沙漠 香港城市大学 电话. (852) 9149-7725 (手机) 计算机科学系 (852 ...

pantgrievousAI and Robotics

Nov 30, 2013 (3 years and 8 months ago)

411 views

沙漠


简历
---
2008
年秋季




Page
1

of
4

沙漠

























电话
.


(852)
9149
-
7725




(
手机
)
























(852) 2194
-
2545



(
办公室
)



































邮箱
: shamo2@student.cityu.edu.hk












个人主页
:
http://www.cs.cityu.edu.hk/~shamo/


学历

香港城市大学















香港

计算机科学系硕士研究生


预计
2009
年秋毕业
)

导师
:





刑国良教授


汪建平教授

绩点
平均分
:




4.3

/

4.3


北京航空航天大学










北京

计算机科学与技术系学士


2007

7
月毕业)

导师
:






白跃彬教授

绩点
平均分
:




3.74

/

4.0

(
综合
)

3.91

/

4.0

(
专业
)

排名
:





1

/

273


研究方向

无线网络及通讯系统:结构,协议及应用;
无线传感器网络。


教学经验

200
7
年秋季学期


助教

香港城市大学课程:


CS2363

计算机编程

课程主任教师:


刑国良教授


2007
年春季学期


助教

香港城市大学课程:


CS3161
操作系统原理

课程主任教师:


薛春教



200
8
年秋季学期


助教

香港城市大学课程:


CS
2331
算法与编程原理

课程主任教师:


黄翠芳博士


待审论文

Mo Sha,

Guoliang Xing, Gang Zhou, Shucheng Liu
, Xiaorui Wang
.
C
-
MAC: Model
-
driven Concurrent Medium Access
Control for Wireless Se
nsor Networks
.
S
ubmitted into
t
he 28th Conference on Computer Communications

(
IEEE
INFOCOM 2009
)
.


Yuebin Bai, Shujuan Liu
,
Mo Sha
.

An Energy Optimization Approach Based on Cross
-
lay
er for Wireless Sensor
Networks
.

S
ubmitted into
t
he 6th European Conference on Wireless Sensor Networks

(
EWSN 2009
)
.



发表
会议论文

Guoliang Xing, Weijia Jia, Yufei Du, Posco Tso,
Mo Sha
,
Xue Liu
.
Toward Ubiquitous Video
-
based Cyber
-
Physical
Systems
.
IEEE International Conference on Systems, Man, and Cybernetics (SMC)
workshop on Engineering
Cyber
-
Physical Ecosystems
.

IEEE Systems, Man and Cybernetics Society Pres
.

October 12
-

15, 2008, Singapore.

沙漠


简历
---
2008
年秋季




Page
2

of
4


Shujuan Liu, Yuebin Bai, Mo Sha, Qingyuan Deng
,
Depei Qian
.

C
LEEP: A Novel Cross
-
Layer Energy
-
Efficient
Protocol for Wireless Sensor Networks
.

IEEE International Conference on Wireless Communications, Networking and
Mobile Comuting (WiCOM)
.

IEEE Communications Society Press
.

October 12
-

14, 2008, Dalian, China.


X
ing Yang, Xiang Li, Yipeng Ji
,

Mo Sha
.

CROWNBench: A Grid Performance Testing System Using Customizable
Synthetic Workload
.
Asia Pacific Web Conference (APWeb)
.

Springer
-
Verlag Press
.

April

26
-

28, 2008, Shenyang,
China.


Mo Sha, Ming Chen, Yuebin Bai, Boliang Chen
,
Xiaocong Wang
.

A Prototype for Active Service System
.

Japan
-
China
Joint Workshop on Frontier of Computer Science and Tech
nology (FCST)
.

IEEE Computer Society Press
.
November 1
-

3, 2007, Wuhan, China.


Mo Sha
,
Ming Chen
.
A Smart Prototype for Active Service System Based on Wireless Networks Environment
"
.
National Softw
are and Applications Conference (NASAC)
.

Computer Science Press
.

September 20
-

22, 2007, Xi'an,
China.



发表
期刊论文

Guoliang Xing,
Mo Sha
, Greg Hackmann, Kevin Klues, Octav Chipara
,
Chenyang Lu
.

Towards Unified Radio Power
Management for Wireless Sensor Networks
.
Wireless Communications and Mobile Comput
ing (WCMC), special issue
on Distributed Systems of Sensors and Actuators
.

Wiley Press.

SCI

13/66


相关职务

会议
审稿人

ACM MobiHoc 2008
; ACM
MSWiM 2008
;
IEEE Globecom 2008
;

IEEE ICPADS 2008
;
MSN 2008
;

Chinacom 2008
.


香港城市大学宿生会副主席。


登山协会主席。


专题讲座

题目:


C
-
MAC: Model
-
driven Concurrent Medium Access Control for Wireless Sensor Networks
.



