Signaling downlink control information in a wireless communication network

What is claimed is: 1. A method, implemented by a wireless device in a wireless communication network, of receiving downlink control information, the method comprising the wireless device: determining, based on one or more resource identifiers received from a base station, two or more control resource sets to use for receiving downlink control information from the base station, wherein the two or more control resource sets include a first control resource set in a first set of time slots corresponding to a first state, and a second control resource set in a second set of time slots corresponding to a second state, wherein time slots in the second set of time slots is used for transmitting at least one of a synchronization signal that overlaps with the first control resource set, a synchronization signal block that overlaps with the first control resource set, and system information that overlaps with the first control resource set; determining a state of a time slot monitored by the wireless device for downlink control information based on expected transmissions of synchronization signals or reference signals during the time slot using resources of one of the control resource sets, comprising at least one of determining whether a synchronization signal is transmitted in the time slot, a synchronization signal block is transmitted in the time slot, and system information is transmitted in the time slot; and monitoring for downlink control information in the time slot on one of the control resources sets selected based on the state of the time slot. 2. The method of claim 1 , wherein the second control resource set contains fewer resources than the first control resource set with less robust coding or formatting. 3. The method of claim 1 , wherein the two or more control resource sets further include a third control resource set for receiving downlink control information in a third set of time slots corresponding to a third state. 4. The method of claim 1 , wherein the one or more resource identifiers comprise at least one of: a first frequency range for the first control resource set; a first bitmap identifying the first control resource set; and a first index value associated with the first resource control set. 5. The method of claim 1 , wherein determining the second control resource set comprises applying a predetermined mapping between control resources in the first control resource set and control channel resources in the second control resource set. 6. The method of claim 1 , wherein the one or more resource identifiers comprises a frequency offset; and wherein determining the second control resource set is determined based on the frequency offset and the first control resource set. 7. The method of claim 1 , wherein the one or more resource identifiers comprises at least one of: a second frequency range for the second control resource set; a second bitmap identifying the second control resource set, and wherein the second control resource set is determined based on the second bitmap; and a second index value; and wherein the second control resource set is determined based on the second index value. 8. The method of claim 1 , wherein the one or more resource identifiers comprise a single index value associated with a control resource set pair; and wherein the first and second control resource sets are determined based on the single index value. 9. The method of claim 1 , further comprising receiving downlink control information in the time slot on the selected one of the two or more control resource sets. 10. The method of claim 1 , wherein the determining the state of a time slot monitored by the wireless device comprises determining whether the time slot falls within the window in which the cell is allowed to transmit at least one of synchronization signals, a synchronization signal block, or system information. 11. The method of claim 10 , wherein the window comprises a Discovery Signal Measurement Timing Configuration (DMTC). 12. A wireless device in a wireless communication network, the wireless device comprising: processing circuitry; memory containing instructions executable by the processing circuitry whereby the wireless device is operative to: synchronize with a cell in the wireless communication network; determine, based on one or more resource identifiers received from the cell, two or more control resource sets to use for receiving downlink control information from a base station, wherein the two or more control resource sets include a first control resource set in a first set of time slots corresponding to a first state, and a second control resource set in a second set of time slots corresponding to a second state, wherein time slots in the second set of time slots is used for transmitting at least one of a synchronization signal that overlaps with the first control resource set, a synchronization signal block that overlaps with the first control resource set, and system information that overlaps with the first control resource set; determine a state of a time slot based on expected transmissions of synchronization signals or reference signals during the time slot using resources of one of the control resource sets, comprising at least one of determining whether a synchronization signal is transmitted in the time slot, a synchronization signal block is transmitted in the time slot, and system information is transmitted in the time slot; and monitor for downlink control information in the time slot on one of the control resources sets selected based on the state of the time slot. 13. A non-transitory computer readable recording medium storing a computer program product for controlling a wireless device in a wireless communication network for receiving downlink control information, the computer program product comprising software instructions which, when run on processing circuitry of the wireless device, causes the wireless device to: determine, based on one or more resource identifiers received from a base station, two or more control resource sets to use for receiving downlink control information from the base station, wherein the two or more control resource sets include a first control resource set in a first set of time slots corresponding to a first state, and a second control resource set in a second set of time slots corresponding to a second state, wherein time slots in the second set of time slots is used for transmitting at least one of a synchronization signal that overlaps with the first control resource set, a synchronization signal block that overlaps with the first control resource set, and system information that overlaps with the first control resource set; determine a state of a time slot monitored by the wireless device for downlink control information based on expected transmissions of synchronization signals or reference signals during the time slot using resources of one of the control resource sets, comprising at least one of determining whether a synchronization signal is transmitted in the time slot, a synchronization signal block is transmitted in the time slot, and system information is transmitted in the time slot; and monitor for downlink control information in the time slot on one of the control resources sets selected based on the state of the time slot. 14. A method, implemented by a base station in a wireless communication network, of transmitting downlink control information, the method comprising the base station: determining two or more control resource sets to use for transmitting downlink control information to a wireless device, wherein the two or more control