Công Nghệ Thông Tin, it, phầm mềm, website, web, mobile app, trí tuệ nhân tạo, blockchain, AI, machine learning - Công Nghệ Thông Tin, it, phầm mềm, website, web, mobile app, trí tuệ nhân tạo, blockchain, AI, machine learning - Điện - Điện tử - Viễn thông REV 2013 KỶ YẾU Hội nghị Quốc gia về Điện tử - Truyền thông Hà Nội, ngày 17-18 12 2013 ĐẠ I CÔNG HỌ C NGHỆ ĐẠ I CÔNG HỌ C NGHỆ Chào mừng kỷ niệm 25 năm thành lập Hội Vô tuyến Điện tử Việt Nam Hội Vô tuyến Điện tử Việt Nam Chương trình Khoa học Công nghệ trọng điểm cấp Nhà nước KC01 Trường Đại học Công nghệ, Đại học Quốc gia Hà Nội Nhà xuất bản Đại học Quốc Gia Hà Nội KC01 A T C R E V 2 0 1 4 O c t o b e r 1 5 – 1 7 , 2 0 1 4 The International Conference on Advanced Technologies for Communications (ATCREV) is an annual conference series, co-organized by the Radio Electronics Association of Vietnam (REV) and the IEEE Communications Society (IEEE ComSoc). The goal of the series is twofold: to foster an international forum for scientific and technological exchange among Vietnamese and worldwide scientists and engineers in the fields of electronics, communications and related areas, and to gather their high-quality research contributions. Started in 2008 in Hanoi, the conference has made a great tour across Vietnam, for better promoting its scientific development (2009 - Haiphong, 2010 – Ho Chi Minh City, 2011 - Danang, 2012 – Hanoi, 2013 – Ho Chi Minh City). We now invite you to return to Hanoi city for the 7th meeting – the ATCREV 2014 – to be held during October 15–17, 2014, and hosted by Posts and Telecommunications Institute of Technology. TECHNICAL PROGRAM The conference program includes the regular tracks and special sessions spread over three days. In addition, a number of tutorial sessions will be scheduled on the day before the conference starts. Authors are invited to submit original unpublished papers. Topics of interest include but are not limited to: Communications track Communication Theory Information Coding Theory Communication Quality, Reliability Modeling Communications Information Security Wireless Communications Optical Communication Networking Microwave Antennas track Antennas Propagation Microwave Theory Techniques RF, Microwave Systems and Applications Networks track Ad Hoc Sensor Networks Computer Communications Satellite Communications Network Operations Management Communication Switching Routing Emergency Communications Biomedical Engineering Bio-signal processing Telemedicine and E-hospital Biomechanics Electronics track Analog and Mixed-Signal Circuits Embedded Systems, IP Systems Design Synthesis, Optimization, Verification Testing Consumer and Multimedia Systems Circuits and Systems for Communications Signal Processing track Signal and Image Processing Speech and Video Processing Signal Processing for Communications SUBMISSION POLICIES IMPORTANT DATES All papers must be submitted electronically, in PDF format, and uploaded on EDAS. The direct link for paper submission is at http:edas.infoN16379. The submissions should be formatted with single-spaced, double-column pages using at least 10 pt (or higher) size fonts on A4 or letter pages in IEEE style format. Detailed formatting and submission instructions will be available on the conference web site (http:www.rev-conf.orgauthorssubmission-guidelines.html). Submitted papers (for both regular and special sessions) are subject to a blind review process handled by an international technical program committee. An author of an accepted paper must be registered at full rate (member or non-member of the IEEE or REV) prior to uploading the camera-ready version. The maximum length of the camera-ready version is 6 pages. Accepted and presented papers will be included in the IEEE Xplore Digital Library. The IEEE reserves the right to exclude a paper from distribution after the conference (e.g., removal from IEEE Xplore) if the paper is not presented at the conference. Regularspecial paper submission: Manuscript submission: April 30, 2014 Notification of acceptance: Jul. 30, 2014 Camera-ready submission: Aug. 30, 2014 Proposal submission: Special sessions: Mar. 1, 2014 Tutorials: Mar. 1, 2014 COMMITTEES INTERNATIONAL LIAISONS Honorary chairs Nguyen Van Ngo, REV, Honorary President Do Trung Ta, KC.01 Program, VN Steering chairs Phan Anh, Bac Ha International Univ., REV Vijay Bhargava, UBC, Canada, ComSoc Hoang Minh, Posts Telecom. Inst. Tech., VN General chairs Robert W. Heath, The Uni. Texas at Austin, US Nguyen Xuan Quynh, REV, VN Le Huu Lap, Posts Telecom. Inst. Tech., VN Plenary talks Huynh Huu Tue, VNU-HCM, VN Local arrangements Vu Tuan Lam, Posts Telecom. Inst. Tech., VN