Tuesday, 20 July 2010

Wseas Transactions

New Subscription to Wseas Transactions

The following information was submitted:

Transactions: WSEAS TRANSACTIONS ON COMMUNICATIONS
Transactions ID Number: 52-251
Full Name: Jie Wang
Position: Student
Age: ON
Sex: Female
Address: 1605 staff room, School of Electronic Engineering, UESTC, No.2006, Xiyuan Avenue,ChengDu Hi-Tech Industrial Development Zone (West Park),Chengdu,P.R.China, Post code:611731
Country: CHINA
Tel:
Tel prefix:
Fax:
E-mail address: wehco@163.com
Other E-mails: wehco@hotmail.com
Title of the Paper: Capacity of MIMO System in the Presence of Directional Interferences
Authors as they appear in the Paper:
Email addresses of all the authors:
Number of paper pages: 10
Abstract: Capacity of Multiple Input Multiple Output (MIMO) system degrades significantly in the presence of interferences, especially in the presence of strong directional interferences in military communication scenario. In this paper, the capacity of a MIMO system with directional interferences is considered. The focus is on the case where the channel state information (CSI) is known to the receiver but unknown to the transmitter. Further, attention is restricted to narrowband MIMO system. The capacity of a MIMO system with directional interferences is derived respectively for deterministic and random fading MIMO channels. And the asymptotic lower limit in high interference-to-noise ratio (INR) is also analyzed. It is indicated that the relationship between the numbers of receive antennas and interferences is critical to the capacity in high INR. The number of receive antennas should be greater than that of interferences in order to ensure the system work normally, and th!
e capacity limit is equal to that of another MIMO system using same number of transmit antennas and fewer receive antennas without interference. Moreover, the impacts of the correlation and directions of the interferences on capacity are discussed respectively. It is seen that higher correlation and closer directions of the interferences both yields higher capacity. Monte Carlo simulation results are given and well coincide with our theoretical analysis.
Keywords: MIMO, capacity, directional interference
EXTENSION of the file: .pdf
Special (Invited) Session:
Organizer of the Session:
How Did you learn about congress:
IP ADDRESS: 125.71.231.82