Interactive beam alignment system with delayed feedback

What is claimed is: 1. A transmission system, comprising: a configurable antenna, that transmits according to a configured beam; a hardware processor; and a memory that is configured to store a computer program product, which, when executed by the hardware processor, causes the hardware processor to: send a first probing packet on the antenna using a first scanning beam, selected from a set of scanning beams; determine feedback about the first probing packet, received after a delay, characterized by a delay parameter; send a second probing packet on the antenna using a second scanning beam, selected from the set of scanning beams based on the determined feedback about the, first probing packet; determine feedback about the second probing packet, received after a delay, characterized by the delay parameter; determine a data transmission beam based on the set of scanning beams and the determined feedback about the first probing packet and the second probing packet; and transmit data using the antenna, configured according to the determined transmission beam. 2. The system of claim 1 , wherein each of the scanning beams in the set of scanning beams includes an angular coverage interval that corresponds to a respective single contiguous main lobe from a set of contiguous main lobes. 3. The system of claim 1 , wherein the data transmission beam has an angular coverage that includes an intersection of angular coverage intervals of scanning beams with positive feedback and a complement of angular coverage intervals of scanning beams with negative feedback. 4. The system of claim 1 . wherein the feedback about the first probing paekot and the feedback about the second probing packet includes a particular time interval and feedback packet information. 5. The system or claim 1 , wherein the data transmission beam is a composite beam that covers a plurality of disjoint angular intervals. 6. The system of claim 5 , the computer program product further configures the antenna to transmit with a radiation pattern that includes a lower transmitted power at angles outside the disjoint angular intervals than transmitted power within the. disjoint angular intervals. 7. The system of claim 1 , wherein the set of scanning beams is configured to minimize a measure of size of a coverage interval of the data transmission beam. 8. The system of clairri 7 , wherein the set of scanning beams is configured based on prior knowledge about a communication channel between the antenna and a receiving station. 9. The system of claim 8 , wherein the scanning beams are configured to track changes in the communication channel. 10. The system of claim 1 , wherein the feedback about the first probing packet and the feedback about the second probing packet includes attributes of a channel between the antenna and a receiving station. 11. The system of claim 1 , wherein the scanning beams are configured based on the delay parameter and a hierarchy, wherein a dedicated subset of the scanning beams in the hierarchy is used in selecting the scanning beams for a time slot. 12. The system of claim 11 , wherein the hierarchy partitions the scanning beams into subsets, such that there is a dedicated subset for each time slot up to the delay parameter, and wherein there is a dedicated subset for each sequence of feedback for time slots after the delay parameter. 13. The system of claim 12 , wherein the subsets of scanning beams for time slots less than the delay parameter each consist of a single beam. 14. The system of claim 13 , wherein the data transmission beam includes an average coverage interval that corresponds to a single contiguous main lobe. 15. The system of claim 1 , wherein the computer program product further causes the hardware processor to determine whether feedback has been received after a delay interval, to set a. first bit responsive to a determination that a positive acknowledgement is received, and to set a second bit responsive to a determination that no acknowledgement is received. 16. A transmission system, comprising: a phased array antenna system that transmits according to a configured beam; a hardware processor; and a memory that is configured to store a computer program product, which, when executed by the hardware processor, causes the hardware processor to: send a plurality of probing packets on the phased array antenna using respective first scanning beams, selected from a set of scanning beams; determine feedback about a first probing packet of the plurality of probing packets after a non-zero delay interval has passed; send a second probing packet on the phased array antenna using a second scanning beam, selected from the set of scanning beams based on the determined feedback about the first probing packet; determine feedback about the second probing packet and a remainder of the plurality of probing packets; determine a data transmission beam based on the set of scanning beams and the determined feedback about the first probing packet, the second probing packet, and the remainder o 1 the plurality of probing packets; configure the phased array antenna according to the data transmission beam; and transmit data on the phased array antenna using the configured phased array antenna. 17. The system of claim 16 , wherein the computer program product further causes the hardware processor to determine whether feedback has been received after the delay interval, to set a first bit responsive to a determination that a positive acknowledgement is received, and to set a second bit responsive to a determination that no acknowledgement is received. 18. The system of claim 16 , wherein: the set of scanning beams is configured based on prior knowledge about a communication channel between the antenna and a receiving station. 19. A transmission system, comprising: a phased array antenna system that transmits according to a configured beam; a hardware processor; and a memory that is configured to store a computer program product, which, when executed by the hardware processor, causes the hardware processor to: send a plurality of probing packets on the phased array antenna using respective first scanning beams, selected from a set of scanning beams; determine feedback about a first probing packer of the plurality of probing packets after a non-zero delay interval has passed by determining whether feedback has been received after the delay interval, setting a first bit responsive to a determination that a positive acknowledgement is received, and setting a second bit responsive to a determination that no acknowledgement is received; send a second probing packet on the phased array antenna using a second scanning beam, selected from the set of scanning beams based on the determined feedback about the first probing packet:, determine feedback about the second probing packet and a remainder of the pluraity of probing packets; determine a data transmission beam based on the set of scanning beams and the determined feedback about the first probing packet, the second probing packet, and the remainder of the plurality of probing packets; configure a phased array antenna according to the data transmission beam, wherein the set of scanning beams is configured based on prior knowledge about a communication channel between the phased at antenna and a receiving station; and transrint data on the phased array antenna using the configured phased array antenna.