MU-MIMO scheduling

The invention claimed is: 1. A method for scheduling transmission from a plurality of transmission instances to a plurality of receivers in a wireless network, the method comprising: acquiring respective communication quality metrics for each different pair of one of the transmission instances and one of the receivers; forming a first group of the plurality of receivers by performing the following selection operations: selecting a first one of the receivers as a first group member and associating a first one of the transmission instances to the first receiver; and when a plurality of the communication quality metrics for the first transmission instance and a plurality of unselected receivers fulfill a first criterion for sufficient communication quality, selecting a second receiver from the unselected receivers as a second group member and associating a second one of the transmission instance to the second receiver, wherein the communication quality metric of the first transmission instance and the second receiver fulfills the first criterion for sufficient communication quality and indicates a lower communication quality than a highest communication quality among the plurality of communication quality metrics that fulfill the first criterion for sufficient communication quality; forming at least a second group of receivers from the plurality of receivers by repeating the selection operations, used to form the first group, for receivers not included in the first group of receivers; and scheduling multi-user multiple-input multiple-output (MU-MIMO) transmission to the receivers of each formed group from the corresponding associated transmission instances. 2. The method of claim 1 , wherein: forming the first group of receivers further comprises, when a plurality of the communication quality metrics for the first transmission instance and a plurality of unselected receivers fulfill the first criterion for sufficient communication quality, selecting one or more further receivers from the unselected receivers as further first group members and associating further transmission instances to the further receivers; and the communication quality metrics of the first transmission instance and the one or more further receivers fulfill the first criterion for sufficient communication quality and indicate lower qualities than the highest communication quality among the plurality of communication quality metrics that fulfill the first criterion for sufficient communication quality. 3. The method of claim 1 , wherein the communication quality metric of the first transmission instance and the first receiver fulfills a second criterion for sufficient communication quality. 4. The method of claim 1 , wherein the communication quality metric is indicative of a gain, or an attenuation, of a channel between the transmission instance and the receiver. 5. The method of claim 1 , wherein the communication quality metric of the first transmission instance and the second receiver is indicative of an amount of cross-talk generated to the second receiver by transmission from the first transmission instance to the first receiver. 6. The method of claim 1 , further comprising configuring the plurality of receivers to provide the communication quality metrics. 7. The method of claim 1 , wherein: the plurality of receivers are stationary or substantially stationary; and the method is performed during a pre-operational time period that does not include communication transmission. 8. The method of claim 1 , wherein the plurality of transmission instances are one of the following: a plurality of distributed transmission points; or a plurality of transmission beams. 9. A non-transitory computer readable medium, having stored thereon executable program instructions that, when executed by a processor or a controller of an apparatus configured to schedule transmission from a plurality of transmission instances to a plurality of receivers in a wireless network, cause the apparatus to perform operations corresponding to the method of claim 1 . 10. An apparatus configured to schedule of transmission from a plurality of transmission instances to a plurality of receivers in a wireless network, the apparatus comprising a processor or a controller configured to: acquire respective communication quality metrics for each different pair of one of the transmission instances and one of the receivers; form a first group of the plurality of receivers by performing the following selection operations: selecting a first one of the receivers as a first group member and associating a first one of the transmission instances to the first receiver; and when a plurality of the communication quality metrics for the first transmission instance and a plurality of unselected receivers fulfill a first criterion for sufficient communication quality, selecting a second receiver from the unselected receivers as a second group member and associating a second one of the transmission instance to the second receiver, wherein the communication quality metric of the first transmission instance and the second receiver fulfills the first criterion for sufficient communication quality and indicates a lower communication quality than a highest communication quality among the plurality of communication quality metrics that fulfill the first criterion for sufficient communication quality; form at least a second group of receivers from the plurality of receivers by repeating the selection operations, used to form the first group, for receivers not included in the first group of receivers; and schedule multi-user multiple-input multiple-output (MU-MIMO) transmission to the receivers of each formed group from the corresponding associated transmission instances. 11. The apparatus of claim 10 , wherein: the processor or controller is further configured to, responsive to a plurality of the communication quality metrics for the first transmission instance and a plurality of unselected receivers fulfilling the first criterion for sufficient communication quality, form the first group of receivers by selecting one or more further receivers from the not yet selected receivers as further first group members and association of further transmission instances to the further receivers; and the communication quality metrics of the first transmission instance and the one or more further receivers fulfill the first criterion for sufficient communication quality and indicate lower qualities than the highest communication quality among the plurality of communication quality metrics that fulfill the first criterion for sufficient communication quality. 12. The apparatus of claim 10 , wherein the communication quality metric is indicative of a gain, or an attenuation, of a channel between the transmission instance and the receiver. 13. The apparatus of claim 10 , wherein the communication quality metric of the first transmission instance and the second receiver is indicative of an amount of cross-talk generated to the second receiver by transmission from the first transmission instance to the first receiver. 14. The apparatus of claim 10 , wherein the processor or controller is further configured configure the receivers to provide the communication quality metrics. 15. The apparatus of claim 10 , wherein: the plurality of receivers are stationary or substantially stationary; and the processor or controller is configured to acquire the respective communication quality metrics, form the first group and the at least one second group, and schedule the MU-MIMO transmission during a pre-operational time p