the trust level among Iranian migrants residing in Toronto? What is the difference between the in-group social trust level (trust among Iranians) and the out-group trust level (confidence toward Canadians living in Toronto)? In an attempt to answer these questions a sample of 182 Iranians were interviewed on the basis of a standardized questionnaire. The findings reveal that the in-group social trust level – as measured against the defined scale – is slightly below the average, whereby the difference from the middle point of the scale is statistically significant. Moreover, it demonstrates that the mean figure for out-group social trust is significantly higher than the average defined on the scale. The results also suggest that the most important cause for lower in-group trust should be sought for in the pre- migration period. Researches carried out on social confidence indicate that weakness of social trust in home country is often transferred to other countries – after migration – and is intensified due to problems of the migrant community and increase of social risk

Optimization of the Allowable Speed on Iran’s Freeways to Reduce Violations and Accidents, Using Zero-Truncated Poisson Regression Model

Countries from all over the world including Iran, consider different maximum allowable speeds to control and maintain traffic safety on their freeways, but these actions have not been successful even with the police surveillance. Even though speeding is not the only cause of accidents, past studies indicate that speed plays a vital role in such events. Since respecting the speed limits have not prevented driving violations and traffic accidents, there’s doubt among decision-makers, about the applicability and safety of these legal speed limits in different weather and traffic conditions. They think perhaps there is a need for an optimized and safe speed after doing required studies. Even in the police instructions and notifications in unfavorable weather conditions, the word “safe speed” is used more than the “legal speed” and its limit is not mentioned and its determination is assigned to drivers according to their mental and physical conditions, type of vehicle, and the weather condition. This matter leads to uncertainty for drivers in selecting the right speed.This research is intended to achieve a safe and optimized speed for freeways in Iran, by considering a reasonable adjustment which is acceptable by the drivers so that a substantial decrease in driving violations and accidents could be observed. This work is done by using models developed for predicting violations and accidents on Iran’s freeways. The results indicate that by reducing the allowable speed of freeways from 125km/h to 105km/h, a 48% and 23% reduction of violations and traffic accidents could be achieved

Assessment of Propolis Supplementation on Serum Concentrations of Liver Enzymes in Endurance Athletes with Four Weeks Aerobic Training

Background: Aerobic and intense exercises with an increase in free radicals cause damages at the cellular level, heart disease, cancer, and the development of aging processes, which one of its symptoms is increased serum concentrations of liver enzymes. Objective: The purpose of this study was to investigate the concurrent effect of four weeks of aerobic training and propolis supplementation on the activity of liver enzymes, including ALT, AST, and SOD in endurance athletes. Methods: Thirty-two male athletes (age: 21±1.4 years) in track and field were randomly divided into three groups: exercise group, exercise with placebo group, and exercise with supplement group. Propolis supplementation was taken as two tablets (500 mg) twice a day and aerobic exercise was performed for 4 weeks and in 24 sessions with an intensity of 60 to 65% of heart rate. The statistical method was done using one-way ANOVA and Tukey post hoc test by SPSS v. 18 software. Findings: The results showed that there was a statistically significant difference between groups in serum levels of SOD, AST, and ALT (P<0.05). There was not a statistically significant difference between the exercise group and placebo+exercise group in serum levels of SOD, AST, and ALT (P>0.05). Conclusion: The results showed that aerobic exercise alone can increase SOD levels and propolis supplementation with aerobic exercise can reduce AST and ALT serum levels and lead to improved liver cell function

The role of metalloproteinase and hypoxia conditions in endometrial cells and embryo implantation

In the process of implantation, metalloproteinase enzymes play a key role in basement membrane degradation and endometrial extracellular matrix. The activity of these enzymes is impeded by binding Tissue Inhibitors of Metalloproteinase (TIMP). The oxygen concentration in the mammalian uterus at the time of implantation is about 2-5%. It is seen that the imposition of hypoxia on cancer cells increases the expression of metalloproteinase enzymes and reduces the expression of metalloproteinase inhibitors, resulting in increased cell invasion. To know the effect of Hypoxia-Inducible Factor (HIF) and other related factors, we decided to evaluate hypoxic conditions on endometrial epithelial cells of the uterus and roll of matrix metalloproteinases (MMPs) on angiogenesis and invasion of the embryo during implantation. In this study, human and mouse endometrial epithelial cells were incubated for 24-48 hours in hypoxic conditions. Subsequently, the expression level of TIMP-1 was measured in mouse and human epithelial cells by Real-Time PCR technique. The cell viability in hypoxic conditions was evaluated by MTT assay. Our results demonstrated that hypoxia reduced the quantitative gene expression of TIMP-1 in the human and mouse endometrial epithelial cells compared to the control group. It can be concluded that applying hypoxic conditions by reducing the TIMP-1 expression and consequently increasing MMP expression, may improve the embryo implantation rate