Han Qi scite author profile

Mobile Cloud Computing (MCC) which combines mobile computing and cloud computing, has become one of the industry buzz words and a major discussion thread in the IT world since 2009. As MCC is still at the early stage of development, it is necessary to grasp a thorough understanding of the technology in order to point out the direction of future research. With the latter aim, this paper presents a review on the background and principle of MCC, characteristics, recent research work, and future research trends. A brief account on the background of MCC: from mobile computing to cloud computing is presented and then followed with a discussion on characteristics and recent research work. It then analyses the features and infrastructure of mobile cloud computing. The rest of the paper analyses the challenges of mobile cloud computing, summary of some research projects related to this area, and points out promising future research directions.

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High-throughput and low-cost LDPC reconciliation for quantum key distribution

Mao

et al. 2019

Quantum Inf Process

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Reconciliation is a crucial procedure in post-processing of Quantum Key Distribution (QKD), which is used for correcting the error bits in sifted key strings. Although most studies about reconciliation of QKD focus on how to improve the efficiency, throughput optimizations have become the highlight in high-speed QKD systems. Many researchers adpot high cost GPU implementations to improve the throughput. In this paper, an alternative high throughput and efficiency solution implemented in low cost CPU is proposed. The main contribution of the research is the design of a quantized LDPC decoder including improved RCBP-based check node processing and saturation-oriented variable node processing. Experiment results show that the throughput up to 60Mbps is achieved using the bi-directional approach with reconciliation efficiency approaching to 1.1, which is the optimal combination of throughput and efficiency in Discrete-Variable QKD (DV-QKD). Meanwhile, the performance remains stable when Quantum Bit Error Rate (QBER) varies from 1% to 8%.

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Fault-tolerant quantum error correction code preparation in UBQC

Zhao

Mao

et al. 2020

Quantum Inf Process

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High-Speed and Adaptive FPGA-Based Privacy Amplification in Quantum Key Distribution

Yan

Mao

et al. 2019

IEEE Access

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Privacy amplification (PA) is a vital procedure in quantum key distribution (QKD) to shrink the eavesdropper's information about the final key almost to zero. With the increase of repeat frequency of discrete variable QKD (DV-QKD) system, PA processing speed has become the bottleneck in many highspeed DV-QKD systems. In this paper, a high-speed adaptive field-programmable gate array (FPGA)-based PA scheme using a fast Fourier transform (FFT) is presented. To decrease the computation complexity, a modified 2-D FFT-based Toeplitz PA scheme is designed. To increase the processing speed of the scheme on the constraint of limited resources, a real-value oriented FFT acceleration method and a fast read/write balanced matrix transposition method are designed and implemented in our scheme. The experimental results on a Xilinx Virtex-6 FPGA demonstrate that the throughput is nearly double of the latest FPGA based Toeplitz PA scheme according to the literature. Besides, this scheme owns not only the good adaptivity to compression ratio but also the compression ratio independent resource consumption. Therefore, this scheme can fit many high-speed QKD applications. INDEX TERMSQuantum key distribution, privacy amplification, fast Fourier transform, field-programmable gate array.

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Grover algorithm-based quantum homomorphic encryption ciphertext retrieval scheme in quantum cloud computing

Cheng

Juan

Dong

et al. 2020

Quantum Inf Process

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Han Qi

Research on mobile cloud computing: Review, trend and perspectives

High-throughput and low-cost LDPC reconciliation for quantum key distribution

Fault-tolerant quantum error correction code preparation in UBQC

High-Speed and Adaptive FPGA-Based Privacy Amplification in Quantum Key Distribution

Grover algorithm-based quantum homomorphic encryption ciphertext retrieval scheme in quantum cloud computing

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