4. 一、 请问老师有没有对线上学习的建议
Study Tips For Online Learners
1) Understand online learning practices and expectations
--fully commit, be tech-savvy, work with others, task and assignments on time, self-disciplined
2) make sure that you have reliable internet access
--avoid technology glitches, save and backup repeatedly in cloud storage, backup instructor’s or
trainer’s contact information
3) Have a dedicated study space
--quiet, organized, distraction-free, turn off phone, log off of social network
5. 一、请问老师有没有对线上学习的建议
4) Identify your learning objectives and goals
--stay on track, keep in mind what to accompany, learning objectives and goals, read carefully
requirements, finally start with the most difficult task.
5) Build a study plan
--Plan ahead: never wait until the due date
--Have an effective calendar system: remember important dates and deadlines, like exams,
assignments, save calendar in computer or mobile device, create wall planner
--Create to-do lists: list of weekly tasks
--Set time limits: estimate time to complete task, stick to time limits
--Stay on schedule: stick to your plan, avoid procrastination, stay organized and not falling behind,
contact instructor while having difficulties.
6. 一、请问老师有没有对线上学习的建议
6)Ask for help when you need it
--looking for answers independently, ask for help when getting stuck, contact instructor and
avoid misunderstanding, ask help and questions.
7) Review, revise, repeat:
--regular revision to improve memory and to better understand, quiz yourself with key concepts,
working in groups, complete assignments more quickly by reviewing, share habits and support
each other.
7. 一、请问老师有没有对线上学习的建议
8) Take study breaks.
--performance decreases while being tired or frustrated, take a break, get away from study place,
have a change of scenery, mild physical activity, back to studying with a clear mind.
9)Participate in online discussions.
--not to study in isolation, connecting with your classmates on social media while being
introvert, actively in online discussions and group activities, suggest study tricks, engage in new
ideas, be mindful of online tone, be respectful, write in complete and clear sentences to avoid
misunderstandings and tone mishaps.
8. 一、请问老师有没有对线上学习的建议
10) Stay motivated:
---create study routine at your own comfortable pace
--decorate with inspirational quotes and pictures
--never forget the reason
--accept productive and less productive days
--healthy snacks to boost your energy
--reward yourself while completing a challenge task
-- stay positive and keep your chin up
11. 二、本科生如何入门科研
10 Steps in Research
1)Schedule!
--a schedule with a series of milestones to accomplish by a specific date (e.g. find 10 sources by
September 20, finish preliminary research by October 15),
-- get an overview of material, select relevant material, read it, take notes, and start putting it
together
12. 二、本科生如何入门科研
2) Start with Wikipedia
--searching for keywords related to your topic, browsing the links
--Take notes, especially of any good sources they recommend.
-- get a good overview of the subject
--Wikipedia is far better than most print sources, because of its hyperlinked nature.
13. 二、本科生如何入门科研
3) Mine bibliographies.
--find a good, solid academic book or essay on your topic
-- a list of dozens or hundreds of sources for you to look up.
--skim through the bibliography and note down anything whose title sounds
relevant to your research.
--tell what their work is about from just the title or subtitle.
--Go back through and see if you recognize any of the authors’ names — these too
might be worth following up.
--once you start finding the work the first book referenced, do the same thing
with their bibliographies — soon you’ll have a list of far more sources than you
need
14. 二、本科生如何入门科研
4) Have a research question in mind
--As you come across new material, ask yourself if it looks like it will help you
answer your question.
--Anything that looks relevant but doesn’t help answer your question you can put
back.
--It’s tempting to gather a lot of background material, and some is necessary, but
too much will waste your time without contributing to your research.
--Get one or two good sources for background and then keep focused by working
towards an answer to your research question.
15. 二、本科生如何入门科研
5) Deal with one piece at a time
--Don’t try to tackle your subject all at once.
-- create an outline of the things you need to understand, and then deal with each piece on
its own.
--You’ll find the connections between the pieces when you write your first draft
16. 二、本科生如何入门科研
6) Use a system
--collect and organize your notes and data.
---write the full bibliographic reference for a book or paper, then copy quotes and write notes
interspersed with thoughts and ideas that occur to you as you are reading.
--use a computer more efficiently when doing research, and have databases
--make sure that every quote, fact, and thought is tied in some way to its source so that you can
easily find references while needed.
17. 二、本科生如何入门科研
7) Know your resources.
