Control channel monitoring

The invention claimed is: 1. A method for use in a User Equipment, said method comprising: monitoring a control region for mini-slots before detecting a transmission; detecting a start of the transmission by correlation to a known reference signal or preamble or by decoding a physical downlink control channel or physical broadcast channel; monitoring a control region of said transmission for regular slots; detecting that the transmission has ended by correlation to a known reference signal or preamble or by decoding a physical downlink control channel or physical broadcast channel, and in response thereto: monitoring the control region for mini-slots again. 2. The method of claim 1 , further comprising determining a transmission length. 3. The method of claim 1 , further comprising postponing the switch from monitoring the control region of mini-slots to monitoring the control region of regular slots until a slot border. 4. The method of claim 1 , further comprising receiving information regarding whether a particular slot or mini-slot is allocated for downlink or uplink, and in case of uplink allocation, stopping monitoring of the control region for said slot and resuming monitoring in time intervals allocated to downlink transmissions. 5. The method of claim 1 , further comprising adaptation of a bandwidth that is monitored, wherein the User Equipment is configured to a first bandwidth part when monitoring the control region of mini-slots, and after detecting the start of the transmission, the User Equipment is configured to switch to a second bandwidth part when monitoring the control region of the transmission. 6. The method of claim 1 , wherein the User Equipment is configured to operate according to the New Radio (5G) standard. 7. The method of claim 1 , wherein the detecting that the transmission has ended further comprises reading the length of the transmission in a common physical downlink control channel. 8. The method of claim 1 , wherein the detecting that the transmission has ended further comprises using a maximum transmission length. 9. A non-transitory computer readable storage medium encoded with instructions that, when executed on a processor, perform a method for use in a User Equipment, said method comprising: monitoring a control region for mini-slots before detecting a transmission; detecting a start of the transmission by correlation to a known reference signal or preamble or by decoding a physical downlink control channel or physical broadcast channel; monitoring a control region of said transmission for regular slots; detecting that the transmission has ended by correlation to a known reference signal or preamble or by decoding a physical downlink control channel or physical broadcast channel, and in response thereto: monitoring the control region for mini-slots again. 10. A User Equipment comprising a controller configured to: monitor a control region for mini-slots before detecting a transmission; detect a start of the transmission by correlation to a known reference signal or preamble or by decoding a physical downlink control channel or physical broadcast channel; monitor a control region of said transmission for regular slots; detect that the transmission has ended by correlation to a known reference signal or preamble or by decoding a physical downlink control channel or physical broadcast channel, and in response thereto: monitor the control region for mini-slots again. 11. The User Equipment of claim 10 , being further configured to operate according to the New Radio (5G) standard. 12. The User Equipment of claim 10 , further configured to determine a transmission length. 13. The User Equipment of claim 10 , wherein the User Equipment being configured to detect that the transmission has ended further comprises the User Equipment being configured to read the length of the transmission in a common physical downlink control channel. 14. The User Equipment of claim 10 , wherein the User Equipment being configured to detect that the transmission has ended further comprises the User Equipment being configured to use a maximum transmission length. 15. The User Equipment of claim 10 , wherein the User Equipment is further configured to postpone the switch from monitoring the control region of mini-slots to monitoring the control region of regular slots until a slot border. 16. The User Equipment of claim 10 , wherein the User Equipment is further configured to receive information regarding whether a particular slot or mini-slot is allocated for downlink or uplink, and in case of uplink allocation, to stop monitoring of the control region for said slot and to resume monitoring in time intervals allocated to downlink transmissions. 17. The User Equipment of claim 10 , wherein the User Equipment is further configured to adapt a bandwidth that is monitored, wherein the User Equipment is configured to a first bandwidth part when monitoring the control region of mini-slots, and after detecting the start of the transmission, the User Equipment is configured to switch to a second bandwidth part when monitoring the control region of the transmission.