DE102004043612A1 - Wireless data-transmission method for a mobile radiotelephone network (MRN) uses a mobile terminal to participate in a first wide-coverage MRN and in a second local narrower-coverage network - Google Patents

Abstract

A check is made as to whether a connection can be set up via a local narrower-coverage radiotelephone network (RN) (WLAN) or via a mobile wide -coverage RN. It is decided whether adequate data transmission (ADT) is possible via the WLAN if a terminal lies within the WLAN's receiving range. A connection is set up with the terminal if ADT is possible via the WLAN.

Description

The The invention relates to a wireless data transmission method for mobile Terminals.

The Internet telephony over a computer is currently the cheapest in terms of investment cost Kind of about to call the internet. Modern computers are usually with the necessary hardware (Speaker, microphone, headset, duplex capable sound card) or retrofittable. Required software is available. The disadvantage, however, is that you can only be reached when the computer is switched on, the software is loaded and the computer is connected to the internet is.

Terminals for Internet telephony are in addition to the aforementioned computers phone-like terminals, the connected to a computer. Together with an analog telephone adapter (ATA), any analogue telephone can become a Voice over IP (VoIP) telephone converted become. Several VoIP accounts can have one VoIP telephone system to be controlled. For cordless internet telephony Is it possible, an analog Schurlostelefon after the DECT standard (DECT stands for digital Enhanced Cordless Telecommunications) with an ATA to couple. There are also known VoIP WLAN mobile phones and PDAs with WLAN module. A PDA (Personal Digital Assistant) is a portable computer in notepad format. WLAN (Wireless Local Area Network) a wireless local area network, especially according to the standard of the IEEE 802.11 family. In the IEEE 802.11e standard can time-critical voice data are transmitted with priority. An optimization regarding wireless telephony is possible. Networks with WLAN after IEEE-802.11e usually work in a mode where one or more several base stations (wireless access points, hot spots) communication organize between the clients. The data transport runs over the Base stations. Antennas commercially available IEEE 802.11 terminals currently allow 30 m to 100 m range. Special antennas allow 100 m to 300 m bridging during visual contact.

One VoIP Gateway plays a central role in VoIP technology. It establishes the connection between landline phone and VoIP phone ago. A conventional one Mobile phone according to the GSM standard (Global System for mobile Communications) can for example call a VoIP gateway, wherein this first connection section is established via the GSM network becomes. The VoIP gateway, subsequently also as a telecommunication server denotes, forwards the call to the addressed terminal and converts the voice information into data packets that pass through appropriate Transfer networks become. Part of the data transmission path can be a wifi. The telecommunication server controls the connection. This type of connection has the disadvantage that on the one hand relatively high Costs incurred through the use of the GSM network and further Convenience features provided by the telecommunication server be such. a status signaling, a centrally managed address book etc., for the mobile phone user is not available.

mobile terminals compatible with the IEEE802.11b or IEEE802.11g standard making the users do it and answer calls as long as they are in the reception area a wireless access point. Should not be a SIP proxy server (SIP = Session Initiation Protocol) can be found in the network, is it possible through Entering a remote IP address to realize a direct IP-to-IP call function. The decisive disadvantage of such devices, be it in the form of a mobile phone or a PDA in combination with softphone software, is the limited range. Once the range of a wireless access Points or even hot spots is abandoned, breaks the data transfer together. The conversation can only be done using other technologies, e.g. GSM mobile phones, continued become. PDAs latest generation include both wireless modules as also the option of GSM / GPRS connections (GPRS = General Packet Radio Service).

outgoing From this prior art, the invention is based on the object a wireless data transmission method show, in which a mobile terminal that is eligible for participation in a first Mobile network big Range and a second local radio network of smaller range equipped, using an uninterruptible Continuation of a voice data transmission possible is when the range of the radio network of smaller range left becomes.

These Task is with the method described in claim 1 solved.

advantageous Embodiments of the inventive concept are the subject of the dependent claims.

A wireless data transmission method is claimed in which a mobile terminal, in particular a PDA for participation in a first mobile radio network (GSM, GPRS, UMTS) of long range and a second local radio network of smaller range, such as WLAN according to the IEEE 802.11x standard, BlueTooth or DECT, is equipped, with the following measures for establishing a connection between the terminal and another subscriber of this or another network can be coupled with these networks mentioned above using a telecommunications server First of all, it is checked whether a connection to the terminal can be established via a local radio network with a shorter range or via the mobile radio network with a longer range. If the terminal is within the range of a local radio network of smaller range, it is checked whether a sufficient data transmission over the local radio network of smaller range is possible. If so, the connection to the terminal is established over the smaller-range radio network. If sufficient data transmission is not possible, the system automatically switches to the mobile network with a longer range. Here, it is assumed that the corresponding networks are superimposed and the local radio network of smaller range is within the range of the mobile radio network of greater range.

The Invention is described below with reference to the illustrated in the drawings embodiment described in more detail.

