MCITP MCSE : Security Specialist
GET
CERTIFIED IN JUST 18 DAYS - 2003 PATH
Our 18 day
accelerated MCITP MCSE 2003: Security+ Training BootCamp provides
information technology professionals with the knowledge and skills
necessary to install, configure, support, and troubleshoot
Microsoft® Windows 2000- and 2003-based networks with a focus on
information security in the enterprise. This is an accelerated
course, designed for computer professionals that require effective,
real-world skill-building and timely certification.
Now Available MCITP
MCSE Certification Training
The MCITP MCSE 2003: Security+ Boot Camp delivers the greatest
value on the market for Windows 2003 Certification Training. During
the program, students will achieve the following certifications:
- Microsoft Certified Professional (MCP)
- Microsoft Certified Systems Administrator (MCSA)
- CompTIA Security+
- Microsoft Certified Systems Engineer (MCITP MCSE)
Call About Onsite Courses at your location
- Course Schedule
- Curriculum
Our daily schedule incorporates
different modes of instruction and learning environments to ensure
that students learn, retain, comprehend, and can apply knowledge
critical to becoming certified.
8:15 am to 9:00 am
Breakfast
9:00 am to 1:00 pm Instruction
1:00 pm to 1:30 pm Lunch
1:30 pm to 5:30 pm Instruction/Hands-on Labs
5:30 pm to 7:30 pm Dinner and Relaxation
7:30 pm to 8:00 pm Wrap Session
8:00 pm to 9:00 pm Practice Drills
Our MCITP MCSE 2003: Security+ Program:
- Allows you to achieve your certifications in a fraction of the
time of 'traditional training' while delivering industry-leading
exam passing percentages
- Helps students grasp complex technical concepts more easily by
identifying and catering to individual student learning styles
through a mixed visual, auditory and kinesthetic-tactual delivery
system
- Enhances retention by employing accelerated learning techniques
focused on committing information to long-term memory
Wireless Communication Devices
You use wireless components to connect networks over distances
for which standard network adapters and cable options are not
technically or economically feasible. Wireless networks consist
of wireless components communicating with LANs.
Except for the fact that a cable does not connect the computers,
a typical wireless network operates almost like a cabled
network: a wireless network adapter with a
transceiver
(a device that both transmits and receives analog and digital
signals) is installed in each computer. Users communicate with
the network as if they were using cabled computers.
There are two common techniques for wireless transmission in a
LAN: infrared transmission and narrowband radio transmission.
Operates by using an infrared light beam to carry the data
between devices.
There must be a clear line of sight between the transmitting and
receiving
devices; anything that blocks the infrared signal prevents
communication.
These systems must generate very strong signals because weak
transmission
signals are susceptible to interference from light sources, such
as windows.
-
Narrowband radio transmission
The user tunes both the transmitter and the receiver to a
certain frequency. Narrowband radio does not require
line-of-sight focusing because it uses radio waves. However,
narrowband radio transmission is subject to interference from
steel and load-bearing walls. Narrowband radio is a subscription
service. Users pay a fee for radio transmission.
Network Topologies
A network topology is the arrangement of computers, cables, and
other components on a network. It is a map of the physical
network. The type of topology you use affects the type and
capabilities of the network’s hardware, its management, and
possibilities for future expansion.
Topology is both physical and logical:
-
Physical topology describes how the physical components on a
network are connected.
-
Logical topology describes the way network data flows
through the physical components.
There are five basic topologies:
-
Bus.
Computers are connected to a common, shared cable.
-
Star.
Computers are connected to cable segments that branch out
from a central location, or hub.
-
Ring.
Computers are connected to a cable that forms a loop around
a central location.
-
Mesh.
Computers on the network are connected to every other
computer by cable.
-
Hybrid.
Two or more topologies are used together.
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