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“Нэг бүс нэг зам”-ын ахуй доорх Өвөрмонголын Орос Монгол орон дахь ухуулгын байдал
Дү, Сянжү,й(Du Xiangrui),Ли Лин Шоу(Li Lingxiao) 단국대학교 몽골연구소 2020 몽골지역연구 Vol.5 No.1
there are many ethnic groups in Inner Mongolia autonomous region. Mongolian and Russian are representative ethnic minorities. Coupled with geographical proximity, the Inner Mongolia region has played an important role in spreading the “One Belt And One Road” initiative to russian-speaking and mongolian-speaking regions. In recent years, China has been vigorously promoting the concept of “community of Shared future for mankind” in international communication, and the theory of empathy provides a theoretical basis for this concept. Inner Mongolia shares language with Russia and Mongolia and has a good basis of empathy.
Дү, Сянжү,й(DU Xiangrui),Чэн Син(Chen Xin) 단국대학교 몽골연구소 2019 몽골지역연구 Vol.4 No.2
Since its introduction, “the Belt and Road” initiative has become an important stage for China’s foreign cooperation and display of China’s image. Inner Mongolia, as the North Gate of “Belt and Road” opening to the outside world, has the advantage of having the same language, similar position and same root with Mongolia. It is of great significance in curbing Western false statements, creating a positive public opinion environment, and shaping a good Chinese national image. At present, the mainstream media in Inner Mongolia is based on local advantages and has built a number of communication agencies for Mongolia. It has had a positive impact on telling Chinese stories in the context of Belt and Road . However, due to the problems of late start and lack of new generation communication talents, there is still a lot of room for improvement in the communication effect of Inner Mongolia to Mongolia.
Дү, Сян Жү,й(DU Xiangrui) 단국대학교 몽골연구소 2018 몽골지역연구 Vol.3 No.2
Manchuria has become the center of cultural communication between China, Mongolia and Russia because of its special geographical location. Manchuria has various cultural elements, which are deeply influenced by Mongolia and Russia. Although the cultural communication between China, Mongolia and Russia has made a lot of achievements, it still requires the joint efforts of the officials and the people of the three countries to deepen and innovate the contents and forms of cultural communication.
Distributed control system architecture for deep submergence rescue vehicles
Yushan Sun,Xiangrui Ran,Guocheng Zhang,Fanyu Wu,Chengrong Du 대한조선학회 2019 International Journal of Naval Architecture and Oc Vol.11 No.1
The control architectures of Chuan Suo (CS) deep submergence rescue vehicle are introduced. The hardware and software architectures are also discussed. The hardware part adopts a distributed control system composed of surface and underwater nodes. A computer is used as a surface control machine. Underwater equipment is based on a multi-board-embedded industrial computer with PC104 BUS, which contains IO, A/D, D/A, eight-channel serial, and power boards. The hardware and software parts complete data transmission through optical fibers. The software part involves an IPC of embedded Vxworks real-time operating system, upon which the operation of I/O, A/D, and D/A boards and serial ports is based on; this setup improves the real-time manipulation. The information flow is controlled by the software part, and the thrust distribution is introduced. A submergence vehicle heeling control method based on ballast water tank regulation is introduced to meet the special heeling requirements of the submergence rescue vehicle during docking. Finally, the feasibility and reliability of the entire system are verified by a pool test.
Distributed control system architecture for deep submergence rescue vehicles
Sun, Yushan,Ran, Xiangrui,Zhang, Guocheng,Wu, Fanyu,Du, Chengrong The Society of Naval Architects of Korea 2019 International Journal of Naval Architecture and Oc Vol.11 No.1
The control architectures of Chuan Suo (CS) deep submergence rescue vehicle are introduced. The hardware and software architectures are also discussed. The hardware part adopts a distributed control system composed of surface and underwater nodes. A computer is used as a surface control machine. Underwater equipment is based on a multi-board-embedded industrial computer with PC104 BUS, which contains IO, A/D, D/A, eight-channel serial, and power boards. The hardware and software parts complete data transmission through optical fibers. The software part involves an IPC of embedded Vxworks real-time operating system, upon which the operation of I/O, A/D, and D/A boards and serial ports is based on; this setup improves the real-time manipulation. The information flow is controlled by the software part, and the thrust distribution is introduced. A submergence vehicle heeling control method based on ballast water tank regulation is introduced to meet the special heeling requirements of the submergence rescue vehicle during docking. Finally, the feasibility and reliability of the entire system are verified by a pool test.