DE102007057068A1 - Radio system for flexible connecting cable of UTelNet, has another radio system, particularly host operated in part of exclusive assigned frequency band without affecting or limiting function of host - Google Patents

Abstract

The radio system has another radio system, particularly host operated in a part of exclusive assigned frequency band without affecting or limiting the function of host in any way. A measuring unit determines which part of the exclusive band is not used by the host. An independent claim is included for a terminal alternatively operated by the host system.

Description

The The invention relates to the single-channel connection of mobile subscriber terminals (TE) to the worldwide news network. Before the invention described can be, the state of the art must be previously compiled.

Stationary TE have always been through lines to the central office connected, which has extraordinary advantages: The participant has a single channel connection, which can use the full bandwidth of the line; in each of the densely packed Cables of a cable can be used the same frequency band; Each participant can choose the transmission method / protocol that is suitable for his / her TE to use; There is no environmental impact due to radiation of electromagnetic Waves on.

For mobile TE had all o. g. Advantages of the single channel connection via Lines are abandoned. It emerged systems, respectively consist of a multiplex of standardized standard channels (examples GSM, WLAN, DECT, etc.). On such a system, a TE can only if it is accredited, comply with all the rules of the game and is satisfied with the characteristics of the offered unit channel. Each of these multiplex systems requires the allocation of a exclusive frequency bands. If the need for a single channel occurs which is not offered by the previous multiplex systems, so a new multiplex system must be standardized internationally and receive a frequency allocation. This will make the limited Resource frequency band ever scarcer and more expensive; the UMTS auction is still in memory. The environmental impact of electromagnetic Waves, which should urgently be lowered, are steadily increasing.

In order to get out of this impasse, the book Herter / Lörcher, Nachrichtentechnik, 9th Edition Hanser 2004 the connection of the TE via the "flexible connection cable (FAL)" proposed: An existing Festetzetz connection line is extended by attaching the customer IC LRC (line radio converter) by a short distance and thereby made suitable for the connection of a mobile TE. As a result, the universally usable single-channel connection is again provided, so that after comprehensive introduction of the FAL technique, the specialized multiplex systems can be abandoned in the long term. As a result, frequency band is released on a large scale and the environmental impact is reduced by orders of magnitude. The FAL radio cells are so small that the location of a TE is already quite accurately known. The technology was therefore named universal network for communication, positioning and navigation (UTelNet ^® ).

• – Die Endgeräte in der Einführungsphase müssen Dual-Mode-TE sein (z. B. UTelNet^®/GSM). TE versucht zuerst, eine Verbindung über UTelNet^® aufzubauen; wenn das nicht gelingt wird, über GSM gearbeitet.
• – UTelNet^® benötigt keine exklusive Frequenzzuteilung, da in den Frequenzbändern der durch es substituierten Systeme gearbeitet wird. Dies gilt auch in der Einführungsphase: Mobilnetze werden durch UTelNet^® entlastet, so dass trotz steigendem Verkehrsaufkommen keine Erweiterungen (neue Antennenstandorte !) mehr notwendig sind; deshalb ist es für das Mobilnetz von Vorteil, aus dem ihm zugeteilten Frequenzband einen kleinen Bereich für UTelNet^® abzutreten, damit die Einführung beginnen kann.
• – Von Beginn der Einführung an, wenn also UTelNet^® erst in im Land verstreuten Inseln auftritt, müssen die LRC in ihrer Bandmittenfrequenz und Sendeleistung von einer UTelNet^®-Zentrale über das Festnetz ferneingestellt werden. Zu diesem Zweck werden die LRC und die Zentrale wie andere Geräte am ISDN angeschlossen.

The advantages of the UTelNet ^® after comprehensive introduction described above are undisputed. However, in order to start with the introduction, a suitable strategy must be in place. The above book already contains many important points, including:

• - The terminals in the introduction phase must be dual-mode TE (eg UTelNet ^® / GSM.). TE first tries to connect via UTelNet ^® ; if that does not succeed, worked over GSM.
• - UTelNet ^® does not require exclusive frequency allocation, as the frequency bands of the systems substituted by it are used. This also applies in the introductory phase: Mobiles are relieved by UTelNet ^® , so that no expansion (new antenna sites!) Is necessary despite increasing traffic volume; therefore it is to cede a small area for UTelNet ^® for the mobile network of advantage from its allocated frequency band, so that injection can begin.
• - From the beginning of the launch, so if UTelNet ^{® occurs} only in islands scattered across the country, the LRC must be remotely tuned in their band center frequency and transmit power from a UTelNet ^® center over the landline. For this purpose, the LRC and the control center are connected to the ISDN like other devices.

