Methods and arrangements for allocation of radio resources

The invention claimed is: 1. A method for allocating a common radio resource for simultaneous transmission of data streams in multiple pairs of communication nodes in a multi-node wireless network, the method comprising: selecting, for testing, a first pair of communication nodes and a second pair of communication nodes, the first and second pairs of communication nodes have no communication node in common; allocating a common radio test resource for transmission from a transmitter in the first pair of communication nodes and from a transmitter in the second pair of communication nodes; transmitting a first test probe message from the transmitter in the first pair of communication nodes on the common radio test resource and, during at least a partly overlapping time interval, transmitting a second test probe message from the transmitter in the second pair of communication nodes on the common radio test resource; verifying receipt of the first test probe message in the receiver in the first pair of communication nodes and receipt of the second test probe message in the receiver in the second pair of communication nodes; and allocating the common radio test resource as the common radio resource to the transmitter in the first pair of communication nodes and to the transmitter in the second pair of communication nodes if the first test probe message is received in the receiver in the first pair of communication nodes and the second test probe message is received in the receiver in the second pair of communication nodes. 2. The method of claim 1 , further including: reporting the receipt of the first test probe message in the receiver in the first pair of communication nodes and receipt of the second test probe message in the receiver in the second pair of communication nodes to a control node; forming a decision in the control node that the transmitter in the first pair of communication nodes and the transmitter in the second pair of communication nodes may transmit on a common radio resource; and effecting the step of allocating the common radio test resource as the common radio resource, responsive to said decision. 3. The method of claim 1 , further including instructing the transmitters in the first and second pair of communication nodes to simultaneously transmit their respective test probe messages at a specified time in the future. 4. The method of claim 1 , further including instructing the receivers in the first and second pair of communication nodes to simultaneously receive their respective test probe messages at a specified time in the future. 5. The method of claim 1 , further including: allocating the common radio test resource for transmitting from a transmitter in at least a further pair of communication nodes; transmitting a further test probe message on the common radio test resource from the transmitter in the further pair of communication nodes at least partly simultaneously with a first test probe message from the transmitter in the first pair of communication nodes and a second test probe message from the transmitter in the second pair of communication nodes. 6. The method of claim 1 , wherein each test probe message is a data packet including validity information and the step of determining receipt of test probe messages includes decoding the data packet and verifying the decoded data packet against its validity information. 7. The method of claim 1 , wherein the common radio resource is a frequency band in a frequency-division multiple access (FDMA) system. 8. The method of claim 1 , wherein the common radio resource is a timeslot in a time-division multiple access (TDMA) system. 9. The method of claim 1 , wherein the common radio resource is a physical resource block in a Long-Term Evolution/Orthogonal Frequency-Division Multiplexing (LTE/OFDM) system. 10. A method in a control node to assess radio resource isolation in a multi-node wireless system including multiple pairs of communication nodes, the method comprising: selecting, for testing, a first pair of communication nodes and a second pair of communication nodes, the first and second pairs of communication nodes have no communication node in common; allocating a common radio test resource for transmitting on a first radio path from a transmitter in the first pair of communication nodes and on a second radio path from a transmitter in the second pair of communication nodes; initiating transmission of a first test probe message from the transmitter in the first pair of communication nodes on the common radio test resource and transmission of a second test probe message, during an at least partly overlapping time interval, from the transmitter in the second pair of communication nodes on the common radio test resource; initiating receipt of the first test probe message in the receiver in the first pair of communication nodes and receipt of the second test probe message in the receiver in the second pair of communication nodes; receiving reports on the receipt of the test probe messages; and allocating the common radio test resource as a common radio resource if the intended test probe messages are received in their respective receivers.