Telecommunications – Radiotelephone system – Zoned or cellular telephone system
Reexamination Certificate
1999-12-22
2003-04-22
Trost, William (Department: 2683)
Telecommunications
Radiotelephone system
Zoned or cellular telephone system
C455S443000, C455S456500
Reexamination Certificate
active
06553232
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to wireless communication systems and, more particularly, to an improved system and method for controlling hand-offs of calls from one wireless network to another.
2. Description of the Related Art
During a call connecting a wireless communication device, such as a cellular telephone, with another telephone, the wireless communication device may cross from the domain of one wireless network to an independent wireless network. Such networks may comprise a company's private cellular telephone network and the public cellular telephone network, for example. Thus, to complete the call, the wireless communication device must be capable of being used in both the company's internal wireless system and in the public system, and accommodation must be made for controlling hand-offs from one network to the other.
Hand-off of a telephone call from the domain of the first wireless network to the domain of the second wireless network may be made via a control link shared between central processing units of the two networks. Using the control link, the two wireless networks are able to negotiate feasibility and operations of hand-off as described, for example, in EIA/TIA interim standard IS42.2-B, “Cellular Radio Telecommunications Intersystem Operations: Intersystem Hand-Off,” which is hereby incorporated by reference. While, ideally, hand-offs from one network to another are imperceptible to the user, in practice, hand-offs frequently introduce extraneous clicks and temporary loss of signal.
Frequently a user of the wireless communication device is required to travel from one company site to one or more other company sites, which can cause the wireless communication device to repeatedly switch back and forth between the public and private systems. This can cause unnecessary hand-offs, particularly since typical systems assume that a private wireless system, free of call charges, is preferable to a public system, even though the public systems typically charge a per call access fee. In such systems, a hand-off is always made to the private system, whether or not it is the most efficient in terms of cost or signal quality.
This situation is illustrated more clearly with regard to FIG.
1
. In
FIG. 1
, an exemplary two-network wireless communication system
100
is shown. A private company wireless system is installed in buildings
104
,
106
and
108
. As illustrated, each building
104
,
106
,
108
is associated with its own cell or service area
110
a
,
110
b
, and
110
c
, respectively. Overlapping the private wireless system is a public wireless system
102
having multiple cells, only two of which,
102
a
and
102
b
,are shown.
As illustrated by the dashed line in
FIG. 1
, a user can travel from building
104
to building
108
, crossing through cell areas
110
a
,
102
a
,
110
b
,
102
b and
110
c
. Assuming that the user begins executing a telephone call in building
104
, the user's call will be serviced by the private wireless network so long as he is within region
110
a
. As soon as the user leaves region
110
a
, he will be transferred to the public wireless carrier (so long as he is in region
102
a
). As the user approaches the vicinity of building
106
, he will re-enter into the service area of the private wireless network as represented by cell
110
b
. His call will then be transferred back to the private network. As soon as the user leaves the area surrounding building
106
, his call will be transferred from the private network to the public wireless network as he enters region
102
b
. Finally, as he approaches building
108
, his call will be transferred back to the private network as enters region
110
c.
By the time the user gets to building
108
, he has been transferred four times, each time with a momentary loss of conversation, a change in signal quality and, with every transfer to the public wireless carrier, a new charge per call. Accordingly, a system and apparatus is desired which minimizes the number of unnecessary hand-offs between private and public wireless networks so as to minimize charges and enhance the quality of the call.
SUMMARY OF THE INVENTION
The above described problems are overcome in large part by a system and method according to the present invention in which a user's access patterns are accounted for in deciding to switch between the private and public wireless networks. A system and method according to one embodiment of the present invention includes monitoring a location of a wireless communication device within a plurality of regions serviced by a plurality of wireless systems, e.g., a first region serviced by a first wireless communication system and a second region serviced by a second wireless communication system. The first and second regions have an overlapping region which could be serviced by both networks. The system predicts the future location of the wireless communication device within the first and second regions based on the monitoring of the previous locations of the wireless communication device. When the wireless communication device is detected as being within the overlapping region, the system determines whether to transfer an active connection between the wireless communication device and one of the networks to the other network based on the monitoring information.
In one embodiment, past patterns of usage of the wireless communication device within the first and second regions are identified and used to predict a future location based on the past pattern. In another embodiment, a calender of predetermined time-location associations is input into a controller associated with the wireless communication device, and the prediction is based on an actual location and current time being compared with the values input into the calender.
A method according to another embodiment of the invention comprises compiling a database of time-location associations of a wireless communication device within a first region serviced by a first wireless communication system and a second region serviced by a second wireless communication system. The first region and second regions have a predetermined overlapping region. The method further comprises detecting when the wireless communication device is present within the overlapping region during an active connection and predicting a future location of the wireless communication device within the first region or the second region during the active connection. Finally, the method comprises determining whether to transfer the active connection between the wireless communication device and the first or second wireless communication systems to the other when the wireless communication device is detected as being within the overlapping region.
A wireless telecommunication system according to an embodiment of the present invention comprises a first wireless network providing service over a first predetermined region and comprising a first switching office, and a second wireless telephone network providing service over a second predetermined region and comprising a second switching office. The first predetermined region and the second predetermined region overlap in a third predetermined region. A wireless communication device is configured for use in both networks. The second switching office comprises a memory unit configured to store a database of time-location associations related to a presence of the communication device in either the first predetermined region or the second predetermined region. The second switching office also includes a wireless switching control unit coupled to the database, and configured to access the database when the communication device is detected within the third predetermined region and to transfer an active call between the networks based on the time-location associations.
REFERENCES:
patent: 4597105 (1986-06-01), Freeburg
patent: 4989230 (1991-01-01), Gillig et al.
patent: 5018187 (1991-05-01), Marinho et al.
patent: 5257406 (1993-10-01), Ito
patent: 5
Beyda William Joseph
Shaffer Shmuel
Gesesse Tilahun
Siemens Information & Communication Networks, Inc.
Trost William
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