Finance Nguyen Minh Phuong, Posts Telecom. Inst. Tech., VN Publicity Nguyen Trung Kien, Posts Telecom. Inst. Tech., VN Industrial relations Dang Hoai Bac, Posts Telecom. Inst. Tech., VN Publication Le Nhat Thang, Posts Telecom. Inst. Tech., VN Tran Xuan Tu, VNU-HN, VN Technical program chairs Arumugam Nallanathan, King''''s College London, UK Trung Q. Duong, Queen’s University Belfast, UK Vo Nguyen Quoc Bao, Posts Telecom. Inst. Tech., VN America Jean-Yves Chouinard, ULaval, Canada Minh Do, UIUC, USA Robert Heath, The Uni. Texas at Austin, USA Tho Le-Ngoc, McGill, Canada Ha H. Nguyen, Univ. Saskatchewan, Canada Asia Fawnizu A. Hussin, UTP, Malaysia Yoshio Karasawa, UEC, Japan Bumman Kim, POSTECH, South Korea Beyong Lee, SNU, South Korea Fujino Tadashi, UEC, Japan Wenxun Zhang, SEU, China Australia the Pacific Eryk Dutkiewicz, MQ, Australia Dinh-Thong Nguyen, UTS, Australia Middle-East Africa Boualem Boashash, QU, Qatar Europe Maurice Bellanger, CNAM, France Merouane Debbah, SUPELEC, France Pierre Duhamel, L2SSUPELEC, France Yacine Ghamri-Doudane, ENSIIE, France Peter Müller, IBM Zurich, Switzerland Matthias Pätzold, UiA, Norway Zebo Peng, LiU, Sweden Roberto Saracco, Telecom Italia, Italy Viktor Stempitsky, BSUIR , Belarus Website: www.rev-conf.org Email: inforev-conf.org Tel: +84-4-37540145 Fax: +84-4-37562036 CALL FOR PAPER REV Journal on Electronics and Communications (REV-JEC) is a quarterly peer-reviewed research journal, dedicated to providing a leading edge forum for researchers and professionals to contribute and disseminate innovative research ideas and results in the fields of electronics and communications. REV-JEC offers three different formats of articles: regular, short and correspondence. While it is required for a regular article to present substantial scientific contributions in sufficient details; a short article should present a complete study with significant contributions, usually more limited in scope than what is found in a regular article; and a correspondence article may offer new ideas, new results or comments that need to be quickly communicated. We invite submission of high-quality papers presenting original, previously unpublished, research ideas and results on both theoretical and applied aspects in all areas of electronics and communications. These areas include, but are not limited to, the following topics: Automation and Control track Automation Systems Adaptive Control Linear Nonlinear Control Optimal Control Robotics Communications track Communication Theory Information Coding Theory Communication Quality, Reliability Modeling Communications Information Security Wireless Communications Electronics track Analog Mixed-Signal Circuits Embedded Systems, IP Systems Design Synthesis, Optimization, Verification Testing Consumer Multimedia Systems Circuits Systems for Communications Microwave Antennas track Antennas Propagation Microwave Theory Techniques RF, Microwave Systems Applications Networks track Ad Hoc Sensor Networks Computer Communications Internet Optical Networking Satellite Communications High-Speed Networking Network Operations Management Communication Switching Routing Emergency Communications Signal Processing track Signal Processing Theory Audio Acoustic Signal Processing Image Video Signal Processing Coding Speech Processing Biomedical Signal Processing Imaging Signal Processing for Communications Networking Information Forensics Security Signal Processing Applications Systems Manuscripts should be written in English. Whenever applicable, submissions should include the following elements: title, authors, affiliations, contacts, abstract, index terms, main text, acknowledgement, and references. Submitted manuscripts should be formatted into A4-size, double- spaced, single-column pages, with main text of 12-point type. Regular research paper submissions should ideally not exceed 30 double-spaced pages in length, including tables and figures. This length corresponds roughly to 7 pages in print (single-spaced, two-column format). Prospective authors should submit their full-text manuscript for publication consideration in a single PDF or Microsoft Word file via email to the journal secretary at jecrev.org.vn. Other file formats will not be accepted. Office: G2 building, 144 Xuan Thuy, Hanoi, Vietnam Phone: +84 4 37549271 – Email: jecrev.org.vn – Website: http:www.rev-jec.org i REV 2 0 1 3 HỘI NGHỊ QUỐC GIA VỀ ĐIỆN TỬ - TRUYỀ N THÔNG NATIONAL CONFERENCE ON ELECTRONICS AND COMMUNICATIONS Kỷ yếu hội nghị ĐIỆN TỬ - TRUYỀ N THÔNG VỚI CÁC NGÀNH CÔNG NGHỆ CAO 17 18 tháng 12, 2013 Hà Nội Đơn vị tổ chức Đơn vị tài trợ ĐẠ I CÔNG HỌ C NGH