近年来,去马来西亚留学的学生越来越多了。不管是本科、还是硕士博士,每年都有大批学生涌向马来西亚留学。在这样的热潮下,不少人也想对马来西亚留学多一些了解,点击“留学申请书”查看更多相关的留学咨询。
2021马来西亚优秀学生留学申请书
Applied Program: Wireless Telecommunications
On August 27, 20--, at the Central Institute of the Datang Telecom Technology and Industry Group based in Beijing, a young woman, full of energy and self-confidence, was giving a presentation entitled “The Design of the Switching Numerical Method of the Radio Resource Management (RRM) Strategy in TD-SCDMA, and the Testing of Its Simulated Systems,” which received rapt attention and high remarks from all the e-perts in Computer and Telecommunications who attended the meeting. That woman was I. At present, TD-SCDMA, W-CDMA, and CDMA 20-- are considered the main technological standards in the third generation of the world’s technological development in mobile telecommunications. And the design of a switching computation method for the RRM Strategy is a key element and technological cru- for the TD-SCDMA technology. In retrospection, I found that it was my great enthusiasm for mobile telecommunications, and my persistent pursuit of accuracy and perfection that have helped me win accolades from colleagues and e-perts.
In China, since the TD-SCDMA uses a smart antenna, it makes a demand for a finer research on the computation method for the RRM Strategy, in areas such as PC, DCA, and HC. To me, a new starter in the company, it was a real challenge. Since the research team was new, it lacked engineering data and practical e-perience, although the equipment of the lab was quite advanced. It was only after much library research, thinking, and consultation with e-perts did I find a RRM computation method suitable for a smart antenna. Because a smart antenna has its advantages of a more accurate VE locating and reduced searching areas, this computation method effectively lowers the comple-ity of the switching process and its failure rate. During the time when I worked for the project, I often stayed up several days in a roll to perfect a lab test. But I also derived an enormous sense of satisfaction and fulfillment after overcoming obstacles, which more than compensated the pains and difficulties that I had to go through.
The rapid development of mobile telecommunication technology places a high demand on professionals working in this field. To a certain e-tent, it has to be a labor of love. My keen interest in mobile telecommunications emanated from the concept of “personal communication.” During my undergraduate years at the Northwest University of Industry, I spent much of my spare time browsing over professional publications and journals, to keep myself abreast of current developments. The concept of “personal communication” I encountered during this process impressed me immensely. A system of “personal communication” is one that allows the user to communicate at anytime, anyplace, to anyone, and in any way. It painted such a beautiful of picture of a future society that I became fully convinced that it is a subject well worth my lifelong pursuit. This was why I chose Mobile Telecommunications as my area of specialization in the graduate program. As a graduate student, I completed several research projects independently and successfully, including, for instance, “Turbo Code and the Application of Its Coding Concept.” In short frame conditions, the Turbo Code, with its improved application in engineering, seems to have a bright future in real-time voice-data service (Please see the attached article). After completing my graduate degree, I entered Datang Group, a pioneer in China’s software development. Here I did software design for the switch control template used at the RNC equipment for the TD-SCDMA system, and developed a switching computation method for the RRM Strategy. I went through the entire process of software design for the switch control template for the RNC equipment, from topic analysis to the project outline and then to actual program writing.
The present development of telecommunication technology indicates that the smart antenna, software radio, and the transmission technology of subline下行high-speed subdivided e-change data (下行高速分组交换数据传输技术) are key technologies for today’s mobile telecommunications. Software radio, in particular, has attracted much public attention. The use of DSP and software to solve the problem of wireless interfaces of diverse standards on a public hardware platform has become a major issue pursued by many professionals in our field. I too hope to make my own contribution to the technological development in this area. In the ne-t few years, the traditional concept of using chips to build wireless equipment for mobile telecommunication will be seriously challenged. In recent years, the technologies and standards of the third generation of mobile telecommunication have been rapidly updated. Software radio, I believe, will be the future of our trade.
My desire to know more about computer engineering prompted me to rise above my present conditions. The United States, as technological superpower, have first-rate teaching faculty and research facilities in the world. Its ideological openness and tolerance make a sharp contrast to Chinese culture, which tends to value tradition rather than innovation. Wireless telecommunication may be said to be one of the newest research areas, and it is new concepts and new vision that give life to the industry. I believe that in the fine research environment in the United States, I will be able to make “shortcuts” in attaining my academic and career goals.
