Your search keyword '"Wei-Long Su"' showing total 15 results

1. V2V Data Offloading for Cellular Network Based on the Software Defined Network (SDN) Inside Mobile Edge Computing (MEC) Architecture

Author

Chung-Ming Huang, Meng-Shu Chiang, Duy-Tuan Dao, Wei-Long Su, Shouzhi Xu, and Huan Zhou

Subjects

Cellular networks, mobile edge computing (MEC), software defined network (SDN), VANET offloading, V2V communication, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Data offloading plays an important role for the mobile data explosion problem that occurs in cellular networks. This paper proposed an idea and control scheme for offloading vehicular communication traffic in the cellular network to vehicle to vehicle (V2V) paths that can exist in vehicular ad hoc networks (VANETs). A software-defined network (SDN) inside the mobile edge computing (MEC) architecture, which is abbreviated as the SDNi-MEC server, is devised in this paper to tackle the complicated issues of VANET V2V offloading. Using the proposed SDNi-MEC architecture, each vehicle reports its contextual information to the context database of the SDNi-MEC server, and the SDN controller of the SDNi-MEC server calculates whether there is a V2V path between the two vehicles that are currently communicating with each other through the cellular network. This proposed method: 1) uses each vehicle's context; 2) adopts a centralized management strategy for calculation and notification; and 3) tries to establish a VANET routing path for paired vehicles that are currently communicating with each other using a cellular network. The performance analysis for the proposed offloading control scheme based on the SDNi-MEC server architecture shows that it has better throughput in both the cellular networking link and the V2V paths when the vehicle's density is in the middle.

Published

2018

2. SDN-based V2V offloading for cellular network using the LifeTime-based network state routing (LT-NSR).

Author

Chung-Ming Huang, Meng-Shu Chiang, Wei-Long Su, and Duy-Tuan Dao

Published

2018

3. Multiband treatment of quantum transport in anisotropic semiconductors: Non-equilibrium Green's function.

Author

Chun-Nan Chen, Sheng-Hsiung Chang, Wei-Long Su, Jen-Yi Jen, and Yiming Li 0005

Published

2013

4. V2V Data Offloading for Cellular Network Based on the Software Defined Network (SDN) Inside Mobile Edge Computing (MEC) Architecture

Author

Duy-Tuan Dao, Huan Zhou, Meng-Shu Chiang, Wei-Long Su, Chung-Ming Huang, and Shouzhi Xu

Subjects

General Computer Science, Computer science, Wireless ad hoc network, Throughput, Cloud computing, 02 engineering and technology, Vehicle-to-vehicle, VANET offloading, Server, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Vehicular ad hoc network, Mobile edge computing, business.industry, software defined network (SDN), Mobile broadband, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, General Engineering, Cellular networks, 020206 networking & telecommunications, mobile edge computing (MEC), V2V communication, Cellular network, 020201 artificial intelligence & image processing, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, Software-defined networking, lcsh:TK1-9971, Computer network

Abstract

Data offloading plays an important role for the mobile data explosion problem that occurs in cellular networks. This paper proposed an idea and control scheme for offloading vehicular communication traffic in the cellular network to vehicle to vehicle (V2V) paths that can exist in vehicular ad hoc networks (VANETs). A software-defined network (SDN) inside the mobile edge computing (MEC) architecture, which is abbreviated as the SDNi-MEC server, is devised in this paper to tackle the complicated issues of VANET V2V offloading. Using the proposed SDNi-MEC architecture, each vehicle reports its contextual information to the context database of the SDNi-MEC server, and the SDN controller of the SDNi-MEC server calculates whether there is a V2V path between the two vehicles that are currently communicating with each other through the cellular network. This proposed method: 1) uses each vehicle's context; 2) adopts a centralized management strategy for calculation and notification; and 3) tries to establish a VANET routing path for paired vehicles that are currently communicating with each other using a cellular network. The performance analysis for the proposed offloading control scheme based on the SDNi-MEC server architecture shows that it has better throughput in both the cellular networking link and the V2V paths when the vehicle's density is in the middle.