Ệ ĐẠ I CÔNG HỌ C NGHỆ KC01 ii Hội nghị Quốc gia về Điện tử - Truyền thông vớ i Các ngành công nghệ cao 2013 Ban chỉ đạo vi Ban tổ chứ c vii Ban chương trình và Ban thư ký viii Báo cáo mời Xu hướng phát triển và định hướng quy hoạch tần số cho vô tuyến băng rộng của Việt Nam 1 Ths. Đoàn Quang Hoan Một số chính sách mới của khoa học và công nghệ cho phát triển lĩnh vực công nghệ thông tin và truyền thông 2 PGS.TS. Đào Ngọc Chiến Chính sách, chiến lược, xu hướng phát triển và điều tiết thị trường Viễn thông và Công nghệ thông tin Việt Nam 3 PGS.TS. Trần Minh Tuấn Hội Vô tuyến Điện tử Việt Nam với các hoạt động nhằm thúc đẩy sự phát triển của Khoa họ c - Công nghệ Việt Nam trong lĩnh vực Điện tử và Truyền thông 4 GS.TSKH. Phan Anh Relations of Friendship and Cooperation between the IEEE and the Radio-Electronics Association of Vietnam 9 Prof. Nguyen Van Ngo Báo cáo tại các phiên Đánh giá hiệu năng giao thức cây thu thập dữ liệu có sự nhận thức về năng lượng 19 Vũ Chiến Thắng, Nguyễn Chấn Hùng, Lê Nhật Thăng Giải pháp bảo mật và xác thực cho văn phòng điện tử 26 Hồ Văn Hương, Hoàng Chiến Thắng, Nguyễn Quốc Uy Implementing Rate Adaptive Algorithm in EnergyAware Data Center Network 32 Tran Manh Nam, Tran Hoang Vu, Vu Quang Trong, Nguyen Huu Thanh, Pham Ngoc Nam Nghiên cứu khắc phục ảnh hưởng của trễ truyền thông trong các hệ thống điều khiển có nối mạng 38 Nguyễn Trọng Các, Nguyễn Văn Khang A Low Offset Op-Amp Using Auto-zero and Ping-pong Structure 47 iii Tan-Vinh Le, Binh-Son Le, Trung-Khanh Le, Trong-Tu Bui System-on-Chip Testbed for Validating the Hardware Design of H.264AVC Encoder 51 Hai-Phong Phan, Hung K. Nguyen, Duy-Hieu Bui, Nam-Khanh Dang, Xuan-Tu Tran Hệ thống cảm biến giọt chất lỏng trong kênh dẫn 56 Nguyễn Đắc Hải, Vũ Quốc Tuấn, Phạm Quốc Thịnh, Chử Đức Trình Heart rate monitor and QRS detection using microcontroller 61 Hoang ChuDuc, Thuan NguyenDuc Design and implementation of a watermarking method using perceptually important sub-image 66 Nguyen Ngoc Minh, Nguyen Le Cuong Designing digital filters by method of assigned transition bandwidth 70 Nguyen Xuan Truong Một phương pháp xây dựng hệ mật mã khối kết hợp sơ đồ Lai-Massey với sơ đồ Feistel và ứng dụ ng vào hàm băm 75 Ngô Đức Thiện, Nguyễn Trung Hiếu, Nguyễn Toàn Thắng, Đặng Hoài Bắc Trích chọn đặc trưng cho bài toán nhận dạng cảm xúc bằng thuật toán Gabor Wavelet 81 Lê Đức Toàn, Nguyễn Thị Ngọc Bích, Diệp Nhật Huy, Huỳnh Hữu Thuận Thiết kế bộ đo lường quán tính sử dụng bộ lọc Kalman mở rộng 88 Nguyễn Quang Vịnh, Trần Xuân Kiên, Bùi Hông Huế Hệ thống mạng camera xử lý hình ảnh thông minh phục vụ điều khiển giao thông và giám sát an ninh 95 Phạm Hồng Quang, Nguyễn Hữu Tình, Bùi Phú Huy, Tạ Tuấn Anh Thiết kế lắp đặt hệ thống camera giám sát giao thông đường cao tốc 101 Tạ Tuấn Anh, Phạm Hồng Quang Thiết kế, chế tạo thiết bị đo lường bức xạ ion hóa 107 Nguyễn Cảnh Việt, La Minh Tuấn, Trịnh Ngọc Duy, Phạm Quốc Triệu Development of a Behavior-based Navigation System for Mobile Robot in Unknown Environment 112 Thi Thanh Van Nguyen, Manh Duong Phung, Anh Viet Dang, Dinh Tuan Pham, Quang Vinh Tran Indoor Objects Localization System Using Passive UHF RFID Technology 118 Thi Hao Dao, Quoc Cuong Nguyen, Minh Thuy Le Numerical Analysis of SquareHexagonal Photonic Crystal Fiber for Optical Fiber Communication 123 Nguyen Hoang Hai, Nguyen Ngoc Minh Antenna for RFID Cards 130 Nguyen Minh Tran, Tran Quang Nhuong, Truong Vu Bang Giang, Tran Minh Tuan A Novel Demultiplexer Based on a 2×2 Butterfly MMI Coupler and a Directional Coupler Using Silicon Waveguides 134 Cao Dung Truong, Xuan Linh Bui, Duc Han Tran, Tuan Linh Nguyen, Trung Thanh Le Designing Wideband Microstrip Bandpass Filter for Satellite Receiver Systems 140 Tran Van Hoi, Bach Gia Duong Đề xuất một cấu trúc anten tiểu hình cho thiết bị di động 3G 144 Hà Quốc Anh, Nguyễn Quốc Định, Hoàng Đình Thuyên Low Power Wideband CMOS LNA for Digital TV Tuner 148 Phat Nguyen-Tan, Cuong Huynh iv Simultaneous correction of random and burst errors using norm syndrome for BCH codes 154 Pham Khac Hoan, Le Van Thai, Vu Son Ha Implementation of Chaotic Pulse Width-Postion ModulationDemodulation on PIC Microcontroller 159 Nguyen Xuan Quyen, Vu Van Yem Performance of Cooperative Spectrum Sensing over Nakagami channel 164 Viet Duc Tran, Hoang Nguyen Van, Mai Dinh Thai An toàn mạng điều hành giám sát công nghiệp 170 Nguyễn Đào Trường, Lê Mỹ Tú, Nguyễn Ngọc Điệp Performance Evaluation of Underlay Cooperative Cognitive Networks over Fading Channels 175 Khuong Ho-Van, Tuan Dang Anh, Hung Dinh Quoc Collaborative Relay Beamforming in Two-Way Relay Networks 181 Ha H. Kha, Nguyen D. Chi Về một phương pháp