Telecommunications – Radiotelephone system – Including private cordless extension system
Reexamination Certificate
2001-01-02
2003-10-28
Maung, Nay (Department: 2683)
Telecommunications
Radiotelephone system
Including private cordless extension system
C455S465000, C455S555000, C455S561000
Reexamination Certificate
active
06640108
ABSTRACT:
For ease of reference, a glossary of terms and abbreviations is provided herewith as Appendix A.
BACKGROUND OF THE INVENTION
The present invention relates to apparatuses and methods for improving mobile communication. More particularly, the present invention relates to novel cellular private branch exchange apparatuses and methods that advantageously improve communication quality and network bandwidth, while simplifying implementation, maintenance, and upgrade.
Wired and wireless private branch exchanges (PBX's) are known in the art.
FIG. 1
shows in a simplified diagram a wireless private branch exchange system (wPBX) of the prior art, including a wPBX
100
. WPBX
100
is coupled to a line
102
, which typically couples to a public network. WPBX
100
is further coupled to lines
104
and
106
as shown in FIG.
1
. Line
104
is coupled to a base unit
108
while line
106
is coupled to another base unit, which is omitted from
FIG. 1
for simplicity of illustration. Base unit
108
includes an antenna
110
to facilitate cordless communication with a plurality of cordless handsets
112
and
114
. In the typical wireless wPBX system of the prior art, each base unit, such as base unit
108
, typically controls two cordless handsets.
Although the wireless wPBX system of the prior art offers advantages associated with cordless handsets, there are several significant disadvantages. For example, a cordless handset in the prior art wireless PBX has no roaming capabilities. Roaming is not possible in the prior art wireless PBX, the cordless handsets do not have the capabilities to make the exchange between PBX's. This is partly because, in normal cordless applications, frequencies are not coordinated between wireless PBX systems.
To illustrate, consider the situation when cordless handset
112
travels outs of the range of base
108
. When cordless handset
112
roams outside of the range of base
108
, the data stream, whether it be voice or digital information, is cut off. This is because each cordless handset in the wireless wPBX of the prior art is associated with a particular base unit of a particular wPBX and cannot use the resources of any other base unit to make its calls. In wireless PBX systems, the telephone number is associated with a given frequency which is associated with a fixed port on the PBX. From the point of view of the PBX, therefore, the cordless handset is fixed to a PBX port just as in normal wired PBX's.
As mentioned earlier, cordless handsets of the prior art wireless PBX have no roaming capabilities. Further, there are also no roaming or hand-off capabilities in the wireless PBX units, e.g., wPBX
100
, since prior art wireless PBX's do not possess the capabilities to coordinate with other PBX's to perform the roaming function. In other words, even when wPBX
100
is interconnected in a wPBX network, cordless handset
112
cannot be taken to another location controlled by another wPBX unit and make and receive calls and be associated with the same phone number without having to undergo administrative moves and changes, e.g. reprogramming the wPBX itself. Consequently, the range of each cordless handset is limited by the range of the base unit of the prior art wPBX with which it is specifically associated.
Another disadvantage of the prior art wireless wPBX systems of the prior art involves the use of low-power and proprietary transceivers, which significantly limit the range from which a cordless handset can be taken from its associated base.
Further, when calls are made among cordless handsets of the same wPBX, the call paths are typically switched, or cross-connected, at the wPBX level. In other words, the actual switching is centralized at the prior art wPBX even if cordless handsets of the same base unit desire to communicate among themselves, e.g., between cordless handsets
112
and
114
. When calls are always switched at the highest level of the hierarchy, call paths to and from the cordless handsets are oftentimes unnecessarily back hauled all the way to the highest level, i.e., the wPBX, although it may be more efficient to cross connect closer to the cordless handsets, i.e. at a base unit at a lower level of the hierarchy. This is because wPBX unit
100
of the prior art lacks the intelligence necessary to delegate the switching function from wPBX unit
100
down to subsystems below it in the hierarchy, e.g., to base
108
.
From the perspective of wPBX
100
or the public network to which link
102
is coupled, the fact that cordless handsets
112
and
114
communicate with base
108
in a cordless manner is irrelevant. Since there is no roaming and no hand-off capabilities between bases or wPBX's, the manner in which cordless handsets
112
and
114
are coupled to base unit
108
does not provide the user with any additional advantages besides the fact that cordless handsets
112
and
114
may be made cordless inside the range defined by the transceiver within base unit
108
. Because of these limitations, the radius of operation of the prior art cordless handsets is typically limited to around 200 meters.
What is desired is an improved method and apparatus for providing mobility via standardized mobile handsets. To facilitate greater range, it is desirable that the improved method and apparatus employs cellular technology for the transmission of voice and data to and from the mobile handsets. To further increase range, the improved method and apparatus preferably permits its mobile handsets to roam among location areas in its domain. Furthermore, the improved method and apparatus preferably performs mobility management, call control, and radio resource management of its mobile handsets in a manner that is transparent to the public network to which it may be connected.
Furthermore, it is preferable that the improved method and apparatus avoids the unnecessary back hauling of data traffic to upper levels of the hierarchy merely for the purpose of accomplishing the cross connection. To improve the system bandwidth, it is preferable to cross connect call paths in an optimum manner at lower levels of the hierarchy. For ease of implementation, maintenance, and upgrade, it is desirable that the improved method and apparatus be implemented in a highly modular and scalable manner.
SUMMARY OF THE INVENTION
The invention relates to a cellular private branch exchange for facilitating cellular communication for a first plurality of MS units, which includes a first BSS for communicating with a first and a second MS unit of the first plurality of MS units on respectively a first and a second cellular bearer data channel. The cellular private branch exchange further includes a cPBX unit coupled to the first BSS. In turn, the cPBX unit includes a private MSC for providing mobility management for the first plurality of MS units, the private MSC representing a first cross-connect node capable of cross-connecting the first bearer data channel with the second bearer data channel for calls between the first and the second MS units. Further the cPBX unit includes a private registry coupled to the private MSC, the private registry storing subscriber information pertaining to the first plurality of MS units.
In one embodiment, a call path between the first and the second MS units, including the first bearer data channel and the second bearer data channel, for the calls between the first and the second MS units does not get TRAUed, or rate adapted, if the first and the second MS's communicate at the same rate.
In another embodiment, the invention relates to a cellular private branch exchange network for facilitating cellular communication among a first plurality of mobile stations implementing a first standard, which includes a private mobile services switching center for providing mobility management for the first plurality of mobile stations. The inventive cellular private branch exchange network further includes a private registry coupled to the private mobile services switching center for storing subscriber information r
Lu Priscilla Marilyn
White Timothy Richard
Interwave Communications International Ltd.
Maung Nay
Sobutka Philip J.
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