I would like to apply for admission to the Center for Wireless Telecommunications of Virginia Polytechnic Institute and State University. As the most prestigious research institute in Wireless Telecommunications, the Center has a large number of famed scholars and professionals dedicated to the theoretic research of Wireless Telecommunications. Meanwhile, it maintains close contact with the telecommunication industry, and in this way can test the theory in practical e-perimentation, which in turn promotes theoretic research. It is an ideal place for me to fully develop my research potential.
I look forward to finding a teaching position at college level in China after completing my graduate education, which will allow me to continue my research work in Wireless Telecommunications. I will impart my theoretic and practical knowledge to my students, and hope that this will benefit China’s wireless telecommunication industry, and society at large. I will make every effort to make the idea of “personal communication” a reality.
马来西亚留学博士的特点
1、博士学制短,一般2-4年可以完成博士研究,平均3年毕业,沿袭英联邦国家博士培养方式,对于提高科研水平有很大帮助
2、马来西亚公立大学世界排名高,马来西亚五所公立研究形大学在QS世界大学排名都位居全球前200,学术氛围浓厚,科研水平高,文凭受到全球承认。
3、博士时间假期安排自由,绝大部分大学博士都是纯研究形课程,并不要求上课和每天到校,自由支配时间,由导师指导,独立完成研究课题(有部分大学需要完成1到2门研究方法的课程(定量或者定性研究)在第一年)
4、博士毕业要求轻松,大部分专业的博士并不要求发表国际A类,B类检索期刊(SSCI,SCI,A&HCI和EI期刊),公立大学只需要发表普通国际期刊,以及部分Scopus,ERA检索数据库期刊就可以顺利毕业
5、博士学费生活费低廉,公立大学博士读完全部学费在4W-5W多人民币,生活费低廉,马来西亚生活费和国内相似,生活支出低于国内一,二线城市,性价比很高。
6、发展前景好,马来西亚博士文凭受到国内承认,可以回国进高校和科研单位工作。
7、奖学金丰厚,对于来马来西亚深造博士生,马来西亚公立高校提供丰富的研究经费和奖学金对于优秀学生。
8、留学环境好,马来西亚素有“亚洲魅力所在”的美誉,教育水平名列亚洲前茅。政局稳定,经济繁荣,气候温和,无自然灾害,华人比例高。
留学马来西亚体检准备攻略
一、体检准备
1.材料准备
要准备的材料不算多,主要是大家的身份证明,即本人的护照和签证,由于是新生居留和学生卡可能还没有发放,所以直接出示自己的护照以及签证,就足够证明本人的合法身份了。
然后是进行体检的表格(Health E-aminationForm),可以抵达后领取,也可以直接在上下载,里面又涉及到基本信息的内容是需要自己填的,而且还需要贴上最近的照片。
2.身体准备
体检的前一天要保证正常的饮食和作息,这样才会有一个比较健康的身体状况,而且当天要记得吃了早饭再去,不然可能会低血糖,而且要记得多喝水,因为要进行尿检。
女生要特别注意避开经期,因为体检中部分的项目是在经期的时候不能做的,大家再进行预约的时候,一定要保证自己不是在经期或者即将到来,保证自己能够完成所有的项目检查。
二、体检地址
基本上各大合法的诊所和医院,都是可以进行体检的,其结果都会受到认可,大家选择距离自己比较近的就可以了,不过由于需要进行胸透等检查,所以要确保诊所有-光设备。
三、体检流程
首先要做的就是填表,完善表格的基本信息,如果大家在家已经填好了可以在现场节省这一步骤,然后就是接受尿检,需要去厕所取样,记得多喝水才能够顺利的拿到样品。
紧接着就是去五官科进行视力、耳鼻口的检查,近视的学生可以直接报自己的视力,这样不需要摘眼镜,还需要测身高和体重;紧接着是测量血压,然后会抽血准备样品检查。
最后就是去进行-光检查,对内脏进行直接的胸透,需要脱掉上衣,女生也要脱内衣,检查是比较快的,大家不需要担心,整个过程大概两个小时,完成后就可以回家等结果了。
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