đánh giá thuật toán tính RTT trong TCP theo phương pháp hàm thống kê 187 Vũ Tất Thành, Nguyễn Hồng Vũ Đề xuất anten MIMO băng thông siêu rộng 192 Lê Trọng Trung, Nguyễn Quốc Định Một phương pháp xấp xỉ trên miền thời gian cho xung sóng khúc xạ, tán xạ trên mặt phẳng điện môi 196 Đinh Trọng Quang, Trịnh Xuân Thọ, Phạm Hữu Lập, Trần Văn Hà, Nguyễn Minh Thắng, Phạ m Tiến Mạnh, Lê Vĩnh Hà Phương pháp tính toán diện tích tấm tản nhiệt cho vi mạch khuếch đại công suất 201 Lê Đại Phong, Phạm Việt Anh, Nguy ễn Quang Huy, Phạm Cao Đại Thiết kế và mô phỏng lưu lượng kế siêu âm đa tần 205 Ngô Văn Sỹ, Hồ Anh Trang, Phạm Phan Tuyết Lê The Design of Integrated Transceiver module for Wireless Data Communication 210 Nguyen Quang Huy, Luu Van Tuan, Le Dai Phong, Bui Quy Thang, Pham Viet Anh Enhancing Performance of Digitized Radio over Fiber System using Optically Amplified Coherent Receiver 214 Tuan Nguyen Van, Thanh-Tung Ton-That Cân bằng nhanh bằng NƠRON 220 Nguyễn Hoàng Linh, Lê Danh Cường, Trần Nam Trung Sự tương đương giữa mã Cyclic cục bộ xây dựng trên nhóm nhân Cyclic và mã Cyclic truyền thống 225 Nguyễn Văn Trung, Nguyễn Trung Hiếu, Phạm Việt Trung Microstrip Antenna for WLAN Applications 231 Pham Dinh Toai, Ta Dinh Duc, Truong Vu Bang Giang Nghiên cứu đề xuất thuật toán so khớp bản đồ sử dụng cho ngành đường sắt 234 Nguyễn Văn Nghĩa, Đỗ Việt Dũng Cải thiện chất lượng giải mã LDPC dựa trên ma trận kiểm tra tương đương và cực tiểu trọng số củ a syndrome 237 Nguyễn Văn Duẫn, Đỗ Quốc Trinh, Nguyễn Tùng Hưng DPA, Một dạng tấn công SILECHANNEL hiệu quả 243 Nguyễn Hồng Quang Ứng dụng công nghệ mới trong kỹ thuật chiếu sáng tàu thủy 246 v Trần Xuân Việt Xây dựng công thức tính độ nhạy trong thiết kế cảm biến đo áp suất buồng đốt động cơ tên lửa 250 Lê Vĩnh Hà, Phạm Quang Minh Áp dụng lý thuyết trò chơi vào hệ thống 5G sử dụng MIMO kích thước lớn đa người dùng 254 Trần Cao Quyền, Phạm Ngọc Linh Giải pháp nhận dạng kênh vệ tinh phi tuyến sử dụng mạng nơron 258 Nguyễn Viết Minh, Trần Hồng Quân, Lê Nhật Thăng Improve energy efficiency in WSN using fuzzy logic 266 Ngo Van Truc, Nguyen Van Cuong A 355W class S band compact Wilkinson combiner unit with LDMOS FET power amplifiers for wireless power transmission 272 Chuc Doan Huu, Duong Bach Gia Nghiên cứu ứng dụng công nghệ truyền hình lai ghép băng rộng và quảng bá HbbTV 277 Trần Nam Trung, Đinh Văn Phong Công cụ hỗ trợ phân tích và thiết kế tế bào nhớ SRAM 285 Võ Thanh Trí, Lê Bình Sơn, Bùi Trọng Tú Một số tấn công giao thức trao đổi khóa 290 Nguyễn Ngọc Điệp, Nguyễn Quốc Toàn, Nguyễn Đào Trường Hệ thống thu thập dữ liệu quan trắc qua mạng 3G phục vụ công tác cảnh báo lũ 295 Nguyễn Văn Đức, Đỗ Trọng Tuấn, Phạm Quốc Việt, Lê Văn Điểm Implementation of Mobile Vehicle Monitoring System using Android Smartphone 301 Pham Tien Hung, Hoang Van Dung, Vuong Xuan Hong, Ha Duyen Trung Multi-GNSS positioning campaign in South-East Asia 307 Tung Hai Ta, Duc Minh Truong, Tu Thanh Thi Nguyen, Thuan Dinh Nguyen, Hieu Trung Tran, Gustavo Belforte Novel MIMO Antenna Using CRLH Structure 314 Nguyen Ngoc Lan, Ho Manh Cuong, Nguyen Van Duc, Vu Van Yem National Conference on Electronics and Communications (REV2013-KC01) System-on-Chip Testbed for Validating the Hardware Design of H.264AVC Encoder Hai-Phong Phan, Hung K. Nguyen, Duy-Hieu Bui, Nam-Khanh Dang, Xuan-Tu Tran SIS Laboratory, VNU University of Engineering and Technology 144 Xuan Thuy road, Hanoi, Vietnam Corresponding author’s email: tutxvnu.edu.vn Abstract— This paper presents an implementation of a LEON3-based System-on-Chip (SoC) testbed, which is aimed at experimentally evaluating and validating the H.264AVC video encoding Integrated Circuit (IC) developed by SIS Laboratory at VNU University of Engineering and Technology. In addition, the paper also presents a methodology for verifying the design of H264AVC video encoder in the HardwareSoftware co- emulating fashion. The design is implemented on the DE2 development board from Altera Corporation. The testbed can help us to evaluate effectively many aspects of the developed H.264AVC video encoder. Keywords— SoC testbed, HarwareSoftware co-verification, LEON3 processor, H.264 encoder I. I NTRODUCTION Because of the high mask set cost for fabricating ASIC (Application-specific Integrated Circuit), it is necessary to verify and evaluate carefully the design at all design phases in order to ensure the fabricated chip is without bug. Prototyping an ASIC design, which has large integration level and high complexity, using FPGA (Field Programmable Gate Array) is indispensable in the design process. ASIC design is more and more complex. The major challenge the de...
