1 |
张新慧,李晶,任宝平.大型先进民用飞机高升力控制系统架构研究[J]. 测控技术,2020,39(10):124-129.
|
|
ZHANG Xinhui, LI Jing, REN Baoping. Research on Architecture of High Lift Control System for Large Advanced Civil Aircraft [J]. Measurement & Control Technology, 2020,39(10): 124-129.
|
2 |
王文浩,毕文豪,张安,等. 基于MBSE的民机系统功能建模方法[J]. 系统工程与电子技术 2021,43(10):2884-2892.
|
|
WANG Wenhao, BI Wenhao, ZHANG An, et al. Function Modeling Method of Civil Aircraft System Based on MBSE [J]. System Engineering and Electronics, 2021, 43(10): 2884-2892.
|
3 |
郑党党,吴颖,任丽强. 飞机设计基于模型的系统工程技术研究与应用[C]∥第21届中国系统仿真技术及其应用学术年会. 合肥,2020:224-228.
|
|
ZHENG Dangdang, WU Ying, REN Liqiang. Research on Model Based Systems Engineering and Application in Aircraft Design [C]∥The 21th Annual Conference of Chinese System Simulation Technology and Applications. Hefei, 2020: 224-228.
|
4 |
WALDEN D D, ROEDLER G J, FORSBERG K J, et al. System Engineering Handbook: A Guide for System Life Cycle Process and Activities [M]. 4th ed. San Diego, CA: International Council on Systems Engineering. Published by John Wiley & Sons, Inc, 2015.
|
5 |
邓兴民,张惠媛,李健仁,等. 基于运行场景的需求捕获方法在炮塔中的应用[J]. 西北工业大学学报,2017,35(S1):88-92.
|
|
DENG Xingmin, ZHANG Huiyuan, LI Jianren, et al. Application of Requirement Capture Methods Based on Running Scenarios in Turrets [J]. Journal of Northwestern Polytechnical University, 2017, 35(S1):88-92.
|
6 |
甘卫红,邓兴民. 基于SysML的某后缘襟翼控制系统故障模式分析[C]∥第三届中国航空科学技术大会论文集. 2017:312-316.
|
|
GAN Weihong, DENG Xingmin. Fault Model Modeling Analysis of Flap Control System Based on SysML [C]∥3rd China Aeronautical Science and Technology Conference. 2017: 312-316.
|
7 |
梅芊,黄丹,卢艺. 基于MBSE的民用飞机功能架构的设计方法[J]. 北京航空航天大学学报,2019,45(5):1042-1051.
|
|
MEI Qian, HUANG Dan, LU Yi. Design Method of Civil Aircraft Functional Architecture Based on MBSE [J]. Journal of Beijing University of Aeronautics and Astronautics, 2019, 45(5): 1042-1051.
|
8 |
范秋岑,毕文豪,张安,等. 民用飞机高度控制系统MBSE建模方法[J]. 系统工程与电子技术, 2022,44(1):164-171.
|
|
FAN Qiucen, BI Wenhao, ZHANG An, et al. MBSE Modeling of Civil Altitude Control System [J]. Systems Engineering and Electronics, 2022, 44(1): 164-171.
|
9 |
陆屹,董磊,郭勇. 基于模型的复杂航电系统联合设计[J]. 飞机设计,2021,41(4):8-14.
|
|
LU Yi, DONG Lei, GUO Yong. A Model Based and Collaborative Method for Complex Avionics System Design [J]. Aircraft Design, 2021, 41(4):8-14.
|
10 |
陈国慧,张娟,张博强,等. 基于模型的民用飞机自动刹车系统设计与研究[J].民用飞机设计与研究,2020(3):61-66.
|
|
CHEN Guohui, ZHANG Juan, ZHANG Boqiang, et al. Design and Research of Civil Aircraft Autobrake System Based on Model [J]. Civil Aircraft Design and Research, 2020(3):61-66.
|
11 |
任金虎,张小雯,许成伟,等. 基于MBSE的副翼及其操纵系统研发技术及应用[J].民用飞机设计与研究,2020(1):70-79.
|
|
REN Jinhu, ZHANG Xiaowen, XU Chengwei, et al. R&D Technology and Application of Aileron and Its Control System Based on MBSE[J]. Civil Aircraft Design and Research, 2020(1): 70-79.
|
12 |
周彰毅,黄浩,方伟,等. 基于SCADE的航空发动机FADEC软件开发[J]. 测控技术,2018,37(1):110-115.
|
|
ZHOU Zhangyi, HUANG Hao, FANG Wei, et al. Development of FADEC Software for Aero-Engine Based on SCADE [J]. Measurement & Control Technology, 2018, 37(1): 110-115.
|
13 |
ADS 2 -Avionics Development System 2nd Generation Release 4 [M]. GmbHTechSAT, StrGruber.46 b, 85586 Poing, Germany.
|
14 |
SAE ARP4754A. Guidelines for Development of Civil Aircraft and Systems [S].
|
15 |
郑党党,吴颖,刘俊堂,等. 飞机多物理建模与联合仿真技术研究[C]∥第十六届中国CAE工程分析技术年会论文集. 2020: 248-252.
|
|
ZHENG Dangdang, WU Ying, LIU Juntang, et al. Research on Multi-Physical Modeling and Co-simulation of Aircraft [C]∥The 16th China CAE Annual Conference. 2020: 248-252.
|
16 |
. System and Software Engineering System Life Cycle Processes (Second Edition 2008-02-01) [S].
|