Published

2018

5. SDN-based V2V offloading for cellular network using the LifeTime-based network state routing (LT-NSR)

Author

Meng-Shu Chiang, Duy-Tuan Dao, Chung-Ming Huang, and Wei-Long Su

Subjects

Scheme (programming language), Vehicular ad hoc network, Computer science, Wireless ad hoc network, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 05 social sciences, 050801 communication & media studies, 020206 networking & telecommunications, Throughput, 02 engineering and technology, 0508 media and communications, 0202 electrical engineering, electronic engineering, information engineering, Cellular network, State (computer science), Routing (electronic design automation), business, Software-defined networking, computer, Computer network, computer.programming_language

Abstract

This paper proposed a control scheme for offloading vehicular communication traffic from the cellular network to V2V paths that can exist in Vehicular Ad Hoc Networks (VANETs). The Software Defined Network (SDN) architecture is adopted to tackle the complicated issues of VANET V2V offloading. The performance analysis for the proposed SDN-based offloading control scheme shows that it has better throughput in both the 4G link and the V2V paths when vehicle's density is in the middle.

Published

2018

6. Multiband treatment of quantum transport in anisotropic semiconductors: Non-equilibrium Green’s function

Author

Jen Yi Jen, Wei Long Su, Sheng Hsiung Chang, Chun Nan Chen, and Yiming Li

Subjects

Physics, Condensed matter physics, business.industry, Boundary (topology), Function (mathematics), Computer Science Applications, Quantum transport, symbols.namesake, Semiconductor, Modeling and Simulation, Green's function, symbols, Transmission coefficient, Anisotropy, business, Quantum

Abstract

Using the non-equilibrium Green’s function and anti-bonding orbital model, a multiband treatment of quantum transport in an anisotropic semiconductor (Si-based) system is developed. In this study, we adopt Chiang’s boundary treatment of the open boundary system into the non-equilibrium Green’s function framework, and then an easy and powerful multiband treatment method is developed to solve the transmission coefficient of Si-based semiconductor quantum structures.

Published

2013

7. Velocity-direction dependent transmission coefficient of electron through potential barrier grown on anisotropic semiconductor

Author

Yiming Li, Jen Yi Jen, Wei Long Su, Chun Nan Chen, and Sheng Hsiung Chang

Subjects

Condensed matter physics, Chemistry, business.industry, digestive, oral, and skin physiology, Physics::Optics, Electron, equipment and supplies, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Semiconductor, Rectangular potential barrier, Wave vector, Transmission coefficient, Anisotropy, business

Abstract

In contrast to the usual wavevector dependent transition coefficients, the velocity-direction dependent transition coefficients of an incident electron are calculated. Through a potential barrier grown on anisotropic semiconductors, the transition coefficients of an incident electron are calculated in all valleys and incident-directions. In the anisotropic semiconductor, the mathematical expressions of the electron wavevector are also derived in the framework of the incident-angle and incident-energy parameters.

Published

2012

8. Application of block diagonal technique to a Hamiltonian matrix in performing spin-splitting calculations for GaN wurtzite materials

Author

Hsiu Fen Kao, Wan Tsang Wang, Yiming Li, Jen Yi Jen, Chun Nan Chen, Wei Long Su, and Sheng Hsiung Chang

Subjects

Hamiltonian matrix, Materials science, Condensed matter physics, business.industry, media_common.quotation_subject, General Physics and Astronomy, Block matrix, Thermal conduction, Asymmetry, Condensed Matter::Materials Science, Semiconductor, Spin splitting, Valence band, business, Wurtzite crystal structure, media_common

Abstract

The bulk inversion asymmetry (Dresselhaus) terms (i.e., B2, B1, and B′1 terms) of wurtzite materials are determined. The 2 × 2 conduction band, 2 × 2 heavy-hole band, 2 × 2 light-hole band, and 2 × 2 crystal-field split-off hole band matrices of wurtzite semiconductors are developed and decoupled by using a block diagonal technique. Importantly, those 2 × 2 block diagonal matrices incorporate not only the interband coupling effect but also the bulk inversion asymmetry effect. Analytical expressions for the conduction and the valence band spin-splitting parameters and energies of GaN wurtzite materials are formulated by solving the block diagonal matrices. The presence of these terms is shown to include the spin-splitting phenomenon.