Trang 1REV 2013 KỶ YẾU
Hội nghị Quốc gia về Điện tử - Truyền thông
Hà Nội, ngày 17-18/12/2013
Chào mừng kỷ niệm 25 năm thành lập Hội Vô tuyến Điện tử Việt Nam
Hội Vô tuyến Điện tử Việt Nam
Chương trình Khoa học Công nghệ trọng điểm cấp Nhà nước KC01 Trường Đại học Công nghệ, Đại học Quốc gia Hà Nội
Nhà xuất bản Đại học Quốc Gia Hà Nội
KC01
Trang 2A T C / R E V 2 0 1 4
O c t o b e r 1 5 – 1 7 , 2 0 1 4
The International Conference on Advanced Technologies for Communications (ATC/REV) is an annual conference series, co-organized by the Radio Electronics Association of Vietnam (REV) and the IEEE Communications Society (IEEE ComSoc) The goal of the series is twofold: to foster an international forum for scientific and technological exchange among Vietnamese and worldwide scientists and engineers in the fields of electronics, communications and related areas, and to gather their high-quality research contributions
Started in 2008 in Hanoi, the conference has made a great tour across Vietnam, for better promoting its scientific development (2009 - Haiphong, 2010 – Ho Chi Minh City, 2011 - Danang, 2012 – Hanoi, 2013 – Ho Chi Minh City) We now invite you to return to Hanoi city for the 7th meeting – the ATC/REV 2014 – to be held during October 15–17, 2014, and hosted by Posts and Telecommunications Institute of Technology
TECHNICAL PROGRAM
The conference program includes the regular tracks and special sessions spread over three days In addition, a number of tutorial sessions will be scheduled on the day before the conference starts Authors are invited to submit original unpublished papers Topics of interest include but are not limited to:
Communications track
Communication Theory
Information & Coding Theory
Communication Quality, Reliability & Modeling
Communications & Information Security Wireless Communications
Optical Communication & Networking
Microwave & Antennas track
Antennas & Propagation
Microwave Theory & Techniques
RF, Microwave Systems and Applications
Networks track
Ad Hoc & Sensor Networks
Computer Communications
Satellite Communications
Network Operations & Management
Communication Switching & Routing
Analog and Mixed-Signal Circuits
Embedded Systems, IP & Systems Design
Synthesis, Optimization, Verification & Testing
Consumer and Multimedia Systems
Circuits and Systems for Communications
Signal Processing track
Signal and Image Processing
Speech and Video Processing
Signal Processing for Communications
SUBMISSION & POLICIES
All papers must be submitted electronically, in PDF format, and uploaded on EDAS The direct link for paper submission is at http://edas.info/N16379 The submissions should be formatted with single-spaced, double-column pages using at least 10 pt (or higher) size fonts on A4 or letter pagesin IEEE style format Detailed formatting and submission instructions will be available on the conference web site (http://www.rev-conf.org/authors/submission-guidelines.html)
Submitted papers (for both regular and special sessions) are subject to a blind review process handled by an international technical program committee An author of an accepted paper must be registered at full rate (member or non-member of the IEEE or REV) prior to uploading the camera-ready version The maximum length of the camera-ready version is 6 pages Accepted and presented papers will be included in the IEEE Xplore Digital Library The IEEE reserves the right to exclude a paper from distribution after the conference (e.g., removal from IEEE Xplore) if the paper is not presented at the conference
Regular/special paper submission:
Manuscript submission: April 30, 2014
Notification of acceptance: Jul 30, 2014 Camera-ready submission: Aug 30, 2014
Technical program chairs
Arumugam Nallanathan, King's College London, UK Trung Q Duong, Queen’s University Belfast, UK Vo Nguyen Quoc Bao, Posts & Telecom Inst Tech., VN
Australia & the Pacific
Eryk Dutkiewicz, MQ, Australia Dinh-Thong Nguyen, UTS, Australia
Middle-East & Africa
Boualem Boashash, QU, Qatar
Europe
Maurice Bellanger, CNAM, France Merouane Debbah, SUPELEC, France Pierre Duhamel, L2S/SUPELEC, France Yacine Ghamri-Doudane, ENSIIE, France Peter Müller, IBM Zurich, Switzerland Matthias Pätzold, UiA, Norway Zebo Peng, LiU, Sweden
Trang 3CALL FOR PAPER
REV Journal on Electronics and Communications (REV-JEC) is a quarterly peer-reviewed research journal, dedicated to providing a leading edge forum for researchers and professionals to contribute and disseminate innovative research ideas and results in the fields of electronics and communications
REV-JEC offers three different formats of articles: regular, short and correspondence While it is required for a regular article to present substantial scientific contributions in sufficient details; a short article should present a complete study with significant contributions, usually more limited in scope than what is found in a regular article; and a correspondence article may offer new ideas, new results or comments that need to be quickly communicated
We invite submission of high-quality papers presenting original, previously unpublished, research ideas and results on both theoretical and applied aspects in all areas of electronics and communications These areas include, but are not limited to, the following topics:
Automation and Control track
Automation Systems Adaptive Control
Linear & Nonlinear Control Optimal Control
Robotics
Communications track
Communication Theory Information & Coding Theory Communication Quality, Reliability &
Modeling
Communications & Information Security Wireless Communications
Electronics track
Analog & Mixed-Signal Circuits
Embedded Systems, IP & Systems Design Synthesis, Optimization, Verification &
Testing
Consumer & Multimedia Systems Circuits & Systems for Communications
Microwave & Antennas track
Antennas & Propagation
