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EGGS UNDER THE RED FLAG AND BEYOND: THE CINEMA OF THE FIFTH GENERATION AND ITS REPRESENTATION OF CHILDHOODZhang, Haoyue 01 August 2017 (has links)
In this dissertation, I considered five representative images of childhood that the Fifth Generation filmmakers created throughout a thirty-five year period of post-Maoist social transition in China since the beginning of the market reform and opening policy in 1978. To look at evolving childhood through their films is to position the construction of childhood under the prism of the most prominent and controversial cinematic transformation. On the one hand, the Fifth Generation’s shift towards incorporated production, theatrical narration, sentimental style, and generally conservative ideology, signals and constitutes their transition into the paradoxes of “market-socialism;” on the other hand, it maps out the fluctuation and signification of three discourses of capitalism, socialism and Confucianism through evolving images of the child and childhood. I expect this original work that bridges Chinese film studies with childhood studies to unfold a thorough and dynamic scroll, through which I can tap into China’s social transition toward authoritarian neoliberalism, and reveal the discursive mechanism where propaganda of communist regime and re-mobilized Confucian values negotiate and compete with global capitalist orders over the construction of childhood. This dissertation claims that the significance of childhood lies in its capability to fight against a homogenized and hostile environment as both a fundamental humanist domain, and a political, critical and imaginative weapon in commercialized Chinese society.
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Does time heal?: cinematic reconstruction of historical trauma in twenty-first century ChinaZhang, Shiya 10 April 2018 (has links)
While the whole world is talking about China’s rise in wealth and power, most focus has been placed on understanding China’s present policies and future orientations. However, very little attention is devoted to examining how historical consciousness affects present China. People take for granted that the past—particularly the landmark traumas of the communist decades—is a far-reaching historical discontinuity, and that China’s profound changes in every aspect of society have rendered the past increasingly irrelevant. However, this thesis argues that this assumption is wrong.
This thesis explores the ways that Chinese filmmakers rearticulate the historical traumas which continue to affect Chinese society in the post-WTO era. I will identify three historical traumas that feature prominently in the interplay between past and present. The first, revolution and modernization, occupies a hegemonic status in socialist history. The second historical trauma is the tradition and modernization entrenched in Chinese modern historiography. The third is the 1980s and post-1989 modernization that has found a voice in the period of reform and opening-up. I refer to and analyze a selection of films made by Chinese Fifth Generation filmmakers in the new century—Coming Home (Guilai, dir. Zhang Yimou, 2014), Together (He ni zai yiqi, dir. Chen Kaige, 2002), and The Founding of a Republic (Jianguo daye, dir. Han Sanping and Huang Jianxin, 2009)—to understand these historical traumas. To situate traumatic history in a broader Asian context, I will also offer comparative study of memory of World War II in postwar Japan by undertaking a close reading of Merry Christmas, Mr. Lawrence (Senjo no merii kurisumasu, dir. Nagisa Oshima, 1983). Employing a combination of methods, including textual analysis of films and institutional analysis of film industries, I will demonstrate that cinema finds innovative ways to engage the significant parts of national history and to generate remembrance and interpretation.
Rather than reducing the Fifth Generation’s filmmaking trends in the new millennium to simplified government-appeasing or commercialization, this thesis emphasizes an understanding of their recollection of history, memory and trauma in a broader sociopolitical, economic, and cultural context. It shows how various factors—including the government’s cultural policy, economic transformation, and individual and generational sentiments—have influenced and shaped the historical discourses at specific historical moments. While affirming the significant role these films have played in keeping collective memories alive in the public sphere, this thesis also calls attention to their limitations, such as the problematic nostalgia for the Cultural Revolution, as well as the escapist imagination of cultural heritage and traditional values. / Graduate
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Evaluation of power consumption and trade-offs in 5G mobile communications networksAlhumaima, Raad January 2017 (has links)
In this thesis, components and parameters based power models (PMs) are produced to measure the power consumption (PC) of cloud radio access network (CRAN) architecture. In components PM, the power figure of each component within C-RAN is evaluated. After, this model is parametrised such that the computation complexity of each component is converted to a straightforward, but accurate method, called parameterised PM. This model compares cooling and total PC of traditional LTE architecture with C-RAN. This comparison considered different parameters such as, utilised bandwidth, number of antenna, base band units (BBUs) and remote radio heads (RRHs). This model draws about 33% reduction in power. Next, this PC model is updated to serve and exhibit the cost of integrating software defined networks (SDNs) with C-RAN. Alongside, modelling the power cost of the control plane units in the core network (CN), such as serving gateway (SGW), packet gateway (PGW) and mobility management entity (MME). Although there is power cost, the proposed model shows the directions to mitigate it. Consequently, a simplified PM is proposed for virtualisation based C-RAN. In this model, the power cost of server virtualisation by hosting several virtual machines (VMs) is shown, in a time and cost effective way. The total reduction in the PC was about 75%, due to short-cutting the number of active servers in the network. Alongside, the latency cost due to such technique is modelled. Finally, to enable efficient virtualisation technology, live migrating the VMs amongst the servers is vital. However, this advantageous situation is concurrent with VM's migration time and power cost. Therefore, a model is proposed to calculate the power cost of VM's live migration, and shows the effect of such decision upon the total PC of the network/C-RAN. The proposed work converts the complexity of other proposed PMs, to a simplified and costless method. Concurrently, the time cost is added to the imposed virtualisation's time cost to formulate the total delay expected prior to these techniques' execution.