1 shows a flowchart illustrating how a VoIP data transmission is initiated. A terminal initially attempts to establish two independent packet-oriented connections (IP connections) to form a telecommunications server. The first setup attempt is made via a small-scale local area network, hereinafter referred to as WLAN, while the second attempt is via GPRS. It is generally desirable to build two independent IP connections at the same time. If none of the IP connections can be established, the mobile terminal, such as a so-called dual-mode PDA, is offline and the corresponding subscriber is not reachable. If both IP connections are usable, then the WLAN connection is preferred for cost reasons. Usually, a Wi-Fi connection is free of charge under current tariff plans. An exception here are public wireless access points, which are billed according to usage time, for example. A GPRS connection is usually billed based on the data transfer volume. A telecommunications server not shown in the flowchart receives a status message as to whether the mobile terminal is located within a WLAN area, provided that this data transmission path is available.

Within the WLAN range you can distinguish between several situations ( 2 ). In the event that no voice connection is made or exists, only an exchange of status information between the mobile terminal and the telecommunication server takes place. The status information is exchanged via the WLAN connection. Here, the signal strength of the WLAN signal is checked. If the signal strength falls below a predetermined level during a predetermined period, the status information is exchanged via the GPRS connection.

at an existing voice-over-IP connection, the data transfer takes place via the WIRELESS INTERNET ACCESS. The transfer status information and activation of convenience services, which provides the telecommunications server, are also on the WLAN-IP connection realized. The connection separation is over the Wi-Fi connection coordinated. Important here is that the signal strength and the voice quality be checked continuously. The voice quality in particular due to lost data packets, delays etc. determined. If the voice quality and / or the signal strength under a predetermined level drops, becomes the data transfer automatically transferred to an existing GSM, GPRS or UMTS network, which is referred to in the context of the invention as a long-range mobile network. For this Switchover from the local second radio network with a shorter range on the mobile network of greater range is starting from the telecommunication server, a cellular connection via the Mobile network big Reach to the mobile terminal produced. The mobile device then receives a call, that of the terminal automatically accepted. Once the connection has been established is, the voice data is no longer on the local radio network (WLAN, BlueTooth, DECT), but about the mobile network of greater range, especially about a GSM or UMTS connection. Switching the transmission paths for the Voice data transfer is achieved by using a GPRS-IP connection from the telecommunication server realized.

In the case of an outgoing connection, a voice-over-WLAN connection, in particular according to the standard H.323 or SIP (Session Initiation Protocol), is established within the range of a local radio network of short range. It is initiated by the mobile terminal itself. The second part of the voice connection between the telecommunication server and the called party is realized via a second independent voice connection. The voice data between these two parties are exchanged over the telecommunication server. This changes the second connection section existing between the telecommunication server and the called subscriber, even if the first connection section between the mobile terminal and the telecommunication server is via WLAN or GSM, that is, a small area local radio network or a long distance mobile network. The telecommunication server coordinates the network change in the first connection section in this case.

In the case that an incoming call is switched through to a mobile terminal the telecommunication server provides a voice-over-wifi connection, preferably according to the standard H.323 or SIP to the mobile terminal forth. In In this case, the connection between the telecommunication server and the mobile terminal the second subsection of a voice call. The first connection section the voice connection between the telecommunication server and the Caller is a connection completely independent of the second connection section. Also In this case, the two connecting sections are through the Telecommunication server coordinates. The first connection section learns no change, even if the second connection section between a mobile network greater Range and a local radio network of smaller range changes. Also in this case, the telecommunication server coordinates the required network change in the second connection section.

Outside the range of a small-scale radio network, several situations are also to be distinguished ( 3 ). If there is no voice connection, only status information is exchanged between the mobile terminal and the telecommunication server. Here, the information exchange over a GPRS IP connection can take place. The signal strength of the possibly existing radio network of smaller range is continuously checked. As soon as the signal strength does not fall below a predetermined level for a certain period of time, the status information is exchanged over a WLAN connection. Voice data is transmitted outside a local radio network via the available long-range mobile radio network, in particular a GSM network. The transmission of status information and the provision of the convenience functions of the communication server takes place via a GPRS-IP connection. Via the GPRS-IP connection, the basic coordination of the connection takes place, ie also the separation of the call. Also in this case, a continuous check is made as to whether a signal of a radio network of a smaller range is received. If a certain signal strength is maintained for a predetermined period of time, the data transmission can take place via the radio network of smaller range. In this case, the telecommunication server establishes a connection to the mobile terminal via the second radio network of smaller range. This incoming call is automatically accepted by the mobile terminal. From this point on, the voice data is no longer transmitted over the long-haul network but over the smaller-range wireless network. The switching of the voice transmission is controlled by the telecommunication server through the GPRS-IP connection.