Microwave Theory & Techniques RF, Microwave Systems & Applications
Networks track
Ad Hoc & Sensor Networks Computer Communications Internet
Optical Networking Satellite Communications High-Speed Networking
Network Operations & Management Communication Switching & Routing Emergency Communications
Signal Processing track
Signal Processing Theory
Audio & Acoustic Signal Processing
Image & Video Signal Processing & Coding Speech Processing
Biomedical Signal Processing & Imaging Signal Processing for Communications &
Networking
Information Forensics & Security
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Trang 4ĐIỆN TỬ - TRUYỀN THÔNG
VỚI CÁC NGÀNH CÔNG NGHỆ CAO
17 18 tháng 12, 2013 Hà Nội
Đơn vị tổ chức Đơn vị tài trợ
CÔNGNGHỆHỌC KC01
Trang 5ii
Hội nghị Quốc gia về
Điện tử - Truyền thông với Các ngành công nghệ cao 2013
Ban chỉ đạo vi Ban tổ chức vii Ban chương trình và Ban thư ký viii
Báo cáo mời
Xu hướng phát triển và định hướng quy hoạch tần số cho vô tuyến băng rộng của Việt Nam 1
Ths Đoàn Quang Hoan
Một số chính sách mới của khoa học và công nghệ cho phát triển lĩnh vực công nghệ thông tin và truyền thông _ 2
Prof Nguyen Van Ngo
Báo cáo tại các phiên
Đánh giá hiệu năng giao thức cây thu thập dữ liệu có sự nhận thức về năng lượng _ 19
Vũ Chiến Thắng, Nguyễn Chấn Hùng, Lê Nhật Thăng
Giải pháp bảo mật và xác thực cho văn phòng điện tử _ 26
Hồ Văn Hương, Hoàng Chiến Thắng, Nguyễn Quốc Uy
Implementing Rate Adaptive Algorithm in EnergyAware Data Center Network _ 32
Tran Manh Nam, Tran Hoang Vu, Vu Quang Trong, Nguyen Huu Thanh, Pham Ngoc Nam
Nghiên cứu khắc phục ảnh hưởng của trễ truyền thông trong các hệ thống điều khiển có nối mạng 38
Nguyễn Trọng Các, Nguyễn Văn Khang
Trang 6Tan-Vinh Le, Binh-Son Le, Trung-Khanh Le, Trong-Tu Bui
System-on-Chip Testbed for Validating the Hardware Design of H.264/AVC Encoder _ 51
Hai-Phong Phan, Hung K Nguyen, Duy-Hieu Bui, Nam-Khanh Dang, Xuan-Tu Tran
Hệ thống cảm biến giọt chất lỏng trong kênh dẫn _ 56
Nguyễn Đắc Hải, Vũ Quốc Tuấn, Phạm Quốc Thịnh, Chử Đức Trình
Heart rate monitor and QRS detection using microcontroller 61
Hoang ChuDuc, Thuan NguyenDuc
Design and implementation of a watermarking method using perceptually important sub-image 66
Nguyen Ngoc Minh, Nguyen Le Cuong
Designing digital filters by method of assigned transition bandwidth _ 70
Nguyen Xuan Truong
Một phương pháp xây dựng hệ mật mã khối kết hợp sơ đồ Lai-Massey với sơ đồ Feistel và ứng dụng vào hàm băm 75
Ngô Đức Thiện, Nguyễn Trung Hiếu, Nguyễn Toàn Thắng, Đặng Hoài Bắc
Trích chọn đặc trưng cho bài toán nhận dạng cảm xúc bằng thuật toán Gabor Wavelet _ 81
Lê Đức Toàn, Nguyễn Thị Ngọc Bích, Diệp Nhật Huy, Huỳnh Hữu Thuận
Thiết kế bộ đo lường quán tính sử dụng bộ lọc Kalman mở rộng _ 88
Nguyễn Quang Vịnh, Trần Xuân Kiên, Bùi Hông Huế
Hệ thống mạng camera xử lý hình ảnh thông minh phục vụ điều khiển giao thông và giám sát an ninh _ 95
Phạm Hồng Quang, Nguyễn Hữu Tình, Bùi Phú Huy, Tạ Tuấn Anh
Thiết kế lắp đặt hệ thống camera giám sát giao thông đường cao tốc _ 101
Tạ Tuấn Anh, Phạm Hồng Quang
Thiết kế, chế tạo thiết bị đo lường bức xạ ion hóa _ 107
Nguyễn Cảnh Việt, La Minh Tuấn, Trịnh Ngọc Duy, Phạm Quốc Triệu
Development of a Behavior-based Navigation System for Mobile Robot in Unknown Environment 112
Thi Thanh Van Nguyen, Manh Duong Phung, Anh Viet Dang, Dinh Tuan Pham, Quang Vinh Tran
Indoor Objects Localization System Using Passive UHF RFID Technology _ 118
Thi Hao Dao, Quoc Cuong Nguyen, Minh Thuy Le
Numerical Analysis of Square/Hexagonal Photonic Crystal Fiber for Optical Fiber Communication 123
Nguyen Hoang Hai, Nguyen Ngoc Minh
Antenna for RFID Cards _ 130
Nguyen Minh Tran, Tran Quang Nhuong, Truong Vu Bang Giang, Tran Minh Tuan
A Novel Demultiplexer Based on a 2×2 Butterfly MMI Coupler and a Directional Coupler Using Silicon Waveguides _ 134
Cao Dung Truong, Xuan Linh Bui, Duc Han Tran, Tuan Linh Nguyen, Trung Thanh Le
Designing Wideband Microstrip Bandpass Filter for Satellite Receiver Systems _ 140
Tran Van Hoi, Bach Gia Duong
Đề xuất một cấu trúc anten tiểu hình cho thiết bị di động 3G _ 144
Hà Quốc Anh, Nguyễn Quốc Định, Hoàng Đình Thuyên
Low Power Wideband CMOS LNA for Digital TV Tuner _ 148
Phat Nguyen-Tan, Cuong Huynh
Trang 7iv
Simultaneous correction of random and burst errors using norm syndrome for BCH codes _ 154
Pham Khac Hoan, Le Van Thai, Vu Son Ha
Implementation of Chaotic Pulse Width-Postion Modulation/Demodulation on PIC Microcontroller _ 159
Nguyen Xuan Quyen, Vu Van Yem
Performance of Cooperative Spectrum Sensing over Nakagami channel 164
Viet Duc Tran, Hoang Nguyen Van, Mai Dinh Thai
An toàn mạng điều hành giám sát công nghiệp 170
Nguyễn Đào Trường, Lê Mỹ Tú, Nguyễn Ngọc Điệp
Performance Evaluation of Underlay Cooperative Cognitive Networks over Fading Channels 175
Khuong Ho-Van, Tuan Dang Anh, Hung Dinh Quoc
Collaborative Relay Beamforming in Two-Way Relay Networks _ 181
Ha H Kha, Nguyen D Chi
Về một phương pháp đánh giá thuật toán tính RTT trong TCP theo phương pháp hàm thống kê _ 187
Vũ Tất Thành, Nguyễn Hồng Vũ
Đề xuất anten MIMO băng thông siêu rộng 192
Lê Trọng Trung, Nguyễn Quốc Định
Một phương pháp xấp xỉ trên miền thời gian cho xung sóng khúc xạ, tán xạ trên mặt phẳng điện môi _ 196
Đinh Trọng Quang, Trịnh Xuân Thọ, Phạm Hữu Lập, Trần Văn Hà, Nguyễn Minh Thắng, Phạm Tiến Mạnh, Lê Vĩnh Hà
Phương pháp tính toán diện tích tấm tản nhiệt cho vi mạch khuếch đại công suất _ 201
Lê Đại Phong, Phạm Việt Anh, Nguy ễn Quang Huy, Phạm Cao Đại
Thiết kế và mô phỏng lưu lượng kế siêu âm đa tần _ 205
Ngô Văn Sỹ, Hồ Anh Trang, Phạm Phan Tuyết Lê
The Design of Integrated Transceiver module for Wireless Data Communication 210
Nguyen Quang Huy, Luu Van Tuan, Le Dai Phong, Bui Quy Thang, Pham Viet Anh
Enhancing Performance of Digitized Radio over Fiber System using Optically Amplified Coherent Receiver 214
