Relaying in a wireless communication network

The invention claimed is: 1. A first type node (AP 1 ) in a wireless communication system, wherein the first type node (AP 1 ) is adapted to: communicate with at least one neighboring first type node (AP 0 , AP 2 ) in the wireless communication system via a corresponding backhaul channel (H 10 , H 21 ); receive communication from at least one overheard second type node (U 3k ) via a corresponding overheard access channel (h 3k_1 ), the overheard second type node (U 3k ) being adapted to normally communicate with a serving first type node (AP 3 ); instruct at least one overheard second type node (U 3k ) to pause transmission to the serving first type node (AP 3 ) at time instants (T+2) when the first type node (AP 1 ) is going to receive a certain signal (X 3k (T)) from the neighboring first type node (AP 2 ), where the certain signal (X 3k (T)) is intended to be received by the first type node (AP 1 ) without interference from said overheard second type node (U 3k ) that has been instructed to pause transmission. 2. The first type node (AP 1 ) according to claim 1 , wherein the first type node (AP 1 ) is adapted to perform channel measurements in order to determine the presence of overheard second type nodes (U 3k ) and isolated second type nodes (U 3j ), where an overheard second type node (U 3k ) is able to communicate with the serving first type node (AP 3 ), and to communicate with the first type node (AP 1 ) that is separate from the serving first type node (AP 3 ), and where an isolated second type node (U 3j ) is able to communicate with its serving first type node (AP 3 ) only. 3. The first type node (AP 1 ) according to claim 1 , wherein the first type node (AP 1 ) is adapted: at a first time instant (T), to receive and buffer both a first signal (x 3j (T-2)) from a neighboring first type node (AP 2 ) and an overheard second signal (X 3k (T)) from the overheard second type node (U 3k ); at a future time instant (T+2), to receive and buffer the second signal (X 3k (T)) from the neighboring first type node (AP 2 ), the second signal (X 3K (T)) from the neighboring first type node (AP 2 ) being intended to be received by the first type node (AP 1 ) without interference from said overheard second type node (U 3k ); and to separate and decode the received and buffered signals (X 3k (T), X 3j (T-2)). 4. The first type node (AP 1 ) according to claim 3 , wherein the first type node (AP 1 ) is adapted to separate and decode the received and buffered signals (X 3K (T), X 3j (T-2)) by means of successive interference cancelling. 5. The first type node (AP1) according to claim 1 , wherein the communication between all first type nodes (AP 0 , AP 1 , AP 2 , AP 3 ) is a backhaul communication via at least one corresponding backhaul channel (H 10 , H 21 , H 32 ), and where at least one first type node (AP 3 ) is adapted to communicate with a corresponding group of second type nodes (U 3k , U 3j ) via a corresponding access channel (h 3k_3 , h 3j_3 ), where the backhaul communication and the access communication both are performed by means of common equipment at each one of the first type nodes (AP 0 , AP 1 , AP 2 , AP 3 ). 6. An overheard second type node (U 3k ) in a wireless communication system, wherein the overheard second type node (U 3k ) is adapted to communicate with a serving first type node (AP 3 ) in the wireless communication system via a corresponding access channel (h 3k_3 ), and to communicate with another first type node (AP 1 ) in the wireless communication system via a corresponding overheard access channel (h 3k_1 ), where the overheard second type node (U 3k ) is adapted to pause transmission to the serving first type node (AP 3 ) at time instants (T+2) when the other first type node (AP 1 ) is going to receive a certain signal (X 3k (T)) from a neighboring first type node (AP 2 ), where the certain signal (X 3K (T)) is intended to be received by the other first type node (AP 1 ) without interference from the overheard second type node (U 3k ). 7. The overheard second type node (U 3k ) according to claim 6 , where the overheard second type node (U 3k ) is adapted to receive instructions from the serving first type node (AP 3 ) or the other first type node (AP 1 ), where the instructions relate to at which time instants to pause transmission to the serving first type node (AP 3 ). 8. A first type node (AP 3 ) in a wireless communication system, wherein the first type node (AP 3 ) is adapted to: communicate with at least one neighboring first type node (AP 2 ) in the wireless communication system via a corresponding backhaul channel (H 32 ); and to communicate with a corresponding group of second type nodes (U 3k , U 3j ) via a corresponding access channel (h 3k , h 3j ); wherein the first type node (AP 3 ) is adapted to: acquire information regarding the presence of overheard second type nodes (U 3k ) and isolated second type nodes (U 3j ), where an overheard second type node (U 3k ) is able to communicate with the first type node (AP 3 ) and to communicate with a remote first type node (AP 1 ) that is separate from the first type node (AP 3 ), and where an isolated second type node (U 3j ) is able to communicate with the first type node (AP 3 ) only. 9. The first type node (AP 3 ) according to claim 8 , wherein the first type node (AP 3 ) is adapted to pair one overheard second type node (U 3k ) with one isolated second type node (U 3j ), and to control synchronization of signal data transmissions of the paired second type nodes (U 3j , U 3k ). 10. A method in a first type node (AP 1 ) in a wireless communication system, wherein the method comprises: communicating with at least one neighboring first type node (AP 0 , AP 2 ) in the wireless communication system via a corresponding backhaul channel (H 10 , H 21 ); receiving communication from at least one overheard second type node (U 3 k) via a corresponding overheard access channel (h 3k_1 ), the overheard second type node (U 3k ) being adapted to normally communicate with a serving first type node (AP 3 ); instructing at least one overheard second type node (U 3k ) to pause transmission to the serving first type node (AP 3 ) at time instants (T+2) when the first type node (AP 1 ) is going to receive a certain signal (X 3k (T)) from the neighboring first type node (AP 2 ), where the certain signal (X 3k (T)) is intended to be received by the first type node (AP 1 ) without interference from said overheard second type node (U 3k ) that has been instructed to pause transmission. 11. The method according to claim 10 , wherein the method comprises performing channel measurements in order to determine the presence of overheard second type nodes (U 3k ) and isolated second type nodes (U 3j ), where an overheard second type node (U 3k ) is able to communicate with the serving first type node (AP 3 ), and to communicate with the first type node (AP 1 ) that is separate from the serving first type node (AP 3 ), and where an isolated second type node (U 3j ) is able to communicate with its serving first type node (AP 3 ) only. 12. The method according to claim 10 , wherein the method comprises: at a first time instant (T), receiving and buffering both a first signal (x 3j (T-2)) from a neighboring first type node (AP 2 ) and an overheard second signal (X 3k (T)) from the overheard second type node (U 3k ); at a future time instant (T+2), receiving and buffering the second signal (X 3K (T)) from the neighboring first type node (AP 2 ), the second signal (X 3k (T)) from the neighboring first type node (AP 2 ) being intended to be received by the first type node (AP 1 ) without interference from said overheard second type node (