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Practical System Implementation for 5G Wireless Communication SystemsNi, Weiheng 23 April 2015 (has links)
The fifth generation (5G) wireless communications technology will be a paradigm shift which does not only provide an explosive increment on the achievable data rate per cell, but also ideally decreases the costs and energy consumption per data link. The engineering requirements of 5G standard can be intuitively interpreted as highly enhanced spectral efficiency and energy efficiency. This thesis focuses on the practical implementation issues of the massive multiple-input multiple-output (MIMO) and energy harvesting systems.
To begin with, massive MIMO, as one of the key technologies of 5G systems, can provide enormous enhancement in spectral efficiency. For a practical massive MIMO system, hybrid processing (precoding/combining), by restricting the number of RF chains to far less than the number of antenna elements, can significantly reduce the implementation cost compared to the full-complexity radio frequency (RF) chain configuration. This thesis designs the hybrid RF and baseband precoders/combiners for multi-stream transmission in the point-to-point (P2P) massive MIMO systems, by directly decomposing the pre-designed digital precoder/combiner of a large dimension. The performance of the matrix decomposition based hybrid processing (MD-HP) scheme is near-optimal compared to the singular value decomposition (SVD) based full-complexity processing.
In addition, the downlink communication of a massive multiuser MIMO (MU-MIMO) system is also investigated, and a low-complexity hybrid block diagonalization (Hy-BD) scheme is developed to approach the performance of the traditional BD method. We aim to harvest the large array gain through the phase-only RF precoding and combining and then BD processing is performed on the equivalent baseband channel in the massive MU-MIMO scenario. The MD-HP and Hy-BD schemes are examined in both the large Rayleigh fading channels and millimeter wave channels.
On the other hand, energy harvesting is an increasingly attractive and renewable source of power for wireless communications devices, which contributes to the enhancement of the system energy efficiency. This thesis also designs the energy cooperation assisted energy harvesting communication between a practical transmitter and receiver, whose hardware circuits consume non-zero power when active. The energy cooperation save-then-transmit (EC-ST) scheme aims to obtain the optimal active time ratio and energy cooperation power for the maximum throughput under additive white Gaussian channels and the minimum outage probability under block Rayleigh fading channels. / Graduate
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Design Techniques for Frequency Reconfigurability in Multi-Standard RF TransceiversSingh, Rahul 01 May 2018 (has links)
Compared to current single-standard radio solutions, multi-standard radio transceivers enable higher integration, backward compatibility and save power, area and cost. The primary bottleneck in their realization is the development of high-performance frequency-reconfigurable RF circuits. To that end, this research introduces several CMOS-integrated, transformer-based reconfigurable circuit techniques whose effectiveness is validated through measurements of designed transceiver front-end low-noise (LNA) and power amplifier (PA) prototypes. In the first part, the use of high figure-of-merit phase-change (PC) based RF switches in the reconfiguration of CMOS LNAs in the receiver front-end is proposed. The first reported demonstration of an integrated, PC-switch based, dual-band (3/5 GHz) reconfigurable CMOS LNA with transformer source degeneration and designed in a 0.13 μm process is presented. In the second part, a frequency-reconfigurable CMOS transformer combiner is introduced that can be reconfigured to have similar efficiencies at widely separated frequency bands. A 65-nm CMOS triple-band (2.5/3/3.5 GHz) PA employing the reconfigurable combiner was designed. In the final part of this work, the use of transformer coupled-resonators in mm-wave LNA designs for 28 GHz bands was investigated. To cover contiguous and/or widely-separated narrowband channels of the emerging 5G standards, a 65-nm CMOS 24.9-32.7 GHz wideband multi-mode LNA using one-port transformer coupled-resonators was designed. Finally, a 25.1-27.6 GHz tunable-narrowband digitally-calibrated merged LNA-vector modulator design employing transformer coupled-resonators is presented that proposes a compact, differential quadrature generation scheme for phased-array architectures.