Tuan Nguyen Van, Thanh-Tung Ton-That
Cân bằng nhanh bằng NƠRON 220
Nguyễn Hoàng Linh, Lê Danh Cường, Trần Nam Trung
Sự tương đương giữa mã Cyclic cục bộ xây dựng trên nhóm nhân Cyclic và mã Cyclic truyền thống _ 225
Nguyễn Văn Trung, Nguyễn Trung Hiếu, Phạm Việt Trung
Microstrip Antenna for WLAN Applications _ 231
Pham Dinh Toai, Ta Dinh Duc, Truong Vu Bang Giang
Nghiên cứu đề xuất thuật toán so khớp bản đồ sử dụng cho ngành đường sắt 234
Nguyễn Văn Nghĩa, Đỗ Việt Dũng
Cải thiện chất lượng giải mã LDPC dựa trên ma trận kiểm tra tương đương và cực tiểu trọng số của syndrome _ 237
Nguyễn Văn Duẫn, Đỗ Quốc Trinh, Nguyễn Tùng Hưng
DPA, Một dạng tấn công SILECHANNEL hiệu quả _ 243
Nguyễn Hồng Quang
Ứng dụng công nghệ mới trong kỹ thuật chiếu sáng tàu thủy _ 246
Trang 8Trần Xuân Việt
Xây dựng công thức tính độ nhạy trong thiết kế cảm biến đo áp suất buồng đốt động cơ tên lửa _ 250
Lê Vĩnh Hà, Phạm Quang Minh
Áp dụng lý thuyết trò chơi vào hệ thống 5G sử dụng MIMO kích thước lớn đa người dùng _ 254
Trần Cao Quyền, Phạm Ngọc Linh
Giải pháp nhận dạng kênh vệ tinh phi tuyến sử dụng mạng nơron _ 258
Nguyễn Viết Minh, Trần Hồng Quân, Lê Nhật Thăng
Improve energy efficiency in WSN using fuzzy logic 266
Ngo Van Truc, Nguyen Van Cuong
A 355W class S band compact Wilkinson combiner unit with LDMOS FET power amplifiers for wireless power transmission 272
Chuc Doan Huu, Duong Bach Gia
Nghiên cứu ứng dụng công nghệ truyền hình lai ghép băng rộng và quảng bá HbbTV _ 277
Trần Nam Trung, Đinh Văn Phong
Công cụ hỗ trợ phân tích và thiết kế tế bào nhớ SRAM _ 285
Võ Thanh Trí, Lê Bình Sơn, Bùi Trọng Tú
Một số tấn công giao thức trao đổi khóa _ 290
Nguyễn Ngọc Điệp, Nguyễn Quốc Toàn, Nguyễn Đào Trường
Hệ thống thu thập dữ liệu quan trắc qua mạng 3G phục vụ công tác cảnh báo lũ _ 295
Nguyễn Văn Đức, Đỗ Trọng Tuấn, Phạm Quốc Việt, Lê Văn Điểm
Implementation of Mobile Vehicle Monitoring System using Android Smartphone _ 301
Pham Tien Hung, Hoang Van Dung, Vuong Xuan Hong, Ha Duyen Trung
Multi-GNSS positioning campaign in South-East Asia _ 307
Tung Hai Ta, Duc Minh Truong, Tu Thanh Thi Nguyen, Thuan Dinh Nguyen, Hieu Trung Tran, Gustavo Belforte
Novel MIMO Antenna Using CRLH Structure 314
Nguyen Ngoc Lan, Ho Manh Cuong, Nguyen Van Duc, Vu Van Yem
Trang 9National Conference on Electronics and Communications (REV2013-KC01)
System-on-Chip Testbed for Validating the Hardware Design of H.264/AVC Encoder
Hai-Phong Phan, Hung K Nguyen, Duy-Hieu Bui, Nam-Khanh Dang, Xuan-Tu Tran
SIS Laboratory, VNU University of Engineering and Technology 144 Xuan Thuy road, Hanoi, Vietnam
Corresponding author’s email: tutx@vnu.edu.vn
Abstract— This paper presents an implementation of a LEON3-based System-on-Chip (SoC) testbed, which is aimed at experimentally evaluating and validating the H.264/AVC video encoding Integrated Circuit (IC) developed by SIS Laboratory at VNU University of Engineering and Technology In addition, the paper also presents a methodology for verifying the design of H264/AVC video encoder in the Hardware/Software co-emulating fashion The design is implemented on the DE2 development board from Altera Corporation The testbed can help us to evaluate effectively many aspects of the developed H.264/AVC video encoder
Keywords— SoC testbed, Harware/Software co-verification, LEON3 processor, H.264 encoder
I INTRODUCTION
Because of the high mask set cost for fabricating ASIC (Application-specific Integrated Circuit), it is necessary to verify and evaluate carefully the design at all design phases in order to ensure the fabricated chip is without bug Prototyping an ASIC design, which has large integration level and high complexity, using FPGA (Field Programmable Gate Array) is indispensable in the design process
ASIC design is more and more complex The major challenge the designer must be confronted to design such an IC (Integrated Circuit) is verification In general, verification consumes at least 50%~80% of the design effort [1] Verifying the design correctness is considered to be the key barrier against designing more complex VLSIs (Very Large Scale Integration), as well as exploiting leading-edge process technologies There is not any single design tool that can solve the problem Instead, a complex chain of tools and techniques, including classical simulation, directed and random verification, and formal techniques, etc., is required to reduce the number of design errors to an acceptable minimum In this paper, we developed a LEON3-based System-on-Chip (SoC) testbed and the platform-based verification method, which is aimed at experimentally evaluating and validating the H.264/AVC video encoding IC designed by SIS Laboratory at the University of Engineering and Technology, Vietnam National University, Hanoi This testbed can help us to evaluate effectively many aspects of the designed H.264/AVC video encoder
The goal of verification is to ensure that the design meets the functional requirements as defined in the functional specification In the top-down method for ASIC design and verification, the designers first develops a system-level model of the design from the functional specification The system-level model is normally the high-level behavioral abstraction that is written in a high-level programming language such asC/C++ Alternatively, this model may also be created using the hardware description language (HDL) such as Verilog or VHDL The behavioral model should be simulated in order to verify that it meets the required functionalities completely and correctly The behavioral model is then used as a reference to refine and create a synthesizable RTL (Register Transfer Level) model
