Cordless telecommunications system

Telecommunications – Radiotelephone system – Zoned or cellular telephone system

Reexamination Certificate

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Details

C455S561000, C455S518000, C455S552100

Reexamination Certificate

active

06490447

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a cordless telecommunications system with assured interoperability of cordless telecommunications applications and, more particularly, a GAP-specific DECT system with such assured interoperability.
2. Description of the Prior Art
In information systems having a message transmission path between a message source and a message sink, transmitting and receiving devices are used for message processing and transmission. In such devices:
(1) the message processing and message transmission may take place in a preferred transmission direction (simplex operation) or in both transmission directions (duplex operation),
(2) the message processing is analog or digital, and
(3) the message transmission via the long-distance transmission path takes place without wires based on various message transmission methods, such as FDMA (Frequency Division Multiple Access), TDMA (Time Division Multiple Access) and/or CDMA (Code Division Multiple Access), for example in accordance with radio standards DECT, GSM, WACS or PACS, IS-54, PHS, PDC etc. (see IEEE Communications Magazine, January 1995 pages 50 to 57; D. D. Falconer et al: “Time Division Multiple Access Methods for Wireless Personal Communications”).
“Message” is a generic term which covers both the sense content (information) and the physical representation (signal). Despite a message having the same sense content, that is to say same information, different signal forms may occur. Thus, for example, a message relating to a subject may be transmitted:
(1) in the form of an image,
(2) as the spoken word,
(3) as the written word, or
(4) as an encrypted word or image.
The type of transmission for (1) . . . (3) is normally characterized by continuous (analog) signals, while, in the case of the type of transmission for (4), signals are normally discontinuous (e.g. pulses, digital signals).
Cordless telecommunications systems with assured interoperability of cordless telecommunications applications are DECT systems (Digital Enhanced (previously: European) Cordless Telecommunication; see (1): Nachrichtentechnik Elektronik 42 [Telecommunications electronics] (1992, Jan./Feb.), No. 1, Berlin, Del.; U. Pilger: “Struktur des DECT-Standards”, [Structure of the DECT Standard], pages 23 to 29; (2): telcom report 16 (1993), Issue 1, J. H. Koch: “Digitaler Komfort für schnurlose Telekommunikation, DECT-Standard eröffnet neue Nutzungsgebiete”, [digital convenience for cordless telecommunication, DECT Standard opens up new fields of use], pages 26 and 27; (3): Philips Telecommunication Review, Vol. 49, No. 3, Sept. 1991; R. J. Mulder: DECT Universal Cordless Access System”, pages 68 to 73), for which a CAP Standard (Generic Access Profile; see ETI-Publication prETS 300 444, April 1995, Final Draft, ETSI, FR) has been defined and agreed in order to ensure interoperability of cordless telecommunications applications on the basis of the DECT Standard.
According to the DECT Standard and on the basis of the illustration in
FIG. 1
, a maximum of 12 links using the TDMA/FDMA/TDD method (Time Division Multiple Access/Frequency Division Multiple Access/Time Division Duplex) may be set up in parallel to DECT mobile parts MT1. . . MT12 at a DECT base station BS via a DECT radio interface designed for the frequency band between 1.88 and 1.90 GHz. The maximum number of 12 links results from a number k of time slots or telecommunications channels (k≦12) available for duplex operation of a DECT system. The links may in this case be internal and/or external. In the case of an internal link, two mobile parts registered at the base station BS, for example the mobile part MT2 and the mobile part MT3, may communicate with one another. In order to set up an external link, the base station BS is connected to a telecommunications network TKN via, for example, a telecommunications line unit TAE or a private branch exchange NStA. In the case of an external link, a mobile part, for example the mobile part MT1, can be used to communicate with a subscriber in the telecommunications network TKN via the base station BS, the telecommunications line unit ATE or the private branch exchange NStA.
If as in the case of the Gigaset 951 (Siemens cordless telephone, see telcom report 16, (1993), Issue 1, pages 26 and 27)—the base station BS has only one connection to the telecommunications line unit TAE or to the private branch exchange NStA, then only one external link can be set up. If, as in the case of the Gigaset 952 (Siemens cordless telephone; see telcom report 16, (1993), Issue 1, pages 26 and 27), the base station BS has two connections to a telecommunications network TKN, then, in addition to the external link to the mobile part MT1, another external link is possible from a lined-based telecommunications terminal TKE which is connected to the base station BS. In this case, it is also feasible for a second mobile part, for example the mobile part MT12, to use the second connection for an external link, instead of the telecommunications terminal TKE. While the mobile parts MT1. . . MT12 are operated from a battery or a rechargeable battery, the base station BS which is designed as a small cordless exchange is connected to a mains power supply SPN via a mains interface NAG.
Referring to the simple DECT system according to
FIG. 1
, which is preferably used for the private domain DECT system applications now available, for example in the public local domain, a number m of mobile parts, where m>k, are connected to a base station via the DECT radio interface.
The “m” mobile parts, wherein, for example, m=20, may include a number m1 of DECT mobile parts D-MT and/or a number m2 of GAP mobile parts G-MT (See FIG.
2
), subject to the following condition;
m=m1+m2, in which case m1 &egr; N
0
where {m1=0}∉ N
0
and m,m2 &egr;N
1
where {m,m2=0,1}∉ N
1
When the situation arises in such a DECT/GAP system in which a remote telecommunications subscriber signals from the telecommunications network TKN to a GAP base station G-BS (which may be designed, for example, as an antenna diversity base station) that the wishes to set up a telecommunications link to one of the mobile parts, the GAP base station G-BS must report this to the mobile parts, D-MT, G-MT allocated to it. This reporting takes place, for example, by the mobile parts D-MT, G-MT ringing (audible indication). Alternatively, other indication forms are also possible (for example visual indication).
On the basis of the GAP Standard, it is not possible for more GAP mobile parts G-MT to ring than the number of telecommunications channels k which are available via the GAP radio interface at the GAP base station G-BS. This is due to the fact that, based on the GAP Standard, ringing at the GAP mobile part G-MT is initiated only when a link has been set up between the GAP base station G-BS and the GAP mobile part G-MT via a message defined in the GAP Standard. This is a mandatory performance or service feature in the GAP Standard which must be supported by all GAP base stations G-BS and GAP mobile parts G-MT. This feature results in the individual GAP mobile parts G-MT allocated to the GAP base station G-BS being called more or less simultaneously (virtual-collective/group call; GAP call; connection-based call). If, in such a GAP system, the number of GAP mobile parts G-MT called is greater than the number of telecommunications channels k via the GAP radio interface available at the GAP base station G-BS (m2>k), then a maximum of one telecommunications channel is free at the GAP base station G-BS for the first “k” GAP mobile parts G-MT. No connection may be set up by the other GAP mobile parts G-MT by which ringing can be initiated.
ETSI currently defines a connectionless collective/group call (collective/group ringing), but does not comply with the GAP Standard. This means that a GAP mobile part on a base station, for example a DECT base station, which uses this c

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