Transmission system control

What is claimed is: 1. A method for controlling a transmission system, the method comprising: responsive to the occurrence of a condition for the transmission system to exit a sleep state in which certain transmission components of the transmission system are de-activated, triggering the transmission system to transition from the sleep state to an active state in which the certain transmission components are activated and comply with certain component performance requirements, the certain transmission components including an oscillator, the certain component performance requirements including a frequency error requirement of the oscillator; controlling the transmission system to transmit, during at least a fraction of a transition period over which the transmission system transitions from the sleep state to the active state, in compliance with relaxed component performance requirements that are reduced with respect to the certain component performance requirements, the relaxed component performance requirements including a relaxed frequency error requirement that permits the oscillator to have larger frequency error than the frequency error requirement, the controlling comprising controlling the transmission system to transmit, during at least a fraction of the transition period, with a reduced capability that is reduced compared to a corresponding capability with which the transmission system is capable of transmitting in the active state and the reduced capability comprising one or more of a reduced maximum modulation order, a reduced maximum channel coding rate, a reduced maximum number of transmission streams, a reduced maximum number of component carriers, or a reduced maximum number of served users; and signaling that the transmission system is: transmitting or will transmit during the transition period over which the transmission system transitions from the sleep state to the active state, transmitting or will transmit in compliance with relaxed component performance requirements, and transmitting or will transmit with a reduced transmission rate that is reduced compared to a transmission rate with which the transmission system is capable of transmitting in the active state. 2. The method of claim 1 , wherein said controlling comprises controlling the transmission system to transmit, during at least a fraction of the transition period, up to a reduced maximum transmission rate that is reduced compared to a maximum transmission rate up to which the transmission system is capable of transmitting in the active state. 3. The method of claim 1 , wherein the certain transmission components include one or more analog transmission components. 4. The method of claim 1 , wherein the certain transmission components include a power amplifier, the certain component performance requirements include a linearity requirement of the power amplifier, and the relaxed component performance requirements include a relaxed linearity requirement that permits the power amplifier to be less linear than the linearity requirement. 5. The method of claim 1 , further comprising signaling a duration of the transition period and/or a transmission rate with which the transmission system is capable of transmitting during at least a fraction of the transition period. 6. The method of claim 1 , wherein the method is performed by a wireless device that includes the transmission system. 7. The method of claim 6 , further comprising receiving multiple different uplink grants for use by the wireless device in transmitting at different respective transmission rates, and wherein said controlling comprises selecting from among the multiple different uplink grants the uplink grant that corresponds to a transmission rate with which the transmission system transmits during at least a fraction of the transmission period. 8. The method of claim 1 , wherein the method is performed by a radio network node that includes the transmission system. 9. The method of claim 1 , wherein the transmission components comprise multiple distributed radio network nodes or multiple distributed antenna elements. 10. A control system for controlling a transmission system, the control system comprising: memory, and processing circuitry coupled to the memory, wherein the control system is configured to: responsive to the occurrence of a condition for the transmission system to exit a sleep state in which certain transmission components of the transmission system are de-activated, trigger the transmission system to transition from the sleep state to an active state in which the certain transmission components are activated and comply with certain component performance requirements, the certain transmission components including an oscillator, the certain component performance requirements including a frequency error requirement of the oscillator; control the transmission system to transmit, during at least a fraction of a transition period over which the transmission system transitions from the sleep state to the active state, in compliance with relaxed component performance requirements that arc reduced with respect to the certain component performance requirements, the relaxed component performance requirements including a relaxed frequency error requirement that permits the oscillator to have larger frequency error than the frequency error requirement, the control system configured to control the transmission by performing a process that includes controlling the transmission system to transmit, during at least a fraction of the transition period, with a reduced capability that is reduced compared to a corresponding capability with which the transmission system is capable of transmitting in the active state and the reduced capability comprising one or more of a reduced maximum modulation order, a reduced maximum channel coding rate, a reduced maximum number of transmission streams, a reduced maximum number of component carriers, or a reduced maximum number of served users; and signal that the transmission system is: transmitting or will transmit during the transition period over which the transmission system transitions from the sleep state to the active state, transmitting or will transmit in compliance with relaxed component performance requirements, and transmitting or will transmit with a reduced transmission rate that is reduced compared to a transmission rate with which the transmission system is capable of transmitting in the active state. 11. The control system of claim 10 , wherein the control system is configured to control the transmission by performing a process that includes controlling the transmission system to transmit, during at least a fraction of the transition period, up to a reduced maximum transmission rate that is reduced compared to a maximum transmission rate up to which the transmission system is capable of transmitting in the active state. 12. The control system of claim 10 , wherein the certain transmission components include one or more analog transmission components. 13. A computer program product comprising a non-transitory computer readable medium storing a computer program comprising instructions which, when executed by at least one processor of a control system, causes the control system to: responsive to the occurrence of a condition for the transmission system to exit a sleep state in which certain transmission components of the transmission system are de-activated, trigger the transmission system to transition from the sleep state to an active state in which the certain transmission components are activated and comply with certain component performance requirements, the certain transmission com