High-speed data transmission in mobile communication networks

Details High-speed data transmission in mobile communication networks High-speed data transmission in mobile communication networks

1997-09-08

2001-01-09

Hsu, Alpus H. (Department: 2738)

Multiplex communications

Communication over free space

Having a plurality of contiguous regions served by...

C370S349000, C370S465000, C370S471000, C455S450000

Reexamination Certificate

active

06172968

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to high-speed data transmission in digital mobile communication networks.
BACKGROUND OF THE INVENTION
In telecommunication systems of the time division multiple access (TDMA) type, the communication on the radio path is time-divisional and occurs in successive TDMA frames each of which consists of several time slots. A short information packet is transmitted in each time slot in the form of a radio-frequency burst that has a limited duration and that consists of a number of modulated bits. The time slots are primarily used for conveying control and traffic channels. The traffic channels are used for transferring speech and data. The control channels are for signalling between a base station and mobile stations. An example of a TDMA radio system is the Pan-European digital mobile system GSM (Global System for Mobile Communications).
In conventional TDMA systems, one traffic channel time slot is allocated for communication to each mobile station for the transmission of data or speech. For example the GSM system may therefore comprise as many as eight parallel connections to different mobile stations on a radio frequency carrier. The maximum data transfer rate on one traffic channel is limited to a relatively slow level, e.g. in the GSM system 9.6 Kbps or 12 Kbps, according to the available bandwidth and the channel coding and error correction employed in the transmission. In the GSM system, a so-called half-rate (max. 4.8 Kbps) traffic channel can also be selected for low speech coding rates. The half-rate traffic channel is established when a mobile station operates in an assigned time slot only in every other frame, i.e. at half the rate. Another mobile station operates in the same assigned time slot of every other frame. The system capacity, measured in the number of mobile subscribers, can thus be doubled, i.e. as many as 16 mobile stations can operate on the carrier frequency simultaneously.
In recent years, the need for high-speed data services in mobile networks has increased considerably. For example transmission rates of at least 64 Kbps would be required for the ISDN (Integrated Services Digital Network) circuit-switched digital data services. The data services of the public switched telephone network (PSTN), for example a modem and G3-type telefax terminals, require higher transmission rates such as 14.4 Kbps. One of the increasing areas of mobile data transmission that requires transmission rates exceeding 9.6 Kbps is mobile video services. Examples of such services include security surveillance by means of cameras, and video databases. The minimum data rate in video transmission may be for example 16 or 32 Kbps.
The transmission rates of the present mobile networks are not sufficient for meeting these new requirements, however.
An arrangement, which is disclosed in a co-pending patent application of the Applicant, WO95/31878 (unpublished on the filing date of the present application), relates to allocating two or more parallel traffic channels (subchannels) on the radio path for one high-speed data connection. The high-speed data signal is divided in the transmitter into these parallel subchannels for the transmission over the radio path, to be restored in the receiver. This approach enables the supply of data transmission services with as high as eight-fold transmission rate compared to the conventional rate, depending on the number of the traffic channels allocated. For example in the GSM system, the total user data rate of 19.2 Kbps is obtained by two parallel 9.6 Kbps subchannels, each channel being rate-adapted in the same manner as in the existing transparent 9.6 Kbps bearer services of the GSM system.
A problem relating to the use of parallel traffic channels is the data rates which cannot be rate-adapted with the existing methods of the GSM system even though these data rates can be evenly distributed between the available parallel subchannels.
For example the user data rate of 14.4 Kbps (according to e.g. ITU-T Recommendation V0.32bis) requires two transparent GSM traffic channels the data rate in each of which should be 7.2 Kbps (2×7.2 Kbps =14.4 Kbps), but there is no rate adaptation in the GSM system for the subchannel data rate of 7.2 Kbps.
Correspondingly, for example the user data rate of 40 Kbps (ITU-T Recommendation V0.120) requires five transparent GSM traffic channels in each of which the data rate should be 8 Kbps (40 Kbps: 5), but there is again no rate adaptation in the GSM system for such a subchannel data rate.
Another problem is the data rates that cannot be evenly divided into a required number of transparent GSM traffic channels. For example the user data rate of 56 Kbps (ITU-T Recommendation V0.110) requires at least six transparent GSM traffic channels, but it cannot be divided into these six parallel subchannels in such a way that the (V0.110) frames of each subchannel carry the same number of data bits (56 Kbps: 6=9333.333 bps).
Furthermore, the high-speed data transmission should be sufficiently flexible so that it could also support possible future high data rates that have not yet been standardized.
DISCLOSURE OF THE INVENTION
An object of the present invention is to provide a method and a telecommunication system which support the data adaptation of both standard and arbitrary transmission rates in high-speed data transmission utilizing parallel traffic channels.
A first aspect of the invention is a method for high-speed data transmission in a digital mobile system, said method comprising a step of
transmitting data over the radio path between a mobile station and a fixed mobile network on a rate-adapted traffic channel allocated to the mobile station. According to the invention, the method is characterized by further steps of
allocating at least two parallel rate-adapted traffic channels to a high-speed data signal, which requires a data rate exceeding the maximum transmission rate of a single traffic channel,
utilizing transmission frames, wherein the total number of information bits is independent of the data rate of the high-speed data signal, for data transmission on parallel traffic channels,
rate-adapting the high-speed data signal to the allocated traffic channels by employing a variable number of said total number of said information bits for the transmission of the actual user data within each transmission frame depending on said data rate of the high-speed data signal.
A second aspect of the invention is a digital mobile system wherein a mobile station and a fixed mobile network comprise a data transmitter and a data receiver which are capable of data transmission over the radio path on a traffic channel allocated to the mobile station. According to the invention, the system is characterized in that
the fixed mobile network is arranged to allocate two or more parallel traffic channels to a high-speed data signal which requires a transmission rate exceeding the maximum transmission rate of one traffic channel,
the data transmitters are arranged to insert a high-speed data signal into transmission frames wherein the total number of the information bits is independent of the data rate of the high-speed data signal to be transmitted by employing a variable number of said total number of the information bits in each transmission frame for the transmission of the actual user data according to the data rate of the high-speed signal.
In the present invention, a high-speed data signal is packed into transmission frames in which the number of information bits is fixed and independent of a data rate of a transmitted signal. The number of the information bits is such that the data rate of the frame is constant and corresponds to the standard rate adaptation of a traffic channel in a respective telecommunication system, e.g. 9.6 Kbps in the GSM system. A variable number of these information bits of the transmission frame is utilized for the transmission of the actual user data, depending on the original data signal rate. The rest of the bits are utilized for the transm

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