Fiber optic cables carry light along their length and are made of glass or plastic. They have a core surrounded by a cladding layer, with the core having a higher refractive index to confine light within it. Dial-up connections use existing telephone networks and remain useful for remote areas without broadband access. Modern dial-up modems can theoretically transfer data at 56 kbps but typically achieve speeds between 40-50 kbps, with factors like phone line noise potentially lowering speeds further.

1. How Network Management
Systems Work
WEEK 10
S1170055
HIROMU KANOMATA

2. How Fiber Optics Work
An optical fiber (or fibre) is
a glass or plastic fiber that
carries light along its
length. Fiber optics is the
overlap of applied science
and engineering concerned
with the design and applica-
tion of optical fibers.

3. How Fiber Optics Work
An optical fiber is a cylindrical dielec-
tric waveguide (nonconducting waveguide)
that transmits light along its axis, by
the process of total internal reflec-
tion. The fiber consists of a core sur-
rounded by a cladding layer, both of
which are made of dielectric materials.
To confine the optical signal in the
core, the refractive index of the core
must be greater than that of the clad-
ding. The boundary between the core and
cladding may either be abrupt, in step-
index fiber, or gradual, in graded-index
fiber.

4. How High-speed Dial-up Works
Dial-up connections to the Internet re-
quire no infrastructure other than the
telephone network. As telephone access
is widely available, dial-up remains
useful to travelers. Dial-up is usually
the only choice available for rural or
remote areas where broadband installa-
tions are not prevalent due to low popu-
lation and demand. Dial-up access may
also be an alternative for users on lim-
ited budgets as it is offered for free
by some ISPs, though broadband is in-
creasingly available at lower prices in
many countries due to market competi-
tion.

5. How High-speed Dial-up Works
Modern dial-up modems typically have a
maximum theoretical transfer speed of 56
kbit/s (using the V.90 or V.92
protocol), although in most cases 40-50
kbit/s is the norm. Factors such as
phone line noise as well as the quality
of the modem itself play a large part in
determining connection speeds. Some con-
nections may be as low as 20 kbit/s in
extremely "noisy" environments, such as
in a hotel room where the phone line is
shared with many extensions.

6. THE END