地点:

北京航空航天大学

日期:

2008

6

13
日。


曾获奖励

2007
~
200
9


香港城市大学研究生全额奖学金

2006













“冯如杯”科技竞赛二等奖

2005
~
2006



“宝马”奖学金

2005~2006



北京航空航天大学优秀生奖学金一等奖

2005~2006



北京航空航天大学优秀生

2004~2005



北京航空航天大学优秀生奖学金一等奖

2004~2005



北京航空航天大学优秀生

2004~2005



“钱昌照

沈性元”奖学金一等奖

(
此将每年授予北京航空航天大学计算机系学年成绩第一名
)

2003~200
4


“钱昌照

沈性元”奖学金一等奖

(
此将每年授予北京航空航天大学计算机系学年成绩第一名
)

沙漠


简历
---
2008
年秋季




Page
3

of
4

2003~2004



北京航空航天大学优秀生奖学金一等奖

2003~2004



北京航空航天大学优秀生

2003~2004




603
飞豹”奖学金二等奖


Research Projects

Fall,
2007

~

Present

Model
-
driven Concurrent Med
ium Access Control for Wireless Sensor Networks

Recently wireless sensor networks have been deployed for several data
-
intensive sensing
applications such as structural monitoring and habitat monitoring. Sensor nodes in these
applications often sample the
physical environments at high rates. Supporting data
-
intensive
applications poses several major challenges to the design of WSNs. Due to tight power budget,
radios on sensor nodes have very limited bandwidth. In addition, sensor data usually must be
delive
red to the sink through multiple hops. The achievable delivery rate of a WSN is thus limited
by the interference among transmitting nodes. As a result, a fundamental tension exists between the
sheer amount of data generated by sensor nodes and the low capa
city of WSNs. Moreover, the low
throughput of a network also leads to poor energy efficiency as nodes must remain active for a
longer period. Although a number of MAC protocols exist for WSNs, they are not designed to
achieve high throughput for data
-
inten
sive sensing applications. We develop a new MAC protocol
called C
-
MAC that is designed to achieve high
-
throughput bulk communication for data
-
intensive
sensing applications. The key novelty of C
-
MAC is the exploitation of concurrent wireless channel
access

based on empirical power control and physical interference models. C
-
MAC has been
implemented in TinyOS 1.x and extensively evaluated on Tmote Sky nodes.


Fall, 2007




Towards Unified Radio Power
Management for Wireless Sensor Networks

Many wireless sensor networks must sustain long lifetimes on limited energy resources. Two major
approaches, transmission power control and sleep scheduling, have been proposed to reduce the
radio power consumption
in the transmission state and the idle state, respectively. In this work, we
develop a Unified Radio Power Management framework for the design and implementation of
holistic radio power management solutions in wireless sensor networks. It has two key compo
nents:
(1) a novel optimization approach called Minimum Power Configuration that minimizes the
aggregate radio power consumption of all ratio states and (2) a Unified Power Management
Architecture (UPMA) that aims to support the flexible cross
-
layer integr
ation of different power
management strategies. A novel feature of UPMA is that it enables cross
-
layer coordination and
joint optimization of different power management strategies that exist at multiple network layers.


Spring, 2007



Cross
-
Layer Energy
-
Efficient Protocol for Wireless Sensor Networks

Survivability is one of the critical issues and the most important research topics in the fields of
wireless sensor networks. Energy efficiency is o
ne of the determining factors for survivability and
lifetime of WSNs. In the WSNs, severe energy issue necessitates energy
-
efficient approach to fulfill
application objectives. However, most of existing approaches have only focused on the individual
protoc
ol layer and ignored the importance of information sharing and interaction between
corresponding protocol layers. In this work, we develop an energy optimization approach based on
Cross
-
Layer for Wireless Sensor Networks named as EOA, which adopts cross
-
la
yer strategy that
considers physical layer, MAC layer, and network layer jointly. EOA takes 1) the transmission
power between ea
ch node and its neighboring nodes in physical layer; 2) energy
-
efficient routing
algorithm in network layer; 3) the duty
-
cycle optimization scheduling in MAC layer into
consideration. Specifically, we employ a feed
-
back transmission power control algorithm

to
dynamically adjust the transmission power level between the two nodes in physical layer. EOA is
沙漠


简历
---
2008
年秋季




Page
4

of
4

validated on a CROSSBOW's MicaZ mote platform, and evaluated using the TOSSIM simulator
.


Spring,
2007



AnySense

Cyber
-
Physical Systems (CPS) is a new gene
ration of engineered systems that integrate physical
systems with the capability of networked computing and control. Real
-
time video capture and
communication is expected to be an important function in many Cyber
-
Physical Systems that
involve camera
-
equipp
ed mobile phones. In this paper, we present AnySense, a network architecture
that supports video communication between 3G phones and Internet hosts in Cyber
-
Physical
Systems. AnySense implements transcoding of video streams between the Internet and
circuit
-
switched 3G cellular networks, and is transparent to 3G service providers. AnySense can
support a class of ubiquitous Cyber
-
Physical Systems that require videobased information collection
and sharing. A prototype of AnySense has been built and a video dem
o is available at
http://www.anyserver.org/
.



Fall, 2006
~

Spring,
2007

CIVIC

and CROWN

With rapid development of the virtual technology application, v
irtual machine technology has
received widespread concern. Virtual machine technology, inherent encapsulation and isolation,
security, ease of management and etc, give strong support to solve many pragmatic problems, such
as virtual computing, virtual work
ing environment, virus detection and etc. We develop a virtual
network topology monitoring tool for further application on virtual network. In order to use virtual
technology into Grid, we develop CROWNBench that is a system for helping Grid middleware
dev
elopers to evaluate middleware design and implement using customizable synthetic workload.



Spring,
200
5
~

Fall, 2006


Active Services

Active Services is a promising technology and notion in relieving user from burdensome search for
meaningful information
, which is a problem becoming more serious for the information explosion
on Internet and increasingly popular usage of wireless networks terminals. We develop a prototype
for active service system which has a
n

Index Tree
-
Trace Map model centralized, wirele
ss networks
environment based architecture. The prototype can automatically perceive user requirement by
analyzing environment parameters and user information basing on preset rules and system
knowledge of operation history, forwardly provide customized se
rvice for user.