Received: from mail.creditcard.cmbc.com.cn (unknown [111.205.122.39])
by newmx82.qq.com (NewMx) with SMTP id
for <714620454@QQ.COM>; Fri, 20 Oct 2017 03:56:09 +0800
X-QQ-FEAT: nHaaMjwLeTyzuDp5C5V++RVfPHSVEqOujK0vwZroSro=
X-QQ-MAILINFO: MjJD59SVx+LnQ1oU2sDuZ8tZJyZAOGTJaybWFAYRjurknrZoc6gjmnU06
o+pkiTJsdtxgA5CmtpN2ggrWb/T2GoG07QFXqgJtIk+5X1iaz4UykQ9M2a782+Fdn83doxC
4Ej1t99JoZcj8dDkeM5dzZTSR8uZGwHEnIK9Uim+NcaroB2EUWgclSmSzIxUHIbJ1nTLA8G
B4/wa
X-QQ-mid: mx82t1508442969ti70kc84u
X-QQ-ORGSender: master@creditcard.cmbc.com.cn
Received: from sedm([195.203.59.13]) by mail.creditcard.cmbc.com.cn(1.0)
with SMTP id sedm587; Thu, 19 Oct 2017 17:48:11 +0800
Date:Thu, 19 Oct 2017 17:48:11 +0800 (CST)
Message-ID:<0305-euid-31911508406491578>
To:=?gbk?B?zsTS1SDFrsq/?=<714620454@QQ.COM>
From:master<master@creditcard.cmbc.com.cn>
Subject: =?gbk?B?w/HJ+tDF08O/qDIwMTfE6jEw1MK159fTttTVy7Wl?=
X-Priority: 3
X-MSMail-Priority: Normal
MIME-Version: 1.0
Content-Type: multipart/related;
boundary="****MAIN_BOUNDARY****2727BD00F7949069C75FEDD44F1F2988"
This is a multi-part message in MIME format.
--****MAIN_BOUNDARY****2727BD00F7949069C75FEDD44F1F2988
Content-Type: multipart/alternative;
boundary="****SUB_BOUNDARY****2727BD00F7949069C75FEDD44F1F2988"
--****SUB_BOUNDARY****2727BD00F7949069C75FEDD44F1F2988
Content-Type: text/html;
charset="gb2312"
Content-Transfer-Encoding: base64
New applications such as video conferencing, video on demand, multi-
media transcoders, Voice-over-IP (VoIP), intrusion detection, distributed
collaboration, and intranet security require advanced functionality from
networks beyond simple forwarding congestion control techniques.
Homogeneous Partitioning of the Surveillance Volume discusses the
implementation of the first of three sequentially complementary approaches for
increasing the probability of target detection within at least some of the cells of
the surveillance volume for a spatially nonGaussian or Gaussian “noise”
environment that is temporally Gaussian. This approach, identified in the Preface
as Approach A, partitions the surveillance volume into homogeneous contiguous
subdivisions.
Emerging technologies such as WiFi and WiMAX are profoundly changing the
landscape of wireless broadband. As we evolve into future generation wireless
networks, a primary challenge is the support of high data rate, integrated multi-
media type traffic over a unified platform. Due to its inherent advantages in
high-speed communication, orthogonal frequency division multiplexing (OFDM)
has become the modem of choice for a number of high profile wireless systems
(e.g., DVB-T, WiFi, WiMAX, Ultra-wideband).
Employing multiple transmit and receive antennas, namely using multi-input multi-output
(MIMO) systems, has proven to be a major breakthrough in providing reliable wireless
communication links. Since their invention in the mid-1990s, transmit diversity, achieved
through space-time coding, and spatial multiplexing schemes have been the focus of much
research in the area of wireless communications.
Today’s wireless services have come a long way since the roll out of the
conventional voice-centric cellular systems. The demand for wireless access
in voice and high rate data multi-media applications has been increasing.
New generation wireless communication systems are aimed at accommodating
this demand through better resource management and improved transmission
technologies.
