Method for performing frequency selective control channel scheduling in networks using an OFDM spectrum, a base station, a mobile terminal and a network therefor
The invention concerns a method for performing frequency selective control channel scheduling in networks using an OFDM spectrum, whereby a base station (BS1-BS8) broadcasts on at least one predefined subcarrier which is known to all mobile terminals (T1-T4) a signaling information common to all mobile terminals (T1-T4) indicating the position of at least one subcarrier of at least one frequency selective shared control channel and at least one identification of at least one addressed mobile terminal, the base station (BS1-BS8) sends signaling information for said at least one addressed mobile terminal at the indicated position of said at least one subcarrier of said at least one frequency selective shared control channel, and at least one mobile terminal (T1-T4) measures at least one subcarrier of said at least one frequency selective shared control channel for channel quality estimation, a base station (BS1-BS8), a mobile terminal (T1-T4) and a network (CN) therefor.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
In the following the invention will be explained further making reference to the attached drawings.
FIG. 1 schematically shows a multi cell network in which the invention can be implemented.
FIG. 2 schematically shows the different use of subcarriers in several steps of the method according to the invention.
Claims
1. A method for performing frequency selective control channel scheduling in networks using an OFDM spectrum, wherein
a base station broadcasts on at least one predefined OFDM symbol or subcarrier which is known to all mobile terminals a signaling information common to all mobile terminals indicating the position of at least one OFDM symbol or subcarrier of at least one frequency selective shared control channel and at least one identification of at least one addressed mobile terminal,the base station sends signaling information for said at least one addressed mobile terminal at the indicated position of said at least one OFDM symbol or subcarrier of said at least one frequency selective shared control channel,and at least one mobile terminal measures at least one OFDM symbol or subcarrier of said at least one frequency selective shared control channel for channel quality estimation.
2. A method according to claim 1, wherein the positions of said at least one OFDM symbol or subcarrier of said at least one frequency selective shared control channel are defined in such a way that said at least one mobile terminal measures OFDM symbols or subcarriers at equidistant or nearly equidistant frequency positions for channel quality estimation.
3. A method according to claim 2, wherein the signaling information common to all mobile terminals is sent on an equidistant or nearly equidistant frequency grid, that said signaling information common to all mobile terminals is used for channel quality estimation, and that in case of unused radio resources on said frequency grid, said at least one frequency selective shared control channel uses said unused radio resources.
4. A method according to claim 1, wherein parts of the OFDM spectrum with OFDM symbols or subcarriers that are not measured for channel quality estimation are estimated by applying an interpolation scheme.
5. A method according to claim 2, wherein unused equidistant or nearly equidistant OFDM symbols or subcarriers are preferably used for data transmission in order to guarantee a quasi-permanently coded signal for channel quality estimation.
6. A method according to claim 2, wherein in OFDM symbols or subcarriers at equidistant or nearly equidistant frequency positions that are not filled with signaling information common to all mobile terminals, frequency selective shared control channel signaling information or data, a predefined pattern is sent in said OFDM symbols or subcarriers.
7. A method according to claim 1, wherein if the frequency selective shared control channel signaling information carried in a first transmission time interval is valid for several consecutive transmission time intervals, at least one transmission time interval subsequent to said first transmission time interval carries only data and pilots, and said data are distributed on equidistant or nearly equidistant frequency positions for channel quality estimation.
8. A method according to claim 2, wherein the OFDM symbols or subcarriers at equidistant or nearly equidistant frequency positions are located near pilot subcarriers to minimize the error probability of signaling information.
9. A mobile terminal for performing frequency selective channel quality estimation in networks using an OFDM spectrum, wherein
the mobile terminal comprises means for evaluating a signaling information common to all mobile terminals broadcast by a base station indicating the position of at least one OFDM symbol or subcarrier of a frequency selective shared control channel and at least one identification of at least one addressed mobile terminal,and the mobile terminal comprises means for measuring said at least one OFDM symbol or subcarrier of said frequency selective shared control channel for channel quality estimation.
10. A base station for performing frequency selective control channel scheduling in networks using an OFDM spectrum, wherein
the base station comprises means for broadcasting on at least one OFDM symbol or subcarrier a signaling information common to all mobile terminals indicating the position of at least one OFDM symbol or subcarrier of a frequency selective shared control channel and at least one identification of at least one addressed mobile terminal,and the base station comprises means for sending frequency selective shared control channel signaling information for said at least one addressed mobile terminal at the indicated position of said at least one OFDM symbol or subcarrier of the frequency selective shared control channel.
11. A network using an OFDM spectrum comprising base stations each comprising means for broadcasting on at least one OFDM symbol or subcarrier a signaling information common to all mobile terminals indicating the position of at least one OFDM symbol or subcarrier of a frequency selective shared control channel and at least one identification of at least one addressed mobile terminal, and the base station further comprising means for sending frequency selective shared control channel signaling information for said at least one addressed mobile terminal at the indicated position of said at least one OFDM symbol or subcarrier of the frequency selective shared control channel and said network further including at least one mobile terminal.