Methods for enhancing service and reducing service cost in...

Telecommunications – Carrier wave repeater or relay system – Monitoring

Reexamination Certificate

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C455S069000, C455S428000, C455S429000

Reexamination Certificate

active

06430390

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to mobile communications systems.
2. Description of the Related Art
In modern communication systems, the term “mobile” typically refers to a radio terminal that is attached or carried in a high-speed mobile platform (e.g., a cellular telephone in a moving vehicle). This is in contrast to the term “portable” which typically refers to a hand-held radio that is used by a person at walking speed (e.g., a cordless telephone inside a home).
Subscribers generally pay a fee to use a mobile communication system such as the exemplary system
20
of FIG.
1
. The system
20
has one or more satellites
22
in orbits (e.g., geostationary) about the earth
24
. The satellites
22
have transmit-receive communication links
26
(e.g., at L-band frequencies) with various mobile units
28
. The satellites
22
also have communications (e.g., at optical wavelengths) through links
30
to other satellites and links
32
with various system ports that form “gateways” into independent communication systems.
Exemplary gateways are a public-switched telephone network (PSTN)
34
and an access port
36
of a cellular telephone system. The PSTN
34
allows any of the mobile units
28
to communicate over telephone lines
38
with telephone system customers
40
. The access port
36
of the cellular system typically has a plurality of transceivers arranged in a cellular network so that communications from the satellites
22
can be transmitted over cellular links
42
to mobile users
44
of the cellular system.
Communications with the mobile units
28
are subject to fading which is a temporary random decrease in the received signal level. The principal types of fading are multipath fading and power fading. Multipath fading occurs in areas where multiple reflected signals (e.g., from nearby buildings) arrive at the mobile unit. The combined power of these signals can vary widely because it is dependent upon the phasing of the signals.
Power fading is caused by blockage of the transmitted signal by fixed structures (e.g., trees and buildings). The received power of a mobile unit can drop dramatically (e.g., on the order of 10 or 20 dB) as it moves into the transmission shadow of such structures. Accordingly, this type of fading is also referred to as shadowing.
FIG. 2
illustrates a typical scenario
50
of power fading. A mobile unit
52
receives signals from a satellite
54
as the unit moves along a road
56
which borders a line of trees
58
. Initially, the mobile unit receives signals along a transmission path
60
which is not blocked by the trees. At a subsequent point along the road
56
, the mobile unit receives signals along a transmission path
62
which must pass through the canopy of the trees
58
. As a result, the signal power at the mobile unit fades. Typically, fading increases with decrease in the elevation angle
64
of the satellite's transmission path.
Extensive studies of shadowing (e.g., see Goldhirsh, Julius, et al.,
Propagation Effects for Land Mobile Satellite Systems,
National Aeronautics and Space Administration Reference Publication 1274, February, 1992) have documented the degree of tree shadowing in different scenarios. As might be expected, the shadowing depends upon a variety of factors such as the tree density, the type of trees, the season and the elevation angle of the transmission path.
Availability is a term often used to define a communication system's reliability. In particular, availability is the fraction of transmission time that communication signals are successfully received. Although an availability of 100% is seldom achieved, this is a goal of communication system design.
In a conventional passive process for improving availability, transmitted signal power is increased by a link margin L
mg
above a predetermined power threshold P
th
that is necessary for successful reception (e.g., see Robert G. Winch.,
Telecommunication Transmission Systems,
McGraw-Hill, Inc, New York, 1993, pp. 182-186). Although the use of a significant link margin can improve availability in areas subject to heavy shadowing, it also increases the transmission energy and, hence, the transmission cost of the communication system. The cost of satellite-based communication systems are especially sensitive to increases in link margin.
A more efficient approach is an active system that is conventionally referred to as power control. In power control, transmitted power is increased over the power threshold P
th
by a static power margin M that is reduced from the link margin L
mg
. When a fade in received power exceeds the static power margin M, the transmitted power is temporarily increased by a boost B. The boost B is then removed in response to the fade's termination. Typically, boost removal is delayed from fade termination by a hold time T.
In comparison to passive processes, active power control allows transmitted power to be reduced generally by L
mg
−M with temporary power increases of B applied in response to excessive fading. In this process, additional transmitted power is directed only to those system users that are experiencing fading. Because the number of users experiencing fades is generally smaller than the total number of users, power control systems can improve the ratio of availability to cost.
Although conventional power control techniques facilitate an increase in system efficiency, they are generally applied without any means for assessing their efficiency nor any means for determining parameter selections that would further enhance that efficiency.
SUMMARY OF THE INVENTION
The present invention is directed to power control methods that include processes for determining and enhancing the efficiency of mobile communications in different service regions.
These goals are achieved with processes that receive transmitted signals in communication regions to obtain a signal-fading record for each region. Subsequently, each signal-fading record is analyzed to find availability and energy cost for each of a plurality of power-control parameter sets. An exemplary parameter set S
i
includes a selected static power margin M
i
, a selected power boost B
i
and a selected hold time T
i
.
In one process of the invention, a minimum availability A
min
is chosen for each region and, from the parameter sets of that region whose availability is not less than A
min
, the parameter set with the least energy cost is selected. Finally, communication signals are transmitted to that region with the selected parameter set.
The teachings of the invention thus allow a communication provider to reduce energy costs while being certain of providing communication users with an availability that is not less than a predetermined minimum.
In another process of the invention, a maximum energy cost C
max
is chosen for each region and, from the parameter sets of that region whose energy costs do not exceed C
max
, the parameter set with the greatest availability is selected. Communication signals are then transmitted to that region with the selected parameter set. A communication provider can thus provide the greatest possible availability while being certain of not exceeding a predetermined maximum energy cost.
The teachings of the invention can be applied to any transmitter of of the communication system
20
of
FIG. 1
, but they are especially advantageous for the satellites
22
because their energy sources are limited and their income-generating ability is related to the number of communication users they can serve. This number can be increased by increasing the operating efficiency of each satellite.


REFERENCES:
patent: 5815796 (1998-09-01), Armstrong et al.
patent: 5878329 (1999-03-01), Mallinckrodt
patent: 5946603 (1999-08-01), Ibanez-Meier et al.
patent: 5966658 (1999-10-01), Kennedy et al.
patent: 6011956 (2000-01-01), Yamano et al.

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