In the above-described prior art is unsatisfactory that a mobile network operator needs to be convinced of the benefits of UTelNet ^® first, so that it implements the necessary for operation of the dual-mode TE software in its switching centers and for the introduction of a small part of him allocated frequency band.

It is an object of the invention to enable the introduction of UTelNet ^® without conscious assistance required by existing networks. This object is achieved by the features listed in claim 1. This ensures that no existing radio system for the UTelNet ^® introduction frequency band has to cede. Advantageous developments can be found in the dependent claims.

The invention is based on the 1 ff. described in more detail. Show it:

1 Flexible connection cable (FAL)

2 Cluster principle of mobile telephony

3 Receiving services in a small area

4 Mobile radio system GSM 900

5 Measuring device (ME)

6 Timeframe for GSM and UTelNet ^®

7 Function of the locating device ELO

8th Construction and operation of a dual-mode TE

1 shows the embodiment of the flexible connection line used in the introductory phase. The connection of the LRC could be done directly on the NTBA, but this would not be optimal radio technology. Therefore, a flexible connection cord is provided with the line termination LT, so that LRC z. B. can be attached to the ceiling. In a radio system, a radio cell is the area in which a TE receives a reception power sufficient for communication. in the 1 LRC is assumed to be omnidirectional, the radio cell is therefore a circle. The FAL radio cells are typically very small (diameter of the order of ten meters). For comparison: cellular radio cells have diameters of the order of kilometers.

2 shows the cluster principle of mobile telephony. The allocated frequency band has been divided into 7 partial frequency bands (1 to 7), which in the example are assigned to omnidirectional base stations (BS) in the middle of the radio cells so that the same frequency reappears only at a distance of five times the radio cell radius. In the case of digital transmission methods, this can theoretically suffice for the reuse of the same sub-frequency bands. The reception power decreases quadratically with increasing distance from the BS.

In 3 is for the small area in 2 (FAL radio cell) indicated which (normalized to the strongest signal) receive powers of the sub-frequency bands are measured. Only in subfrequency band 4 is there a reception power sufficient for communication (threshold 1), but there can also be other system functions (eg location) for which a reception power above threshold 2 is sufficient. The sub-frequency bands in which the received power is below the threshold 2 are worthless to the mobile radio system; It should therefore be possible to operate in the small area an independent transmission system without the mobile radio system is impaired in any way.

In the following, the mobile radio system with allocated frequency band is called host. UTelNet ^® with its small FAL radio cells is to work as a guest in the frequency band of the host.

4 shows as an example of a host the mobile phone system GSM 900 available Europe-wide. It uses 124 sub-frequency bands, which are referred to as channels in GSM. In each channel 8 independent TE are served in the time division multiplex. Within a frame duration of 4.615 ms, the base station (BS) transmit signal ("downlink") contains 8 so-called bursts, each of which is directed to a different TE In the opposite direction (mobile station transmit signals, "uplink") each of these provides TE in the space assigned to it in the timeframe a burst. Downlink and uplink work, how to 4 in frequency separation, where sub-frequency bands ("channels") of the same number have a spacing of 45 MHz.

At the beginning, it was mentioned that UTelNet ^® requires dual-mode TB; In order that these can be realized in the given case without much new development, as far as possible technology from GSM 900 is used for the guest system (UTelNet ^® , respectively the FAL with its LRC).

In order to be able to determine which subfrequency bands of the host system in the FAL radio cell below the threshold 2 ( 3 ) are received, so are usable for the guest, is accordingly 5 a measuring device (ME) assigned to the LRC.