One from the mobile terminal outgoing call is first over a GPRS IP connection to the telecommunications server coordinated, which then a Voice connection via the mobile network big Range, in particular a GSM network, to the terminal manufactures. The second part of the connection between the telecommunication server and the called party is one of the first link independent voice connection. The voice data between these two links will become mediated by the telecommunication server. In this case, too learns the second connection section no change when the data transmission to the mobile terminal from the mobile network of long range is switched to a radio network of smaller range.

incoming Calls are over the telecommunication server forwarded to the mobile terminal. In this case, the connection section between the telecommunication server and the mobile terminal the second connection section. The first connection section between the caller and the telecommunication server is turn independently from the second connection section.

critical for the successful implementation the switching between a long-distance mobile radio network and a second Radio network of smaller range is the consideration of the respective Strengthen, Signal transit times and the question of whether these values increase or decrease. Furthermore, it is useful in Switching the fee model for the Use of the mobile network big Range to consider. If the use of the long-range mobile network, for example billed every minute, the switching should between the mobile network big Range and the radio network of smaller range so synchronized be that the switching process before the beginning of a new charge clock he follows.

It is also considered useful if the mobile terminal has a reception comprises unit for a satellite-based position determination, wherein the position determination of the terminal is transmitted to the telecommunication server, which evaluates the position data thus obtained for controlling the switching between known radio networks of smaller range and mobile networks of greater range. The prerequisite for this is that the telecommunication server can access a corresponding database in order to be able to assign the respective position to a possibly existing network.

The inventive method can basically for wireless transmission paths different technologies are used. Currently in the Close range, that is for wireless Smaller range networks, WLANs or BlueTooth available.

Claims (11)

Wireless data transmission method in which a mobile device (PDA) for the participation in a first mobile network (GSM, GPRS, UMTS) of long range and a second local radio network (WLAN, BlueTooth, DECT) smaller Range is equipped, taking for a connection between the terminal and another participant of this or another with these networks connectable networks using a telecommunication server following measures respectively: a) Check whether a connection over a local radio network of smaller range or over the mobile network of greater range (GSM, GPRS, UMTS) can be established; b) decide whether a sufficient data transfer over the local radio network with short range (WLAN, BlueTooth, DECT) is possible, if the terminal in the reception area of a local radio network with a shorter range (WLAN, BlueTooth, DECT) is; c) Establishing the connection to the Terminal via a local Radio network of smaller range (WLAN, BlueTooth, DECT), if one adequate data transmission via (WLAN, BlueTooth, DECT) possible is; d) switching to the network of longer range (GSM, GPRS, UMTS), if not sufficient data transmission over a radio network smaller Range (WLAN, BlueTooth, DECT) is possible. Method according to claim 1, characterized in that that if the terminal in the reception area of a radio network with a smaller range (WLAN, BlueTooth, DECT), congestion information between a telecommunication server and the terminal via the Radio network of smaller range (WLAN, BlueTooth, DECT) exchanged become independent of whether to transmit voice data become. Method according to claim 1 or 2, characterized that in a voice data transmission via a Radio network of smaller range (WLAN, BlueTooth, DECT) the signal strength of the transmission signal is checked. Method according to one of claims 1 to 3, characterized that while a voice data transmission via a Radio network of smaller range (WLAN, BlueTooth, DECT) determines the voice quality Parameters are checked. Method according to claim 3 or 4, characterized that falls below a predetermined signal strength and / or Voice quality one Switching to the mobile network of longer range (GSM, GPRS, UMTS) takes place. Method according to claim 5, characterized in that that the telecommunication server connects via the Mobile network of greater range (GSM, GPRS, UMTS) to the terminal builds. Method according to Claim 6, characterized that the terminal the incoming call from the telecommunication server via the Mobile network of greater range (GSM, GPRS, UMTS) automatically. Method according to one of claims 1 to 7, characterized that outside the range of a small-area radio network (WLAN, BlueTooth, DECT) a data transmission over the mobile network greater range (GSM, GPRS, UMTS) takes place, wherein voice data is transmitted via GSM or UMTS and status information about GPRS or UMTS. Method according to one of claims 1 to 8, characterized that at one of the terminal outgoing call outside the range of a small-area radio network (WLAN, BlueTooth, DECT) first via GPRS a request signal is sent to the telecommunication server which is then over GSM a connection between the terminal and the telecommunication server and the called party. Method according to one of claims 1 to 9, characterized that the switching between the mobile network of greater range (GSM, GPRS, UMTS) and the radio network of smaller range (WLAN, BlueTooth, DECT) under consideration the fee clocking the mobile network of greater range (GSM, GPRS, UMTS) takes place, whereby charge tacts are fully utilized become. Method according to one of claims 1 to 10, characterized that the mobile terminal a receiving unit for a satellite-based Position determination comprises, wherein the position determination of the terminal to the Telecommunication server transmitted which is the position data for controlling the switching between known Radio networks of smaller range (WLAN, BlueTooth, DECT) and mobile networks greater range (GSM, GPRS, UMTS).