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Computer modelling of compact 28/38 GHz dual-band antenna for millimeter-wave 5G applicationsPatel, A.V., Desai, A., Elfergani, Issa T., Mewada, H., Zebiri, C., Mahant, K., Rodriguez, J., Abd-Alhameed, Raed 12 June 2023 (has links)
Yes / A four-element compact dual-band patch antenna having a common ground plane operating at 28/38 GHz is proposed for millimeter-wave communication systems in this paper. The multiple-input-multiple-output (MIMO) antenna geometry consists of a slotted ellipse enclosed within a hollow circle which is orthogonally rotated with a connected partial ground at the back. The overall size of the four elements MIMO antenna is 2.24λ × 2.24λ (at 27.12 GHz). The prototype of four-element MIMO resonator is designed and printed using Rogers RT Duroid 5880 with εr = 2.2 and loss tangent = 0.0009 and having a thickness of 0.8 mm. It covers dual-band having a fractional bandwidth of 15.7% (27.12–31.34 GHz) and 4.2% (37.21–38.81 GHz) for millimeter-wave applications with a gain of more than 4 dBi at both bands. The proposed antenna analysis in terms of MIMO diversity parameters (Envelope
Correlation Coefficient (ECC) and Diversity Gain (DG)) is also carried out. The experimental result in terms of
reflection coefficient, radiation pattern, gain and MIMO diversity parameter correlates very well with the simulated
ones that show the potential of the proposed design for MIMO applications at millimeter-wave frequencies. / This work is supported by the Moore4Medical Project, funded within ECSEL JU in collaboration with the EU H2020 Framework Programme (H2020/2014-2020) under Grant Agreement H2020-ECSEL-2019-IA-876190, and Fundação para a Ciência e Tecnologia (ECSEL/0006/2019). This work is also funded by the FCT/MEC through national funds and when applicable co-financed by the ERDF, under the PT2020 Partnership Agreement under the UID/EEA/50008/2020 Project.
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Sbohem má konkubíno - hongkongský román a jeho filmová adaptace v ČLR / Farewell My Concubine - from a Hong-kong novel to a PRC filmMedvedko, Anastassia January 2012 (has links)
Pursuant the comparison of novel Farewell, my concubine written by a Hong Kong novelist Li Bihua with its film adaptation, this master's thesis is analyzing the way of transition from literary text to audio-visual media and observes the differences, which are not only the result of this transformation, but also an example of different cultural environment of Hong Kong and the PRC.
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Multi-User Detection of Overloaded Systems with Low-Density SpreadingFantuz, Mitchell 11 September 2019 (has links)
Future wireless networks will have applications that require many devices to be connected to the network. Non-orthogonal multiple access (NOMA) is a promising multiple access scheme that allows more users to simultaneously transmit in a common channel than orthogonal signaling techniques. This overloading allows for high spectral efficiencies which can support the high demand for wireless access. One notable NOMA scheme is low-density spreading (LDS), which is a code domain multiple access scheme. Low density spreading operates like code division multiple access (CDMA) in the sense that users use a spreading sequence to spread their data, but the spreading sequences have a low number of nonzero chips, hence the term low-density. The message passing algorithm (MPA) is typically used for multi-user detection (MUD) of LDS systems. The MPA detector has complexity that is exponential to the number of users contributing to each chip. LDS systems suffer from two inherent problems: high computational complexity, and vulnerability to multipath channels. In this thesis, these two problems are addressed. A lower complexity MUD technique is presented, which offers complexity that is proportional to the number of users squared. The proposed detector is based on minimum mean square error (MMSE) and parallel interference cancellation (PIC) detectors. Simulation results show the proposed MUD technique achieves reductions in multiplications and additions by 81.84% and 67.87% with a loss of about 0.25 dB with overloading at 150%. In addition, a precoding scheme designed to mitigate the effects of the multipath channel is also presented. This precoding scheme applies an inverse channel response to the input signal before transmission. This allows for the received signal to eliminate the multipath effects that destroy the low-density structure.
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Contemporary Chinese Cinema: Fifth Generation films, urban films, and Sixth Generation filmsNie, Jing 21 August 2003 (has links)
No description available.
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Energy efficient cloud computing based radio access networks in 5G : design and evaluation of an energy aware 5G cloud radio access networks framework using base station sleeping, cloud computing based workload consolidation and mobile edge computingSigwele, Tshiamo January 2017 (has links)
Fifth Generation (5G) cellular networks will experience a thousand-fold increase in data traffic with over 100 billion connected devices by 2020. In order to support this skyrocketing traffic demand, smaller base stations (BSs) are deployed to increase capacity. However, more BSs increase energy consumption which contributes to operational expenditure (OPEX) and CO2 emissions. Also, an introduction of a plethora of 5G applications running in the mobile devices cause a significant amount of energy consumption in the mobile devices. This thesis presents a novel framework for energy efficiency in 5G cloud radio access networks (C-RAN) by leveraging cloud computing technology. Energy efficiency is achieved in three ways; (i) at the radio side of H-C-RAN (Heterogeneous C-RAN), a dynamic BS switching off algorithm is proposed to minimise energy consumption while maintaining Quality of Service (QoS), (ii) in the BS cloud, baseband workload consolidation schemes are proposed based on simulated annealing and genetic algorithms to minimise energy consumption in the cloud, where also advanced fuzzy based admission control with pre-emption is implemented to improve QoS and resource utilisation (iii) at the mobile device side, Mobile Edge Computing (MEC) is used where computer intensive tasks from the mobile device are executed in the MEC server in the cloud. The simulation results show that the proposed framework effectively reduced energy consumption by up to 48% within RAN and 57% in the mobile devices, and improved network energy efficiency by a factor of 10, network throughput by a factor of 2.7 and resource utilisation by 54% while maintaining QoS.
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