Published

2012

9. Application of block diagonal technique to Hamiltonian matrix in performing spin-splitting calculations for GaAs zincblende bulk and quantum wells

Author

Chun-Nan Chen, Wei-Long Su, Kuo-Ching Chang, Sheng-Hsiung Chang, Jin-Chen Chiang, Ikai Lo, Wan-Wan-Tsang Wang, Hsiu-Fen Kao, and Meng-En Lee

Subjects

Gallium arsenide -- Chemical properties, Gallium arsenide -- Structure, Zinc compounds -- Chemical properties, Zinc compounds -- Structure, Quantum chemistry -- Research, Physics

Abstract

A block diagonal method is used for obtaining the 2*2 conduction band, 4*4 hole band and 2*2 spin-orbit split-off band matrices of zincblende semiconductors. The results have shown that odd-in-k terms are present in both the bulk and the quantum well expressions due to the bulk inversion asymmetry effect and they have induced the spin-splitting phenomenon.

Published

2008

10. Giant optical anisotropy in R-plane GaN/AlGaN quantum wells caused by valence band mixing effect

Author

Wei-Long Su, Meng-En Lee, Jih-Chen Chiang, Chun-Nan Chen, Ikai Lo, and Wan-Tsang Wang

Subjects

Physics, Matrix (mathematics), Optical anisotropy, Condensed matter physics, Plane (geometry), General Physics and Astronomy, Mixing effect, Anisotropy, Polarization (waves), Quantum well, Wurtzite crystal structure

Abstract

This study investigates the optical anisotropy spectrum in the R-plane (i.e., the [ 10 1 ¯ 2 ] -oriented layer plane) of GaN/Al0.2Ga0.8N quantum wells of different widths. The optical matrix elements in the wurtzite quantum wells are calculated using the k ⋅ p finite difference scheme. The calculations show that the valence band mixing effect produces giant in-plane optical anisotropy in [ 10 1 ¯ 2 ] -oriented GaN/Al0.2Ga0.8N quantum wells with a narrow width. The nature of the in-plane optical anisotropy is found to be dependent on the well width. Specifically, it is found that the anisotropy changes from x ′ -polarization to y ′ -polarization as the well width increases.

Published

2008

11. Giant optical anisotropy in M-plane GaN/AlGaN quantum wells due to crystal-field effect

Author

Sheng Hsiung Chang, Meng-En Lee, Kuo-Ching Chang, Jih-Chen Chiang, Chun-Nan Chen, Ikai Lo, Wei-Long Su, Hsiu-Fen Kao, and Wan-Tsang Wang

Subjects

Physics, Photoluminescence, Optical anisotropy, Condensed matter physics, General Physics and Astronomy, Field effect, Optical polarization, Condensed Matter::Materials Science, symbols.namesake, Gan algan, symbols, Hamiltonian (quantum mechanics), Quantum well, Wurtzite crystal structure

Abstract

The optical polarization of GaN/AlGaN wurtzite quantum wells in various orientations is studied using an arbitrarily-oriented [ h k i l ] Hamiltonian potential matrix. The optical matrix elements in the wurtzite quantum wells are calculated using the k ⋅ p finite difference scheme. The results reveal the presence of giant in-plane optical anisotropy (polarized normal to [0001]) in the M-plane (i.e., the ( 10 1 ¯ 0 ) -oriented layer plane) GaN/Al0.2Ga0.8N quantum well, due to the positive crystal-field split energy effect ( Δ CR > 0 ). The present theoretical results are consistent with the photoluminescence measurements presented in the literature [B. Rau, et al., Appl. Phys. Lett. 77 (2000) 3343].