--what resources, both online and offline, your library to offer
---Most university libraries subscribe to a number of academic databases, and most are
now accessible online
8) Ask for help
--Use the human resources available to you as well as the material resources, like
professors
--help in finding and evaluating sources
--help in what to do with collected material
-- ask fellow students for help, might directly relevant to your topic
18. 二、本科生如何入门科研
9) Carry an idea book
--As you start really getting into your project, your mind will start churning through what you’re
reading, even when you’re not consciously working on it.
--you’ll be struck by sudden revelations at the least convenient times — in the bathroom, in the
shower, at the supermarket. or while getting ready for bed.
--Keep a small notebook and a pen with you everywhere jot down notes whenever an idea
crosses your mind, and transfer these notes into your research log (or software, or whatever) as
soon as you can.
19. 二、本科生如何入门科研
10) Bring it up to date:
--Pay attention to the publication date of your material — while it’s ok to use older material,
ideally the last 10 years or so.
--Google the major researchers whose work you’ve found and see if you can find their
homepages — most will list recent publications and their current research activities
23. 三、通信和微电子科研方向简介
IEEE Transactions on Communications
• Topics of interest include but are not limited to:
• Modulation, signal design, and detection
Precoding, equalization, and synchronization
Source and channel coding
Information theory with application to communications
MIMO systems
•
Millimeter wave communication
Relay-based communication
Cognitive radio
Smart Grid Communications
24. 三、通信和微电子科研方向简介
• Physical layer security
Fiber-based and wireless optical communication
Power-line communications
Nano- and molecular communications
Cross-layer design and networking
Heterogeneous networks
Green and energy harvesting communications
Current and future communication systems such as 4G, 5G, WiFi, etc.
• Contributions in emerging areas such as molecular communications, THz-communications,
wireless power transfer, massive MIMO, etc. are particularly welcome.
25. 三、通信和微电子科研方向简介
• Ad Hoc and Sensor Networks
• Cognitive Radio and AI-Enabled Networks
• Communication and Information Systems Security
• Communication QoS, Reliability and Modeling
• Communication Software, Services & Multimedia Apps.
• Communication Theory
• Green Communication Systems and Networks
• Next-Generation Networking and Internet
• Optical Networks & Systems
• Signal Processing for Communications
26. 三、通信和微电子科研方向简介
• Wireless Communications
• Mobile & Wireless Networks
• Selected Areas in Communications
- Access Networks/Systems
- - Big Data
- - Cloud & Fog/Edge Computing, Networking and Storage
- - E-Health - Internet of Things & Smart Connected Communities
- - Machine Learning for Communications
- - Molecular, Biological and Multi-Scale Communications
- - Satellite and Space Communications
- - Smart Grid Communications & Power Line Communications
- - Social Networks
- - Tactile Internet
28. 三、通信和微电子科研方向简介
IEEE Electron Device Letters publishes original and significant contributions relating to
the theory, modeling, design, performance and reliability of electron and ion integrated
circuit devices and interconnects,
involving insulators, metals, organic materials, micro-plasmas, semiconductors, quantum-
effect structures, vacuum devices,
and emerging materials with applications in bioelectronics, biomedical electronics,
computation, communications, displays, microelectromechanics, imaging, micro-actuators,
nanoelectronics, optoelectronics, photovoltaics, power ICs and micro-sensors.
29. 三、通信和微电子科研方向简介
定义:
• 通信: What is telecommunications (telecom)?
• Telecommunications, also known as telecom, is the exchange of information over
significant distances by electronic means and refers to all types of voice, data
and video transmission. This is a broad term that includes a wide range of
information-transmitting technologies and communications infrastructures, such
as wired phones; mobile devices, such as cellphones; microwave
communications; fiber optics; satellites; radio and television broadcasting; the
internet; and telegraphs.
• A complete, single telecommunications circuit consists of two stations, each
equipped with a transmitter and a receiver. The transmitter and receiver at any
station may be combined into a single device called a transceiver. The medium of
signal transmission can be via electrical wire or cable -- also known as copper --
optical fiber, electromagnetic fields or light. The free space transmission and
reception of data by means of electromagnetic fields is
called wireless communications.
30. 三、通信和微电子科研方向简介
定义:
• 微电子: What is microelectronics?
• Microelectronics is a field in electronics that utilizes tiny, or micro,
components to manufacture electronics. As demand for small and less
expensive devices grows, the field continues to expand. The main
areas of focus generally are research, reliability and manufacture.
• Semiconductor material such as silicon and graphite are the most
commonly used elements in the manufacturing of microelectronic
devices. These include transistors, capacitors, inductors, resistors and
diodes as well as insulators and conductors. Equipment and expertise
used in manufacturing of microelectronic devices is not widely
available, causing microelectronic devices to generally be more
expensive than devices that do not utilize microelectronics.