Before being synthesized to a structural model (or level model), the RTL model is verified again to ensure that it exactly provides the required functionality and performance The functional verification of the design at this step must be as complete and thorough as possible This requires that the test vectors employed during simulation should provide the necessary coverage to ensure the design will meet specifications without bug Unfortunately, the verification by simulation is difficult to test all cases While the size of design increases, it might be unfeasible to run the full test-bench on a RTL model because of the huge simulating time In this case, it is necessary to speed up the simulation using emulator, rapid prototype system, or hardware accelerators or to partition the design into several functional blocks The modules are extracted from an abstract model of the design, and then individual modules can be verified independently with their associated test-bench Afterwards, system-level emulation can run in a mixed mode where most modules are simulated with high-level abstract models, while one or some modules are substituted by hardware accelerator(s)
gate-The rest of the paper is organized as follows gate-The hardware architecture of H.264/AVC video encoder is firstly introduced in Section II Next, the design and implementation of the SoC testbed are presented in Section III Section IV presents the methodology for verifying a hardware design by using the proposed SoC testbed The details of validating the H.264/AVC video encoder and experimental results are presented and discussed in Section V In Section VI, some conclusions are drawn
51
Trang 10National Conference on Electronics and Communications (REV2013-KC01)
A Basic concepts of H.264/AVC video encoding
The H.264/AVC video encoding standard is known as an efficient video encoding standard providing high quality at a very low bitrate in comparison with the previous standards such as MPEG-2 and MPEG-4
The general architecture of the H.264/AVC encoder, composed of different functional blocks, is depicted in Fig 1
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Fig 1 Functional diagram of the H.264/AVC encoder
In order to achieve high compression ratio, the H.264/AVC standard has adopted several advances in coding technology to remove spatial and temporal redundancies These prominent techniques are as follows:
• A new way to handle the quantized transform coefficients has been proposed for trading-off between compression performance and video quality to meet the requirements of applications Besides that, an efficient method called Context-Adaptive Variable Length Coding (CAVLC) is also used to encode residual data In this coding technique, VLC tables are switched according to already transmitted syntax elements Since these VLC tables are specifically designed to match the corresponding image statistic, the entropy coding performance is impressively improved in comparison with schemes using only a single VLC table [2]; • The H.264/AVC adopts variable block size prediction
to provide more flexibility The intra prediction can be applied either on 4×4 blocks individually or on entire 16×16 macroblocks (MBs) There are nine different prediction modes for 4×4 blocks and four prediction modes for 16×16 blocks After comparing among the cost functions of all possible modes, the best mode having the lowest cost is selected On the other hand, the inter-prediction is based on a tree-structure where the motion vector and prediction can adopt various block sizes and partitions ranging from 16×16 MBs to 4×4-blocks To identify these prediction modes, motion vectors, and partitions, the H.264/AVC specifies a very complex algorithm to derive them from their neighbors; • The forward transform/inverse transform also operate
on blocks of 4×4 pixels to match the smallest block size The transform is still Discrete Cosine Transform
(DCT) but with some fundamental differences compared to those in previous standards [3] In [4], the transform unit is composed of both DCT and Walsh Hadamard transforms for all prediction processes; • The in-loop de-blocking filter in the H.264/AVC
depends on the parameters so-called Boundary Strength (BS) to determine whether the current block edge should be filtered The derivation of the BS is highly adaptive because it relies on the modes and coding conditions of the adjacent blocks
B VENGME Hardware Architecture
The “Video Encoder for the Next Generation Multimedia Equipment (VENGME)” project, supported by the Vietnam National University, Hanoi, aims at designing and implementing an H.264/AVC encoder targeting mobile platforms The current design is optimized for CIF video; however, the architecture can be extended for larger resolutions by enlarging the reference memory and the search window
One of the factors which affect both computational path and the power consumption is the workload of the system and the data dependencies among the pipeline stages In the H.264/AVC encoder, the most time consuming part is inter prediction including Integer Motion Estimation (IME),
Compensation (MC) The second time consuming module in the encoder is the Entropy Coding (EC) Therefore, the architecture should be carefully selected to improve the coding throughput and the overall performance Our proposed designs for Intra-Prediction, Inter-Prediction, Entropy Encoder, and Forward Transformation and Quantization (FTQ) have been presented in [4]-[8]
Fig 2 VENGME H.264/AVC encoder architecture
The complete architecture of VENGME encoder uses a stage pipeline scheme, as illustrated in Fig 2 The first stage is used to load the data needed for the prediction The second stage includes intra- and inter-predictions Because FME and MC can reuse the information from IME and the data from the search window SRAM, therefore the IME and FME are merged into the same stage Inter-prediction and intra-prediction in the same stage can be executed in parallel or separately, thanks to the system controller decision In the