Published

2008

12. k⋅p WURTZITE HAMILTONIAN AND OPTICAL MATRIX WITH BULK INVERSION ASYMMETRY

Author

Yiming Li, Jen Yi Jen, Wan Tsang Wang, Chun Nan Chen, and Wei Long Su

Subjects

Physics, symbols.namesake, Condensed matter physics, media_common.quotation_subject, symbols, Statistical and Nonlinear Physics, Inversion (meteorology), Condensed Matter Physics, Hamiltonian (quantum mechanics), Asymmetry, Wurtzite crystal structure, media_common

Abstract

A k⋅p wurtzite Hamiltonian including the bulk (or intracell) inversion asymmetry is developed. Meanwhile, a k⋅p wurtzite optical matrix including this intracell asymmetry is also established.

Published

2012

13. k·p Zincblende Hamiltonian and Optical Matrix with Bulk Inversion Asymmetry

Author

Meng En Lee, Chun Nan Chen, Wei Long Su, Yiming Li, and Jen Yi Jen

Subjects

Physics, symbols.namesake, Condensed matter physics, Physics and Astronomy (miscellaneous), media_common.quotation_subject, symbols, General Engineering, General Physics and Astronomy, Inversion (meteorology), Hamiltonian (quantum mechanics), Asymmetry, media_common

Abstract

A conventional 8 ×8 k·p zincblende Hamiltonian is corrected to include the bulk (or intracell) inversion asymmetry. Meanwhile, a conventional 8 ×8 k·p zincblende optical matrix is also corrected to include this intracell asymmetry.

Published

2011

14. General Expressions for Ellipsoidal-Valley Quantum Transport in Arbitrary Growth Direction: Non-Equilibrium Green's Function

Author

Jen Yi Jen, Meng En Lee, Chun Nan Chen, Yiming Li, and Wei Long Su

Subjects

Physics, symbols.namesake, Quantum transport, Transmission (telecommunications), Physics and Astronomy (miscellaneous), Green's function, Quantum mechanics, symbols, General Engineering, General Physics and Astronomy, Function (mathematics), Double barrier, Ellipsoid

Abstract

A theoretical method for the calculation of quantum transport in an ellipsoidal valley is presented. This method is developed using a non-equilibrium Green's function framework. Importantly, it is instructive that k z is separated into two parts so that the wrong figure shape of the transmission coefficients does not exist. The L-electron effect on AlAs–GaAs–AlAs double barrier structures oriented in the [001], [111], and [110] growth directions is explored using the proposed method.

Published

2011

15. Application of block diagonal technique to Hamiltonian matrix in performing spin-splitting calculations for GaAs zincblende bulk and quantum wells

Author

Wei-Long Su, Wan-Tsang Wang, Kuo-Ching Chang, Sheng Hsiung Chang, Ikai Lo, Meng-En Lee, Hsiu-Fen Kao, Jih-Chen Chiang, and Chun-Nan Chen

Subjects

Physics, Hamiltonian matrix, Condensed matter physics, business.industry, media_common.quotation_subject, General Physics and Astronomy, Block matrix, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Asymmetry, Gallium arsenide, Condensed Matter::Materials Science, chemistry.chemical_compound, Semiconductor, Spin splitting, chemistry, business, Conduction band, Quantum well, media_common

Abstract

The 2×2 conduction band, 4×4 hole band, and 2×2 spin-orbit split-off band matrices of zincblende semiconductors are obtained by using a block diagonal technique. Importantly, the block diagonal matrices incorporate not only the interband coupling effect but also the bulk inversion asymmetry effect. Analytical expressions for the conduction band spin-splitting energies of GaAs zincblende bulk and quantum wells grown on [001]-, [111]-, and [110]-oriented substrates are formulated by solving the block diagonal matrices. The results show that odd-in-k terms exist in both the bulk and the quantum well expressions due to the bulk inversion asymmetry effect. The presence of these terms is shown to induce the spin-splitting phenomenon.

Published

2008