Before the LRC can be allocated a subfrequency band, ME must scan the subfrequency bands of the host and determine where the receive power is below the 2 threshold. These subband numbers will be communicated to the UTelNet ^® center. This allocates a particular subband to the LRC, and ME then remains tuned to that subband to continually check whether the receive power originating from the host remains below the threshold 2. It can -. For example, by configuration changes in the host system - at any time happen that a previously left to the guest sub-band above the threshold 2 (or even 1) is received; then the guest must immediately stop the transmission.

While in the host system the time multiplex system with its eight bursts must be used in the frame, the guest system is a single channel that could be sent continuously. In this case, ME could not determine if the host system arrives above Threshold 2. Therefore, accordingly 6 In the guest system, a framework structure with a defined break during which the host system can be observed was introduced.

According to the invention, TE can thus be removed from the frame structure ( 6 ) immediately recognize whether a subfrequency band from a BS (ie GSM) or ei a LRC (ie FAL) is sent.

Within A FAL radio cell is only a small fraction of the 124 subfrequency bands usable for GSM. It is therefore no problem, the FAL, which often overlap, different subfrequency bands allot.

According to the invention, there is in the TE a building block ELO (equipment location), which indicates the numbers of the sub-frequency bands used for FAL according to decreasing received power ("number sequence") .The number sequence can be limited to the FAL, those in the TE with one for communication sufficient power are received 7 As can be seen, the number sequence is a highly sensitive information for location, hence the name ELO. You store any change of the number sequence with time in the memory of the ELO. Considering that the FAL radio cells z. B. room size, then you can see the UTELNet ^® possible high-precision in-house location and navigation. ELO also works with the TE switched off.

A fast mobile TE is constantly changing the FAL radio cells. This is not a problem for UTelNet ^® in its final form: It uses connectionless packet switching (as in the internet), so that it does not matter which FAL a packet reaches the exchange. However, this is not a strategy for the introductory phase in which the fixed network should not be changed.

To of the invention can be TE when a compound constructed via FAL demolition threatens, in time even a replacement connection over Build mobile. But if you know that a TE, that moving, wanting a new connection, then you become one expediently go directly via GSM. According to the invention, therefore, the memory content of the ELO is to be consulted pulled and the connection setup via FAL only made if TE has not moved lately.

According to the invention, the results in 8th illustrated construction and operation of the dual-mode TE. In addition to the alternative mobile radio operation described above, you can operate the two parts of the dual-mode TE independently parallel: narrowband mobile via GSM (theoretically 14.4 kbit / s, practically 9 kbit / s) and - at dormant TE - an efficient single channel connection with approx. 100 kbit / s via FAL.

At the alternative mobile operation will be via FAL as with GSM only 9 kbit / s needed, but there are 100 kbit / s available. So there are many possibilities for interference-reducing codes, time-domain spreading methods, etc., so that the transmission powers in the FAL radio cell lowered or the FAL radio cells can be increased.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - 9th Edition Hanser 2004 the connection of the TE via the "flexible connection line (FAL)" [0004]

Claims (9)

Radio system of the flexible connection line (FAL) of the UTelNet ^® , characterized in that work is carried out in parts of another radio system ("host") exclusively allocated frequency band without the functions of the host are impaired or limited in any way. Radio system according to Claim 1, characterized that is determined by a measuring device (ME), which parts of the exclusive band are not used by the host. Radio systems according to claims 1 and 2, characterized that the MEs report their observations to a central office, which then sends the FAL tells you which part frequency bands to use. Radio systems according to claims 1, 2 and 3, characterized that even after the allocation of the sub-frequency bands to which FAL the broadcasting spectrum of the host is observed in the case of newly occurring collisions, the transmission mode of the affected Set FAL immediately. System according to claim 1, characterized in that for the FAL radio system components of the host radio system be used or co-used. Terminal (TE) of the radio system according to claim 1, characterized in that alternatively via the host system can be worked. Terminal according to Claim 6, characterized that TE independently about the alternative operation decided. Radio system according to Claims 1, 6 and 7, characterized that TE can establish the radio connection itself. Terminal (TE) according to claim 6 and 7, characterized characterized in that a block ELO in the TE in different Partial frequency bands of the spectrum observed performances compares and derives therefrom a location information.