Low power mode in a satellite-based broadcast data service

What is claimed is: 1. A satellite system controller for a satellite system, comprising: a receiver to receive, from a transmission originator device, a set interval request message requesting said satellite system controller set a transmission interval and an epoch time for a satellite receiver, said transmission interval being an amount of time said satellite receiver is to remain in a sleep mode between expected transmissions and said epoch time being an instant at which said satellite receiver is to expect a satellite transmission; an interval selector to determine, based on said transmission interval, a sleep mode cycle for said satellite receiver; an epoch selector to select said epoch time according to said sleep mode cycle; and a scheduler to schedule said satellite transmission with said satellite system according to said epoch time and said sleep mode cycle. 2. The satellite system controller for a satellite system according to claim 1 , wherein said epoch selector determines all available epoch times according to said transmission interval, sorts said available times by a number of groups assigned to each epoch time regardless of said transmission interval, and selects a least-loaded epoch time according to said transmission interval. 3. The satellite system controller for a satellite system according to claim 1 , wherein said epoch selector selects said epoch time based on a number of broadcast groups utilizing said epoch time. 4. The satellite system controller for a satellite system according to claim 1 , wherein said epoch selector selects said epoch time based on an intersection of available epoch times according to said transmission interval and one or more in-use epoch times. 5. The satellite system controller for a satellite system according to claim 1 , wherein said epoch selector selects said epoch time for a broadcast group. 6. The satellite system controller for a satellite system according to claim 1 , wherein said interval selector determines said sleep mode cycle based on a native time scale of said satellite system. 7. The satellite system controller for a satellite system according to claim 1 , further comprising an output handler to send a broadcast burst to said satellite system, said broadcast burst comprising said selected epoch time and said determined sleep mode cycle. 8. A satellite system communication method, comprising: receiving, at a transmission controller from a transmission originator device, a set interval request message requesting said transmission controller set a transmission interval and an epoch time for a satellite receiver, said transmission interval being an amount of time said satellite receiver is to remain in a sleep mode between expected transmissions and said epoch time being an instant at which said satellite receiver is to expect a satellite transmission; determining, based on said transmission interval, a sleep mode cycle for said satellite receiver; selecting said epoch time according to said sleep mode cycle; and scheduling, at said transmission controller, a satellite transmission of said satellite system according to said epoch time and said sleep mode cycle. 9. The satellite system communication method according to claim 8 , wherein said selecting said epoch time comprises determining all available epoch times according to said transmission interval, sorting said available times by a number of groups assigned to each epoch time regardless of said transmission interval, and selecting a least-loaded epoch time according to said transmission interval. 10. The satellite system communication method according to claim 8 , wherein said epoch time is selected based on a number of broadcast groups utilizing said epoch time. 11. The satellite system communication method according to claim 8 , wherein said epoch time is selected based on an intersection of available epoch times according to said transmission interval and one or more in-use epoch times. 12. The satellite system communication method according to claim 8 , wherein said epoch time is selected for a broadcast group. 13. The satellite system communication method according to claim 8 , further comprising determining a cycle when to enter said sleep mode based on a native time scale of said satellite system. 14. The satellite system communication method according to claim 8 , further comprising sending a broadcast burst to said satellite system, said broadcast burst comprising said selected epoch time and said determined sleep mode cycle.