Your search keyword '"Wenshu Sui"' showing total 6 results

1. Energy-Efficient Resource Allocation With Flexible Frame Structure for Hybrid eMBB and URLLC Services

Author

Shugong Xu, Shunqing Zhang, Zhiyuan Jiang, Xiaojing Chen, and Wenshu Sui

Subjects

Computer Networks and Communications, Renewable Energy, Sustainability and the Environment, Computer science, Quality of service, Distributed computing, Scalability, Resource allocation, Resource management, Latency (engineering), Transmitter power output, Grid, Efficient energy use

Abstract

The key objective of the fifth generation (5G) wireless technology is to support services with highly diverse requirements, which necessitates the specification of flexible numerology and frame structure for radio resource allocation in 5G new radio (NR). In this article, flexible 2-dimensional resource allocation is investigated to exploit the frequency and time diversities of the resource grid, and eventually maximize the overall system energy efficiency (EE) in the scenario where enhanced mobile broadband (eMBB) and ultra-reliable and low latency communication (URLLC) services coexist. A new definition of EE is proposed to capture and fulfill the heterogeneous quality-of-service (QoS) requirements of eMBB and URLLC services. By first sliding a window on the resource grid to determine the candidate resource pool, and then allocating resource blocks (RBs) therein by leveraging linear programming (LP) relaxation, we propose a sliding window (SW) based algorithm with a low complexity for the NP-hard EE optimization problem. In addition, we also analyze the achievable EE performance of the proposed algorithm to demonstrate its scalability with respect to the grid sizes and the maximum transmit power to provide an in-depth understanding. Numerical results show that the proposed algorithm can bring about as much as 16.7% power consumption reduction, and improve EE by about 29.3% compared to other baseline systems.

Published

2021

2. Semi-Blind Multi-cell Interference Detection and Cancellation in 5G Uplink OFDM Systems

Author

Yanzan Sun, Jiaqi Kang, Wenshu Sui, Shunqing Zhang, Xiaojing Chen, and Nan Dong

Published

2022

3. Energy-Efficient Resource Allocation with Flexible Frame Structure for Heterogeneous Services

Author

Zhiyuan Jiang, Shugong Xu, Shunqing Zhang, Wenshu Sui, and Xiaojing Chen

Subjects

Computer science, Orthogonal frequency-division multiplexing, business.industry, Distributed computing, 020302 automobile design & engineering, 020206 networking & telecommunications, 02 engineering and technology, Grid, 0203 mechanical engineering, Sliding window protocol, Scalability, 0202 electrical engineering, electronic engineering, information engineering, Wireless, business, 5G, Efficient energy use, Diversity scheme

Abstract

The key objective of the fifth generation (5G) wireless technology is to support services with vastly variable requirements, which necessitates the flexible numerology and frame structure for radio resource allocation. In this paper, flexible 2-dimensional resource allocation is investigated to maximize the energy efficiency (EE) for service transmissions with heterogeneous latency requirements. Exploiting the frequency and time diversities of the resource grid, frequency-selective resource allocation, together with an agile "on-off" operation of the power amplifier (PA) are performed by the proposed sliding window-based (SW) algorithm with scalability. Simulation results further demonstrate that the SW algorithm can achieve similar EE performance as the exhaustive method with a substantially lower complexity.

Published

2019

4. Breaking the size barrier of capacitive MEMS microphones from critical length scale

Author

Kui Song, Weiguan Zhang, Wenshu Sui, Yi-Kuen Lee, and Ching-Hsiang Cheng

Subjects

Microelectromechanical systems, Engineering, Microphone, business.industry, Diaphragm (acoustics), Acoustics, Capacitive sensing, 010401 analytical chemistry, Electrical engineering, 02 engineering and technology, Radius, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Inflection point, Miniaturization, Critical radius, 0210 nano-technology, business

Abstract

Based on the synergy of a theoretical one-dimensional (1D) mass-spring-damper model and the experimental validation of fabricated capacitive MEMS microphones fabricated by the PolyMUMPs process, we identify the existence of a critical diaphragm radius which represents the inflection point on the microphone's sensitivity-radius curve. To overcome this miniaturization barrier, we propose a new microphone structure with four folded microbeams. The corresponding sensitivity remains the same, while the radius reduces by 17% in comparison with the previous design.

Published

2017

5. Comparative study of the viscoelasticity of parylene thin films for MEMS using Nano-DMA and Molecular Dynamics

Author

Wenshu Sui, Maxime S. Duvieusart, Yi-Kuen Lee, Junhua Zhao, and Yu-Chong Tai

Subjects

Materials science, Modulus, Nanotechnology, Young's modulus, Viscoelasticity, Molecular dynamics, symbols.namesake, chemistry.chemical_compound, Parylene, chemistry, Nano, symbols, Composite material, Thin film, Glass transition

Abstract

We present a comparative study of the viscoelasticity of parylene C (PPXC) by using Nano-DMA (Dynamical Mechanical Analysis) and Molecular Dynamics (MD) simulations. By applying sinusoidal loading on PPXC films at different temperatures and frequencies, the complex modulus and glass transition temperature (T g ) of the PPXC were obtained. The predicted T g determined from the temperature-dependent density change in the MD model is consistent with the results in our measurements and previous works. Furthermore, with Time-Temperature Superposition Principle (TTSP), we successfully determined the master curve of PPXC, for the first time, which is critical for the parylene reliability study of bio-MEMS devices.

Published

2017

6. Theoretical, numerical and experimental study of residual stress effect on two microresonators for acoustic sensing

Author

Wenshu Sui, Weiguan Zhang, and Yi-Kuen Lee

Subjects

Microelectromechanical systems, Stress (mechanics), Resonator, Nanoelectromechanical systems, Materials science, Residual stress, Acoustics, Natural frequency, Actuator, Finite element method

Abstract

Residual stress during the micro-fabrication process has been one of the main issues in many MEMS/NEMS sensors and actuators, especially acoustic sensing. We conduct theoretical, numerical and experimental study on the residual stress effect on the frequency responses of two types of polysilicon micro circular resonators: clamped and residual stress (RS) free design which can release the process-induced stress and is of easy fabrication. The measured natural frequency of the fabricated device is 39.8 kHz, in good agreement with both theoretical and FEM simulation results. We also determined the natural frequencies of these two designs as a function of residual stress. Under the same experimental RS condition of 50 MPa, the normalized changes of natural frequencies of these two designs are 159.7% versus 0.8%, respectively.

Published

2016