Energy efficient operation of radio network nodes and wireless communication devices in NB-IoT

The invention claimed is: 1. A method of operating a wireless communication device, comprising: receiving state indicator information broadcast by a radio network node, the state indicator information indicating an operating state of a neighbor cell of the radio network node, wherein the operating state of the neighbor cell comprises a normal operating state in which the neighbor cell transmits synchronization signals according to a first periodicity and a restricted operating state in which the neighbor cell transmits the synchronization signals according to a second periodicity; adapting a cell search period based on the state indicator information, and further based on a transmit switch-on period and a transmit switch-off period of the neighbor cell, wherein the transmit switch-on period is a period of time during which a transmitter of the neighbor cell is periodically switched on to transmit the synchronization signals when the neighbor cell is in the restricted operating state, wherein the transmit switch-off period is a period of time during which the transmitter of the neighbor cell is periodically switched off to save power when the neighbor cell is in the restricted operating state; and receiving the synchronization signals from the neighbor cell during the adapted cell search period. 2. The method of claim 1 , wherein the state indicator information includes information about a periodicity of the synchronization signals received from the neighbor cell. 3. The method of claim 1 , further comprising: receiving a restricted set of system information from the neighbor cell during the restricted operating state, and receiving a normal set of system information from the neighbor cell during the normal operating state. 4. The method of claim 1 , further comprising: detecting the operating state based on information received in a master information block (MIB); or detecting the operating state based on synchronization signal patterns. 5. A wireless communication device, comprising: at least one processor; and at least one memory containing instructions that, when executed by the at least one processor, cause the wireless communication device to: receive state indicator information broadcast by a radio network node, the state indicator information indicating an operating state of a neighbor cell of the radio network node, wherein the operating state of the neighbor cell comprises a normal operating state in which the neighbor cell transmits synchronization signals according to a first periodicity and a restricted operating state in which the neighbor cell transmits the synchronization signals according to a second periodicity; adapt a cell search period based on the state indicator information, and further based on a transmit switch-on period and a transmit switch-off period of the neighbor cell, wherein the transmit switch-on period is a period of time during which a transmitter of the neighbor cell is periodically switched on to transmit the synchronization signals when the neighbor cell is in the restricted operating state, wherein the transmit switch-off period is a period of time during which the transmitter of the neighbor cell is periodically switched off to save power when the neighbor cell is in the restricted operating state; and receive the synchronization signals from the neighbor cell during the adapted cell search period. 6. The wireless communication device of claim 5 , wherein the state indicator information includes information about a periodicity of the synchronization signals received from the neighbor cell. 7. The wireless communication device of claim 5 , wherein the at least one processor and memory are further configured to cause the wireless communication device to receive a restricted set of system information from the neighbor cell during the restricted operating state, and receive a normal set of system information from the neighbor cell during the normal operating state. 8. A non-transitory computer-readable media having stored thereon a computer program for operating a wireless communication device in an NB-IoT enabled system, the computer program comprising computer code which, when run on processing circuitry of the wireless communication device causes the wireless communication device to: receive state indicator information broadcast by a radio network node, the state indicator information indicating an operating state of a neighbor cell of the radio network node, wherein the operating state of the neighbor cell comprises a normal operating state in which the neighbor cell transmits synchronization signals according to a first periodicity and a restricted operating state in which the neighbor cell transmits the synchronization signals according to a second periodicity; adapt a cell search period based on the state indicator information, and further based on a transmit switch-on period and a transmit switch-off period of the neighbor cell, wherein the transmit switch-on period is a period of time during which a transmitter of the neighbor cell is periodically switched on to transmit the synchronization signals when the neighbor cell is in the restricted operating state, wherein the transmit switch-off period is a period of time during which the transmitter of the neighbor cell is periodically switched off to save power when the neighbor cell is in the restricted operating state; and receive the synchronization signals from the neighbor cell during the adapted cell search period. 9. The non-transitory computer-readable media of claim 8 , wherein the state indicator information includes information about a periodicity of the synchronization signals received from the neighbor cell. 10. The non-transitory computer-readable media of claim 8 , wherein the computer program is further configured to cause the wireless communication device to receive a restricted set of system information from the neighbor cell during the restricted operating state, and receive a normal set of system information from the neighbor cell during the normal operating state.